##gff-version 3
sequence01	MetaGeneAnnotator	CDS	448	1515	.	+	0	ID=MGA_2;product=mRNA surveillance protein Pelota;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878340.1;translation=MLISRLRKKPGIAVVTPESTEDLWILRRILKNGDVITSQTKRVIKNQKEFTRPDKGERINVKLSIELENISIDQILERIRISGKITETTDDSISKGSYHSLSITLGNSIVISKKIFEDFQIGLLKKTSKKSDRYIIITIDRRQAGIGLVTGTHLRVFPDILSGLAGKMYKTKATYDTFFDELIKNITNIDSNNTKIIVTGPTEVKRAFINYVEEKSQKIRKKITIIDGVDLAGQEGIYMALKHPAIKEFMKNSELSSATEATEDAIHKISKNDKKAYYSFNDVKKVAGMGAIEKVMISSKVFELTNEEAVILLLDEIEKFDGQIYLLDSSTEVGKQIDLVGGIIALLRYPVYDVD;locus_tag=LOCUS_0010;note=WP_010878340.1 mRNA surveillance protein Pelota (Archaeoglobus fulgidus DSM 4304) [pid:28.1%25%2C q_cov:97.5%25%2C s_cov:97.4%25%2C Eval:8.8e-31],MGA_2
sequence01	MetaGeneAnnotator	CDS	1500	1811	.	-	0	ID=MGA_3;product=divalent ion tolerance protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000388230.1;translation=MKCSILISTFSTMEEAKEISYNAINEKFAACANILPVNSIYSWKNSIESSNEFLVIFKTTNSNISKLRDYISARHKYDVPEIIDFELDNVNDSYFKWLIQSTS;locus_tag=LOCUS_0020;gene=cutA;note=WP_000388230.1 divalent ion tolerance protein (Leptospira interrogans serovar Lai str. 56601) [pid:32.3%25%2C q_cov:95.1%25%2C s_cov:93.4%25%2C Eval:8.2e-11],MGA_3
sequence01	MetaGeneAnnotator	CDS	1816	2409	.	-	0	ID=MGA_4;product=UPF0056 inner membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MD08;translation=MTSFLDINFIIFLQSLITLLAILDPVGNIPVFSSLTDKLSKKERIATVNKSAIIATFILLGFGFFGEYLLILLGITMNDLKLIGGLVLLIFSIDYVLGRNTNYLQKNSETNLAVFPLAIPILAGPGSISFVLVMSGLFLKLLVITLSIFICWLSIRVGSGLLKFLGKDGSQAISRIMGLLIGAVAIRLIREGIFELI;locus_tag=LOCUS_0030;note=C3MD08 UPF0056 inner membrane protein (Sinorhizobium fredii NGR234) [pid:32.8%25%2C q_cov:94.4%25%2C s_cov:96.2%25%2C Eval:3.0e-27],MGA_4
sequence01	MetaGeneAnnotator	CDS	2602	3405	.	+	0	ID=MGA_5;product=tRNA lysidine(34) synthetase TilS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250772.1;translation=MLKYGEKIAIGVSGGKDSLALLDILVKMQRENEYELVAITIDEGIKDYRDEAVELAIKACSKYNVKHVNMSFRELFGFTLDNVLENRENTKITSCSICGPLRRRGIELAAKKIGVNTIATGHNLDDMLQTFMINLLSGDVYRIKQSKPYSVPKEGFKFKKIKPFMEIYENEIAFYSFQNELPFQSIDCPHMNENIRNELRDIVNNLENNHPGIKFNLMKSIEDITENIELEPKKLVTCLMCGNSASSNPCSVCKTINLSEKLTKSNT;locus_tag=LOCUS_0040;note=WP_011250772.1 tRNA lysidine(34) synthetase TilS (Thermococcus kodakarensis KOD1) [pid:37.4%25%2C q_cov:95.1%25%2C s_cov:81.1%25%2C Eval:1.8e-48],MGA_5
sequence01	MetaGeneAnnotator	CDS	3489	4172	.	+	0	ID=MGA_6;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867429.1;translation=MSYENQEIGELLDLLGNDTRRRILESLADEPKYFIQLSKEIGVSQQAVLKHLFLLENFGLIESFKAKSNLAAPDRKYFQLNRSVYLSIGITGNSMEIKMENIKGPNKSKVKNNIAIENKRKYFQSDKEITNILKNTKHKLENIEKRMQELEGEKMDLLKEKQQILQIAHQVIRESLEEDLARRILYSNLNSRDITDIEELSEILNTREKEIKIIVKRLEDRFSVDLI;locus_tag=LOCUS_0050;note=WP_010867429.1 transcriptional regulator (Pyrococcus abyssi GE5) [pid:35.1%25%2C q_cov:76.7%25%2C s_cov:83.6%25%2C Eval:2.1e-17],MGA_6
sequence01	MetaGeneAnnotator	CDS	4174	4638	.	-	0	ID=MGA_7;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878836.1;translation=MPLSKKYAPGAPDVRIARFQTGARNSDYEVKIQLVAKEKCQIRDNALEAARVGANKKMNKVIPETNYQLSVKLYPHTIISENKMIAAAGADRLQEGMRRAYGKPVGHAARVNIGSIIYEIRTYEKHIPEAKRALKTASSKLPGYTSIVVSPIDQ;locus_tag=LOCUS_0060;note=WP_010878836.1 50S ribosomal protein L16 (Archaeoglobus fulgidus DSM 4304) [pid:47.9%25%2C q_cov:93.5%25%2C s_cov:82.8%25%2C Eval:3.9e-32],MGA_7
sequence01	MetaGeneAnnotator	CDS	4733	5899	.	+	0	ID=MGA_8;product=DNA methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011248963.1;translation=MERFLVILVNGLLSQAELMIILSKSMIEFKIIENNETFVILEVEDESKLLELGGIYKVGKIICINESFEKMFEEIEQDGTLINLDDKQQWNISYYSDEKINTDLYDEIQNNLAGLIKKNSTKTKFIRNNMKSDYFIELSVDKEKKNAMNILLGNTNNRFYIAENKKSIKSSKFIKRDLNRPYQDSKISLSPRTARILVNMLGLENGKTILDPFCGTGTFLIEAIIQGYKVAGVDNRKECVFGTKKNLFWIMKEYNLKNRIRYVEQDNAEKLSCVETSTIDGIVTEPILLPNFKNIPNYELAEDVLKQSKKIYEKSLKTMYRVLKKNGNISIVTPRIKTRNNNFITFSFRKMIKNAGFVIDKRLNEQPFIMKASGDQKVLREIWLLKKN;locus_tag=LOCUS_0070;note=WP_011248963.1 DNA methylase (Thermococcus kodakarensis KOD1) [pid:27.7%25%2C q_cov:95.6%25%2C s_cov:97.0%25%2C Eval:2.0e-23],MGA_8
sequence01	MetaGeneAnnotator	CDS	5896	6597	.	-	0	ID=MGA_9;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020727.1;translation=MTNYDEEISICLIEPQYPINLGYIARIMKNFGFHNLLVVNSKVNIEEARPFASHAVDLLENIKHINFDDLNNFDTLIATTAITSQRGLSPRQSLPVSNIQSSIKNMGKKICIIFGRDTTGLTNSEMQLIDFIIHIPTNPDYPTLNISHALSIVLYELTNYELIERDIAKKHEVNRTVEAYSDIVKTLGLPSHKNNLVQTSFFNILKRSKPSPRENSILLGLAQKIKLHLEKKF;locus_tag=LOCUS_0080;note=WP_011020727.1 RNA methyltransferase (Methanosarcina acetivorans C2A) [pid:34.2%25%2C q_cov:93.6%25%2C s_cov:87.1%25%2C Eval:4.3e-29],MGA_9
sequence01	MetaGeneAnnotator	CDS	6638	7180	.	-	0	ID=MGA_10;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870442.1;translation=MTIYKPSEDSDLLLKAIDNFKNQIVLEIGIGSGIIFESLYTNNNYVVGVDINPESLSSVTSSLQNIIFSNNLNLILGDGPSMFAPETFDLIVFNPPYLPHDDYTDLTTDGGNNGLEITNTWIQLSLTLIKKSGKILFLQSTLTPIHEYLDFLSKSTKVNIISKKKLFFEELYIIEVMHNE;locus_tag=LOCUS_0090;note=WP_010870442.1 methyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:36.3%25%2C q_cov:95.6%25%2C s_cov:89.8%25%2C Eval:1.6e-18],MGA_10
sequence01	MetaGeneAnnotator	CDS	7177	7926	.	-	0	ID=MGA_11;product=ribosomal RNA small subunit methyltransferase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5HXX8;translation=MKSNNRYGQNFLINDDTVKKFIEQAKITSLDSVYEIGTGNGILTKSLCKQAKYVVSSEIDPYLYNLSLNKFSEYNNLEILNIDGLTYTGKFDIFVSSLPYSESERFIYWLINQQFKHAVVILQKEFTDKLLSITNLGSYRSISVITQYCFDIDPIEILPPSNFQPRPKVSSTLAIIKPKNILNKNEILMIKKLFSFRRKQLGSILNILNSSEGLLSYYSDNMDLSKRIYEFSPDIIVSLVRHLISDSRS;locus_tag=LOCUS_0100;gene=rsmA;EC_number=2.1.1.182;note=A5HXX8 ribosomal RNA small subunit methyltransferase A (Clostridium botulinum A str. ATCC 3502) [pid:32.2%25%2C q_cov:83.5%25%2C s_cov:80.2%25%2C Eval:8.7e-23],MGA_11
sequence01	MetaGeneAnnotator	CDS	7941	8501	.	-	0	ID=MGA_12;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249851.1;translation=MPQTHNKKYEEFAYVLDYRTNSRSSIIKGRDGTIIQAIGMERLTLLELLGNEDETFSITEKLSIGKEGRSKILSVLGKLSYDKLTTESVTSVSDILELIVNDNESYYINYFNNAHAVTPRLHSLEMIPGIGKTFLSQILKEREKSPFTSFSDISERINLKEPELLIAKRLMEEISGNAKLNLFVRN;locus_tag=LOCUS_0110;note=WP_011249851.1 DNA-binding protein (Thermococcus kodakarensis KOD1) [pid:39.9%25%2C q_cov:96.8%25%2C s_cov:87.9%25%2C Eval:2.7e-32],MGA_12
sequence01	MetaGeneAnnotator	CDS	8647	8973	.	-	0	ID=MGA_13;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNTTIISIAQVKDILSKLDLDDADQIQKRTFDYVKNFPDCDYKKIDKAAKELASSDYVTLEQAYEILNVNPQTIPELRVFTSAWKKLIPTEELEKILSVTQDAYA;locus_tag=LOCUS_0120;note=MGA_13
sequence01	MetaGeneAnnotator	CDS	8979	9260	.	-	0	ID=MGA_14;product=50S ribosomal protein L21e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762332.1;translation=MRHAGFRRKSRSVLSHKRPSGLSYLMINYQPEDRVIININPAQVKGMPHRRFQGYVGIVKTVNRRSIELDVQVGNKTKKLITRFEHIKLQKGA;locus_tag=LOCUS_0130;note=WP_011762332.1 50S ribosomal protein L21e (Pyrobaculum islandicum DSM 4184) [pid:42.7%25%2C q_cov:97.8%25%2C s_cov:95.0%25%2C Eval:1.3e-13],MGA_14
sequence01	MetaGeneAnnotator	CDS	9281	9952	.	-	0	ID=MGA_15;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAINSRACLAEFIGTFALVFFGSLAIAYANGALLQIAFAHGLVIAVMVYSFGHVSGAHLNPAVTIPMIYRKKIDTQNGIAYIFSQLAAGVVAAIAHSLILPSSITSNNLGSNLPGAGISDATVLIVEIILTFFLVLVIFNTAVNKKAPAGWHGFAIGMIITIDILAGGPITGASMNPARSFGPAIISYLYGVSGALQSHHLYWIAPIIGGLIASATAKIINED;locus_tag=LOCUS_0140;note=WP_011140007.1 aquaporin (Gloeobacter violaceus PCC 7421) [pid:44.1%25%2C q_cov:93.3%25%2C s_cov:74.9%25%2C Eval:5.0e-40%2C partial hit],MGA_15
sequence01	MetaGeneAnnotator	CDS	9964	10458	.	-	0	ID=MGA_16;product=superoxide dismutase%2C Ni;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011125519.1;translation=MNMSAMKSKFLDIVYSRKYAFAHCDIPCGIYDPHTAQLDALTVVRMNQLIADLGNDAESQNKLGRYMSVKETHAESCKNELRIIWADYFKPEHLEKYPDLHDLFWQAMKNASKTRQQVSLDAAEELLESVRKIAEIFWATKGSETKRQAFPSPAGGEIVYPVSN;locus_tag=LOCUS_0150;note=WP_011125519.1 superoxide dismutase%2C Ni (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:43.5%25%2C q_cov:75.0%25%2C s_cov:83.4%25%2C Eval:1.3e-26],MGA_16
sequence01	MetaGeneAnnotator	CDS	10637	10990	.	+	0	ID=MGA_17;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEPIIKEGERVFITKTYYKWNKIKRNDIIGLYNNQKIEIKRIIGIPNDQLTINQSSITLNGKKIINVDNIQYKIQDKKIRLKNEEYFVVGENYNKSVDSRNYGPITKNQIIGKVMSR;locus_tag=LOCUS_0160;note=WP_000711896.1 signal peptidase I (Staphylococcus aureus subsp. aureus N315) [pid:29.7%25%2C q_cov:100.0%25%2C s_cov:71.7%25%2C Eval:6.3e-11%2C partial hit],MGA_17
sequence01	MetaGeneAnnotator	CDS	10993	11808	.	+	0	ID=MGA_18;product=2%2C5-diketo-D-gluconic acid reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001060166.1;translation=MEINLIHAKNTSNKYTIKIPSLGLGVWGIPKNKTEKIVTKAINNGYKHIDTAQIYGNEREVGKAIKDKKGIFITTKVWENNFGYEKTIKSCEESLSKLNKIDLLLMHSPHGPEIRKETWEAMQYLLKNRYVKAIGVSNFGIHHIKEILSWAEIGPCINQIELSPFLQRRELVNFCRKNDIATTAYSPLTHGIRIKDKQLIEIGKVYRKSSVQILIKWSLQKENIVIPKSTNNERIKENIDVFDFTIEQKHMEILDGLEEEFITCWDPTVDP;locus_tag=LOCUS_0170;gene=ara1;note=WP_001060166.1 2%2C5-diketo-D-gluconic acid reductase (Leptospira interrogans serovar Lai str. 56601) [pid:44.8%25%2C q_cov:93.0%25%2C s_cov:92.8%25%2C Eval:8.7e-59],MGA_18
sequence01	Aragorn:1.2.38	tRNA	11867	11953	.	+	.	ID=Aragorn_1;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0010;note=Aragorn_1
sequence01	MetaGeneAnnotator	CDS	12016	13269	.	+	0	ID=MGA_19;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978901.1;translation=MKIGDIVGYSTRAIKERYLRSGLTILMVLLGAMLLTGLNGLGEGFNYNIQKEFEALAPDVITLTPSPIVSGPGDDPDEPDPAPPVELNLQTLKSVERLDGVEEAIPSFRSGLQIEYNGKSQTTSFIGINPQKLIFVLPGMEFIAGDNTDPSDATGILLGFTVAYPGGLDAEPFAEVGNLVCAKTGKQEIVGGVEQVVIEKKCFVVRGILDETGTVFYDQSISVPLASANNFLDKKNIYDQIFVVVNPEIGNDVVTEQIREVYGEGIGITTPAQIQETIQGFVGSFNIFLSSIGFISLIVGGVGIITTLYTSVTERTKELGTLKALGATNSNIVLLILFEAVVIGVVGASAGLTAGYGLGWVLTQYGFGAQFGDLVPIFLVPALVNVWLTAVILSILAGSYPAWRASKMTPMAALRRD;locus_tag=LOCUS_0180;note=WP_010978901.1 permease (Sulfolobus tokodaii str. 7) [pid:25.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-25],MGA_19
sequence01	MetaGeneAnnotator	CDS	13266	15287	.	-	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLIVFALVFTVILLLIPLASPAFGQMGPIVSRPIQTWQADWYTIEITQINQSMEILFSHPQQVDDMGLLLYENDISEIYDPESDFQPVASGRNYWYSNSIVVSFSNVPPGIYTISVMAFDVLSAAQTSYNIESNIPLNYLGTTHFMDLSIEGLDESYPATVTWDFLGNSYTEETSDVWFMWADDSSTFELEETVFIDSSERFHAITETQWTVVQYAVYEVKYFRQFHSNINIFGLDSPFDFSFTSGGKVTQTEIQDSWSGWVDEGRSLVLPRVLETSPTERYITNDNVVLKVDQPIDHLVDYTHQWLISLSQNTNTNVPITFTSFGNLENHNINDKLNLWIDDDSDIFIPSIISSKPLHRWILDSNSIPVNSPSPIEINYKEQVKPTIITHGLSPQYPTTITYTSQGQTFTVTSSSIWSNWIDSVTSINIEQQIMGQSGEKWTSKDTIINPVDDPTVFEINYIHELLISLLFTDASQNTILNDLPSNIEIINPDGTVSSLTSYSNLWLSDGIYTIKNIDYQGLSFSPVSSRNFNTEAGKSWIVPLSLYDLTFNVEDQIGFSVSNADVLLTMPNGLKALKQTDDNGKVNFNLIPGGEYNLQVSNFGLSKVYSGNVLDDSSSDETLKVLISSTTILIVLLLIILISVAFVSKSPTLNKAAKKNYKNLKKSLKN;locus_tag=LOCUS_0190;note=MGA_20
sequence01	MetaGeneAnnotator	CDS	15348	17147	.	-	0	ID=MGA_21;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005478061.1;translation=MTSKQNKSKNPSLVVKNLNVNYKITKGNVKAVNNVSFQIKPGEALGIVGESGCGKTTIALSLIRLLPNNISKFNGTIQLNGKKLNTISDEKFRKTIKWKEISMVFQGAMNSLNPVLRIGDQVIEPLVNSGEKKSIAKETALKLLDLVGLSEDIYSKYPHELSGGMKQRVIIAMSMVHNPGLIILDEPTSALDVSVQAQIMNLLKSLKTRGISMIFITHDIALTSDLCDNIAVMKDGKFIEHGSIDHVINNPKHNFTKQLIQSVPSLSSRLQNKKLSSTNKEILDLKNIQVDFIIRKGLLSSEPFTAVSGVSLKLNYGETLALVGESGSGKTTLGRVALNLIKPVHGKIKFQGSIINENTDDFLFRKQAQAIFQDPYSSINSFMTIYQILEEPLIIHKIDKNLHYEKISKVLNDVNLTPPENYLNKYPHMLSGGQRQRIGIARALILDSKFIVADEPVSMIDASSRLEILGLLNSLQKTKNLSFLYITHDIATARQFSDRIAVMFFGRIVELGKSNDIVNHPLHPYTRSLIEAIPNLNPKNLFKIRKVIPRDNFHPQCTYYDKKSNSVIDYHINQISHRCRQKHPKLNKIKKNHYVACNL;locus_tag=LOCUS_0200;note=WP_005478061.1 ABC transporter ATP-binding protein (Vibrio parahaemolyticus RIMD 2210633) [pid:42.2%25%2C q_cov:87.6%25%2C s_cov:97.2%25%2C Eval:1.4e-112],MGA_21
sequence01	MetaGeneAnnotator	CDS	17153	18580	.	-	0	ID=MGA_22;product=peptide ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240320.1;translation=MSNNSRENLKEFFSSTSGKLGSIMLVIFILISIFVVFTYPLNFGNTVWSNPAYWSDYPKSAPPTWTSIFGNDNVEHQIIDFTSPVDTVFTSNQQERLYTHRFTYDSNLSPTFLSLSMYDVIYHDRPPTITLSILRPDNQEILIYREIISPPRPNEEGPFVRYSDSPFRINLSGDKSVSSNLIKFAQDKSDAEISVNDIIGSNEKIIFSNFDSIESEQILSGEYTIIIKFVTNNENDSISKIRFVLGGSSYGLLGTDSLGRNLSVGLLFGFPIALLIGLTTSTITTMIGTTMGIISGYTGGRTDTIIQRFSDTLSNIPLLPILLFLIFIFGPQLWLVMTILVLFGWPGLAIIVRSMVLQINSSQSIEAAKSLGASKWRIMYRHIFPQLAPFIFAQLVFFTPAAILAEASLSFLGLGDPSIPTWGQILENGFRTGGVYIGYWWWIMPPGLLIVITAMIFVFIALALEPVVNPKLKKM;locus_tag=LOCUS_0210;note=WP_053240320.1 peptide ABC transporter permease (Pyrobaculum islandicum DSM 4184) [pid:41.1%25%2C q_cov:97.9%25%2C s_cov:99.4%25%2C Eval:2.5e-98],MGA_22
sequence01	MetaGeneAnnotator	CDS	18577	19626	.	-	0	ID=MGA_23;product=peptide ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762663.1;translation=MSLLQTLIFRGLSLLVVLITVLFLAVIVLGATGYSDRLLTATVSEELRGLRQSLSQNIRDPSELERVIEDRREQLIEFYGLDRPWYYRLPDMLFRILTLDLGEARTLRSFTGSNSVSDIVLERLPNTILLITSATIITSIIGLYVGVKIATQVGSRLERSVSYFSAISYALPAWWLGIIFIILFAFQLRILPSSGMYSVPPPTETIPRFLDKLVHAILPIFTLVIVSVGSWSYAVRTMVLNISQEDFVNVARAKGLPENLVMRRHIVRVAAPPIVTSLIFGLTGSLGGAILTETVFGWPGMGRLYYEAILAADESVIVALTFMFTLLYVTARFILEILYVVLDPRVRYK;locus_tag=LOCUS_0220;note=WP_011762663.1 peptide ABC transporter permease (Pyrobaculum islandicum DSM 4184) [pid:48.3%25%2C q_cov:99.1%25%2C s_cov:98.9%25%2C Eval:5.5e-94],MGA_23
sequence01	MetaGeneAnnotator	CDS	19650	22382	.	-	0	ID=MGA_24;product=peptide-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762664.1;translation=MIINSYTKFITILLSILLLISVVPTIVYSQSNYQPPHDKPGPAADILRFRSFHVDIAPKEILANQMDMYYFGLKVAAAKDIRGSPGIKVHEAPTSTISLLLNPAPGPEGQLNPFSIKEVRQAIQLIVNRDFVVQEIYQGMAVPMLTQVSSYDHDYLTLYDMILESSINYDPDYAKLIVNDAMTNAGAELIEGKWNYEGKPIRIDFIIRVEDERRDVGDLIRSEVESLGFIVQPTYQQFGPAIYTVYSSDPNLVGTGGSWHMYTEGWGKGAADRYDSGTLNQMCSPWLGNMPGWQELGFWQYENEDLDMLGQKIFSGDFQNEEERNSIYADASKLCLDESVRIWIANIVTNLPANDSIEGISSDIIAGPKSLWTQRDAYIPGKTDLTIGNVWVWTERTTWNPVGGFGDVYGTDIWRNMYDPPITRHPFTGLPLSYRANYDVTTSGPNGNIDLPSDSFMWNSETNSWSSVPSGSTATSKVVFDYSKYFDSKWHHGEEINMADVIYSIYQTFDLTYNEDKASMEFAIATVSKPYLDSFKGFRIVDDNKLEVYVDFWHFAPDYIADYASITSITMPWEVLYSMDTLVFDQRKAAYSDTAAQRFNVPWISLVMDRDARLVRNVIRDHNSANNVPDNVFNVQGLQLVSNSEATSRYNSALSWFNEHGMLVISNGPFMLKIYDPPAQYAELAAFRDETYPFKPGQFFFGEANLVDIIDVDSNVIEIGSNNEITVTLAGEGNLDLRFALKDEITNEILSKGTASKDNNKFIITFDSSITSTLQLGLYKLYLVGYSDSLSSINERIIILEAVTDKPVSVEPSGDSPVIEEQPKSEMSNNESISINNSDESESSSNLFIPIVVALLIIVLGIGFTRNQKSRSTKPAAKKPAAKKPAAKKPAAKKSTKKSTTNTKRKTNKT;locus_tag=LOCUS_0230;note=WP_011762664.1 peptide-binding protein (Pyrobaculum islandicum DSM 4184) [pid:36.5%25%2C q_cov:88.7%25%2C s_cov:93.8%25%2C Eval:2.0e-166],MGA_24
sequence02	MetaGeneAnnotator	CDS	54	383	.	+	0	ID=MGA_26;product=phosphoribosyl-AMP cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879442.1;translation=MTKFSIDDVNFEKSQGLVPVIVQDSKSKDILMLAYANRLAIEETVRTGYGHYWSRSRNKLWKKGEESGNVQKVLEIRIDCDEDTLIYLVEQSGNACHKNTKTCFQRDLI;locus_tag=LOCUS_0240;note=WP_010879442.1 phosphoribosyl-AMP cyclohydrolase (Archaeoglobus fulgidus DSM 4304) [pid:67.0%25%2C q_cov:86.2%25%2C s_cov:87.0%25%2C Eval:5.9e-33],MGA_26
sequence02	MetaGeneAnnotator	CDS	384	1058	.	-	0	ID=MGA_27;product=uridylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979322.1;translation=MKTVVIKLSGSLFSFDKDYSQVKKITKTLDEISRNGYKVVAIAGGGTAARTMQNAARNFHADEAFLDQLGIDVSRIHAKILTTCTTNSCQDVPKTLDEVVRCLTSSKIVFTGGLSPGQSTNATAALIAERTKAKLFINATDVDGVFTSDPRKNKNAKLIKSITTKNLLGKVVDDKMSAGTYDLMDLLSLKIIERSKISTVVIKCDSRQIKSVISGKSVGTKITS;locus_tag=LOCUS_0250;note=WP_010979322.1 uridylate kinase (Sulfolobus tokodaii str. 7) [pid:39.5%25%2C q_cov:97.8%25%2C s_cov:97.8%25%2C Eval:1.3e-35],MGA_27
sequence02	MetaGeneAnnotator	CDS	1161	2411	.	+	0	ID=MGA_28;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250190.1;translation=MPSNIDSVALYKTRKILRELSTKTGKGTELISLYIPPKKALHEVLNNLREEYGTATNIKSDSTRNHVQDALTKTQQRLKLFKRTPDNGIVLFVGSLMTNGPGSEQVFVNEIIPPRPVQTYLYRCDDHFHLEHLMDMIKEVDLIGVISIDSTEAGFGILTGAKLVVDEVITSGVGGKTRAGGQSARRYERLREMNLSGYYNRVAEHAKKTFLEQNIIKGLIISGPGPTKESFLKSGYLDYRLKEKILTEIDGAYSGAEGVREAIDKSSEVLKDMRVVEEKKLIQRFLSEIHKEKSLAAYGIKEVMDATTKGAVEIIIASEDLNMLDIALKCNRCSTVSNKILNRTTYVQEKQQLLSESCKSCNASDFSVTETDLIEILEDSASESGTRIEVLGSGSEEGRMLMSFGGLGAILRYRIQ;locus_tag=LOCUS_0260;note=WP_011250190.1 peptide chain release factor 1 (Thermococcus kodakarensis KOD1) [pid:42.0%25%2C q_cov:98.6%25%2C s_cov:99.0%25%2C Eval:1.6e-90],MGA_28
sequence02	MetaGeneAnnotator	CDS	2428	4749	.	+	0	ID=MGA_29;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762768.1;translation=MEPKIKENRWNVEIEKSIAELWNNESLYEFDINDKREVFTIDTPPPYPSGRPWHIGAAAHYSQIDMIARTARMMNYNVLFPIGIDRNGLPVEIYTEKKFKVSMISTPREEFTGLCKIALDDLEAEMISTMKLMGLSGLFSEYYRTDSDEYRALTQSTFIELWNKDKIYQSSRPNNYCSKCRTTIADAEIFYQELPSKLVYLKFYIKEEEDYVIIATTRPELLSSCQVILVNPEDNRFESLVNKEVKVPVFENYVKIIQHPSAKMEFGSGAVMICSYGDYTDVLLFRELKLQEKISIDTAGRMTENAGKYQGLKVNVARDKIIKDLQEMDLVERIEDIKHRTPCCERSKNPMEIIPMEEYYVKQIEYKEELLDIARTLNFHPEEHRRRLIDWIEAISLDWPISRRRYNATEVPVWYCKSCNEANLPKPGKYVRPWKENPPFDSCKKCGKNEFVGDERTFDTWMDSSISPLFITKYNKDQEFFKKTYPTSLRPQSKDIIRTWLHYTILRCNQLTNKAPFSHAWIMGYGVDERGEKMSKSKGNAIDPIPILEKNGADMFRLWAASEVNLGSDFRVSEVKITGVGKFLSKLWNTARFISNFPVVEEEPLETDKWILDELSKVIKESLEGYQDYNFFIPANRVREFIWNIFAPHYIELVKQRSYGIDFDEKSMRAAWSTLHICMKNLLLLLAPITPFITDKIWRELYSKESIHKEIFPEPDKNYQLSEFTTNIIEFNSLVWNKKKEQGLSLKNEITMEIPENLTIFEADLRSMHKLQE;locus_tag=LOCUS_0270;note=WP_011762768.1 valine--tRNA ligase (Pyrobaculum islandicum DSM 4184) [pid:43.0%25%2C q_cov:99.0%25%2C s_cov:96.7%25%2C Eval:8.4e-182],MGA_29
sequence02	MetaGeneAnnotator	CDS	4738	6741	.	-	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKISAIFIIILLILNPVFLPQISSNSNVTGNGIIIAIIDTGIDYNHPDLGGGFGEGKTVIGGYDFIDNDSDPMDELGHGTHIAGIVLNIAPNSKLLAYRVVDYNGLVKSSDVIQAMNLAISDGADIINLSLGSMSESNELRKSIKQITDSGIIVITAVGNSGPVFASIGDPAKYEDVISVGSQYTNDVNSTLAIINIDSLEEELIGLPMIDSVPLTNSLNAELTFVNYARNKDLVGIDLTGKIAIAKRRGAEPSEVVYFSQKESNVANQGAIGLIIINTMPGIIKGRLLHPGMAIDYKPSIPTMLITQEDGEKLLEYIEKSNDPVTLSFRNASLTNFVSLFSSRGPVSSFYTKPDLVSFGEQVNSTWLNNSYRFQNGTSFSAPHVTGTVALLLELHGDLNKDQILGILGPSATPLTNSYSLYLPSNLQGSGSLNINHALESPISIHQPQLSFNLANQQSNNVQLLTLESLVSDSLEISIDNNLQNNDIEIILNSSTFVLNGKESIVIELNNNLLQSIEKSYVDEFRLLIKTNYSNNIFTVPISTYFNTISLDIENTSESHIVRLLGIEKYDQGMLRIYNTDNAEVTEQIFSFNEEIILRLSPGTYWITAIVSSDDNFEFGGIEYIVNSNTNLSNIDSNSAPSIWFYPLVPILAILILIYYIRKLFL;locus_tag=LOCUS_0280;note=WP_000754194.1 peptidase S8 ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:31.9%25%2C q_cov:72.4%25%2C s_cov:52.3%25%2C Eval:6.6e-55%2C partial hit],MGA_30
sequence02	MetaGeneAnnotator	CDS	6839	8938	.	+	0	ID=MGA_31;product=DNA topoisomerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868544.1;translation=MNNSELKKAIGVEKYSLVICEKSEAAKKISEALSDNKFKTIKIFNTNVFLVTFKKRNYLICSAIGHLYTLSLLKKRQKLPVYDYAWIPISQSVKNRSRIVNARIKVIKKLSENASEFILACDLDQEGETIGYNILKYACDEKQNIAKRVKFSTLMKDDIKNAFVNIQDSINVNIAYAGLTRHTIDFLYGMNISRALSRAFMTSSKKYRTLSIGRVQGPTIAYIVENELAKDSHVPLPFWSINTYIDSEKNHNGKWIKIQYIEQKILQHKVAKKILEECKGKKVIVNKIEKSKFKINPPFPFNLSGLQKEAFRLYKLSPYQTLNIAEKLYLNALISYPRTNSQRLPYNLDCRRIIMDLSNLSEFRDVANKLLKKQNVNPTQGKELDNAHPSIYPTGKTSINNLSDVEKKVFKLIVKRFLDLFGESLMGQKIEIFFKIAKYDFYTVFKRMPNQDLNKSVEKEEIIELSIGDKLGIKRMNISENFEEPVKSYNQMTLVQKMEKEEIGTKSTRANIIRTIIDRMYVNGNMLIPTDLAKALVSTLNEYSPEILSSKMTKKMEKSLREIEQNKITSEQVIENTKKDLNLVIKSIQENNKDIGKILSVASNKLDNKTINNKPLGKCTICLEGDLIITSNLKNRALICSKSIKNKCEMKSSLPKFGYIRIQKKGCVKCSWPKIRTSYKGKPWNFCSNPQCYNEKRKK;locus_tag=LOCUS_0290;note=WP_010868544.1 DNA topoisomerase I (Pyrococcus abyssi GE5) [pid:35.8%25%2C q_cov:96.7%25%2C s_cov:99.3%25%2C Eval:4.3e-113],MGA_31
sequence02	MetaGeneAnnotator	CDS	8935	9180	.	+	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKICRLCENLIENDDKFCKYHKNAKENLNSGYEIWKKRVEYIEREEYLKTLLEISTTGTLVKQVIMDELGKEKKNGNKTKD;locus_tag=LOCUS_0300;note=MGA_32
sequence02	MetaGeneAnnotator	CDS	9158	9586	.	+	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIKQKIDSLTNNLWLKFSRISIVRTTLKTLSVVFQTRALKVTYLALFVLFTTGIVNSLVEGPSYAARGTPIIVGFQAQTLAETIIFSSAILCGTVGFIFITRATKQVAKGRTTAAYILSGLGLSFIGLIIGFFLVTLKGGG;locus_tag=LOCUS_0310;note=MGA_33
sequence02	MetaGeneAnnotator	CDS	9583	10209	.	-	0	ID=MGA_34;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPINRDNQHFPTINNTQFLNLFNAQVSTIYMENSNSRKKVIPLFLPSTSNSELLIYLDFDAWFRSYLSISQDNSRILLYKPNHTNLEDSLISILSWTNPKFQFLIVDSIPSFYQLLSKKDPNHASELLFYYLSSLKNFVHTANAKMILLNFSLYKTFSKSNNKFTSMKVLNKISDNIIYINSINNTTNLHIYNNNLTIEKSVKLKN;locus_tag=LOCUS_0320;note=MGA_34
sequence02	MetaGeneAnnotator	CDS	10269	10907	.	+	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METIEQTRRTNVKIAIITLDSKAYYKITKILKEHNFSFLSLTPNEKIPEFINLVITTELEKHLATKINYITLEELSRVKIQRYIILSKLGDLTCKNITIGIDPGHRTGLIIYNDDREIYTNVCRSINQIKKIIKEILEYFTHSEITIKIGKGDKHNSNYIAKTIKNIANEEIRIEIVDEFGTSNQKTKPNKRVSRDIRAAKIIAYRQGKVYR;locus_tag=LOCUS_0330;note=MGA_35
sequence02	MetaGeneAnnotator	CDS	11093	11764	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESINPENMKRLEDMAEQIGISKLILMENAGSRLAKIIKKRYLDNKSKKIMIICGSGNNGGDGLVCARHLLGFSDEITVCLLNTNGKLKTYEIETNWKIINNIKQIKKIEFFQNKRFVDDFGQEINRCDIIIDALFGTGLHGNLKNHFEYVINQINKSNKSIISVDVPSGLNPSDGSFIDNVVKSELTVTFHKVKSGLLGKNDITGEIVIADIGIPPELENNL;locus_tag=LOCUS_0340;note=WP_010878354.1 bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase (Archaeoglobus fulgidus DSM 4304) [pid:39.9%25%2C q_cov:99.1%25%2C s_cov:43.3%25%2C Eval:2.8e-35%2C partial hit],MGA_36
sequence02	MetaGeneAnnotator	CDS	11812	12450	.	+	0	ID=MGA_37;product=MBL fold hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946517.1;translation=MEFMQIIVGNMKNFTYIVGDSKTRNGFIIDPSYDIDKVITAVRKLDLNIKYIFNTHSHWDHTIGNKEAVQRTGGIICAHQSAPTNKDRGLKDKEVIKLDALTIRVMHTPGHTPDGICYLLSDKTDTKKNYLFTGDTLFVGGCGRTDLPGGKEDDLFRSFQKIMKLDDHVKICPGHDYGSRLISSIRYEKRHNGFLQFENKQEFITVMKTANR;locus_tag=LOCUS_0350;note=WP_010946517.1 MBL fold hydrolase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:32.7%25%2C q_cov:99.5%25%2C s_cov:88.1%25%2C Eval:4.7e-29],MGA_37
sequence02	MetaGeneAnnotator	CDS	12454	13185	.	-	0	ID=MGA_38;product=GTP cyclohydrolase FolE2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8DZH0;translation=MLDKSKQKKFSSTDVLPDIQNQSSSVDVSAGISNFHTLYQSEVGPLFVNFSVSVSTQHTRGVHMSRLIKSTLKHTTGRYIEDSLIKIHDEVTQTQPDCVVNVKFQYPVHDQFLDTSITLNPNKKFDYKFKLTGITSCPCSKAISGVGHMQRTILTLKLHQTELINFEEVALNLNECFSASLKEFLNRAEEANKIIDAQDNSKFVEDVVRDCLKRFPNAKYIHAQSLESIHSHDAIASWPKNSI;locus_tag=LOCUS_0360;gene=folE2;EC_number=3.5.4.16;note=B8DZH0 GTP cyclohydrolase FolE2 (Dictyoglomus turgidum DSM 6724) [pid:28.8%25%2C q_cov:93.8%25%2C s_cov:99.2%25%2C Eval:3.9e-12],MGA_38
sequence02	MetaGeneAnnotator	CDS	13258	13917	.	-	0	ID=MGA_39;product=7-cyano-7-deazaguanine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q87Y44;translation=MNPSALILLSGGIDSAVALWKMKEMKYNIYTITFDYNKRFKKETECCSKLSDISGALSHKIVNLNFLSEFEDENYSESSPLFNHKENIPPNYIPSRNLIFYSIAFWWAETIGIETIVGGHNKNDINLFPDSDKKFFQQLNTIVNNSTYGSQKILYNIIMPLSELNKQEVIKEALRLNVPLDMTWSCEKQENIPCKSCRSCILRLESFSALGIHDPLIHT;locus_tag=LOCUS_0370;gene=queC;EC_number=6.3.4.20;note=Q87Y44 7-cyano-7-deazaguanine synthase ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:34.7%25%2C q_cov:96.3%25%2C s_cov:95.1%25%2C Eval:5.0e-29],MGA_39
sequence02	MetaGeneAnnotator	CDS	13930	14382	.	-	0	ID=MGA_40;product=6-pyruvoyltetrahydropterin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011124736.1;translation=MKYYSLKKFGPITTGHRQWRDSGHCKYVHGYARYVEITFACNSLDDKQWVMNFGGLKDIKIWLNEQWDHRLLIASDDPLMSDFKKLHDNGGCNLNVMDIEQGWGPGIEASCKFVYDYVDKWIKTSTNSRVWVHKVQIWEHENNSAFIVTE;locus_tag=LOCUS_0380;note=WP_011124736.1 6-pyruvoyltetrahydropterin synthase (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:30.5%25%2C q_cov:87.3%25%2C s_cov:78.3%25%2C Eval:3.0e-15],MGA_40
sequence02	MetaGeneAnnotator	CDS	14422	15135	.	-	0	ID=MGA_41;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003975902.1;translation=MKIITLGTGNAFASNGRASTSILIDGSYKILLDCSPQAIQSLRKLNISPNQIDYIFISHLHGDHSGGLPFFLLNLKHRESGYINISGPSGLKKQIQNVYTEYFGDINITKYFKFKSLTSKYPFPLQYIKGDHSVLDYIYKIELDNTKIVYTGDTRPVNLSLFAKNADYLIHEAGELDSDKAHDSAHTTPIQAAEIAKRSNVKNLILIHRPDFNQELIDEIHSIFPNTLMPNDLDIIE;locus_tag=LOCUS_0390;note=WP_003975902.1 MBL fold metallo-hydrolase (Streptomyces coelicolor A3(2)) [pid:24.0%25%2C q_cov:92.0%25%2C s_cov:90.8%25%2C Eval:1.3e-12],MGA_41
sequence02	MetaGeneAnnotator	CDS	15154	15579	.	-	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLPAEIETKTSVPALRALVAKRLINEYNFSQKDTAKLIGVTQAAISNYLRGTRGNLTSLGDDERIQNIVAEITTMMIEKHELSDIISKFNEACSIIRGNRMLCDIHKKLEPSLDVDNCHVCELDYDEQSSSTQSFDISLK;locus_tag=LOCUS_0400;note=WP_052846519.1 transcriptional regulator (Sulfolobus tokodaii str. 7) [pid:32.0%25%2C q_cov:67.4%25%2C s_cov:74.6%25%2C Eval:1.6e-09%2C partial hit],MGA_42
sequence02	MetaGeneAnnotator	CDS	15634	16119	.	-	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065425.1;translation=MKQDDPKKCTALKLVRLGLMKKISLKQVSRNAILLNPMSDDIICRTDQKYLNSGLVVIDCSWKKGSDVFKKQFPGINKRLPLLQAGNPTNYSKLFTLSSAEALAATLYIAGKYDESELVLSKFKWGHTFFELNSKILQDYTQANTSDEIANIEKNYYQQFL;locus_tag=LOCUS_0410;note=WP_048065425.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:40.1%25%2C q_cov:95.7%25%2C s_cov:89.6%25%2C Eval:4.2e-27],MGA_43
sequence02	MetaGeneAnnotator	CDS	16217	16774	.	+	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIAIDLDGVLADASRIWMRLLNERFDISVNKTDVSQWDFWKKIGISKQEFEDVFDDAWKEWQLIEETESGLQQKIKKIKEFGKTDLVTARNKKTMDDVMRWLEMSKIVFDDIVVVDEQYLKGYLDYDIFVDDSPIQITEIANLDKVALVYDQPWNNHIIGRNNLIRVKNFSDVITVIKDSKFII;locus_tag=LOCUS_0420;note=MGA_44
sequence02	MetaGeneAnnotator	CDS	16836	17255	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNVDTTSALESFRRFLINSTCASYIPESYLYDPEVFPEKDGETGSIYIEAADKVTLKKERDITFINVRDVLGIIYKSKSGSTHLKWRQIRGRGGKVTGEASTNSLVNLITAKVIDQEYAVELANVENTNNEIEEIESN;locus_tag=LOCUS_0430;note=MGA_45
sequence02	MetaGeneAnnotator	CDS	17257	18453	.	-	0	ID=MGA_46;product=acyl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000545544.1;translation=MTKFLNPTIDDFSISLKDEHKDIQELARDFANNEISPIANKIDQEDHIPDSLIQKMSELGFLGVPYPTEYGGIGMDYLSMAIVIEELARASCAVSVIPVAHTLIAMPLTSFGTEDQKQKFLIPLAKGEKIGAHAMTEPGAGSDPAGISTKATKDGDDWIINGTKAWCTNGDIADTFLIFARTSDEQKRHLGISAFIIERETSGFTVGNPLPKTGIRGSKSVELILEDVKIPHSNILGDEGKGFYVAMDCYDHGRIEIAAQGVGIGQAAIESASKYITQRKAFGQTIMDFQGPQFMLAEATAELQASRLLTYWAASLRDQGKDYVSSAAIAKMYATEAAERASLTAIKLCGSAGVATEYPMERFLRDSQITKIYEGTNDIQRVTLGRLLHKETKNELGI;locus_tag=LOCUS_0440;EC_number=1.3.8.1;note=WP_000545544.1 acyl-CoA dehydrogenase (Bacillus cereus ATCC 14579) [pid:46.8%25%2C q_cov:94.2%25%2C s_cov:98.9%25%2C Eval:8.3e-97],MGA_46
sequence02	MetaGeneAnnotator	CDS	18550	18897	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKVRVHKISSVSDPETAQPGKQIELVEVRERTDSGVMGGMTGTDESKMVKGIISQFQSIGVFPVNSREMVLPKMTLFLSEAEYDLLAVRFEVNDVFELILKDGAFMLKRATEGI;locus_tag=LOCUS_0450;note=MGA_47
sequence02	MetaGeneAnnotator	CDS	18907	19149	.	-	0	ID=MGA_48;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKITNITLIHECDETNCHLDNQEQTKWIENILPKEKLGWNWKLTDIKVFDVTSPNSNNADSYISRVLDNKYENEESES;locus_tag=LOCUS_0460;note=MGA_48
sequence02	MetaGeneAnnotator	CDS	19226	19858	.	+	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEMKTREEMVDELIKIKIPIGLINYIAKKERSVLGSGMMNSLGKMNDQAIRSLYSAIVEDKIEREDYLLIRTTMWVVNEFQSSKINIDHNVPNIGEFKIVGLNEDDEILVVVDCKMNQYEWNQISEFVEKLRILKEREVKLTNAFIISRNADLTEILNKLKDVQGMGSDGVFVTKEKRGIGGLVGGKPNKINFSMLLEKSKENHEKVFP;locus_tag=LOCUS_0470;note=MGA_49
sequence02	MetaGeneAnnotator	CDS	19864	20472	.	+	0	ID=MGA_50;product=putative 3-methyladenine DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TFS9;translation=MKELIPIKREFYNRDTIKVAKDILGKVIVRKTKQGNMAGRIVEVEAYKSGEYDKASHASKGCTLSNQVMFGENGFAYVYFTYGMYFMLNIVAKKKTDHAGAVLIRGLEPINGVNHMIKNRKGKKEINLTNGPGKLSQALQINKKFNNYDLTKKGELYIIDSEKRVEKILSSGRIGISKDVEKEWRFYLDNNAYVSKYKFNRK;locus_tag=LOCUS_0480;EC_number=3.2.2.-;note=E8TFS9 putative 3-methyladenine DNA glycosylase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:40.5%25%2C q_cov:94.1%25%2C s_cov:94.0%25%2C Eval:4.9e-33],MGA_50
sequence03	MetaGeneAnnotator	misc_feature	1	1078	.	+	.	ID=MGA_51;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010878493.1:DNA repair and recombination protein RadA,WP_010878493.1 DNA repair and recombination protein RadA (Archaeoglobus fulgidus DSM 4304) [pid:51.8%25%2C q_cov:91.9%25%2C s_cov:97.6%25%2C Eval:2.9e-90],MGA_51;locus_tag=LOCUS_0490
sequence03	MetaGeneAnnotator	CDS	1130	3880	.	+	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLLLPLMLLLLLTPAISFPNITASTNYQEHLSISTSGDSAYWSIKLSDVNVTEVITSQSSSLSGIDSFEIFHYNHQGSFDPRFDLFTTNGYGLIDSVLPRSGALLTVTANSQSNADKFALSISNDLHLGFINYNPNTFSQNNIYTYYSYADSDIVVDIFWDIFSNNDAGFNQLISKQFYNSIKDQVIIFSGHKQQNNIVYSIEFGGANSAIIDKTPGDFSVQGSEIDLNTLFGINSINSSSLSTKSTINIQTFGSMINSREINSINISDVSLNLNHDIDNIQSELIIDLSRGSSFNSTLHSIPLDYYPPVLSVVRVIDKTSGSDGDTIESRITFTNLSPFIGGHSIEEVIFVDDWWTDDFALLEPGENDTIKHLTPGESRTLSKLLQVDTSESTIVETSPEDIKFEYKFKMGEDQFSKITSSNDLFIQLNDVRPALIVNSLYNNSYVSMHDDFISKLEIKNLGSRSAYDVSIELNNELFETFDSIAPNSFEILELNVSRHDYLFNTNTYEWTITWSDGVELYTVSSNPVYLINDYNLYVQPLFNSPEIVVDKTSEIPIDGIWEDELKVVLRITNNGLENVTDLHVIDLIPSSVILSSGADNMTKLGNRLEANIPLLQPQNSSTFVYYIKNDLSNNILLTPASINLNYYEKDYTIFSDSIVLPTAIYIDKNINTNSALVGYNFTISVDFKNNDGDIFLFDVQVNGNDPEYVVIDGNQWNERSSLEPDGAMNYEYLISSRNEVNRNLLQAWGEFTLGGKSMRIFTSQIPVNITNTPIITISTIPEQILDNQEIDLILTIDNPSTTTTLKSISIERGIAENIELLDESIFTEISQLNPEDSVELKIKAKSLTPGKQLIFQPQISHQFMGQSISVDFEQYSSSVSEELLNRYLPSLIISILFITFTVYLTNSLVKRKN;locus_tag=LOCUS_0500;note=MGA_52
sequence03	MetaGeneAnnotator	CDS	3887	4861	.	-	0	ID=MGA_53;product=diphosphomevalonate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012289187.1;translation=MTNKATAKANAMQGLLKYHGMKDSELRIPYHDSISVCLDALFTKTTVEFGNFEEDGLIINNEMQKGTVLNRALTIIDKIRSLSDINEKVKITSENSIKFGEVKGLGFSSSAGAALAGAAFKASGLESTHGWNIKIISRIARLLAGSACRSVAGEYSRWYAGNDDETSYAEKIATKSNLDLRMIAIPFPSEYSTESAHKEVLTSSFFDARIKSANIRLNKIQESIKNGKLDNLGRLVEEDSLELHALTMTGKDRVILIRPETINIINFVKQKQKENIPIYYSMQTGPSIFINTNSDYIDEIYSEISEMGFNAIKATVGDSVRIEN;locus_tag=LOCUS_0510;EC_number=4.1.1.33;note=WP_012289187.1 diphosphomevalonate decarboxylase (Halobacterium salinarum NRC-1) [pid:32.5%25%2C q_cov:96.9%25%2C s_cov:95.7%25%2C Eval:1.9e-45],MGA_53
sequence03	MetaGeneAnnotator	CDS	4864	5292	.	-	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011251243.1;translation=MLVEEIEFNGHPEVRAEHKTTMEITTEKHLTEKGDCIIGVNAKVACNTLNYNIKEEIQKDNNKITIELIVDNMKFKTKAMGSSKLSLKHKKDIVLRKSAFTCTRTIGINAENAAIDVPREMISKLRNPNVKGLFRIIIGETE;locus_tag=LOCUS_0520;note=WP_011251243.1 hypothetical protein (Thermococcus kodakarensis KOD1) [pid:38.7%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:4.1e-21],MGA_54
sequence03	MetaGeneAnnotator	CDS	5361	6089	.	+	0	ID=MGA_55;product=proteasome endopeptidase complex%2Csubunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876325.1;translation=MFPGAQGYDRAITVFSPDGRLYQVEYAMETVRRGSLALGIKHKEGTVLAVDEKLSKLQTPGVTQKIFQVDDHIGVAAAGYIPDARIQVDQARVIAQSNRLIYDQPVDLETLARKLADASQQYTQFAGVRPFGVSLIICGVDRSGSHLWKTDPSGNYVAYNATAIGAGSEQVIELFEKKYDEKISFEDAILLAIESIISINEEDDKLSSIKISIVDTETQTLRYLNSEEIKKYYDKLNVSKAN;locus_tag=LOCUS_0530;EC_number=3.4.25.1;note=WP_010876325.1 proteasome endopeptidase complex%2Csubunit alpha (Methanothermobacter thermautotrophicus str. Delta H) [pid:46.4%25%2C q_cov:96.7%25%2C s_cov:94.8%25%2C Eval:5.2e-57],MGA_55
sequence03	MetaGeneAnnotator	CDS	6086	6502	.	-	0	ID=MGA_56;product=CoA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010933012.1;translation=MDIRQILENTTNIAVIGLSKNELKDSYQVSMHMRDSGYNIIPINPTADSIMGVKSYENLMNIPEEIMMNIELVNVFRKSEFVEGIIEEAIEINKKYGKIHTVWMQLGIFYDEADKISKENKLNIITNKCIKIEHGKLN;locus_tag=LOCUS_0540;note=WP_010933012.1 CoA-binding protein (Chlorobium tepidum TLS) [pid:37.3%25%2C q_cov:97.1%25%2C s_cov:96.3%25%2C Eval:5.4e-23],MGA_56
sequence03	MetaGeneAnnotator	CDS	6665	6973	.	+	0	ID=MGA_57;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVKDSKKVTSKKEPKKVVPKEESQEYDATLHVLSPQHEKLSEDDVGTLLKNFNVEYAKLPKISISDPAIDNLEVKLGDVIKITRPSPTSGTTVYYRMVIEQ;locus_tag=LOCUS_0550;note=WP_010879378.1 DNA-directed RNA polymerase subunit H (Archaeoglobus fulgidus DSM 4304) [pid:43.5%25%2C q_cov:67.6%25%2C s_cov:90.8%25%2C Eval:8.2e-11%2C partial hit],MGA_57
sequence03	MetaGeneAnnotator	CDS	6973	10470	.	+	0	ID=MGA_58;product=DNA-directed RNA polymerase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250034.1;translation=MSSSIPNENWAIIENMIKKEGIASHHLNSYNEFLDHGIQDIIDEVGGIDVETTGTPYRVSFGKIYIGEPRSVELDGSTSRILPLETRLRDLAYSAPIHLEMTVEENGVAREVQKHHIGDIPIMIRSAKCETSKMAEKQMIEKGEDPFDPGGYFIVNGSERIIVGLEDLSPNKIIVEKDKVGGNLVYRSKIYSSIVGYRAKLELTLKSDGAIMVKLPSSPVDLPVVTLIRALGIENDREIASLISDQTHIHNLLEITFEKAVLDRDTACNICKVCGLRLLEKAEDQTQEEFDKENPEFENCGHNEVCGKTGDCSHKALMYIGNRVAHGMLDEFRIRKAESILDWGLLPHLGKNLENRYDKAIFIGEAVNKLLELRMGWITDDDKDHYGNKIVKFAGPMIADLFRTAFRNLIRDMKYQLERTSHRKGSNIVGASIRPGIITDKLANAVATGNWGRGKVGVTQLLDRTNYLSLVSHLRRIQSPLSRTQPNFEARDLHSTHYGRICPSETPEGANCGLVKNIALSSVISVSSSFDDILEKLTQIGIVPSRDISMEDRSKFCKIFVDGRLIGYTKDENKLVNSFRNMRRQGQIHSHASINLQKYPNKNASTRIHISLSSGRVLRPLIVVSNGKPLVNHDVVSRTQNGELSWQDLIQMGVVDLIDANEEENALVAIDGTTEFNSEHTHVELFSSSILGAAASLIPYAEHNQSPRNTYQSAMSKQSLGFPTPNYNYNTTVREHLLVYPQNQLVKTRATSLLNIDKRPTGQNCVVAVMSYEGYNIEDAIVMNKSSVQRGLARSFFYRLYDAEAKQYLGGMKDNFEIPTADDNTRGYRGEKYYRLLESDGIIMHESVVSGGDVIIGRTSPPRFMEEYKSFDMQGPYRRDTSIAVRPSEFGVIDSVFMTQNEDGEKLYKIRVRDMRIPEIGDKFASRHGQKGIVGLLVNQEDMPYSETGIVPDIIINPHAFPSRMTVGQFIESIGGKAASFRGSPVDGSTFAGENAEELGKELEKYGFQSSGSEIMYDGKTGKKLKVEIFIGVVYYQKLHHMVADKMHARARGQVQMLTKQPTEGRARGGGLRFGEMERDCLIAYGASMVLKDRLLDESDKTNVNVCDHCGLLAYYDGQQRKYTCKIDGDDAQISSVTIAYAFKLLLQEMMSLNIAPRLLLVDKV;locus_tag=LOCUS_0560;EC_number=2.7.7.6;note=WP_011250034.1 DNA-directed RNA polymerase subunit B (Thermococcus kodakarensis KOD1) [pid:49.7%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:0.0e+00],MGA_58
sequence03	MetaGeneAnnotator	CDS	10477	14253	.	+	0	ID=MGA_59;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTPENLKEIGGIGFSILSPSEVRKYSVTEITAPETYDEDGMPVQGGLMDNRLGTLEPGQKCATCGNTALRCPGHFGHIELAEPVLHIAFAEEVNKLLHSFCRVCGRFKMLTEEVENFKTKIEEESKFNPKVRDKIAKQLFAKTKKIMLCPHCGTEQYKIEFLKPTIFHEITESGGATRLLPNAIRERLERITDDDMQLINYNPKSVRPEWFVLQVLGVPPVVVRPSITLETGIRSEDDLTHKIVDILRVNQRVRESKESGTPPLIVQDLVDLLQYHVTTFFDNEVSGIPQSHHRSGRPLKTISQRLKGKEGRFRGSLSGKRVDFSARTVIAPDPSLDISEVGVPVEVAKRLSIPEKYSKLNAEFLNELVLNGSENHPGANYVIRPDGVKIRLDYVEDKQALVDSLEDGFVIERHLIDGDIVIFNRQPSLHRMSVMGHSIRVLPYRTFRLHPAVCPPYNADFDGDEMNLHVPQSAEARAEALTLMMVHNQIVSPRYGGPIIGGTRDYISAGYLLTHEDTFLEADEFSDLALTGGYIGPLPKPAKSNPTMYTGKQLFSLFLPKDFNYQLSSKWGRAKNQSNDVLIKDGQLVSGIIDRAAIGSEEPDSILHRISKDYGSEDARIFLNSVLTVLRSYISNHGFSLSYQELTLDKTAEKKVYKNISDSYSNVDSLIVKSQNGELISTRGMSDAENLEAHIVHELSKARDKAGRVSDSDLKDDNSGVIMARTGARGSSLNLGQMTAALGQQSVRGKRIQNGFNQRALSHFEKGDMSPDAKGFVKSNYRTGLTPTEFFFHAMGGREGLVDTAVRTQQSGYMQRRLINALEHIRVEYDRTVRDPHGNIIQFLYGEDGIDPAKSDHGDAVNILRQVDISMIDNKSKTNPDTKMIDSILKSYKSKLNEKVINDLSSSFSNNSITESGMKNVTKKTLELTNKALVEPGEASGIVAAQSIGEPGTQMTLRTFHFAGVQEKDVTLGLPRLIELVDARKVPSKPSMDIYLTKSHRTTQQKALEIGKKILYTTVKDLVSQTEVDYIEGIKLKFESDTLSDFGITLEQLAEIIEASKREVKINHKTSSVMVIIEDTDASTLFSLRNKLLDLRVAGIKDIKNLTIVKKDSEWIIQTSGSNLGKVFKISGVDTTRTTTNNIWEIASVIGIEAARSTLINEITHTLDEQGLEVDIRHIVLVADLMTSTGVLKSIGRHGIAGTKESVLARAAFEITVPTIAKASVTGEVEELKGVTENVIVGLPVPVGTGMIELYMKR;locus_tag=LOCUS_0570;note=WP_052846236.1 DNA-directed RNA polymerase subunit A' (Sulfolobus tokodaii str. 7) [pid:53.4%25%2C q_cov:68.5%25%2C s_cov:98.9%25%2C Eval:1.3e-272%2C partial hit],MGA_59
sequence03	MetaGeneAnnotator	CDS	14259	14567	.	+	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLKPFEKTLKNIRKTGKVAYGFKESLSTSDNSKLIICSSTVSDDDRDIIAEKCKQNSIPFITTDQNSILLSKTLGLNYRISVFSILEADESDLNLILSKL;locus_tag=LOCUS_0580;note=MGA_60
sequence03	MetaGeneAnnotator	CDS	14628	15083	.	+	0	ID=MGA_61;product=transcription elongation factor NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876680.1;translation=MQKNKPETIKITSEAFNLMALFQKVTGAMARDCIIDNKVGRVIFLVNNGEMGLAIGKNGQSIKSIQKSIGKTIELVEYSDDPKQLILNALDSKYVNDVKINEKSNGRMTATIKVDTAKTGAIVGRAGRNAEKARLIAKRYFEINNIKITNE;locus_tag=LOCUS_0590;note=WP_010876680.1 transcription elongation factor NusA (Methanothermobacter thermautotrophicus str. Delta H) [pid:44.0%25%2C q_cov:93.4%25%2C s_cov:98.6%25%2C Eval:3.1e-31],MGA_61
sequence03	MetaGeneAnnotator	CDS	15160	15600	.	+	0	ID=MGA_62;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250029.1;translation=MGNKSPVGEFAARKQHNKRKYMKWSDGHYKRRVLKLDKKSDPLSGAPQARGIVLEKVGIESKQPNSAIRKCVRIQLIKNGKQVTAFLPGDGALNFVDEHDEVNVEGIGGSTGGAMGDLPGVRWQVYKVNDVSLNELVYGRKEKPRR;locus_tag=LOCUS_0600;note=WP_011250029.1 30S ribosomal protein S12 (Thermococcus kodakarensis KOD1) [pid:71.7%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:3.3e-56],MGA_62
sequence03	MetaGeneAnnotator	CDS	15606	16196	.	+	0	ID=MGA_63;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978220.1;translation=MSSLLLFRKWNFSDVEIQDPGLKEVICLEPTLMPTSFGRHEHKRFAKSRVNIVERLCNNLMHFGRKKAKNAGRMAGKKYKSINLVKTAFEIIYLQTGSNPIEQLIRAIENTSPNEDTTTIAYGGVRYHVSVDISPQRRVDLALRFISLAVRETSFSTKKSAEEVLANEIIMAARNDSNSFSIKKKFEQERMAMSAR;locus_tag=LOCUS_0610;note=WP_010978220.1 30S ribosomal protein S7 (Sulfolobus tokodaii str. 7) [pid:53.4%25%2C q_cov:98.5%25%2C s_cov:94.8%25%2C Eval:2.5e-50],MGA_63
sequence04	MetaGeneAnnotator	CDS	1450	2391	.	+	0	ID=MGA_66;product=methylmalonyl Co-A mutase-associated GTPase MeaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867373.1;translation=MTGDFVDSILSGDRRAIAKAISMIEDEDPKINDIISKLYPKTGNAFVIGITGPPGTGKSTLINRLIENYRKLDKKIGVLAIDPSSPITGGSLLGDRLRMSNHNMDPSVYIRSMSSGDKSGGLSRYTRRSLSILDASGLDLIIVESVGAGQSEVDILKITDAVVIVLMPELGDDIQIYKAGLMEIGDIFVINKSDLDGSDQMYTKLLTASKIKNDNWMPQVIKTASIEGLGIDNLINSISEREQFLNESSIQSLNKMDKIKNEILSVMLYDLSKSFSQKIENHSDFHNVIEQVLLKKIDPEQAANIMKKKLNLE;locus_tag=LOCUS_0620;note=WP_010867373.1 methylmalonyl Co-A mutase-associated GTPase MeaB (Pyrococcus abyssi GE5) [pid:44.1%25%2C q_cov:99.0%25%2C s_cov:96.9%25%2C Eval:7.7e-73],MGA_66
sequence04	MetaGeneAnnotator	CDS	2397	3089	.	-	0	ID=MGA_67;product=GTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879698.1;translation=MTGILSNWYQQEGKDVITVNLDPGVSDVPYGIDVDIRNYINLKDIMDKYNLGPNGSLILASDLIATKLEQIEEEIDEYNPDYVFIDTPGQIELFAYRKSGPYFIKNINTEANVNLFLFDATLVSDPSNFLSIALLASSIKLRLEIPQISILTKKDLIKDDQERILRWADDFAELLDDLNEGGEIYDLTSRMAESVIESNIIDELIPTSTVDNEGIVEVIASISRIIDRGE;locus_tag=LOCUS_0630;note=WP_010879698.1 GTPase (Archaeoglobus fulgidus DSM 4304) [pid:37.2%25%2C q_cov:100.0%25%2C s_cov:90.2%25%2C Eval:1.2e-41],MGA_67
sequence04	MetaGeneAnnotator	CDS	3212	4012	.	+	0	ID=MGA_68;product=competence protein ComA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979458.1;translation=MKFEIISIGNELLSGRTLNTNLQTICKNLSDIGCSVSRSYVIRDDPEEISNTLKLSLNGDSQWIIISGGLGPTYDDMTLSCIASTLNLGLELNEIALKMIIERYNDLVRQNVIESFSLTASRKKMAMLPQKSTPLNNDVGTAPGVLIKFKNKNIVCLPGVPKEMESILIHEVFPIIDTNKLNKIISKVLYIAGITESELAPIINNFVSNHPDLYIKSHPKGITNGIYNIELVISFQSNQFSQILIDSILNDIISSIKIRDVITVKE;locus_tag=LOCUS_0640;note=WP_010979458.1 competence protein ComA (Sulfolobus tokodaii str. 7) [pid:43.6%25%2C q_cov:82.0%25%2C s_cov:79.8%25%2C Eval:2.4e-45],MGA_68
sequence04	MetaGeneAnnotator	CDS	4015	4230	.	-	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATTKCPECDGSMNFDYSTRKMGCKNCGLFLSRDELVNIRDKIRDKRYDESDNSQRGNDYLQWWLSDKKKK;locus_tag=LOCUS_0650;note=MGA_69
sequence04	MetaGeneAnnotator	CDS	4431	5618	.	+	0	ID=MGA_70;product=ammonium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879245.1;translation=MDAGSIAWLLTASALVLLMTPGLAFFYGGLVRAKNVLNLMMQCFMIMGLISVTWVLWGYTLAFGPSIGGFVGGLDHLGLAGINGAEAQSFAMFQMMFAIITPALIIGAVADRFKFTTLIVFVALWSTLVYSPIAHWVWASGGWLFEMGALDFAGGTVVHISSGFSALVAAIVVGKRTGKLENFKPHNIPYVLLGTGLLWFGWFGFNAGSSLAADGIAVNAFLVTNTSAAAGALMMMFLSMRSTGKPSAVMTATGAVAGLVAITPASGFVGPIAAILIGAGVGLVSWFAIQFKNNKGWDDSLDVWAVHGMGGVWGAIATGLFASASYGVGVDGIFSGGDISVLTTQIIAVVASVAYAAVVTLILLRVLDSTLGLRVDSKEEEAGMDISVHAEEAYN;locus_tag=LOCUS_0660;note=WP_010879245.1 ammonium transporter (Archaeoglobus fulgidus DSM 4304) [pid:53.9%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.7e-116],MGA_70
sequence04	MetaGeneAnnotator	CDS	5716	6603	.	+	0	ID=MGA_71;product=ribose-phosphate pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978942.1;translation=MSEWIVMSGPSSIDLSTSISDSLGIELFEVENKSFPDGEHKVRIHNEVQDKNIILVQSLYPLVDHHFMQFLFTAYKLSQMGSKVYACVPYLAYARQDLEFQRGEVASLAVVSRLFRSIGVHSLLTVDIHSTHGLGYFSFPTYSVSAMPLLAKYVEQNLDLNSPLAVSPDFGGSSRVEAFSKLLDIEFISLKKSRSRTTGEVIMEESNVEVAGRDILLVDDMISTGTSIVRAANYLKKLGSKRIITLCTHALLVNDAVNSIKNAGVDEIIATNTIPTDVSKIDVTEIIVDHYKSLR;locus_tag=LOCUS_0670;note=WP_010978942.1 ribose-phosphate pyrophosphokinase (Sulfolobus tokodaii str. 7) [pid:34.2%25%2C q_cov:95.6%25%2C s_cov:96.9%25%2C Eval:5.1e-47],MGA_71
sequence04	MetaGeneAnnotator	CDS	6560	7618	.	+	0	ID=MGA_72;product=tRNA (guanine-N2)-dimethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876363.1;translation=MLLKSSSTTTNPYDNSFISVFVLSGDFPQIGRSELLSILESNNIDYNIIDETSRIILVSFTRYNNSYDKMFQRIAYCTYFGILLFSYNFDSDNFYPNKQSFKYLKKFQTFSVRKINISNRLDNKYERILGSLIQNLFPHLNVNLSLPEVTLSVCQFNDQLLIFSNQSLYDEPRWLNRRPRARPFFLPFAIHPKLSRALINLCRLNPGQRLLDPFCGTGSIGIESCILDIDFTGIDISKKICYGAQRNLNYFNLDNFNIINADSLKLPISFVDGIVTDFPYGRSSIKKFSDTVKFMEEFFNLTSKLLTSGSYIVYMSPKDWPEYTSHNYCLVDKHELYIHSNLTRVIRVIRKL;locus_tag=LOCUS_0680;note=WP_010876363.1 tRNA (guanine-N2)-dimethyltransferase (Methanothermobacter thermautotrophicus str. Delta H) [pid:28.6%25%2C q_cov:94.0%25%2C s_cov:98.5%25%2C Eval:2.6e-35],MGA_72
sequence04	MetaGeneAnnotator	CDS	7658	8620	.	+	0	ID=MGA_73;product=ribonuclease Z;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022970.1;translation=MPDLKIILLGTSGAVPTSHRNLISNVIIRDNELFIFDTGEAIQQSMMKNRVGMNRPTHIFISHMHGDHILGLLGLIQTMSLLLRDKPLFVYGPSGISRFIKSNMNIFNIKLNFKLIVKEISSGLIVKTSDYKIYAKKANHSITNYSYVFVESDRPGKFYVSKIKKLGVPEGTLWSKLQSGHSIRYKGKSIHPFDVMGKPRPGRKIGISGDTRPSKSLINFFSSCDVLIHESTFSSDEKQLAIERYHSTSAEAALVAKKSSSNVLLLTHFSSRYKDTKLLEKEACKIHRNSIAGRDSMSFYVPYSDERRLTKSYVLEQTNR;locus_tag=LOCUS_0690;gene=rnz;EC_number=3.1.26.11;note=WP_011022970.1 ribonuclease Z (Methanosarcina acetivorans C2A) [pid:40.1%25%2C q_cov:94.7%25%2C s_cov:99.7%25%2C Eval:4.6e-60],MGA_73
sequence04	MetaGeneAnnotator	CDS	8586	8987	.	-	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978945.1;translation=MEEFGNKINIKVKTSINKTENIEKITNAVENIVKIKYITTDMEIIGTTDNYRELKNLYEVFRNKQTTHIARKVLLKNLQENTSQILFNKQAAAVNSIVICDKMNESPLGPIIMEIDTTDIEEFIDWFVPKHTT;locus_tag=LOCUS_0700;note=WP_010978945.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:28.6%25%2C q_cov:91.0%25%2C s_cov:86.9%25%2C Eval:1.1e-10],MGA_74
sequence04	MetaGeneAnnotator	CDS	8993	9544	.	-	0	ID=MGA_75;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876073.1;translation=MTERKNLICVTGLPGAGKSLFCEIGNRLNYEIIIMGDQVRKEAKKRGLNNDTKSLSKLMIELREKRGKNAIANMCEEEINKSTNKNIIIDGIRNIEEIELFSQIGNVKIILIKNTSEQRIKFLQERKRSDAPINEKEFNKRDEKELEIGLKEVMKRAEIVIENIDLTKEEFTKRTELILSNLL;locus_tag=LOCUS_0710;note=WP_010876073.1 hypothetical protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:34.8%25%2C q_cov:85.8%25%2C s_cov:80.5%25%2C Eval:1.0e-20],MGA_75
sequence04	MetaGeneAnnotator	CDS	9715	10992	.	+	0	ID=MGA_76;product=CCA-adding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762324.1;translation=MDGKHSPRFPVSDIVLGGSIAKGTWLKNSADIDIFIKLDSTSNRKILESSLEIGKATLDSLNYFWELRYSEHPYIEAQASFSGKIIKINIVSCFDVNPKNCISAADRSPHHTDYVLNNFSSKMKNEVRILKQFLISQKIYGAEIKTQGFSGYFCELLILKYKTFQNVLKQMSNFTPGNSIYFDDSHSKFTKLHENSSIIMLDPVDPKRNLGTAISFHNLNKFIYLSSKFLDNPSVGFFTKHKIIINNSLLDNLFVIYFNHNPKTIDTLWGQLRRSFNHTSNYLTKNGFNIVRSTISSNDKDQSAFLFLVEDLTISNTKLHLGPLSHMKNESFAFVKKNKRKSLIFWIDSDGHINSLQLRKYPIIKDLLVNSINSDNILGIAPGLKNSFNSTSKTYTGKSILSLSKNKSWLAESLGDVIGTDSKLY;locus_tag=LOCUS_0720;note=WP_011762324.1 CCA-adding protein (Pyrobaculum islandicum DSM 4184) [pid:31.9%25%2C q_cov:84.0%25%2C s_cov:82.3%25%2C Eval:4.2e-46],MGA_76
sequence04	MetaGeneAnnotator	CDS	10967	11728	.	+	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELTPNYIDINNSLNNDTLKYLLCYPDPDSNSFKLRLNELKKLGIKILELSGPTILNGNPILGKGTRGIAVKAFSQDYEYALKIRRLDSPRRNLLNEVKIQSYVNSFGIGPKIVNYSNNFIVMELIQGKLLSDLYLMKSLNTNILRTIIKSLLYQCYRLDLNGVDHGELSDLRKHVIINNRVNIIDFDSASINRKTSNLTSCIQYLFIGGPNSKLFSKLFDIDLDKLILLLRKYKLNKDFLTFLHLLKFVNMY;locus_tag=LOCUS_0730;note=WP_052846443.1 serine/threonine protein kinase (Sulfolobus tokodaii str. 7) [pid:38.4%25%2C q_cov:64.4%25%2C s_cov:74.3%25%2C Eval:1.3e-16%2C partial hit],MGA_77
sequence04	MetaGeneAnnotator	CDS	11889	12611	.	-	0	ID=MGA_78;product=cobalt ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249696.1;translation=MYFIANGFIYRKSNSIIHKLDPRVKLLISIQLFTLALLVSDLYNLAIIFGAISIFSVLGKITKRLLRTMIFATGFSVLILIINYFAGYSLLYSIQIALRFIAIVCSTSLFFLVTSPDELEYVLRWFKLPRDLVFAFVTSVRFVPVILMDTLQIIDAQKSRGLELEKGNPIIRIKKFVPILVPLIINEVIRSGELAEAMESRGYGISKKPTSLYSLQLINRDIIVILSTSISFIMIISFGY;locus_tag=LOCUS_0740;note=WP_011249696.1 cobalt ABC transporter permease (Thermococcus kodakarensis KOD1) [pid:32.8%25%2C q_cov:90.8%25%2C s_cov:87.5%25%2C Eval:1.1e-22],MGA_78
sequence04	MetaGeneAnnotator	CDS	12611	13420	.	-	0	ID=MGA_79;product=cobalt ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870600.1;translation=MIEFNQVSYNHPDGTNALNDINLKIQKNSITAIVGNNGAGKTTLVKHINGLLKPTTGKVIIQNNDTKKLSVAELSRNIGMVFQNSNHQLFADTVKNEILFGLHNFGFDELYIKERYEFVTDLFDLKKYEEISPLKLSGGEKKKVCLASVLAWNPDILILDEPTVGQDELQKSILLDFINSLHKNDKTIIIISHDIEFLWRLQPKIVTMSDGRIIEINNTEKIFTNKELIDQVGLIAPQIVRIFNGLGIVNDIPINLNDAAKMIKNWSNE;locus_tag=LOCUS_0750;note=WP_010870600.1 cobalt ABC transporter ATP-binding protein (Methanocaldococcus jannaschii DSM 2661) [pid:33.8%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:3.8e-46],MGA_79
sequence04	MetaGeneAnnotator	CDS	13417	14262	.	-	0	ID=MGA_80;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013399677.1;translation=MSAKDIIKFKDFSFKYSSSNNNILENINLNIKSNEITVLAGPTGCGKSTLLRSIVGLIPNMYDGEYVGEVTVDGIIIKDAEIKDIAKRVGFVFQNPENQIFMFSVERDIAFGLENLGIEQSRIKEKVSKMMETLNISHLAEKAPHELSDGQKQRTALAGVLAMEPKILILDEPTSLLDPKTASEFMELMNRLCKEKGISIIIVEHRLDLVMKYANRLVILSKGRIVSNDSPRNVFKYKNKIIPEISIPFSTKLYRKLAESDMKFSKAVIDVENMIDEIRKK;locus_tag=LOCUS_0760;EC_number=3.6.3.-;note=WP_013399677.1 ABC transporter ATP-binding protein (Gardnerella vaginalis ATCC 14019) [pid:40.8%25%2C q_cov:86.5%25%2C s_cov:93.8%25%2C Eval:8.4e-52],MGA_80
sequence04	MetaGeneAnnotator	CDS	14298	14669	.	-	0	ID=MGA_81;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNQDVPPWLREQLERYEQLQQNLQSVLVQKQQIDLEIIEIDKALAELEKSADDVKVYKSAGTVMVSSNKTDVIKDLTGSKDLANTKLSVLNKQEERLKENIKEVQAKLDESMKRSTTGTNAQ;locus_tag=LOCUS_0770;note=MGA_81
sequence04	MetaGeneAnnotator	CDS	14705	14938	.	-	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQPQYKISSTIKIKSDKKSSKLVVESIKQDIEETDLVFAKNNKLIMEIKAKEISELRAKISSHIRAAKVSYDILSE;locus_tag=LOCUS_0780;note=MGA_82
sequence04	MetaGeneAnnotator	CDS	14919	15134	.	-	0	ID=MGA_83;product=50S ribosomal protein L37ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978414.1;translation=MARKTKTTTEFGAKFGSSVRKKHTKVTTNLRQKRNCPECNSIKFKRVAIGIWACDKCGFKVADAAYETTTV;locus_tag=LOCUS_0790;note=WP_010978414.1 50S ribosomal protein L37ae (Sulfolobus tokodaii str. 7) [pid:43.3%25%2C q_cov:93.0%25%2C s_cov:95.7%25%2C Eval:7.7e-09],MGA_83
sequence04	MetaGeneAnnotator	CDS	15124	15951	.	-	0	ID=MGA_84;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048053857.1;translation=MPAVKKHRIVDSITKESIITNLSNSTRTDNRGLLDYRNLEIEINILKDKTNGSAKVILGNTEVWAGVKVETAQPFPDTPAEGVMTCNAEMLPISSQYVEPGPPNEDTIELSRVSDRGIRESGMIDVAELCIKEGELVYSVYIDVAVINEDGNLFDAVSYAGTAALLMADMSKFKIEDDEVKMLDERQPLPIKSLPVSTTFAKIGDKIILDPNADEQEIADARITLVTDENGKYVSAQKGKPGGFTFDELKEISIISKDKGEEIRKKIKEAVNNGA;locus_tag=LOCUS_0800;note=WP_048053857.1 RNA-binding protein (Thermococcus kodakarensis KOD1) [pid:45.3%25%2C q_cov:95.6%25%2C s_cov:98.1%25%2C Eval:1.5e-61],MGA_84
sequence04	MetaGeneAnnotator	misc_feature	15955	16563	.	-	.	ID=MGA_85;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010867734.1:exosome complex exonuclease Rrp41,WP_010867734.1 exosome complex exonuclease Rrp41 (Pyrococcus abyssi GE5) [pid:56.8%25%2C q_cov:95.0%25%2C s_cov:77.1%25%2C Eval:2.8e-60],MGA_85;locus_tag=LOCUS_0810
sequence05	MetaGeneAnnotator	CDS	858	1286	.	-	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDPFTELIVILRPFNTVLAAGLFIVLLSEFLLFRNNIVRQKITKQKIEFTKKYDEKFLKLYKTLKISAFTSGLAQRDSYTIRELVEFLISKNPSDTDTLHTILSSMEGYAYGSTQIDKSGYNLISKWMSNQKTSSLARARI;locus_tag=LOCUS_0820;note=MGA_87
sequence05	MetaGeneAnnotator	CDS	1279	2061	.	-	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSSINSIVLQVVLITIAIITSSFVVINYPEPKPPDPELLPMHAVTIETFTHDKNIEERFVTTATPSVSVVFYFWNDVGATDTIAVTGTTNGTGQVTVLVEEGTYDLKIGEWTTETLDIFENITIVANHFSIELIPDSLSIDALSAEWQVTADDIVSVTYTSNFEFEVNLDSIKMSGLALDFAECITTDEGQGFPVEGEGDIDDLYAAGSNCDLDVTLFPFSSWSDKFRIPAGITIPWSIAKNNPEVVLTISYTEMGVDE;locus_tag=LOCUS_0830;note=MGA_88
sequence05	MetaGeneAnnotator	CDS	2241	2900	.	+	0	ID=MGA_89;product=proteasome subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876826.1;translation=MFKESEIKNQVHGTTTVGLVCSDGIVLTTDTRASMGYYIASRTVNKIAVIDNHCAVTIAGGVADAQYAIDQLKYHAKIYKLEKNEGLPISSIARLTSNLFYSTLHQKFSLLYADILVGGIDHEGPQLYNIDMFGTLTKEEYYSTGSGSPVAYGILESEFKQSLTVDEAMPIAVKAVYGAILRNSGTGDGLNIVTIRENNLKEYSFEEKQKIIKELSGRQ;locus_tag=LOCUS_0840;note=WP_010876826.1 proteasome subunit beta (Methanothermobacter thermautotrophicus str. Delta H) [pid:41.4%25%2C q_cov:95.4%25%2C s_cov:98.6%25%2C Eval:1.5e-41],MGA_89
sequence05	MetaGeneAnnotator	CDS	2911	4815	.	+	0	ID=MGA_90;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876827.1;translation=MNKSQELMTTILKSLPAEAEITRIEYEGPRIAIYTKNYEFLTTNNYIISDIVNTVKRRLVIRTDKSIRKTENEATEILKKSIDEEIGLGNIYYDDALGEVIVEVLEPQKLTNNSEINLHKLSANIGWKIIVRKGSDLQSTSIKTIYYVKQAESEARSIFYRQIGEEIFRPKLSQASNITLKSLGGFNQVGRSCMLLTTPESKIILDCGILPNARNTWDSYPRLDWADFDMDDLDAVVISHAHLDHSGYLPVLFKYGYRGPVYCTEPTLSLMSLLHNDYVKINSHEGSQVLYEGRDVRKMIQHTITLPYGLVTDISPDIKLVLNNAGHILGSATSHLHIGEGLHNILYTGDFKFAKTKLFDETIWNYPRVETLIMESTYGGKADMMPTREQMESNLVNSINSTLEKGGKVLIPSPAVGRAQEIMLVLDQQMREKKLIECPIYLEGMISEATAIHVASTEFLSRDLRNSISRGQGNPFQSEYFTVIDHHSKREEVLRDEPSIIMATSGMLEGGPVMRYFEELVPIEKNKLIFVSYQIAGTLGRRIMDGANQASIVDQDGKIKIVDIKCPKEKIDGFSGHSDYNQLIRFVGKLRPKLRNVIINHGEHTKVENLANSISRIYRIRTHRPEVQEAIKLV;locus_tag=LOCUS_0850;note=WP_010876827.1 hypothetical protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:42.9%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:6.9e-155],MGA_90
sequence05	MetaGeneAnnotator	CDS	4812	5108	.	-	0	ID=MGA_91;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSLKIDKKSLDKDQQMYLKAIALKDLDQISKIKDEVSQNMIVILRITPIAQKNVKELKKAIEELYSYVSSIGGDIVRLGDERVVLTPPGVKIWRGIS;locus_tag=LOCUS_0860;note=MGA_91
sequence05	MetaGeneAnnotator	CDS	5159	5659	.	-	0	ID=MGA_92;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870950.1;translation=MIKMKIKFLSKREINSLVEEIINASLIFDIPKIKQIKSFELNSDTEIFSSATFILVRNQGKLFPFLQDSKTLTSLPEIVVDKGAIPFVCKGANIMRPGIKQINDSFLKDSIVVISEEIHSKNLAIGKTLHSSEELLTLDKGMVIENLHYVGDYVWNSCKDLDLSIA;locus_tag=LOCUS_0870;note=WP_010870950.1 RNA-binding protein (Methanocaldococcus jannaschii DSM 2661) [pid:32.5%25%2C q_cov:89.8%25%2C s_cov:93.8%25%2C Eval:2.7e-16],MGA_92
sequence05	MetaGeneAnnotator	CDS	5652	6155	.	-	0	ID=MGA_93;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIGDIYRKLYGLIFSKPSNFKWLIDNKIAGSGFINTKTELDFLINHNISAVLTLTTSSLNDEVISNKSVTFKHISTIEDHSLPSIDHLVDAIQFINECMMNNKSVVVHCRAGIGRTGTVLAAFLINSGMSVDESVNEVRKKRPGSIENKQIKSLHDYFNYINKSND;locus_tag=LOCUS_0880;note=WP_011249196.1 protein-tyrosine-phosphatase (Thermococcus kodakarensis KOD1) [pid:41.3%25%2C q_cov:44.3%25%2C s_cov:51.0%25%2C Eval:9.2e-12%2C partial hit],MGA_93
sequence05	MetaGeneAnnotator	CDS	6171	6509	.	-	0	ID=MGA_94;product=iron-sulfur cluster insertion protein ErpA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P45344;translation=MSQTELVSISQKAIDKVKEFSKVEEKSSPGLRVYVAGGGCAGLTYGMALEEKSTDEDIIIETAGLKIFIDPFSAKYLNGSTIDYLESIESSGFKISNPNVTSTCACGKSVSV;locus_tag=LOCUS_0890;gene=erpA;note=P45344 iron-sulfur cluster insertion protein ErpA (Haemophilus influenzae Rd KW20) [pid:50.6%25%2C q_cov:79.5%25%2C s_cov:78.1%25%2C Eval:1.2e-22],MGA_94
sequence05	MetaGeneAnnotator	CDS	6550	6846	.	-	0	ID=MGA_95;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLDKLTEKLLYNSIIDVWIALCNDKNIEWNDSKSFNSYMNFIKTGDFEIKSLGVCPSGTGLKEEYEKKVSIIFGNPNASFVIKTNKDTIVKLNKFLI;locus_tag=LOCUS_0900;note=MGA_95
sequence05	MetaGeneAnnotator	CDS	6913	7587	.	-	0	ID=MGA_96;product=ribose-5-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021687.1;translation=MSKEEAVKKMGENAAQQISNGQLVGLGSGSAVAAFVNALGQRIINENLEVRGIPTSMQVEIIAQKNGIILESPSLIPEIDIVVDGADEIDKNQIMIKGGGGAHYREKIMIEAADKSIIVADSSKYVDVITWPVPLEISEFSRFFVEEKIKALGGNPVIRTLNKGYPFFTQNGNLVIDAHFNQITDPLKLEQKLLNIPGIIANGIFSMKIDTFLRANDDGSVEVV;locus_tag=LOCUS_0910;gene=rpiA;note=WP_011021687.1 ribose-5-phosphate isomerase (Methanosarcina acetivorans C2A) [pid:41.4%25%2C q_cov:95.5%25%2C s_cov:91.5%25%2C Eval:8.6e-40],MGA_96
sequence05	MetaGeneAnnotator	CDS	7594	7809	.	-	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTKSIDKIFNDLKIIDIENIEINSNSKNSRKIKSILSFKEQKKLKTIVNKENIPYLNRISSYKIEAKFKR;locus_tag=LOCUS_0920;note=MGA_97
sequence05	MetaGeneAnnotator	CDS	7806	8588	.	-	0	ID=MGA_98;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTLEIIIALFGGIIAGTTFSILISKYLKPDFPNSSSISESSRSIPEIGKKFEVEQARLRYKTLKLEKELHTDALGRVFQAEGDGRITKKERDMLSNRYREQIKSLDNNLQDSELILEASELENLHEELTNLFSQKLNQIDRRLNELTKKLETVKTFNKPISEPIVKDIPKNTEKSQENSQITKKLKISPKVSNSQIISNKGDNTEQIIDDKSKTESEPVIKKSTPKKPKDTPLADDKVNEIRDEVLEALNRLEQMDVEE;locus_tag=LOCUS_0930;note=MGA_98
sequence05	MetaGeneAnnotator	CDS	8658	8831	.	-	0	ID=MGA_99;product=50S ribosomal protein L37e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878375.1;translation=MVKGTTSAGKKGRGKSHIRCRRCGKHAYHMTNKKCAFCGFGKAGSAKLRQYNWMHVR;locus_tag=LOCUS_0940;note=WP_010878375.1 50S ribosomal protein L37e (Archaeoglobus fulgidus DSM 4304) [pid:55.6%25%2C q_cov:94.7%25%2C s_cov:88.1%25%2C Eval:1.9e-12],MGA_99
sequence05	MetaGeneAnnotator	CDS	8837	9067	.	-	0	ID=MGA_100;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846912.1;translation=MSVDMSVKVLEESLGKVVLIKLKGNKVIRGSLQGFDQHMNLTLDDSQEVLEGDDTKDLGTIIVRGDNVILISPPPR;locus_tag=LOCUS_0950;note=WP_052846912.1 RNA-binding protein (Sulfolobus tokodaii str. 7) [pid:60.6%25%2C q_cov:86.8%25%2C s_cov:88.0%25%2C Eval:1.8e-18],MGA_100
sequence05	MetaGeneAnnotator	CDS	9150	9698	.	+	0	ID=MGA_101;product=ATP--cob(I)alamin adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404046.1;translation=MKIYTKKGDKGKTNLFGTDKRISKSSKRVKSYGEIDELNSFIGLALSGDEPEEFSSIIKELNKIQNDLFIIGSELATISSDKKIIKRIKKTDVTRLEKIIDSCSNELEPLENFILPGGSMAAAIFHICRTVCRRAERNIVELSEVEDINEEIITYLNRLSDLFFILARFSNKILDVEDIKWK;locus_tag=LOCUS_0960;note=WP_011404046.1 ATP--cob(I)alamin adenosyltransferase (Salinibacter ruber DSM 13855) [pid:44.2%25%2C q_cov:98.9%25%2C s_cov:90.9%25%2C Eval:1.5e-35],MGA_101
sequence05	MetaGeneAnnotator	CDS	9685	10554	.	-	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIINKLKIRSGLISDFEQISELCKNIWNGHDFLPDVWINWISKDADSFYVAELDNKIIGVYHHCILGSDSWLETLRVDEKYRRQGIAQYLVSDYIKRMQKLTIHNIRLVTSVKNIASINLFTNNNFVEVLNSQYCSIEFENISSDDVSVEFSLVDDSQKIYSLLVNSRINDSLIPLWWRWWEPTHPTLSELSKNSFILLPESNYSSFIVIQRSKNFGYKDDYQIFFSEMSDIILNSALSFIKNLDPSITNRKIFCIPKINSSQLQILKDMGFKQSTSLVILERRLTST;locus_tag=LOCUS_0970;note=MGA_102
sequence05	MetaGeneAnnotator	CDS	10581	10907	.	-	0	ID=MGA_103;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q72B01;translation=MQSIAPIVISDENFDQIIKTNPIVVVDFWAEWCGPCRAMNPIIEELSSIYENKIVFAKLNVDKNPVTPSKYGISSIPTFLIIKNGQIMNSIIGAVTQEIFEETINEYL;locus_tag=LOCUS_0980;gene=trx;note=Q72B01 thioredoxin (Desulfovibrio vulgaris str. Hildenborough) [pid:48.5%25%2C q_cov:88.9%25%2C s_cov:90.7%25%2C Eval:2.6e-25],MGA_103
sequence05	MetaGeneAnnotator	CDS	11138	11452	.	-	0	ID=MGA_104;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867802.1;translation=MGQSARIKLTSSNLPNLQVVCKEIKDITDRTGIKARGPQPLPTKKLKITTRKAPSGNGTSTFDRWQLRIHRRLIDLDADDRTMRQLMRLKVPEDVFIEVNLSSK;locus_tag=LOCUS_0990;note=WP_010867802.1 30S ribosomal protein S10 (Pyrococcus abyssi GE5) [pid:59.4%25%2C q_cov:97.1%25%2C s_cov:99.0%25%2C Eval:8.3e-32],MGA_104
sequence05	MetaGeneAnnotator	CDS	11515	12159	.	+	0	ID=MGA_105;product=phosphoglycolate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005804827.1;translation=MIEKIYSSMLKAILFDLDGTIIDSNNAIFETYTQVAKRLGVEPPDIEVLRGLLGQPSHLNLPLLFGDNKDARPIYNEVVVKTHENLPTLPHVKETLEKIDLPMGIVTSKRKANAIEVLGELYDYFTVLITPEQTVKQKPDPEPMHLACKMLSVKAEECVYIGDTVRDYKTAMNSGTEFIALIDKGSTEEQFNELGAKNQVKSFDMIPDMIKKFY;locus_tag=LOCUS_1000;gene=gph2;note=WP_005804827.1 phosphoglycolate phosphatase (Acinetobacter pittii PHEA-2) [pid:31.7%25%2C q_cov:77.6%25%2C s_cov:76.8%25%2C Eval:1.1e-17],MGA_105
sequence05	MetaGeneAnnotator	CDS	12357	13133	.	-	0	ID=MGA_106;product=coenzyme F420-0:L-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065736.1;translation=MNQIKLLPIKVPRQDTKFNLVDLISKSLEDNSVKLKDGDILCISSKFVALSEGRYVKLSEVKVSNRANEISQKYNIDPKLSELIIQESDKIFYGFDGFVLTFKDGILVPNAGIDTSNIMLGYAILYPDDSFKSAKILKSEIKKLFDTDTAIIITDSRLMPTRIGTTGVAIASAGVKPIEDERGKTDLFGNSIRVTQKAIADDLSSAAQLLMGECDESIPIVIIRDSNFILSNNDETEQTFSVGFDECIFIKGLSNSNL;locus_tag=LOCUS_1010;gene=cofE;note=WP_048065736.1 coenzyme F420-0:L-glutamate ligase (Methanosarcina acetivorans C2A) [pid:35.9%25%2C q_cov:99.2%25%2C s_cov:94.1%25%2C Eval:1.3e-45],MGA_106
sequence05	MetaGeneAnnotator	CDS	13146	13598	.	-	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546787.1;translation=MIEEKLDSLGLILPGVPKPAGSYIPSLRINDLVFISGQVPFMDGKLLTGKVGSDITLEEGSERAKICALNALAVIKAEIGSLDNIKRIVKVSGYVNCIDTFVDHPKVINGASDLFGELFGESGQHTRIAIGSNSLPMNSSVELDVIFQVK;locus_tag=LOCUS_1020;note=WP_012546787.1 hypothetical protein (Thermodesulfovibrio yellowstonii DSM 11347) [pid:49.0%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:1.7e-37],MGA_107
sequence05	MetaGeneAnnotator	CDS	13696	14940	.	+	0	ID=MGA_108;product=gliding motility protein GldE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583682.1;translation=MVDFVSLTLLVVLVILSAISSGSETALVSLNKIKVKTLYEQKKKGSESLLKLKKEPKKLITTILIWNNLVNISAASLATSIAIEEFGSTGLGIATGFMTLTILIFGEIIPKSYATVNNERFALIISRPLEIIMRLFSPFTIPLMKLSDFVLGDASKNINPTLTEDEIKTILDVGEQENIIEKHEKEYIQGVLKSGDTTAREVMVPRKKMFVVDAKMDINQSIIKMVNSGYTRAPLIDQSKDNVVGIVHLKQLLIEQKNGKGEEGVIQISKKPIFVSQREIVGDLLRELQSKRVHMAIVLDEFEGVEGLLTLEDLVEEIVGEIIDESENVFPTIKRADHNTIIATGETKIEEIEKYFKMDFKKSGKYDFSNVNGILHDFLKDIPKKGDKIETSGLLFVVDEIENNTANKVSITKI;locus_tag=LOCUS_1030;note=WP_012583682.1 gliding motility protein GldE (Dictyoglomus turgidum DSM 6724) [pid:33.6%25%2C q_cov:96.9%25%2C s_cov:95.3%25%2C Eval:2.4e-62],MGA_108
sequence05	MetaGeneAnnotator	CDS	14996	15526	.	+	0	ID=MGA_109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLFAIFIENLSGLGYLGALLAGFLGSSSLFFSIFPSFITIPIIGSQLNPLLVGIMAGLGAGVGQFLHYYIGVGGRKLFSNNFLTRRKMSLGKFKFPKFYKRNRKPIDWEEKIRKYGVGLIFIFAATPLTPDDILWIPLGIMGYPKLRALIAAILGKITLNLLYAYTGFFGMELFM;locus_tag=LOCUS_1040;note=MGA_109
sequence06	MetaGeneAnnotator	CDS	518	1306	.	+	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNNFTRSYNDARFLSTKITPFVISAILLFLLLNIVQSAGLSQSQIGANEEQVGNDNVPSGFGDENLYTLEVNIILKEEIQPYLRPVNDQLVEIFWDMRDIETQEMKEFTLTANTDSDGRAVFDLFPGLYTLRIDYNGISRNETIAIDPSTENNIDWVISKYSISKYNLEFRDRNGGIIYPEETIRMIYRGPPQLSDPSSIQLSSELGDINLVFNVEEVMNRAEISIIELRPRESFVVGIFSTDNPPKALIYSIDVDKSTRQ;locus_tag=LOCUS_1050;note=MGA_111
sequence06	MetaGeneAnnotator	CDS	1309	1791	.	+	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIISSSTLIQLLISIAIALGVVIVWGLYFPQFRISANQRKPNIKAEFGSNEMFEQLNYFNNRGNFNEGIVFAYNLLRNNLSTMDKYPNDESLTEYEAIKKTVKEIPELSNISGLLLSAYEQYELARFRTRTDAINLENMNKILRNITESNNFIVQRGSQ;locus_tag=LOCUS_1060;note=MGA_112
sequence06	MetaGeneAnnotator	CDS	1791	2126	.	+	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDISIILTLSLAIAAVAYSFVKRREIDSMTRHNQNSFTYDAVLDINSQKPNYYRLTQVLVGDLDNVNLRQASINKNDLRVISDSKKMVENGFVDERMFTKIRFLHSMYTRN;locus_tag=LOCUS_1070;note=MGA_113
sequence06	MetaGeneAnnotator	CDS	2130	3101	.	+	0	ID=MGA_114;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868400.1;translation=MSEMLAREVYKKINNEIEGKIIGKSFETKLLTIALLAQGHAIIEGVPGIAKTLLAKSFASILDLEFKRVQLTSDMLPSDITGTFVFNVKDQEFFFRKGPVFGNIVLADEINRGIPKTQSALLEAMQEYQVTVEGQTEKLSQPFMVIATQNPLEMRGTYPLPEAQLDRFMFRIISGLPNNEEELQVLDKYEKDSKRDLEFNSINADIIAAREEIKTQITMSKEIKEYIISIMNATRNEIEEINLGASPRSSLHLMRACKVNAALDGRDYVTPDDVKLLLFPVLNHRIIVNPDYLLRKTKPSEVFNYSAIEEIIDKAANSVKPPR;locus_tag=LOCUS_1080;note=WP_010868400.1 ATPase (Pyrococcus abyssi GE5) [pid:51.5%25%2C q_cov:92.6%25%2C s_cov:93.9%25%2C Eval:1.7e-78],MGA_114
sequence06	MetaGeneAnnotator	CDS	3098	4393	.	+	0	ID=MGA_115;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRELITRRGYSVLSSLFVFISISVISSEFIFLTISMFIFSLFLVELLIFVFSVRELSKLKIERKISKRRLFVGDTISSSIVMQNDGFRTIGLVKLSQDIPIEFKSLGKSKSYAINLAPGEKIKFEYELEAIQMGRINFGNLELNLFDKFGLFFRTREINNEEFVSVLPDLRLGRGIIDANVQLGSLSSTTRSDPLGSDFAGVREYNPGDDYRRIAWKYMAKSSKQEPRIKQFDLDQRIDVNLVILNSNTMNDGPIGERKLDSVVQAAISISSIVDNAGGSFKVIFSENNIPKTIIGNQYELCNNLYQIKAESSLNRQGLINYAITYSDPASIFLFVLDSPFPEEIGIDDFKSLYNKNLVNLFFLDTASYIPTDNNSKLQRDVVELFENEKKHLQKQLDIGKQRKFRVDVCTKDNITKNILESFSRIQILME;locus_tag=LOCUS_1090;note=WP_010868749.1 DUF58 domain-containing protein (Pyrococcus abyssi GE5) [pid:23.1%25%2C q_cov:64.5%25%2C s_cov:74.6%25%2C Eval:1.0e-10%2C partial hit],MGA_115
sequence06	MetaGeneAnnotator	CDS	4399	5352	.	+	0	ID=MGA_116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIRYKVLILFGISLPYIIQFYYVGYYNILLALISSVFGLSLYSFSTLMALLTIFTLSYRIVRGPGSLQDSLIITTLTTPVVFPSLIMLILIITSTGDLPSRYFAAAANLYLVGIAAMVIILPLLGIIVQWSGMIKSRGSPFSHILFTMIIFSLLNFVAFSSVISENINEQLISHGTNILLNGIFVVRVIIANILQTELPMAPRSLNIIQSFVWAVPVNTIFALSSALYLYLRLFGRHTIDKVNTDGSNTETFLNINNLGRISITLIFAILLNFILIFGMSTIIESVGTVIKTVNLMIVSSFVMIIGYYTYQWRNEV;locus_tag=LOCUS_1100;note=MGA_116
sequence06	MetaGeneAnnotator	CDS	5352	7022	.	+	0	ID=MGA_117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIFVIFLTLLLIIPLASSQVDSSTSFRIGYSPEKLFNSDLGIPSYLRGETIWLHLSGSHEVVLQDTNQNTVVGIRIGGNPNSIYTFDSLDALGTWRLIIDGRIYELEVANQILEVDENKVEFELINNSLIVKGEITPKFKDIPLESEIIIAKKKESGITTVQTNLLIEQANTNIDIRYSIEGKETKLFIQPYIDNVRSQGEYSEIGLHNIYAWAELTSEIALVKKTDNSRFTTYLNQPIVDTDRIYFEISNAARNGINMTVPVPGLTDSPWTVPLKYGRALLSVYLEFEGEIFVNRIPVIILEDKIIINPEVIISVNSFDDKIIYNEVISIEENMELEFLLISKINGIDRIFYDTNKPELTKINVISRTNNEKLENYNLIFVENINSIKINETTYILGKIDGMKKNYIVDLFINSFRIINPIIDTKINDNGMIEIIAEVGTARIQIVDSTGSISADGELIIRRLGTDSDEILVRNWNGSDVSVMLPNGRYLAILESDSIQGEIEFEMFGDEKDVIIVVDSMYGMSTSLWIFTLATIITIEIVVIYSIWKKNIKGI;locus_tag=LOCUS_1110;note=MGA_117
sequence06	MetaGeneAnnotator	CDS	7023	8156	.	-	0	ID=MGA_118;product=citrate (Si)-synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903548.1;translation=MLTMSNDSKSKGLADVVVSKTKITSIDGKLGNLFHCGYEISDLAKNSTFEELTYLLFHGDLPTRSELSTHENLIYSNRNVSDEIISLIKNFPSNSNTMDFLRTVVSYLSHFDPDSDNNSAEANMNKSIRLLAQMPTVLSYFYRIKNNLEIIPPDNNLDFSSNFLYMISGNRPDELSSKCLDQCLILHADHGFNASTFSARVTVSTLSDVHSAVTSAIGTLKGPLHGGANEAVLRMLNEIKDVENISGYISDKLARKEKIMGFGHRVYLTIDPRATVLREMSKDLQSHFGGNLYDLSYNIEQTLLEQKNLKPNVDFYAASVYSMLGIDSTLFTPLFACSRVSGWCAQILEQLEDNRLIRPRAEYVGYSARNYVDLDTR;locus_tag=LOCUS_1120;note=WP_010903548.1 citrate (Si)-synthase (Halobacterium salinarum NRC-1) [pid:46.7%25%2C q_cov:98.7%25%2C s_cov:99.7%25%2C Eval:2.5e-95],MGA_118
sequence06	MetaGeneAnnotator	CDS	8222	8659	.	+	0	ID=MGA_119;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKIQQLVIDLGMFAVGLALTISGSIISNGGWIMILIGLVLVAIPIRRSKGLGNFSKVSGINERNIDVNIEKESCMGVGSCVAIAPQVFKIDEASLKSSFMAYAPLEVLDKKGASNQTILEAAQSCPYKAIIVEDKDSNEQIFP;locus_tag=LOCUS_1130;note=MGA_119
sequence06	MetaGeneAnnotator	CDS	8745	9317	.	+	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSRVETEKVATWFVYVAVINTILSLLYVTVFLLPDTIGNGNIPPKGDLFSLSTAVAIFPGTWLLIAFLIHISVGILGMVGWAGTYYISSRVMNKRTTNKLLARGHLVVTALGVYVTTTFLSLAGFIGGRAMLPETACVVLVDQCMGAGVAIVQTLITFTVIPTGAGMGLALTGTAIGILNILITLRQEQ;locus_tag=LOCUS_1140;note=MGA_120
sequence06	MetaGeneAnnotator	CDS	9324	9821	.	+	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDLIETKVISKYFLVLSLINTIAAICFTLPILVPTSGLPLIIGAFPGTWLLVGYFVFLIVGVMGMLGWSIVYNSMSTMFDRQNTSKRLSIIQMVFIELSIYGVASTISFIGWQGGQALRQGLSIASVGFLIEPYVLPTGVFVALVLLGQLVGVVNIFSTIRMKR;locus_tag=LOCUS_1150;note=MGA_121
sequence06	MetaGeneAnnotator	CDS	9823	11277	.	-	0	ID=MGA_122;product=thermosome subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762709.1;translation=MRTFGPFGLEKLFVNNYGDPFVLRDGKSILEKAEFDHPIAKILLDVSETIVKHVGDGSISAILLTSFLLEQARINIEKGIHPNIIIDGYTLSLDYSLSLLDSIKFPIKHKSEWKKLAYSSLSSKFGEMESNKLSQLIIDAIYSIDPSFSDYKTTNYINVLSHGGASISDSKLVDGIIFDGDPLSKSEHLPISDVKIAILSSPLSISTDGIKKEITINDPNTLQEFKKTERQILYDYIKPLTAAGVNVLFSHKTIDDSLISKLDSSGILTVKRVPMKSLELIEKSTGCVMVNHTREISKNTVGYCSNLTSMQMYDKNWFVLDHGSNHKSNTVLIRTETQRYSDLYEDIVNRLLSLIQASIQKPYAIFGLGWFELILSNKLRSYSLSIDDLQQLAINSYSNAIELLPISLGLNAGLNNIDLIVTARNSQPSYDKYICLDYKNRKIANLRNSKIIESALMKRQILITATEAAISILRIHQVYNSKTK;locus_tag=LOCUS_1160;note=WP_011762709.1 thermosome subunit (Pyrobaculum islandicum DSM 4184) [pid:28.4%25%2C q_cov:98.3%25%2C s_cov:86.8%25%2C Eval:1.6e-60],MGA_122
sequence06	MetaGeneAnnotator	CDS	11361	12842	.	-	0	ID=MGA_123;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948370.1;translation=MSKSLSDYLSEYKWMTLIVVNIATFLAPLDTGIVALVLPNIARDFQTGIDIAIWVSVIYLIVLTTFMTSFGRFSDIHGRKKYFVVGLGIFVFGSLFSGLSQTIAELLIFRIIQAIGAALLLVNSRAIITDAFPPEERRLAMSIHVTVIYLAIATGPALGAVITEYIGWRNVFFLNVPLGLVLLPIVSSKLKESTKSLNKSMDWLGSFFFASSLSCLLIAIIFGPKESWTSIDLYIEEIFLPMFGNIHVWSRLAISIPLLLLPLLSLAFLLIFVIVEYKSKNPILDIRMLSKNRLFLSTNLTALFMYTSHYNALVMISFYLQLIRLIDPTEAAFMLSAFPLTVVITSIAVGRYSKLISSRELSALGMAIVAISLLLMSRLTVSSSVLFIEISLIIMGIGLSLFAAPNTNANLSSVKSEDRSLANGMLGTMRHLGQSLSLAIGASTVGLFLSEDIYSVGGSISVTEYVGGLSQAFFIGFIIAVIGIFIALIRGNK;locus_tag=LOCUS_1170;note=WP_011948370.1 MFS transporter (Clostridium botulinum A str. ATCC 3502) [pid:29.5%25%2C q_cov:92.3%25%2C s_cov:88.9%25%2C Eval:8.2e-52],MGA_123
sequence06	MetaGeneAnnotator	CDS	12907	13503	.	-	0	ID=MGA_124;product=proteasome subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978284.1;translation=MPYQIPGATAVGITFENGVVLGAEKRVSYGTHLVSRSGKKVFKITDTVGAVAAGMISDMNILMREVTAHAKILQLETNQPVLPNSIAKLMGVIMYQQKWFPMMTQIILAGIEDKKPAVYVLDPLGSVIPDEYATVGTGAELAIGVVESDYKKNMSEQEAVDLAIKSIRSAINRDAASGDGIDILVVTENEIREQSVNT;locus_tag=LOCUS_1180;note=WP_010978284.1 proteasome subunit beta (Sulfolobus tokodaii str. 7) [pid:44.1%25%2C q_cov:90.4%25%2C s_cov:90.4%25%2C Eval:4.2e-42],MGA_124
sequence06	MetaGeneAnnotator	CDS	13535	14575	.	-	0	ID=MGA_125;product=ribosomal subunit interface protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867757.1;translation=MIKINGSQGEGGGQILRTSVSLAVALGEPIQIHNIRSNRPKPGLRPQHLQSIKTIAELSNSTTDGLNLNSTKVSLYPNKITPKNLDINIGTAGSITLLIHSILQAVSVSGKTFMFTIKGGTDVNWSPSTDYFCRLIIPILEKFGFSITASIVQRGFYPKGNGKIIFKIKAPKQIQSISIIEPEYSNLTIDGIITSDSSNTLSQTKIEKQCLDAKTFLEEHQITVDSTHTSTHDSDSFSSGLCISSTSKHCFIGSDVLETNIKQSTTLGQKCSKKFLSEYISQCTVDHHLADMIIPFLSLSKTSSQFTTSYVSSHLQTNLDLCKFITGMNYQIDKKNKFCHIVSINP;locus_tag=LOCUS_1190;EC_number=6.5.1.4;note=WP_010867757.1 ribosomal subunit interface protein (Pyrococcus abyssi GE5) [pid:35.3%25%2C q_cov:96.2%25%2C s_cov:95.3%25%2C Eval:1.6e-50],MGA_125
sequence07	MetaGeneAnnotator	CDS	242	724	.	+	0	ID=MGA_128;product=ribonuclease H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012868935.1;translation=MIYRLYFDGSCKYKNDGSCDMGMGTVVLDSKNNILYKQGWNIPAYDHEDDSGILSNNVAEYQALFRGLDVLSLKRSDGISELKIYGDSKLVIEQVQGNWKVKAAHLKKYRDSCVAQIKLYEKEGCKVSLEWIPREENKLADRLAQNAADGMERYSNQLHN;locus_tag=LOCUS_1200;note=WP_012868935.1 ribonuclease H (Thermanaerovibrio acidaminovorans DSM 6589) [pid:35.8%25%2C q_cov:92.5%25%2C s_cov:97.0%25%2C Eval:1.8e-14],MGA_128
sequence07	MetaGeneAnnotator	CDS	755	1252	.	-	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDYPLISQLKEASDYDKIFNLVKRTVEKTISRRRAGLSLVLTEIPNHIGAYFVEGGNNIYMNITILNAMKQLTTTKEEFNSFVYSILTHEYLHSLGYSEESVVRPLVKKICEEHFGPGHITSTISSHELYSIYPKLRNLGPGRENNQNFKVIDNFDKSSMSYIG;locus_tag=LOCUS_1210;note=MGA_129
sequence07	MetaGeneAnnotator	CDS	1360	1881	.	-	0	ID=MGA_130;product=heat-shock protein Hsp20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978534.1;translation=MNKRNNFIDRIFENMFQEMQSLNSMFNNIEFPKNVESGKPYFYGYTMEVGPDGQPIVNTFGNADQFNGSPANSRPQNVSESRDPAVDVLDSKKDNSIKIIAELPGVTKDSIKVTENQGIVNITAENGDRKYNKNIPTGKKLDADKSKANYLNGILELEIPLRKSEDEKNIRID;locus_tag=LOCUS_1220;note=WP_010978534.1 heat-shock protein Hsp20 (Sulfolobus tokodaii str. 7) [pid:33.5%25%2C q_cov:93.1%25%2C s_cov:90.0%25%2C Eval:1.6e-22],MGA_130
sequence07	MetaGeneAnnotator	CDS	1935	2624	.	-	0	ID=MGA_131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPTASGHIPYVAGPNTSARNPIEIEDIHLSQVWYFEQETSDSDVWLFFNTENSDKLFIQLGVPVLDKLKNYEPTITIYHIHIANEDGAPIDFDPEDWAHLSWSFHEHANYTTNFPKPSDTCARGISRESPCIFHETFTDTYSWILSEDRLSLEPGRYLIRGTSEDKGTMWIAVGEREEFSASQLPFLMSTTSTIDSLHGNESNNNSIIIAAGAVAAFVAFVIYRRRTS;locus_tag=LOCUS_1230;note=MGA_131
sequence07	MetaGeneAnnotator	CDS	2681	3808	.	-	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPIYIIVALIFIVITGVFLITGDFFQAPQQICYLSPLEKTSIDLYYDCEDFPKDTELELAKINHDELVTYSLNLINEDRVNFNTLPVELGESSTAQEHAEELLNLCRTSYWSSNGMKPYMRYSIAGGEGAINENVRVIGTPELQKYWTQESIEQVIAWNQYSMVERDELNSFKHAMNILHPDHNYINVGIAWNDFCVAIVQQFENKYVEWSQKPVITLNKKFMLTGTINFNATIEQIDIFYDPPPLPLSDQDLMLSPANYGFGHVCTHIACSENSLPVGIVLPKSEASELEPDVLEDVLNEGSNIPLFLAQKWEVTRTEDSTTFSVEEDLTELIDFVAEASNTDGKGIYTVLVWALPEGSTTGIELTTISIFFL;locus_tag=LOCUS_1240;note=MGA_132
sequence07	MetaGeneAnnotator	CDS	3837	4619	.	-	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYTQPLILSILLLASILLVPGIKAHDGTEFEAYTSTAPTMDGVINDDEWADASTTTFSLPEGEVTIYVMNDRRSLFIAAKVADNTLDEVVNVALDIFTIDFDGRHDGQEFTVGEDTISIGARNRIGDGFVGPGLDILDDSQIDVDGMVGRIGNFNHFEISHPIDSGDANDIAASYGQTIGARFIFFDQSGSDNAVISVFPLNVGADDSSQSQWADITIATPTDDSSGSSGGLPLTEIGIIVVLLGWAAYFGSIIRKRRS;locus_tag=LOCUS_1250;note=MGA_133
sequence07	MetaGeneAnnotator	CDS	4672	5982	.	-	0	ID=MGA_134;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871121.1;translation=MSREKYNQVFDLLEQHHRWFSESIPLIASENIPSPAVREAYASDFGNRYAEGWPGERVYAGCKFIDEVELITIDLAKKLFNAEFADVRPISGVCANLAVYSAFTNPNDTMMALPIPSGGHISHGQKKFSGTAGLVHGLNIEYFAFDREEMNIDVDQSKQRIEKLIQENKKPSFAMFGGSLFLFPHPMKDLKDFLLSNDIFICYDSAHVSGLIAGKQFQDPLREGAEAMTLSTHKTLPGPQGGMVLSFDKYADDIKKSVFPGNTSNHHLHSVAGKAIAFAEMIEFGEEYSAQTVKNAQALAEALSSNGIAVLGEKHRFTASHQIAVDVSKYGDGGKFEHELEEANLIANRQLLPGDIKAGRDYKRPGGIRLGSSEVTRLGMKESEMQEIANFIHRIIVKKENPDTVKKDIIDFRKQFTKVHYAFETLADAYKYIKIR;locus_tag=LOCUS_1260;EC_number=2.1.2.1;note=WP_010871121.1 serine hydroxymethyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:52.3%25%2C q_cov:97.2%25%2C s_cov:97.0%25%2C Eval:3.1e-116],MGA_134
sequence07	MetaGeneAnnotator	CDS	6010	6222	.	+	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKFIELKIRGENVNNLTINSPMVHSVEYAPLIYYRGIFLYKSFKDTQLGVFEIIRDLVNSWNLAIDSF;locus_tag=LOCUS_1270;note=MGA_135
sequence07	MetaGeneAnnotator	CDS	6143	7462	.	-	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978992.1;translation=MEHKDIHSLANVIEKKSLSNVNNSTSNLVIDEPPPEMCFTCKGTELLCGKSRCPIILKAESMTRVSSTSDSNNITGSTPPGVFVGRHGYPKVSIGPMTPNFHGDTEILDTPEQWYGKSIDEIVDFRHSLIRGSTNIDIKQASKGGRFVENIQELAMASQPVELELKLTKKPQNRLSFNENSQPFGPSAPLDNFTTSNVTVDQRIEKAYYDRDQKSSNGIIDLYDKGVLVSRIQKTLSAGNLGIGNNRKFVPTRWSITAVDDTISKNLIEKIKDYQTIDDFRVYVLKNLDNLYVTILLPTKWQFEWIEAWYKNTTWNLWGKEPYLIGDHETYYGRKEYARVGGCYYSTRLAVAESLLSEHKQAGAILLREIHPGYILPVGVWNVRESIRHQLKTNYESFDNLSDTLNYAFSQLNIKKNQWLNSSYLLNHVLFQKRLTEYL;locus_tag=LOCUS_1280;note=WP_010978992.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:43.3%25%2C q_cov:92.3%25%2C s_cov:99.0%25%2C Eval:3.7e-93],MGA_136
sequence07	MetaGeneAnnotator	CDS	7642	8481	.	-	0	ID=MGA_137;product=metal ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966162.1;translation=MLEIFSQDFMVRALIGSVLLSITAPILGMFVVSRRISLVGDTLSHLAFAGIAIGVFLDFFPLLTTITFSIIASLLLLKLMQSNTLNSDAVLAVFFSSSMAIGTVLLSMSQEMININEILFGSLLWITNTDLIYQFIVAITIITVTTFSYKKWFILSIDQDLSRINNTNVNFYDNLLIVLTSILIVVSVRMVGVLLISSLLVLPILIALQLTNNFRNTIFIGIGISLLCSLSGVTSSYYLSSHPSIIPPSGLIVIILSALFTIILIKNNLKIDNKFESNF;locus_tag=LOCUS_1290;note=WP_010966162.1 metal ABC transporter permease (Clostridium acetobutylicum ATCC 824) [pid:30.8%25%2C q_cov:92.8%25%2C s_cov:97.0%25%2C Eval:4.4e-37],MGA_137
sequence07	MetaGeneAnnotator	CDS	8484	9194	.	-	0	ID=MGA_138;product=zinc ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001059661.1;translation=MNKMIELDGVNVIRNKNLILDNISLTINDTDFLGLLGPSGSGKTTLLKVMSGLIIPDTGKVTYYTSKKPKIGYLPQTLPSLPNSPATVMEIISSGFNSKPFTNNNEKVISMAKEMAIDHLLDLKITQLSGGQIQLIFLIRALIDSPDIIILDEPSSSIDTKSQSKIFQILTNVNKNLIPVVFSSHDTFAITNSANRIACINKKLDYHGSSKDFLSNKHLTEAYGYDVDVLSHQGHD;locus_tag=LOCUS_1300;note=WP_001059661.1 zinc ABC transporter ATP-binding protein (Bacillus cereus ATCC 14579) [pid:36.1%25%2C q_cov:98.7%25%2C s_cov:97.3%25%2C Eval:1.1e-37],MGA_138
sequence07	MetaGeneAnnotator	CDS	9272	9655	.	+	0	ID=MGA_139;product=nickel-responsive regulator 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876242.1;translation=MPIVSISLTKDFLKEMDELQNSEGFSGRSELIRAGIRALINQKVDRENLVGNMQAILLITHEEGEEHSVTDIKHEFDKITKSHLHYKLGEKKCVELLIVDGKASDIKELMRRFQTSGEVENIKLIRT;locus_tag=LOCUS_1310;note=WP_010876242.1 nickel-responsive regulator 1 (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.2%25%2C q_cov:98.4%25%2C s_cov:98.4%25%2C Eval:1.8e-21],MGA_139
sequence07	MetaGeneAnnotator	CDS	9683	10228	.	+	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTKEIAFISVFTAIIVASNYVLIAFPQIKLMDSLVFLSGYLFGFPVAATIAALSWLVYGSINPLGGAGFPLIIALMSGEMIFAIFGVLCRRVFNIENKFLKKPFETTLVLGSFGVTGAFIYDVWTNSIEGLLIYQTFDGMILRIITGIPFSIIHQISNFAMFSILVPAFIYMVTKNISTK;locus_tag=LOCUS_1320;note=MGA_140
sequence07	MetaGeneAnnotator	CDS	10225	10704	.	+	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVNKKSVILLLSAIAVLAFSGALYMYNEYRVLDQNYQAIQENIDDVSINIDFIVDFGNGTILYFNQTRIPVGFSMYDSTKFIIGEDNVDSTYYSDFDSYFVNSLLGTGNNANYAWSAWHYQQDWELLEVGTNLYIPKNGQTIAWYYQDVNEFGRGNPN;locus_tag=LOCUS_1330;note=MGA_141
sequence07	MetaGeneAnnotator	CDS	10701	11522	.	-	0	ID=MGA_142;product=methylenetetrahydromethanopterin dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878217.1;translation=MTVNITVVKTGFIGVTTLIEALLDERASRKDISVRSITSGSKMTNTDTQEVEKLSSSLDTDLYIVVSPNASLDAPKNLALNLGKIKPTILVSDSPASKIKDELVDKIGFIFVQGDPLIGIHKEFLDPIEMSNFNSDVLKVLSISGAFQTLIDEIDQVIEQLKNSQPINLPKLVIGKHTAISNSGLTNPYSKAKAMASYEIARLVARLSAEGAYKEKDRERRLLTVSASHELIRQAAKLADEAREIEKQTDSVHRKIHDSSGKTITKKKFFDSI;locus_tag=LOCUS_1340;EC_number=1.5.99.9;note=WP_010878217.1 methylenetetrahydromethanopterin dehydrogenase (Archaeoglobus fulgidus DSM 4304) [pid:47.2%25%2C q_cov:97.4%25%2C s_cov:97.1%25%2C Eval:1.4e-59],MGA_142
sequence07	MetaGeneAnnotator	CDS	11582	12412	.	+	0	ID=MGA_143;product=bifunctional protein FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q0PA35;translation=MTVVEGKKIALEILENCKHRISTLQKNGIIPYIEIILVGEDQESERYVGMKLKKIKEVGANGIIRKIDEKKSNEDIIKIVNELNVDDNVNGILIQLPLPDRFDTKKILSQIALEKDIDALNPVTLEKIDNNEESYFPAGVDAVLEILQRYEIKIEGKNITVIGISDLLGRPLSSILKHRGGNVKKIDVGDHLTFEDLVVSDIIITDIAKPEWLKPDMVKKGVVIIDAANNYIDGKVIGDVDFNQVVEKSSVITPVPGGVGPILIASLINNLVKSSE;locus_tag=LOCUS_1350;gene=folD;EC_number=1.5.1.5,3.5.4.9;note=Q0PA35 bifunctional protein FolD (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:37.9%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:6.9e-51],MGA_143
sequence07	MetaGeneAnnotator	CDS	12413	12955	.	-	0	ID=MGA_144;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQLAIVVGLLFFIITALPLTKAQNEFEPELDFRFTYLISDKSLYVGGEVVEFEAYILNNSTNHDLSVFIVANSPFLNDRVAQTDDSVTSETIIIPRNEEASIKILLPSEPDKYGKQILRISAYGTSTTDESISDEDHTLFQVTFEDKPVSRLPIIGFLIVVAIVAGFVLRSTRSELSDL;locus_tag=LOCUS_1360;note=MGA_144
sequence07	MetaGeneAnnotator	CDS	13164	14366	.	-	0	ID=MGA_145;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011403490.1;translation=MKTAIVVGAGLSGLSCAIELENNGYQVQVLEKENHPGGRVQSDIIDGYILNRGFQVLQTGYPETKRLLDYNKLELCNLDSEVWIMNNNKIKKLYDPMQDPSNLLKAAFSNVGTFWDKLRLLQLRQSTTSRSLDTIFQENEITSLEQIKNYKFSDSIINELFKPLFGGAFLDNELNTTSRMFNFVYKIFSIAPIAIPKYGMKSIPEQLEAKLESKISFNTNVIKLNNRNVFLENETLSADAIILATNHDSARKLIPSLEEISWNSTSCYYFIADSPPFSSKVVLLNGNNHGNINNVFIPTNLSKTYSPNNKSIISVSTIGLNNNETEIRNELKNWFGNQTETWKLLHTYHIEQALPRMSVPSISHSQYIDGIHMCGDYLTSSSINGSMHSGRMTAKQIISD;locus_tag=LOCUS_1370;note=WP_011403490.1 oxidoreductase (Salinibacter ruber DSM 13855) [pid:33.1%25%2C q_cov:99.0%25%2C s_cov:97.8%25%2C Eval:2.2e-65],MGA_145
sequence08	MetaGeneAnnotator	CDS	410	1210	.	-	0	ID=MGA_148;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSRKRKRNSQSNTLLKNKILAPILIAFLFGAILGYVVIQPQVNSLKTNEDILESQIIFLEDRIAELKLKESDLSQSQIIVNDLQSQLDSNNFENDALSQKISTLNTELTNLETELQNNKIQLNDSIQRAEVSEAELSKLNSRLGALTTTIEKFENDKLLLVELRKEIPSSRFEAHNHWERVKDIAVVSDPTLGPKIDKVISMIDAYYDWLDQQPGVNSTDTDFFNWIVEGNISGAINYTSEIGKFQNDALLAVIIRMDAAISLIS;locus_tag=LOCUS_1380;note=MGA_148
sequence08	MetaGeneAnnotator	CDS	1332	2153	.	+	0	ID=MGA_149;product=UPF0721 transmembrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8Y4N2;translation=MYILSTSFVAGIIGSLLGLGGGIILVPALTILFNIPIHEAIGVSFIGVLVNSSSSSLVYIKNRITDIELSSFLELGVVIGSITGAYVALSVNSNILSIIFGIVLGYVAINMYKKIRNNKESNYTELKSEDKREYFEESTKTIVTYSITKKKEGIILSSIGGIFAGLLGLGGGAIFVPIMNRIMNVPIKVAIATSSFMIGVTSLVGALIFFNNGLINIEIISPIILGIFFGSQIGSRINKVINKKLLTNIFIVVIIYIALRMILNGLEVNVINI;locus_tag=LOCUS_1390;note=Q8Y4N2 UPF0721 transmembrane protein (Listeria monocytogenes EGD-e) [pid:36.7%25%2C q_cov:96.7%25%2C s_cov:96.1%25%2C Eval:1.5e-42],MGA_149
sequence08	MetaGeneAnnotator	CDS	2150	2476	.	+	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVRNNEFEKLILLVIKTLLFISITISIVAVMIDLSYMNQYINNTILSTKLLGINFLQFIVVFTLFMIPISRLAIMIREFSKLDKYMNVVTELVVLIIILVLAARIVI;locus_tag=LOCUS_1400;note=MGA_150
sequence08	MetaGeneAnnotator	CDS	2473	2763	.	-	0	ID=MGA_151;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIAELTDGARNVEIPEAEVTEVGETRTVNTRFGTEARVADIKIKDETAEITLSLWNDDIEKVQVGTRLKIGNGYTNSFRGEVKLNVGRYGTLDIL;locus_tag=LOCUS_1410;note=MGA_151
sequence08	MetaGeneAnnotator	CDS	2843	3829	.	+	0	ID=MGA_152;product=multidrug transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060851.1;translation=MNLGLLEYGVVIISFIITYILTKLLISLLIDSKREVLDYHKEEKKYVAYPGGPAIILGLISSLLIAIIITNDTRILAILGVVIISSLIGIFDDFKSLGGRKKPLMLLIASLPIIILGAYEPNLDFLFFGAAKLSIIYPLLVLISIPVTANTINTIDVLNGVSTGFVIITSIPLLISLILIGDSNMVLVTLIFMSVCLAFFIFHRYPSKVFPGDSGTLTIGAMYGAIAIVGGVELIGVFAILPAILNSFFYLSSMKDFVEHKNIKVRPTRVLSDGTIEAESNDNAPITLVRLIVAGNPSKELSIVNTIFILSIVSAILATVMGLLTWAI;locus_tag=LOCUS_1420;note=WP_048060851.1 multidrug transporter (Methanothermobacter thermautotrophicus str. Delta H) [pid:26.7%25%2C q_cov:95.4%25%2C s_cov:92.0%25%2C Eval:1.5e-29],MGA_152
sequence08	MetaGeneAnnotator	CDS	3830	4072	.	+	0	ID=MGA_153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLIDLVLIIITAFLLVFVVSAIIFTVIIPLNNPFTFEFGEILIVIIKLITSFILFLIWILIIQKIIMRYLEKRLKETN;locus_tag=LOCUS_1430;note=MGA_153
sequence08	MetaGeneAnnotator	CDS	4069	4539	.	-	0	ID=MGA_154;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979852.1;translation=MTDIGSTIPSFELPDADGKFVNISEFKGKNIVLVFYPAAFTGVCKTELCHFRDDLSKFSNMNAEVIGISVDYPFSVKEFSTTNDINFLLLCDYNKTVIKQFDIEFSDFFSLDGYTVAKRSVFIVDKSGIIQYKWIADDPGQEPDYTEIDSKISSMN;locus_tag=LOCUS_1440;note=WP_010979852.1 peroxiredoxin (Sulfolobus tokodaii str. 7) [pid:50.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-43],MGA_154
sequence08	MetaGeneAnnotator	CDS	4558	5067	.	-	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNDNNIIADTAFIGNKVKLGNNIKIWNMAYVGNNTEIGDNVMIGSLAHVDYDVKIGSNSKIEGLVYIAPKCIIGNNVFIGPSATLTNDPYPPSTKLAGVNIEDNVVIGARSVIKAGITVGKSSVIAMGSVVTKDIPPNNVVVGSPAKIVYSRDQYDKKMKDWEGSSKY;locus_tag=LOCUS_1450;note=WP_011461011.1 transferase (Desulfitobacterium hafniense Y51) [pid:37.2%25%2C q_cov:85.8%25%2C s_cov:54.9%25%2C Eval:6.0e-22%2C partial hit],frameshifted%2C insertion/deletion at around 5074,MGA_155
sequence08	MetaGeneAnnotator	CDS	5064	5357	.	-	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKQLLNILICPSDKSPNLDLIEFETNNFIIKSGLLYCTKCIRYYPIINGIPIMVPDIQRDLIHESNFLSKWIDKIPDTIKSNSMPFNIGKINSESS;locus_tag=LOCUS_1460;note=MGA_156
sequence08	MetaGeneAnnotator	CDS	5364	6323	.	-	0	ID=MGA_157;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876508.1;translation=MKAAVVGTGSWGKHHLRVLNDLGHLDSFVEMNDERRKFYEKKYSIKGFSNIDDLVNDHDVDIVNICTPTITHFEIAKTTLSNGISTLVEKPLTYSSSQGEELVNLARENNAALTVGFVERFNPIIIDIKKNLKKQTYGDPLLIEFQRENRWAGVTKDIGVILDSSVHDIDGARWLFNEEPNIVFARTGNVLNPKASGFVGTEYEDFATIILGFKNGKTAIIIANWVTPYKVRRISVTCTDGNLSGDYMSQEIRLDDGNSVTIPTRKYEEPLVNELTSFIHAVESNTSPVVTGQDGLNTIKIAEAAITSAKRGSPIYLDL;locus_tag=LOCUS_1470;note=WP_010876508.1 oxidoreductase (Methanothermobacter thermautotrophicus str. Delta H) [pid:32.9%25%2C q_cov:98.7%25%2C s_cov:97.2%25%2C Eval:1.3e-46],MGA_157
sequence08	MetaGeneAnnotator	CDS	6346	7518	.	-	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNITLETNNSVLVYGLSTEGYMISNSLVSNSISTTILDEKLHVATEITPQILSEYSTASSIIEEEALFSIQPEKNAISENPIIFFAPKIRTNDDYKKKIFSLVSELSTELSKGTIFFNCIPLGYGQNSEMVEIIERSSGLDSQSDFIYSYTPLEPRTTKSITFGTHNLDNKKIVQNIAKNANIKFTQIYDLELSEIFHLEKISSLYSPIVAKSESLKKIKDYDKRKLIINENYYVEDLTNHLSDIRCFTSSLDSGDPSLYMMSGIMRGIDSFTRYFIDELKSFMKTNSLKASKTEIYLCWSIDKSEIRGDKSIMHENIIDKIYDVVGNINDINDFTTTKNGQASYYLPTSDKKQLLIICSKNDEKILKSFKRNLDDNMFLIHANTLCTR;locus_tag=LOCUS_1480;note=MGA_158
sequence08	MetaGeneAnnotator	CDS	7619	8707	.	+	0	ID=MGA_159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876418.1;translation=MRVWIDILTPKQALFFEPLIEALKERGDDVIVTSRRYREAELLLRKRQINAEFIGSHGGKDLRNKLSASLERSELLLELFKEDKPDALVSFSSPEAGRVAFGLGIINICVSDSPHAEAVSRLTIPLADCLLTPWIVPEKSWTIYGIERSKIESYKALDPFVWLSRRDLTERSQLGLNIDKSKTTISLRLEESFAAYMKNEQYTQEFALIQRLIEEFRNQNIVILCRYSEQIDAVLKKFKGRVVVPNDVVDGIALLQQSDLFIGLGGTMTAEASLLGTPAISFFSGSYFVERYLVSKGLLTKPRDIDGVIRVSKNFLRDPKMKKQIKMRAGRIRAGMEDPIQVIINKLDVLMREKLNQELSRN;locus_tag=LOCUS_1490;note=WP_010876418.1 hypothetical protein (Methanothermobacter thermautotrophicus str. Delta H) [pid:30.2%25%2C q_cov:90.1%25%2C s_cov:90.5%25%2C Eval:5.8e-38],MGA_159
sequence08	MetaGeneAnnotator	CDS	8829	10118	.	-	0	ID=MGA_160;product=threonylcarbamoyladenosine tRNA methylthiotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868848.1;translation=MSTGSKVYIETYGCSASFSDSEICAGQLSEAGYSIVDNPEDSDVNVIVTCTVKTATANRMSHRIKKLSETNSALVVAGCMPKTQAKEIQKINPKASMMGPDSIDQITNIVNSTLNGNQLIELGKSSKPKVLLPKIRINPVIDIVEIGTGCLSSCTFCQVKIAKGTLISYPPSSIVEQIQESTNSGCKEVWLTSTDNGCYGMDMSMDLTDLLESIVDIPNNFLIRVGMMNPMHTKKKFNKLFNIFSHDKIYKFLHIPVQSGNNRVLKSMLRGHSREDYIEMCSSFREKFPLSSIATDIIVGYPTETDDEFDDTVELIKSTQPDVVNLSKYGARPGTKAIEMEQVPNSIINNRSKFLSSLIKEISLERNKKWIDWTGNCLINEKGKIDGTMIGRNFAYRPIVLKTSDVVLGNNYKVKIIEAQSTYLIGEVL;locus_tag=LOCUS_1500;note=WP_010868848.1 threonylcarbamoyladenosine tRNA methylthiotransferase (Pyrococcus abyssi GE5) [pid:38.6%25%2C q_cov:98.8%25%2C s_cov:99.3%25%2C Eval:1.8e-81],MGA_160
sequence08	MetaGeneAnnotator	CDS	10127	10522	.	-	0	ID=MGA_161;product=PPOX class F420-dependent enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013230404.1;translation=MGIKLPEKICELIDDKNIAHFATLNKDGSPHVAPVWIDRDGDTIIVNTTSTRLKYKNVKNDKRVSLSITDYKDPYIWASIIGEVVELSDSEAETHIDKMSQKYLGIPKFPGKNSTEPRKMIKIIPLIAKHN;locus_tag=LOCUS_1510;note=WP_013230404.1 PPOX class F420-dependent enzyme (Amycolatopsis mediterranei U32) [pid:36.8%25%2C q_cov:87.0%25%2C s_cov:87.5%25%2C Eval:2.0e-14],MGA_161
sequence08	MetaGeneAnnotator	CDS	10581	10949	.	-	0	ID=MGA_162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAVFIKPPTLIIIPIAFAFYDIYAVFRGPLKSIIDSSDDSIDLRPLFINLGRFNIGTGDLIFYSMIPSSVFLLIGLPFALLSIFFIHMGMILTIYLLKHFEMFPGLPIPVFLSLIPYLLFY;locus_tag=LOCUS_1520;note=MGA_162
sequence08	MetaGeneAnnotator	CDS	11410	11781	.	-	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFSYQKELLLLFMLVGLVIIIQFLPEYQQNSDEIIFEMTTKQWEFEPNQLIVEQGQIVTIRLVSTDVPHGFAITEYNIYTFVPAGQTVDISFVATEAGVFEIFCNIFCGEGHSTHRGQLIVR;locus_tag=LOCUS_1530;note=MGA_163
sequence08	MetaGeneAnnotator	CDS	11784	12518	.	-	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDPLSLVIIVITIGIIPTFIGMFFRVLMNKYKLESNTSQSVLKNISLGIMLALFVDFIVNSSQLGVNLGMNIYSITLLSCFIFGFIFIFLLSSLNSNFSYNGVLLLALSFSFHSFAEGIIIGYDINNLGISVSLPRGIQTTSFVIHKLAEGFLIPLFYFLSLSSIVLFTLISGFPIILGSIFGLYGLPGILSSVFFAISSGAFLFVIIDYINNNQIKTKNIYDILFIMLGFVLIYMAGLLHSI;locus_tag=LOCUS_1540;note=MGA_164
sequence08	MetaGeneAnnotator	CDS	12545	13051	.	-	0	ID=MGA_165;product=ribonuclease VapC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496839.1;translation=MDSKIIIDSTAFYAGLPFRSLEEYYTTPSISDELRRVPFFNNRIETLINSNRLKIITPSSDSIKSILKQSLNIENKKSLSEADVSILALAKDFIEQYSSVTILTDDFAIQNVAKKLKILYSPLLYSGIKYSGQWILICSACNRVYQSTDTICENCGNPLKRKLQRRHP;locus_tag=LOCUS_1550;note=WP_064496839.1 ribonuclease VapC (Methanocaldococcus jannaschii DSM 2661) [pid:31.7%25%2C q_cov:94.0%25%2C s_cov:90.4%25%2C Eval:3.7e-16],MGA_165
sequence08	MetaGeneAnnotator	CDS	13041	13856	.	-	0	ID=MGA_166;product=inorganic polyphosphate/ATP-NAD kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876505.1;translation=MKLRKISSFAITSKDSSSTAKNTAITIAKRLYDAGFKIKLISPLTSSIFPTISITDKNLNVDCLISVGGDGTILKTARLLKKQIPILGIHKGGKGILTELKPNELPILIKQINNNHYFLDRRKRISVSSQSNTEIKSLNEVYIERFDKLRAVTYEINLPSTVLKNRMDGLIISTPTGSTGHSMSLGSSMLSENLSALLITPIAPISRVPPIAIPFTNFSLQAHSSTKVIIDGQVEFTVPSLEKIIINTKVPDTIFIRFSNSTLRQLTSLGF;locus_tag=LOCUS_1560;EC_number=2.7.1.23;note=WP_010876505.1 inorganic polyphosphate/ATP-NAD kinase (Methanothermobacter thermautotrophicus str. Delta H) [pid:27.1%25%2C q_cov:94.5%25%2C s_cov:93.3%25%2C Eval:8.8e-19],MGA_166
sequence08	MetaGeneAnnotator	CDS	13920	14321	.	+	0	ID=MGA_167;product=translation initiation factor IF-5A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249829.1;translation=MSKPASLSDVKIGSYIIIDGEPCRIIEYDKSKPGKHGSAKARVVATGVFDGSKHSMVSPVSAGIEIPMIEKRTGQVISINKEQEIIQLMDMETFETFDSPPPSHDQEVNNKLAEGDEVEYWKVLGKTKIMRIR;locus_tag=LOCUS_1570;note=WP_011249829.1 translation initiation factor IF-5A (Thermococcus kodakarensis KOD1) [pid:54.7%25%2C q_cov:95.5%25%2C s_cov:92.6%25%2C Eval:9.0e-34],MGA_167
sequence09	MetaGeneAnnotator	CDS	672	1127	.	-	0	ID=MGA_170;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064485.1;translation=MPKFGYSFKEYDPVVHARAAGREINMSPKAAREVCNTIKGKKLSDAINLLEDVIVMNKSIPFRRHKKEVAHRRSTDKFHAGRYPVKVAKHISLILNEVESNADFKGLDISNLRIIHAATHRARTIPGYIPRAMGRSSPMMHELVHIEIIAG;locus_tag=LOCUS_1580;note=WP_048064485.1 50S ribosomal protein L22 (Archaeoglobus fulgidus DSM 4304) [pid:46.7%25%2C q_cov:99.3%25%2C s_cov:98.0%25%2C Eval:2.2e-37],MGA_170
sequence09	MetaGeneAnnotator	CDS	1203	1598	.	-	0	ID=MGA_171;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250489.1;translation=MAKEFKYRGHSMKELQSMSLEEFLKLVPSRQRRSLTRGLSDNKKKILSQVDNINNNSSDQPIRTHSRDLILLPKMLGLTIHVYTGKEFVPVEVKPSMIGHYLGEYAITNKKVQHGTPGIGASKSSLYVPLK;locus_tag=LOCUS_1590;note=WP_011250489.1 30S ribosomal protein S19 (Thermococcus kodakarensis KOD1) [pid:62.8%25%2C q_cov:98.5%25%2C s_cov:97.0%25%2C Eval:2.5e-44],MGA_171
sequence09	MetaGeneAnnotator	CDS	1601	2344	.	-	0	ID=MGA_172;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875647.1;translation=MGKRILVQRRGDGGMRYRSHNKGKIAPASYPFIDSNNTTTGIVKDLLHERGRSVPLAKIVFNNKTSYLPAVNGLKVNQEISIGSDSEIQDGNILPISAIPEGTSICNIEKLYGDGGKIAKSAGTSALLYSKTAAGSIVRLRSGKSIIIQQNCRATIGAMAAAGFKEKPFLKAGNKAHYAKAYGILHPKVRGVAMGSHYHPFGGGRHQSPHQSTSTSRNAPPGRKVGSIAASKTGPGRTRRKSRIAEV;locus_tag=LOCUS_1600;note=WP_010875647.1 50S ribosomal protein L2 (Methanothermobacter thermautotrophicus str. Delta H) [pid:46.5%25%2C q_cov:96.0%25%2C s_cov:100.0%25%2C Eval:6.2e-53],MGA_172
sequence09	MetaGeneAnnotator	CDS	2346	2612	.	-	0	ID=MGA_173;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867462.1;translation=MRPDQAASIILRPYVTENTFDRIEKENKLVFLVSNDATKNTIKQALSILYEVKVKAINTTQTIQGKKAFVTFGDDESALDLATKLGVM;locus_tag=LOCUS_1610;note=WP_010867462.1 50S ribosomal protein L23 (Pyrococcus abyssi GE5) [pid:43.8%25%2C q_cov:89.8%25%2C s_cov:93.0%25%2C Eval:5.6e-12],MGA_173
sequence09	MetaGeneAnnotator	CDS	2602	3402	.	-	0	ID=MGA_174;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867463.1;translation=MMLPVYNLDGKEVEKIQIPLVFSTPYNPRLIKRAVLAIQSHNRLPKGTDPLAGERSSSESWNTGRGISRIGRIKSHSGPRAGSAAGVAGVTGGRTPHPPVSSKNIYHKLNKKEKTSALMSAISASMNRDFVINRGHKIDNLVNLPLVVVDDLESMNRTKDIRITLTNLGLSDELERLSQVRLRSGKSRLRGRSRKIKKGPLIVCSQDLGIGDSCKNLLGVDLVEAKNLNVSDLAPGTDAGRLVIWTKNSFSNLSSNILKAVEINAS;locus_tag=LOCUS_1620;note=WP_010867463.1 50S ribosomal protein L4 (Pyrococcus abyssi GE5) [pid:40.6%25%2C q_cov:95.1%25%2C s_cov:98.0%25%2C Eval:9.7e-47],MGA_174
sequence09	MetaGeneAnnotator	CDS	3399	4403	.	-	0	ID=MGA_175;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875644.1;translation=MGRKHSAPRRGSLAFRPRGRHGTLNARIRNWPNVKSEEPTLLGFMGFKVGSINVLTIDNVDKSPTFGKPIFNHATVLSCAPMTIVGLRAYQNSIDGLSVFSESYTTQLPKELSRKQKLKSDSDSNLIKIKDNLESLDKVFAIVSVTPKQAGLSQIKPYLFEIGIGGVDLESQFNYLNDNLGKNINVSDIMKPGMLVDALGVTKGKGWQGPVKRFGIKKKQHKSRKTVREVGTVGAWSPQNIMYTVPRAGQMGFHQRTEFNKKILYIANEKEQSVNPNGGFTHFGLVPEDYVIVKGSLPGPIKRPVVLRYPIRSKTTKSDVPKVLKISTQKGELE;locus_tag=LOCUS_1630;note=WP_010875644.1 50S ribosomal protein L3 (Methanothermobacter thermautotrophicus str. Delta H) [pid:42.0%25%2C q_cov:97.3%25%2C s_cov:97.6%25%2C Eval:1.6e-71],MGA_175
sequence09	MetaGeneAnnotator	CDS	4485	4796	.	-	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSETKKDTKSSWNKPKATSDTKSSNKPKERSIEDVNHGLSMPNVDETKLKELFGGTKAITLYETTRILNINASIANQFLHDLESKNLITRVGGYSGHYIWKLI;locus_tag=LOCUS_1640;note=MGA_176
sequence09	MetaGeneAnnotator	CDS	4884	6635	.	+	0	ID=MGA_177;product=putative DNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67398;translation=MDYNIVAQAYENMEKTRKRLELLEILSSLLKKTPLNALEIVIYLTQGKIKPDFYGIELGMSDKLVIKVLEKSTSMTRDRIQEEYKKTGDLGEVTRIALSNKVQTTLVKNELTVERVYKTFEEIANTTGHGSVDMKIAHLSGLLSDCTPLEGKYIIRTLTGLLRLGIADYTVLDALAVTYTDNKSNRKYLERTYNISSDLGRVAKIVAENGLKGLEEIDIVVGNPIRPMLAERLSSSQEIVKKVKEKMSLEYKLDGERLQIHVNKKQVSIFSRKLENITNHYPDVSTIISEIDVDNMILEAEAVAIDKENGSYLPFQELMHRRRKHKIEEAVKNYPISINLFDIIFLNNKDLTNLSYEHRRKILNEIVDKNTKLMIVKNKITQYAEEIDDFLELAIEEGCEGLVIKDLQGVYRAGAREYLWIKLKREYKSEMSDTLDLVVIGAIYGKGKRANKYGALLLAVYDKNQDMFRSFCKVGTGFSDEQLKIIYDKLQRSIINNKHAMVDSRMDVDVWFEPNLVLEITGSEITISPIHTSNMNEIRKNFGLALRFPIFTGRIREDKKAQDVTTTKEIMNEYEKQLKKVKN;locus_tag=LOCUS_1650;gene=lig;EC_number=6.5.1.1;note=O67398 putative DNA ligase (Aquifex aeolicus VF5) [pid:45.2%25%2C q_cov:99.3%25%2C s_cov:99.1%25%2C Eval:2.9e-144],MGA_177
sequence09	MetaGeneAnnotator	CDS	6674	7327	.	+	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFSGGSEDKARGKTQAVLLDETRKVLDSSRELVNVFNAVILNDEKKILNSIKKIGEAEDEVESYRRALTRELAEVGSLLMNREDLLKTAYEIEEIAGYTSGVAFRMSIVDSKSLKKSSIKKEFEELLNMIIELVHKLNEMVRSLAVNPDNVIQIANELQKIERETDVKYRNLVKIIMKEIKEAKDAMLLKDAAEHIEEMADRCSAAADSITIIAIGL;locus_tag=LOCUS_1660;note=MGA_178
sequence09	MetaGeneAnnotator	CDS	7329	7889	.	+	0	ID=MGA_179;product=tRNA-intron lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978320.1;translation=MPDKLFKGELVENRIVIWDIEDSKKIFGNGYFGKPLGVPKPKGTDFDAPLILDLIEGYHLVEEKKLTIRDSVSGKIISKKKLIEKCKNEYVLFKEKFLVYKELRSRGYIVTPGIKFGSDFAVYERGPGIDHAPYIIQVMLPQSNLTATGIVLAGRLATTVKKKFLIAVVKDSNEEVEFLSFEWWRA;locus_tag=LOCUS_1670;EC_number=3.1.27.9;note=WP_010978320.1 tRNA-intron lyase (Sulfolobus tokodaii str. 7) [pid:37.9%25%2C q_cov:94.6%25%2C s_cov:97.2%25%2C Eval:2.0e-32],MGA_179
sequence09	MetaGeneAnnotator	CDS	7926	8744	.	+	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978333.1;translation=MKDNLVEENDYVLFYLTPRKKWLIQVTPEKQIHTHAGFIEAKDVIGKEYGQSVITNTNNEIYLLYPRLNDYIFKSKRATQILYPKDMAIIASWTDLSHGKNVIEAGTGSGSLSCVIANLIRPDGHLYTYDIREESHEIAKKNIEKAGLSEFVTLKNKDAKLGLEERNMDVAILDLGDPWTLVKSMKDSLRPGGTLASVSPTINQVEKLVIELQNEGFIEIETLEILMREMEVREGKTRPAMRMIGHTTYLTFARKSLDTVKVSIVRREEDEN;locus_tag=LOCUS_1680;note=WP_010978333.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:38.7%25%2C q_cov:93.0%25%2C s_cov:98.4%25%2C Eval:2.5e-50],MGA_180
sequence09	MetaGeneAnnotator	CDS	8734	9318	.	+	0	ID=MGA_181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTDTVEDISFLLYLAPVVFYGVNTVLDLMVVGLTFQESFLSVTRNPIWLIGSLVAISLALILHLRETNENDRNSIVVMHSKRMRMIGIVVLLISLGEAIMVSDAESNALGLFITGRLPILFTAVMFLQSAFIQIPFSAKPDNKKFTMSVISSILILSSPAVYYLTDFVGLPFVVNLTASIALIIFGSLLFTRS;locus_tag=LOCUS_1690;note=MGA_181
sequence09	MetaGeneAnnotator	CDS	9315	10118	.	-	0	ID=MGA_182;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000323544.1;translation=MDDLLNKRAFLLDIEGVICESIDKEISLPLVEEFISKLQLNNIKIAIVTNISRNPKAVVLNKLQSMNLTIKPNELYTSGSTTTSIIKENYDNPHCFVISEWGLKKDLEDAGIYLSNNDANIVVVGANRNLTYRELNHAMRLVLNGAELICSGTTQYFKGTHNSETGYFLGESAIAQAISHATGKSIRYIGKPYPEIFNQVLSDLNVTADEAVMIGDNLTSDIRGANSLNITSILTTNDNLVNLDSIQDSDKPTYSIKNIEELYKKLF;locus_tag=LOCUS_1700;note=WP_000323544.1 haloacid dehalogenase (Streptococcus agalactiae 2603V/R) [pid:28.2%25%2C q_cov:95.1%25%2C s_cov:96.5%25%2C Eval:3.2e-21],MGA_182
sequence09	MetaGeneAnnotator	CDS	10181	10735	.	+	0	ID=MGA_183;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879766.1;translation=MSYKSLDELSKDVLKCKKCELYKTRNKAVPGTGKKSNTTIFIGEAPGAEEDMKGIPFCGRGGKLLRNSIKEIGLKESDVYITNLVKCRPPNNRKPSKNEIESCNKYLQEEIRIIKPKITVLLGKTAIKNQHEDVLLKEQHGKIIGKEGNKYLLTYHPAAILRNQTKISTFINDLKSIMKFHKKK;locus_tag=LOCUS_1710;note=WP_010879766.1 uracil-DNA glycosylase (Archaeoglobus fulgidus DSM 4304) [pid:39.0%25%2C q_cov:98.4%25%2C s_cov:95.5%25%2C Eval:2.3e-36],MGA_183
sequence09	MetaGeneAnnotator	CDS	10745	11395	.	+	0	ID=MGA_184;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066030.1;translation=MKTVLQKMKKMVENKQTKKLTMLGEIEKEGSPFKVLISTILSSRTKDDTTFGASNRLFNKYKNPEELSKAKTVDIKRLIKPVAFYKTKSKKIKQVAEIIHKEYNDDVPIEMEELLDLPLVGRKTANCVLVYGFRKPAIPVDVHVHRISNRLGIVETESPEETEIELAKIVNRKYWIQINEYFVRFGQLICKPINPRCNECEFNNTCKYSQDIKKNN;locus_tag=LOCUS_1720;note=WP_048066030.1 endonuclease III (Methanosarcina acetivorans C2A) [pid:50.8%25%2C q_cov:84.7%25%2C s_cov:89.7%25%2C Eval:5.5e-49],MGA_184
sequence09	MetaGeneAnnotator	CDS	11399	12100	.	-	0	ID=MGA_185;product=flavin-dependent thymidylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9WYT0;translation=MKIEVLDSGFVEVIDSLGNDLTVVNSARVSFGKRKTTYEEGDRKLVQFLAKYKHYSPFRHMVVQFHIKAPEFVMRQWYKHVVGIETTSSSATKDHAWNEISGRYVPVKDFYKPLVWRQQSIDNKQGSGEDMPENLNNQCQEIFDNFMQNVEESYENLLKIGVAKEQARTILPLNQYTEVYWTASFQAIMNFLELRTEKTAQWEIQQYATAIKKLISDIYPETTDIWFNTHDLQ;locus_tag=LOCUS_1730;gene=thyX;EC_number=2.1.1.148;note=Q9WYT0 flavin-dependent thymidylate synthase (Thermotoga maritima MSB8) [pid:41.5%25%2C q_cov:95.3%25%2C s_cov:91.4%25%2C Eval:6.4e-41],MGA_185
sequence09	Aragorn:1.2.38	tRNA	12179	12253	.	+	.	ID=Aragorn_2;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0020;note=Aragorn_2
sequence09	MetaGeneAnnotator	CDS	12346	13194	.	+	0	ID=MGA_186;product=formyltetrahydrofolate deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903430.1;translation=MKRADISIIGPDRKGIVATITNFIFENQCNIEEVSQNVVNSTFFMNIKISINKKKFDKEEFNKGLGKESKNLGMKSRVFYDEQKQKKNMAILVTKEDHVLIELLKANKKGKLNVNIPIVIGTTEILQNICKKHKIKFISIKDRKQGLREDKILKILDENNVDFIVLARYMKILSPKFVWNYPNRIINIHPSLLPAFPGAMAYMQAFEKGVKISGATSHFVTVDLDQGPIITQEAFTLDTTKSLEEIKNAGRDCENKALIRAVTLFVNNKLECRWGKVIINKN;locus_tag=LOCUS_1740;note=WP_010903430.1 formyltetrahydrofolate deformylase (Halobacterium salinarum NRC-1) [pid:39.5%25%2C q_cov:97.9%25%2C s_cov:91.1%25%2C Eval:2.4e-51],MGA_186
sequence09	MetaGeneAnnotator	CDS	13191	13523	.	-	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKRSSDDLIDALINEGRVKLHKFQPSGRELWTVVGNYGDHLIFIHGDYCSCRGFYFSLIRQNSSSCYHLKAYKIAKQQKKYSSIEISDSDYEIFLKLLTQSIKKQMQLN;locus_tag=LOCUS_1750;note=MGA_187
sequence09	MetaGeneAnnotator	CDS	13562	14308	.	+	0	ID=MGA_188;product=phosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020802.1;translation=MIRILYPEPALVLSNENYKHIVISDLHIGFEERFNKQGISIQSSTEKMKNILEELIERESPDSVIVLGDIKDSISSITKSERIEVPKFFREISKLSNVVVIPGNHDGNISYLLPENVEIVDKRGIMIDNTVLLHGHTNINETFKDVKRIIIGHLHPIYNQQDSPLSGYQIWSILKAKTNVLSENNKEEIEIITVPSFNKELTASGFSIHRKKNICPIIRKTRSEINDAVFLTLEGDIIGDINSLSEII;locus_tag=LOCUS_1760;note=WP_011020802.1 phosphoesterase (Methanosarcina acetivorans C2A) [pid:23.3%25%2C q_cov:96.8%25%2C s_cov:89.4%25%2C Eval:1.9e-17],MGA_188
sequence10	MetaGeneAnnotator	CDS	663	914	.	+	0	ID=MGA_190;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877700.1;translation=MPQDDSSIKPTATIDMKGLLCPEPVFRTRQTIKEMNIDEVLEVLADDPVAEEDIISWVKKSENELISFNKDDKLLKFLIRKVK;locus_tag=LOCUS_1770;note=WP_010877700.1 hypothetical protein (Archaeoglobus fulgidus DSM 4304) [pid:49.3%25%2C q_cov:84.3%25%2C s_cov:92.2%25%2C Eval:1.8e-13],MGA_190
sequence10	MetaGeneAnnotator	CDS	939	2672	.	+	0	ID=MGA_191;product=2-oxoacid:ferredoxin oxidoreductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065602.1;translation=MPKNEVILRVGGAAGDGIASTGESFAKICSRSGLHLLAYNSYQSVIRGGFIYLQLRAGREKVYSHGNKVDFLIALNPLEFQRNIVDVVPGGAVLYNSDKIKPDPDKIPKDIILCPLPVNEILKDIGKNPILQNTVALSSLVQLLNLDVDVMNGVIRDYFGKKKQSVMDINLKVIEAGYEYSKSNLPNFDFDLQPDYNIKRPVLTGNQALGFGSILAGCKFYCAYPMTPASSILHYLIAQSKKSGMVVKQAEDEISVINMAIGSSFAGVRSMVGTSGGGFALMTEAIGLAGQTETPIVVINSMRGGPSTGLPTKTEQGDLFQAIGASQGDFPKVIIAPSTIEDCYYSIIESFNLADQFQIPVMVLSDLFLSEHMESIEDLDFNSTIERGEIVTSNDSDKLYKRFKYTDTGVSPRAFPGTSGTVFQASSDEHDDYGNIISDVFTDSETRIKIMLKRMRKMKFIEKQLPPVKLEGPVDADLTLVSWGSTYNVVHEAIQILQNNSKNVNHLHIKYLIPLQKGIKEILSNSKDTLIIEANYSGQLSKLISMETGFQINHTLFKYDGEPFYPEQIIDKVEDLI;locus_tag=LOCUS_1780;note=WP_048065602.1 2-oxoacid:ferredoxin oxidoreductase subunit alpha (Methanosarcina acetivorans C2A) [pid:40.6%25%2C q_cov:98.3%25%2C s_cov:97.9%25%2C Eval:4.3e-116],MGA_191
sequence10	MetaGeneAnnotator	CDS	2673	3548	.	+	0	ID=MGA_192;product=2-oxoacid:ferredoxin oxidoreductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000190138.1;translation=MVVEPVKIEEYKSEITPTWCPGCGDFAVLRGIHTALARLKIKSENVVISSGIGCSSNLPGFVNAYGFHGLHGRSLPIANGIKLANTDLTVIATGGDGDGYGIGLGHFIHSMRRNIDITYIVMNNQIYGLTTGQASPTSERGMLTKSTPSGLLEVPVNPIALALISGATYVSRGFSGNADHLSTTIENALSHKGFSLVDVLSPCVTYNKIQTYQWFRDRVYTLEDEEHDTNDLKQAISKSYEWESKIPIGVFYKADKPTYDGDEPALQDGPLVTQPLDTGKNIAKQLLDEFT;locus_tag=LOCUS_1790;note=WP_000190138.1 2-oxoacid:ferredoxin oxidoreductase subunit beta (Staphylococcus aureus subsp. aureus N315) [pid:46.6%25%2C q_cov:96.9%25%2C s_cov:98.3%25%2C Eval:2.6e-75],MGA_192
sequence10	MetaGeneAnnotator	CDS	3556	4194	.	-	0	ID=MGA_193;product=octanoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZVC9;translation=MNSLNIIDLGLIEYQRALDIQKTLVKERLDNSILDTLLLLEHPHVITLGRQTKPEDVLENSIPIVEIDRGGSATYHGPGQLIGYIIMDLKSKGISVPTLISKIHKSMILTLEELDINAKRKKKSPGVWIEQKKIASVGLSVRNWITYHGFSLNIDTDLDKFMSIRPCGYDSQIMTSINSMKKEKVSKELIKSSIIKNFAKVFEYYKIEKKIV;locus_tag=LOCUS_1800;gene=lipB;EC_number=2.3.1.181;note=Q5ZVC9 octanoyltransferase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:41.9%25%2C q_cov:87.7%25%2C s_cov:95.5%25%2C Eval:2.3e-36],MGA_193
sequence10	MetaGeneAnnotator	CDS	4181	5344	.	-	0	ID=MGA_194;product=dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P21883;translation=MVYNFKLADIGEGIVEGEVSKWYVKVGDIVKENQPLVEIITEKVTVELPSPADGTIMKIGPEAGKIVKVGEVIVVIDDGKEEDDTIEDSNDNVSEVKSKDIIKEIKNKKIIATPAVKRVAKEMGIDINKVVGTGEDGRITEKDVKLYSKLEVQSNEERIAFRGTRKTIAERLAKASNRVVQAWIMEEIDMTRVTELKDKLKKSSTEDIKLTYMPFFVKAVIRSLKSNPRINASLDEESEAIVIKKDYNIGIATDTEQGLVVPVIKKAQDKDITEIAKEIEELSLEAKSGKLNLEDTQGGTFTITNIGAIGGISSIPIVNYPEAAILAINKIMKKVVLWEGEIVARDRVYLSLSFDHRLLDGADVARFLNSIRKCLEDPESLMKDEQS;locus_tag=LOCUS_1810;gene=pdhC;EC_number=2.3.1.12;note=P21883 dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex (Bacillus subtilis subsp. subtilis str. 168) [pid:33.6%25%2C q_cov:99.2%25%2C s_cov:99.8%25%2C Eval:9.1e-69],MGA_194
sequence10	MetaGeneAnnotator	CDS	5353	6327	.	-	0	ID=MGA_195;product=2-oxoisovalerate dehydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5SLR3;translation=MEMTLNQAVKSALDNEMEKNDKIVLIGEDIGKNGGVFRTTEGLYDKYGPKRVIDTPLNESGIVGTAIGMSLYGLKPVVEIQFMDFIFPAFDQIVSDLSKFRYRTGGAYTCPMVIRAPYGGGIKGASYHSQSGETHFVHTSGLKVVVPSTPYETKGLLISAIRDEDPVIFFEPKRFYRALKEDVPDEAYTIPIGEARIIQEGSDVTLISYGPMIQTSIEATEIVKKEGTSVELIDLRTLSPLDSKTIIKSVKKTGRAVIAHEAPKTLGMSAEISALIAENCLEYLEAPIQRATGLDTPFPYSLEKEYLPDAKFLTNKIKQTVEYS;locus_tag=LOCUS_1820;EC_number=1.2.4.4;note=Q5SLR3 2-oxoisovalerate dehydrogenase subunit beta (Thermus thermophilus HB8) [pid:54.5%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:5.8e-103],MGA_195
sequence10	MetaGeneAnnotator	CDS	6331	7236	.	-	0	ID=MGA_196;product=lipoyl synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010903644.1;translation=MPRRALSNNQIKQKLQKPDWIKVNFVQGDNYKKVKEASKTLNLNTVCQEANCPNIYECWDGGTATFMLLGDICTRGCRFCHVKSGNPKGIVDIFEPENTADAVKELGLDYVVLTSVDRDDLNDGGATHFAETVNQIYKKNKNTLIEVLIPDFSGSEKNLSIVTDAKPTVIAHNIETTRSLTSKIRDGRASYERSLQVLKNVKKLDSGIYTKSSIMLGFGEKYSEVIQTMRDLRGVEVDILTIGQYLQPSDFHISIKEFVHPDEFIKLKDVAEDMGFKYVASGPLVRSSYKAGEYFVKNLVK;locus_tag=LOCUS_1830;note=WP_010903644.1 lipoyl synthase (Halobacterium salinarum NRC-1) [pid:52.9%25%2C q_cov:95.0%25%2C s_cov:92.9%25%2C Eval:2.5e-81],MGA_196
sequence10	MetaGeneAnnotator	CDS	7321	9018	.	-	0	ID=MGA_197;product=acetolactate synthase%2C large subunit%2C biosynthetic type;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868462.1;translation=MLKNISELTGSDALIKALENEQVEGIFGLPGGANLPIYDSLYDSDIRHLLVRHEQNAAHMADGYARASRKPGVCFATSGPGATNLITGIATAIADSSPIIAITGQVASNMIGKDAFQECDIIGIATPVTKYTYQPLTSAEVPQVVKNSFHIATSGRPGPVLIDIPKNAQTEKMKINFPTKPNIRKLQQLQTADLKEIDKAADLLLNAERPMIMTGGGVIISGAFKELQAVAEFLVSPVVSTFKGKGGFSETHYLSLGPIGMHGHIEANKLVIESDVLLAAGARFSDRSVGKWDEFGNEMTIIHADIDPSEIGKNKNADIGLIGDIKTTLSLLLSAMEKKAQKRQSEYAWINRVNEIKDIWRSKPLPAPREITGPRLLKKMREILPNSCLVTTEVGQHQMWASLHFDVAEPGTFFTSTGLGTMGWGLPAAVGAKFARPDLPVIDIAGDGSVQMTESALATSVTEKLPVITVIFNNGMLGMVAQWQRLFYERKYIGVELEGIPDYVKIAEAYGAQGIRAQSMNEFEKALKNALNSDVATVIDVPINPDEDVFPFVVPNTALKDMVIA;locus_tag=LOCUS_1840;note=WP_010868462.1 acetolactate synthase%2C large subunit%2C biosynthetic type (Pyrococcus abyssi GE5) [pid:52.0%25%2C q_cov:98.4%25%2C s_cov:99.5%25%2C Eval:2.6e-166],MGA_197
sequence10	MetaGeneAnnotator	CDS	9193	9612	.	+	0	ID=MGA_198;product=hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979519.1;translation=MTKKCVFCEIINGDLDAHIVFENDFLISFMDKYPLNRGHLLVIPKYHYQFITDMEDKDVAKLFEIVNMLSKHVWKAIDADGINISQSNGIAASQDIFHVHIHIIPRFLNDAENDSWPARKNFTNEELQKISFLIKSSIN;locus_tag=LOCUS_1850;note=WP_010979519.1 hydrolase (Sulfolobus tokodaii str. 7) [pid:41.5%25%2C q_cov:87.8%25%2C s_cov:86.5%25%2C Eval:1.0e-24],MGA_198
sequence10	MetaGeneAnnotator	CDS	9895	12543	.	+	0	ID=MGA_199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFLLISSSVFVSFPLVYGAGGSSITNAVELTTGKTSATWSTGTEYYKINVLAGRTISLNVDLFSGTDIDLYLYDPDSSDTDKIQLASSINGNGIDENIIFTATKSGYYFIELTGNRWSGLGTYDFNVFITDFDFVFSDWGTQTNPVEVTPGDLGNNLQIVLRNGGDFDVNDLSVKLVLPDVLTNRTGGNILSAISTTTTAVSSTTTFNFLVNINDQASIGTLSIPLTINYQTTDDLTGISISKEINVHISGRSFLKLTSSTQLLLPDESNDVEFIIINEGTANTGSIDLTLTIPSPLNLLGSDNKWQLSSISPTKQTSISISLFAPISTAGNNYQITATMVYDNSFGTQITETRTIFLRVSEITNKGIVVVDTFWGSPNDQISVEPGDNSVKLNVIIQNRDTGPISGIQGKLLSNNQFSASNGANSLNGFFGSTVPSGSTSSADFLIDVSDTIQLGEYILQLDFSYLDKDSILQSEIIDFSVVVDGKSDIELSIQNNILTSGTENELILDISNLGTAPAYSISLSISYGTSSGILGTSLDDNTRKIDHLLTNEKLSLTFPTYVSPNAQKGLYPITIIVEYRNINGLQKTISQEFAVIVKDWSSPFSINIPDNILQSGRITSTLINLENTGNEDISDISIDLQFSTSQSSALPIFLNSGSNTWKFNQLNSGDSLTLNPEIFASLSAADTSSVVQVHISYIDSHGFPHDEIRTVGFTVRGLIDLTYKSVEFDREILPAGFNATIVGNLLNQGNTDAQFLSISIIDGDGIILTSDSTQYIGEVDADSLIPFSLKFTIDENARDGTTPLVLQVVYEDTYGNKFVHTSSFDFLIGGSLSDLQPVIIDEPSGTSALLSSPFAIIGVGAFVILITIFILRRRSSKQPF;locus_tag=LOCUS_1860;note=MGA_199
sequence10	MetaGeneAnnotator	CDS	12555	13268	.	+	0	ID=MGA_200;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:NP_269980.1;translation=MSSVILQTESLRKVYSGGGLDTIALDDVGIKIDSGEFIAIMGPSGSGKSTLLNLIGALDSPTSGKIQIDGIETTTLNSAGLALLRNKKIGFIFQSFNLISRFSALANVELPLSILGVNARERKKRAYEMLKLVGLEDRWQSNPNQLSGGQQQRVAIARALSVDPPIILGDEPTGNLDTKTSRSIIDLLSNLNQDVGKTVILVTHDPEVAMRCSRVITVKDGNIDDHDYDLKNKKTIS;locus_tag=LOCUS_1870;note=NP_269980.1 ABC transporter ATP-binding protein (Streptococcus pyogenes M1 GAS) [pid:53.3%25%2C q_cov:94.9%25%2C s_cov:100.0%25%2C Eval:1.4e-62],MGA_200
sequence11	MetaGeneAnnotator	misc_feature	1	596	.	+	.	ID=MGA_202;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010868185.1:type 2 isopentenyl-diphosphate Delta-isomerase,WP_010868185.1 type 2 isopentenyl-diphosphate Delta-isomerase (Pyrococcus abyssi GE5) [pid:43.5%25%2C q_cov:97.5%25%2C s_cov:51.4%25%2C Eval:8.0e-41%2C partial hit],MGA_202;locus_tag=LOCUS_1880
sequence11	MetaGeneAnnotator	CDS	597	1640	.	+	0	ID=MGA_203;product=geranylgeranyl diphosphate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010888034.1;translation=MTHNINDILSEPEIQANKKLIDDTIINFLPLDHKIKEINLLYNMMRDYPLRPAKGIRSSICLFTSQAFGGTIDDALLTASSLELFQNWILIHDDIEDESELRRGQPVLHRKYTIPLAINAGDSLHGRMWSLLHGNHSLLGSELALDIIDEFIHMLNETTEGQHMELSWSTTNDLNISEEDYLVMCTKKTSWYTCITPFRLGNLVAEKHKINENKFVDFGTNLGIAFQIRDDILNLTADSKYGKEYAGDLIEGKRTLILIHLLESSNTSDREFIELFFNNSREFRENNSQKLLDLISKYKSIDYATNVCNQLSDKALSEFDNIFSDLPDTRARLLLNNITKYMVSRNW;locus_tag=LOCUS_1890;note=WP_010888034.1 geranylgeranyl diphosphate synthetase (Deinococcus radiodurans R1) [pid:38.4%25%2C q_cov:92.5%25%2C s_cov:97.0%25%2C Eval:2.7e-53],MGA_203
sequence11	MetaGeneAnnotator	CDS	1644	3374	.	+	0	ID=MGA_204;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867608.1;translation=MVNSEIEELVFKHSLFNASQHAGKANLGSIINKLIAEKPELKSDIKNLMNEIKPIIENVNSMSPEEQIELLNKDFPDMKSEPQITEKFPLPSLPNFASYSTIITRFSPNPNGYLHIGHVKAFRLDYRYTQKYSGKLFIRFDDTNPVAIEQKYYDKIIDNLTWMGIKPDKITYASDYLDKIYEIATKMFHDGHLYICECNSDIIKNNRFKKQICEHNLSDSSTQQLSDFFSSSIDAVVRFKGNMESDNTAMRDPIMLRSVNENHPRTGSKYHIWPTYDLAAPITDCLEEVSHALRSKEFELRDELYNKITQIIFDQGKIKYRPSLVSFSRLSMKGSPTSKSNIKSLIDRGQIKNWHDVRLVTLSALHKRGFTPKGISNFVDSLGLSKSESSPDFELLSSFNRKARDKFDKRYFFVPNPIKLQINNIPMKSVTLKHHPTENLGDRTIEISDEIYVSQNDINPLHEGDEIRLMDLFNIKIINKTNTIKADYISTEPLSTLKKIQWVSNDGIDFNLLVPDNTKYKINSDNSFEFLTDSLTTLSGIAESQCKNLSEGDMIQFNRIGFCRVISNQSAILSHK;locus_tag=LOCUS_1900;EC_number=6.1.1.17;note=WP_010867608.1 glutamate--tRNA ligase (Pyrococcus abyssi GE5) [pid:33.5%25%2C q_cov:99.3%25%2C s_cov:99.8%25%2C Eval:1.3e-83],MGA_204
sequence11	MetaGeneAnnotator	CDS	3381	4649	.	+	0	ID=MGA_205;product=nucleotide pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978530.1;translation=MTYIHQEYQDKVWNEINKSNFQSYHKPHYKKYSLANIAPTILSHFGKKSKNIINDNPIQTSLDGCESIVLLLIDGLGFNLIKNSLHNELLKQLYFNNVVIPITSTFPSTTSTALSTVNTGMTPQEHGIIGHTMYLRKYGIIANMVNFSPESDRNSIRLAKFGFDPETFLSKNTLYQSLSDMDIETKVLTRWIYKKSALSRMLHKGSDVLPYVNSSDMFFNISKLVNKKTPFVFAYWDALDSASHVYGPFTPAVQSELRNILYGLITEFIKNIKSKYQNKVCILITGDHGLVHVNKNGRFFTNSIPKYLDNLNRPPSGDSRTSFVKLDNSNNKNLKTIFRKYRNQFDIFPSDKFVKEGFYGSKIVNKDISSALGDYTILSRKGNALMHRFKSDFKASLSGYHGGLTDDELFVPLFVIKPENLN;locus_tag=LOCUS_1910;note=WP_010978530.1 nucleotide pyrophosphatase (Sulfolobus tokodaii str. 7) [pid:29.0%25%2C q_cov:92.4%25%2C s_cov:98.1%25%2C Eval:1.8e-28],MGA_205
sequence11	MetaGeneAnnotator	CDS	4646	5452	.	-	0	ID=MGA_206;product=tryptophan synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011022930.1;translation=MNIKEKFKEGKEQKRSLLIGFITAGDPSIDLTPKLAKAMVQGGVDIIELGIPFSDPIADGPTIQSSSMRSLSNGTTTKDILDMSKRIVDELNVPVVLLTYYNTIMKMGIEAFLSNAEKSGISGIVSPDLPPEEAENYVKLAKSKSINTIFLASPATNNTRLDNIIDSTSGFLYMVSLFGVTGTRDLFTEYSSDATTRIVKKVNGKIPVAIGFGISKAEHVSNFTKLGVDGVIVGSAFIKIIEDNLNNTDLMIDKLKNLAKELSQATSN;locus_tag=LOCUS_1920;EC_number=4.2.1.20;note=WP_011022930.1 tryptophan synthase subunit alpha (Methanosarcina acetivorans C2A) [pid:42.9%25%2C q_cov:97.0%25%2C s_cov:91.9%25%2C Eval:1.1e-53],MGA_206
sequence11	MetaGeneAnnotator	CDS	5449	6642	.	-	0	ID=MGA_207;product=tryptophan synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064422.1;translation=MNLKSQPNDGKFGTFGGKYVPETLMPVVDELEEKYNEIKENKEFNNKLSELLRDYAGRATPIYFAENLSKKYGGKIYFKREDLLHGGAHKINNSIGQALLAKSMGKKRIIAETGAGQHGVATAMACALLDLKCEIYMGSNDVERQSPNVFRMRLLGAKVHSVKSGSKTLKDAINEAIRDWVTNVESTYYLIGSVVGPHPYPMIVRDFQSVIGKEIKEQFPKITSQQTPDILIACVGGGSNAIGTFYPFLDDKCKLVGVEAGGLGIDKGKHSSTLVAGSEGVLHGARSYLLQDEDGQIQETHSISAGLDYPGVGPEHSFLKSQDRVEYVSIKDEEAVNAFTEMSKLEGIIPALETSHAIAEAIKRAQDVGDTQSIVVTLSGRGDKDTPIIAKHLGNDI;locus_tag=LOCUS_1930;EC_number=4.2.1.20;note=WP_048064422.1 tryptophan synthase subunit beta (Archaeoglobus fulgidus DSM 4304) [pid:64.8%25%2C q_cov:96.5%25%2C s_cov:99.5%25%2C Eval:3.8e-142],MGA_207
sequence11	MetaGeneAnnotator	CDS	6639	7460	.	-	0	ID=MGA_208;product=indole-3-glycerol-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870432.1;translation=MEIWKELNNSNRFDNKFLTVIADEIRGLVDQDYYNVSKKIERKNKSLKNILLSNKEYFPIITEIKFASPSLGKINNNSTSQKEILTKMERNGSSAISVLTQPLYFEGSLENLRIVRENTDLPILMKDIIIDNKQIEAGLALGADVILLIETLFKEDENKLEQLIAFAKNVGLEILLEVNTQEEFNKALTRDVDILGINNRDLNTLELDMQTTNRILGEDFNIDKPIISESGILTSEDIKMIGKTGVNGFLVGTSIMKSNDIENKIKELTSVKK;locus_tag=LOCUS_1940;note=WP_010870432.1 indole-3-glycerol-phosphate synthase (Methanocaldococcus jannaschii DSM 2661) [pid:39.9%25%2C q_cov:90.5%25%2C s_cov:90.2%25%2C Eval:3.2e-37],MGA_208
sequence11	MetaGeneAnnotator	CDS	7420	8481	.	-	0	ID=MGA_209;product=anthranilate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74AH4;translation=MIVDAIKKNVNRESLSSEEAVQAMKEIMSGSATPSQMSAFLVSLSMKGESIEEIIALAQTMKEFANRIKPSYDDRLVDIVGTGGDKIKTINLSTISAFVLASSDIKIAKHGNRAATGKCGSADVLDRLGYRLDTEPNKVKESIENNGIGFMFAPVFHPAMKNVIGTRKEIGVRTIFNILGPLTNPADADSMIVGVANVELIDKYAKILPELGCKRAIIVHGLDGLDEIATFGETKMRFIGDLDNEGKEITVKPEDFGLKKINSQDISGTGIDYNAEIMYKILSNRLKIDNPNVEAVIANSAVGFIVAGKASSISEGVEIARRTLNSGKSIDKLKEFIRFVDGDMERIEQFESV;locus_tag=LOCUS_1950;gene=trpD;EC_number=2.4.2.18;note=Q74AH4 anthranilate phosphoribosyltransferase (Geobacter sulfurreducens PCA) [pid:44.4%25%2C q_cov:95.5%25%2C s_cov:98.6%25%2C Eval:1.9e-78],MGA_209
sequence11	MetaGeneAnnotator	CDS	8478	9068	.	-	0	ID=MGA_210;product=glutamine amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880323.1;translation=MKLLMIDNYDSFTYNLVQYFGELSIEPIVFRNDEITIEKFNEIEPQRVVISPGPGNPCDQRYFGICSEIIRLSGQKAIPVLGVCLGHQGIGYTFGGEIVRAKVLKHGKTSMIKHDGKGIFKNIPNPFRATRYHSLVVDEDTLPDELVISARSEDDNEIMGLRHKEYNIQGIQCHPESILTESGKKLLMNFIEGNKE;locus_tag=LOCUS_1960;gene=trpG;note=WP_010880323.1 glutamine amidotransferase (Aquifex aeolicus VF5) [pid:59.9%25%2C q_cov:98.0%25%2C s_cov:94.9%25%2C Eval:1.5e-60],MGA_210
sequence11	MetaGeneAnnotator	CDS	9070	10431	.	-	0	ID=MGA_211;product=anthranilate synthase component I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877263.1;translation=MNFIEIDIDISPFETFVRLSEKFDDIYILESILGPEKLSEFSYIGFNPSLKVTLENNIIKVVNDGNENSEDVTNSNDLFNKLREILKENQVKNDFNRLIGGLVGYISYDIVRNWEKISEDYTKLEFADFQFGLFNEGIIFDHEKNKSYYYYSEQNNMKDILELLTIQREIGTIKYTEPTSNINKKRFEKNVEVAKEYVKSGDIFQVVLSRKYEFEITGDLLSIYKALRKINPSPYMYYFKSNNLNIIGSSPEMLVRVTENQIETFPIAGTRPRHVNIERNKQLTDELLSDEKERAEHVMLVDLARNDVGQIAKFGSVKVAEFMQVHQFSHVQHIVSKVIGELTRNRDCFDAIRAIFPAGTVSGAPKIRAMEIIQELENESRGPYAGALGYFSKNMCADFAITIRTLVVKGNYAYIQAGAGIVADSIPEREWFETEQKASALIDALKMAKEGVK;locus_tag=LOCUS_1970;note=WP_010877263.1 anthranilate synthase component I (Methanothermobacter thermautotrophicus str. Delta H) [pid:47.3%25%2C q_cov:97.1%25%2C s_cov:93.1%25%2C Eval:2.9e-109],MGA_211
sequence11	MetaGeneAnnotator	CDS	10631	11002	.	+	0	ID=MGA_212;product=50S ribosomal protein L7Ae;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240293.1;translation=MSKPYYVKVEIPKEIAEASYEALRQAKQTGKIRKGTNEATKAIERGIAKLVVISEDVDPPEVVAHLPILCNEMNIPFVFVPQKELLGQAISIDIGAAVACIVEPGDAKATLDKIIDSLNNLKG;locus_tag=LOCUS_1980;note=WP_053240293.1 50S ribosomal protein L7Ae (Pyrobaculum islandicum DSM 4184) [pid:55.8%25%2C q_cov:97.6%25%2C s_cov:77.4%25%2C Eval:6.5e-37],MGA_212
sequence11	MetaGeneAnnotator	CDS	11013	11231	.	+	0	ID=MGA_213;product=30S ribosomal protein S28e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978233.1;translation=MSSKEIQEDKTPCEVIQIVGRTGVAGEITQVRVKILDGKDKGRILTRNVKGPVRMNDVIILREIEREARKIR;locus_tag=LOCUS_1990;note=WP_010978233.1 30S ribosomal protein S28e (Sulfolobus tokodaii str. 7) [pid:69.6%25%2C q_cov:95.8%25%2C s_cov:83.1%25%2C Eval:1.8e-21],MGA_213
sequence11	MetaGeneAnnotator	CDS	11242	11427	.	+	0	ID=MGA_214;product=50S ribosomal protein L24e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978232.1;translation=MLSLKKCTFCGKEIAFGNGTMYIKNNGDISWFCSSKCRKNTLDLKRDYRKYKWARKGKSEV;locus_tag=LOCUS_2000;note=WP_010978232.1 50S ribosomal protein L24e (Sulfolobus tokodaii str. 7) [pid:56.4%25%2C q_cov:90.2%25%2C s_cov:90.2%25%2C Eval:1.0e-13],MGA_214
sequence11	MetaGeneAnnotator	CDS	11424	11828	.	+	0	ID=MGA_215;product=nucleoside-diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878270.1;translation=MTTKTLILIKPDGVKNRHIGDIINRFEERGFTILHIRMLTMNSDQASDFYSIHKEKPFFSELVDYITSGPIVQVVLEGNSAIEVIRQMVGATNSLKAESGTIRGDFGLSHTQNVIHASDSIESFEREFNILSNI;locus_tag=LOCUS_2010;note=WP_010878270.1 nucleoside-diphosphate kinase (Archaeoglobus fulgidus DSM 4304) [pid:52.0%25%2C q_cov:94.8%25%2C s_cov:84.1%25%2C Eval:3.1e-34],MGA_215
sequence11	MetaGeneAnnotator	CDS	11883	13655	.	+	0	ID=MGA_216;product=translation initiation factor aIF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875898.1;translation=MNSKFRQPIVVVLGHIDSGKTSLLDKIRGTAVQSREAGGITQHIGASFFPIDTLENLCGNLLQKVGGKIDIPGILVIDTPGHAVFTNLRNRGGSASDISILVIDAMKGLEVQTRESLDILRKRKVPFLIALNKLDTVPGWRPSTSLTSSLKQLDDTTRNNLDGKIYDVVGELSRYGIQSEAFYRLTDPQKQVAIVPVSAKTGEGIPELISLLIGLTQSYLKQKLTVSSDTRGIVLEVTEEPGLGDTANIILTDGILNKHDEIAVAKKDGAVLTKIKAIFMPKPLDEMRDPRDKFTPVDQIVAATGAKISTSDLEGVLGGSPIIGIADGNIDLVKNEIESEIKSIFVETDNVGIIVKADTLGSLEAVVDTLKENNIAISTADTGMVSRKDVIKAQVITETDKYLGSILAFGVKVLEDAKDEANKNGIRIFSQPVLYDLVDEYQDWVTSDKENMQRTELDSIILPCKFQLLKGMVFRRNGPAVCGVEILGGSLKQKSTIINSEGKEVGVVKQIQDKGENIQKAPKGNQVAISMNEPVIGRTIREGEILYSLPNDIGVRLLKERYEDSLSEDEIDILNEIINLRRQVVPLYGF;locus_tag=LOCUS_2020;note=WP_010875898.1 translation initiation factor aIF-2 (Methanothermobacter thermautotrophicus str. Delta H) [pid:43.7%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:9.2e-146],MGA_216
sequence12	MetaGeneAnnotator	CDS	186	866	.	+	0	ID=MGA_219;product=triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868855.1;translation=MKIKEPLIFINFKTYPEATGQNALRLAEIINDVSNEFKITIFVSPQFTDINPIISKYNIPIFAQHVDYAEPGRNTGYIIPESIKNAGCFGSLINHSEKPLTLNEIELTINRCKETNLISCLCASNAEETETIAKKHPDMMIVEIPELIGTGKAISTVNPQVVLDAIKVIKEIDNEIFVISGSGISTKEDVTKAVELGMQGVGASRAFCTADNPKDVLTEMVLALIK;locus_tag=LOCUS_2030;EC_number=5.3.1.1;note=WP_010868855.1 triose-phosphate isomerase (Pyrococcus abyssi GE5) [pid:41.6%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:6.5e-51],MGA_219
sequence12	MetaGeneAnnotator	CDS	871	1293	.	-	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDDKRIMEEYRGPSKQYPKVERKFFIRIVVGIVIILLGILGQQITIELSNTTVMVQGPDPGAGPSEIESGIDVTRTGGMLAMLVGVVVNLKAITNYRDEYGEIRENEPRPETLFILGALVLTIAAIALAGSIILPETTN;locus_tag=LOCUS_2040;note=MGA_220
sequence12	MetaGeneAnnotator	CDS	1341	1790	.	-	0	ID=MGA_221;product=AsnC family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867606.1;translation=MSSIDETDRKIIAEYLKDARISYREVAKRLQLAVGTVLTRTKKLESDGIIDSYSVILNHDKLGYEIIAISEITVSKGKLTEVETAIAKLSPTCAVYDVTGENDVIIISKFKTRDEMSDFTKKLLSMSNVERTNSKIVLNTIKEDFRLTP;locus_tag=LOCUS_2050;note=WP_010867606.1 AsnC family transcriptional regulator (Pyrococcus abyssi GE5) [pid:50.0%25%2C q_cov:98.0%25%2C s_cov:99.3%25%2C Eval:3.6e-37],MGA_221
sequence12	MetaGeneAnnotator	CDS	1889	2914	.	+	0	ID=MGA_222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQKNLLLILVVLGLVVMILGIFVVPRQINYDPRPGLKPQLLLDLDPNSNEMTLFAEGITSRDGLLYIADNTGKISRIDPQTAKMEVVGKVEADGEGIGLFGIKFDHDGNLYVATGQRGEIWRLLKDDINAASPGNAKLFKAGLKFTNDIAFDDFGRMFVSDSITGILWEVDMKTKAQKEFANQLTSRDPTFPFGINGLAFDDDGTLYFSNTGNGVIHKVETRKEDGAIVSVTVWRSHEALIGADGIAFDKAGNLWIATNRRNAIMAITPEGEGGRRIIEVAKNDNMGPLEFPSSVAFAGESLYITNFDVGGMGDNEDNSLGIGPSIVRIQLGVEGLPSPP;locus_tag=LOCUS_2060;note=WP_008764572.1 phage head-tail adapter protein (Bacteroides thetaiotaomicron VPI-5482) [pid:24.1%25%2C q_cov:61.3%25%2C s_cov:64.6%25%2C Eval:4.3e-11%2C partial hit],MGA_222
sequence12	MetaGeneAnnotator	CDS	2933	5266	.	-	0	ID=MGA_223;product=phosphoenolpyruvate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846514.1;translation=MTMSSTFIRPLKSLHNKDGDLVGGKSANLGELLNAGLPVPDGFAITTLAYKQMVIDTEVKTQINEILNNMDIDDFNSINSCSEQIRVLIEGIPLPDDLISAISSSYASLGDDIEVAVRSSATAEDLPTASFAGQMDSFLYIKGIDNVLTSVKKCLSSVFSSRAISYRHEKNFDHFLVLASITIQKMLDPESAGVMFTLNPVTGTKNEIYIESSWGVGETIVQGKVDPDSFLIDKSDLTISSQNINTKKLMTIRGVTQGKFAIADRASATEIDVPLNLQNKPSIDDNTVKILSDFAVQIEKHYDKPMDIEWVLEKDSNNVFIVQARPETVHGIDSSVTSKSIDNPDVLLKGIGASSGISSGNVNVILDIKDNSSFKDNQILVTQMTTPDWTPIMKRAAAIITQSGGATAHAAIVSRELGIPCIVGVKDVTTLLKTGQEVTIDGSAGCIYNGKIEIESQSEPSSSFESESWPVTATQIYMNLGSPDLIEKYKGLPFDGIGLMRLEFLIADKISKHPLKLIEDNESEKFVNELFNGINKVASAIFPRPIVVRFSDFKTNEYSKLEGGDKYEPPEENPMIGWRGISRYISPDYEPAFRLECKAIKKLRDSGMTNVWVMLPFARTLSEVKDTLKIMKEEGLERTTDFKVWLMAETPSLVIQADDFAKLCDGFSIGSNDLTQLMLGVDRDSELLYNLGYFNERDPAVLKAIKILIHAAHNNDITISICGQAPSLYPEFAALLVKEGIDSISANPDSVIRTRRSVAGAERKELLKRPGTKEFQF;locus_tag=LOCUS_2070;note=WP_052846514.1 phosphoenolpyruvate synthase (Sulfolobus tokodaii str. 7) [pid:49.2%25%2C q_cov:98.7%25%2C s_cov:98.9%25%2C Eval:3.8e-206],MGA_223
sequence12	MetaGeneAnnotator	CDS	5671	6153	.	+	0	ID=MGA_224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRIETVVKNFLKLSVLNTIVAIIFLFPILIPQLAFPILITEWPGIYMVLAYFIFLFSAVIGFIAWTFVYYLLWKLYEIKFVKKNLVYGQIILSEIGALLACIFMYWGGYVGSSAAYSGMSEFVVGVIMEFATIPSGLGIGLILFGNLFGILNIILAWNK;locus_tag=LOCUS_2080;note=MGA_224
sequence12	MetaGeneAnnotator	CDS	6279	6506	.	-	0	ID=MGA_225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKRRYLLTDKDNIEDIKLLNLKYTKIIRNSFSKTIILKVNLDKLNEIKQQLTSHNIKIIQISGTLKSIKNKKN;locus_tag=LOCUS_2090;note=MGA_225
sequence12	MetaGeneAnnotator	CDS	6503	6976	.	-	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFLTILKKTYNKLAFRTVEITFIIHETENTTKFLSNLCSILDVSDTDFNKKITEGHHGNKIELIRAHFIRNRVDEITEKILLSLNINDLSILNTNLLDYLDDKFTLYLRFNKQDIIDNILTLSYEDSVRIKIKPKNKLNKTNAIKLYKELLSEYS;locus_tag=LOCUS_2100;note=MGA_226
sequence12	MetaGeneAnnotator	CDS	7002	8000	.	+	0	ID=MGA_227;product=protein kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878608.1;translation=MKSGQICIGLESTAHTFGASIVDSDGRIFSDVKDIYKAPKGSGIHPREASRHHSNIANEVIQKAIDQAKIKYTELDIVSYSAGPGIGPCLRVGATAARALSLKLKKPLVPVNHAIGHIELGCLLTSSTDPVNLLVSGGHTMILGFNSGRWRAFGETLDLTIGQLIDQIGRYAGYSSPAGATIEKLANESENYLRLPYSVKGNDVSFSGMLTSAKKMIDKGEKIEDVCFSLQETSYAMLAEVTERALSFLEKKEVIITGGVAASTKLKEMLEIMCKERGAKLSVIPRNYAGDCGAQIAWTGILEYNSGTQVSVDESWVRQSWRLDRVDVKWRK;locus_tag=LOCUS_2110;note=WP_010878608.1 protein kinase (Archaeoglobus fulgidus DSM 4304) [pid:48.6%25%2C q_cov:97.9%25%2C s_cov:99.4%25%2C Eval:1.5e-85],MGA_227
sequence12	MetaGeneAnnotator	CDS	7988	8617	.	+	0	ID=MGA_228;product=Kae1-associated kinase Bud32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249630.1;translation=MAKIINIGAEATVSITEWFGESAISKRRDIKKYRRRELDEFIRSNRTLKEANIINRIREKVDVPSIYFVNLKQSEIIMENVDGIKVKEVLMKNESNKAEIGKNIGKIVAILHKNNIIHGDLTTSNMIIRENGSICLIDFGLSTTSKKLEDKGVDIRLFKGILQSAHNDVFNDVFNNFKKGYKSIMKTSSEEIFAIVKKIEMRGRYARVD;locus_tag=LOCUS_2120;note=WP_011249630.1 Kae1-associated kinase Bud32 (Thermococcus kodakarensis KOD1) [pid:36.9%25%2C q_cov:97.1%25%2C s_cov:96.4%25%2C Eval:5.5e-30],MGA_228
sequence12	MetaGeneAnnotator	CDS	8601	9176	.	+	0	ID=MGA_229;product=non-canonical purine NTP pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879726.1;translation=MQELTSKKINLATKNMDKYEEMRDILGNYKLDLRVVDLKGTEIQAFSVLSVAEYSAKEIATKTDEAFIVEDSGIYVNSLYGFPGPYSSFVYKTIGLGGIVRLLKNRDDKTAEFHSAIVYGENGKVIKSFIGICEGTISTDLQGEQGFGYDPIFIPKGKNKTFAKMSLSEKNQISHRSKAARIFAEWLEKNQ;locus_tag=LOCUS_2130;note=WP_010879726.1 non-canonical purine NTP pyrophosphatase (Archaeoglobus fulgidus DSM 4304) [pid:43.0%25%2C q_cov:93.7%25%2C s_cov:97.2%25%2C Eval:2.7e-38],MGA_229
sequence12	MetaGeneAnnotator	CDS	9224	9670	.	+	0	ID=MGA_230;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250202.1;translation=MTRIHGNSKGKSQSMKPSTMKSDWVKVTPDEIGKLIIEMNKEGLNASQIGTKLRDEYAVSSIKAVTGKKMKEFMEENGVKQEIPEDLEALVKRAVSLQNHLKSNKGDRKNVRSLELLEAKVHRLSKYYKKKDIIPKNWKYKSVVAQLA;locus_tag=LOCUS_2140;note=WP_011250202.1 30S ribosomal protein S15 (Thermococcus kodakarensis KOD1) [pid:43.2%25%2C q_cov:99.3%25%2C s_cov:98.0%25%2C Eval:9.0e-33],MGA_230
sequence12	MetaGeneAnnotator	CDS	9702	9953	.	+	0	ID=MGA_231;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNIEIDISIKFRNKSSAVIIAKSLDPDNKDFPEGLTMTQSVNNNILEIKFKSNNVLETLLNTVDEVLSMIDMTSKTLEKVE;locus_tag=LOCUS_2150;note=MGA_231
sequence12	MetaGeneAnnotator	CDS	9955	11229	.	+	0	ID=MGA_232;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879527.1;translation=MIDPKLMRTDPDTIVNMLKSRNVELNISELLEVDKNRRGLITELEAYKMKRNKISQEISTKKQQGTDISETLTEMKNISIKIEELQSSVKLIQDDYHNRLESIPNLVHDSVPIGKDEKANKEIENWQPKTGLNNNSLDHIELAKKNDLIDLERASKISGSRFYFLKNALVKMNYALIAFALDYINKKGYAMLQPPYLMNRKPMSGAVILSDFEEVIYKIEDQDLYLIGTSEHALAAMHSDEIFLKDELPRKYASVSPCFRKEAGSHGRDTKGIFRVHQFEKVEIFSITDPESSWNQHEEILSDVKQFYKELEIPYRVMLLSSGDMGKVAAKTFDIEAWLPGQKNYRELVSCSNCTDFQSRRLGIKFRNKPHEESILTHTLNSTLTATERTLIAIIENFQNEDGSITIPKVLRGYMNNQKEITST;locus_tag=LOCUS_2160;EC_number=6.1.1.11;note=WP_010879527.1 serine--tRNA ligase (Archaeoglobus fulgidus DSM 4304) [pid:43.0%25%2C q_cov:96.9%25%2C s_cov:95.1%25%2C Eval:4.6e-101],MGA_232
sequence12	MetaGeneAnnotator	CDS	11222	12421	.	-	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWTEKYRPKVLGEVAGNDELRGKINKWLRTWDNSSKPILLQGSPGIGKTSLAYALADELDYHVIELNASDKRTKNSLQSSLEPLFQSTTLFNEKLLILIEEVDGLDSRADYGGVDFLIDTIDSISVPIIITCNSSNSKKLSKLIKKCQIFKFKKIDARQISLVLESIAKNENLDITLDEIINISTNSNGDLRYAINALQTYNSTQEQSRSFISQSLSLDEGIRQYLTSEDMPAAMNSLLNTNSNPNDILRAIFSSVVSSSKVVPKHELSKILSILSDIDLLLGRILKTREWRQLRYFNNLLVYSLFETLSRYPIKFSLYHNPFPLQVRIWNDGRNFRTIVQSLNKYTNESTNNLTDILPYFIIILSKYHNRDNLLLRLGLEDKEINTLTREITNLSKSK;locus_tag=LOCUS_2170;note=WP_010870398.1 ATPase AAA (Methanocaldococcus jannaschii DSM 2661) [pid:28.8%25%2C q_cov:88.0%25%2C s_cov:68.8%25%2C Eval:1.3e-38%2C partial hit],MGA_233
sequence12	MetaGeneAnnotator	CDS	12434	13285	.	-	0	ID=MGA_234;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979498.1;translation=MNFNLIALLSLIRPINSFMIGLAVIVGIAIGSPDMLFSRLSIYGFITGFSISSYSMIINDIYDIEIDKVNQPERPLAKQIISINFALSLSLILLLIGLTSSMIISYYHLIITVIFSFLSWFYNIWGKKQGIIGNSIVASSMSIPFIFGGVITGNISLLVWSISLIAFLSGMGREIIKTIADVDGDKIKGIKSVSIQFGSRNAMLVACGFIIISILVSFIPVYFNLIQIYYIPLLILTDLILLYSVFILSKNYSKSESLKVKKLILYAMLFGLITFLANSIIVW;locus_tag=LOCUS_2180;note=WP_010979498.1 MFS transporter (Sulfolobus tokodaii str. 7) [pid:28.1%25%2C q_cov:92.6%25%2C s_cov:96.8%25%2C Eval:1.1e-24],MGA_234
sequence12	MetaGeneAnnotator	CDS	13282	13833	.	-	0	ID=MGA_235;product=tRNA-intron lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496827.1;translation=MISKVEETTDIIEAIESNKGFMIKDNDSRQELKIRGFGEGKKHGLLLRDYEALYLIYSSKLNVIKDKKKLSFNDVLHTALLRDENAWTKFLIYRDIRTRGYVAKEGFGFGADFRVYDKGNFGSKAAKYIVFAMNEGNEINIKSLTDSVKQISRMGKVPIIAVVERRGEVIYYHLSKSHFRELF;locus_tag=LOCUS_2190;note=WP_064496827.1 tRNA-intron lyase (Methanocaldococcus jannaschii DSM 2661) [pid:34.6%25%2C q_cov:84.2%25%2C s_cov:89.7%25%2C Eval:1.5e-19],MGA_235
sequence13	MetaGeneAnnotator	CDS	2124	3398	.	-	0	ID=MGA_237;product=acetyl-lysine deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978128.1;translation=MDDIDKTIIKILTKDSRTPNTEIAQQVNLSESSVRARIEKLVSSGAIKNFTITLSDNHLTLLENALKLYSPSGQEKDISDFLFDTLTTLGFNNVHRDSANNVFGEIGSGSPTLLLCGHMDTVPGQINVQIKDNALYGRGASDAKSSLISMLIAASSFKDKLSSGKILFSAVTDEEGTGQGIRELLKGGIQPDCAIFGEPSGIDKITVGYKGRYSIKFTCDTPSVHASAPWMSHNAIELLFMLWNEIQKEIQTTNNNHYKQITSCLTQIDGGIADNVMPGNCHLICDIRYPFNYNPDQITQKISEIISNYNSKYSITENSKPVFNYEIIDSTPAFECSKSSIVSRAVSRAIIKKLNSKPKFVNKTGTGDMNLLGNQMNIPVITYGPGNPHLSHTSDEHIMIDEFLTSIDIYQNSIENIFNLLQRI;locus_tag=LOCUS_2200;note=WP_010978128.1 acetyl-lysine deacetylase (Sulfolobus tokodaii str. 7) [pid:35.0%25%2C q_cov:84.2%25%2C s_cov:94.5%25%2C Eval:3.1e-41],MGA_237
sequence13	MetaGeneAnnotator	CDS	3405	4583	.	-	0	ID=MGA_238;product=acetylornithine aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74GU3;translation=MNDKELINSEDKYLAPVYQKFPIILDKGDDCYVWDSLGKKYLDLMAGYGVSLLGHSNEKIVQAISDQAKKLTSCHGSFYNEQRAQASLNINKITPKHLDNIYLCNSGAEAVEAALKLCKKHSKNKIISMSGSYHGKTIGSLSLTWSPKYKKSFQPLLDDVDFISFGDSDSLSKINDDTGALFLEVIQGENGVKFASIDYFKQLQEQCEKHNVLLVIDEIQTGLGRTGKMWAHEHYGLKPDILCIGKGLAGGMPVGAMISKSDSTNFSLGEHTTTFGGNPITSSAINASIEFLLNENIISNVEQTGKVFLSGLKELKSDYDSIRDVRGLGLMLALESKFPIKDILFDGLNNGLIMLYSGRTILRFLPPLTLNEAQVNSALQILNTLLKNSKKA;locus_tag=LOCUS_2210;gene=argD;EC_number=2.6.1.11;note=Q74GU3 acetylornithine aminotransferase (Geobacter sulfurreducens PCA) [pid:39.4%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.4e-85],MGA_238
sequence13	MetaGeneAnnotator	CDS	4576	5385	.	-	0	ID=MGA_239;product=acetylaminoadipate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978133.1;translation=MVTVVKIGGSLHSKGLTENLFHDIKTFSETEPLIVVHGGGKTVTDVAEKLGKKQEFIVSPSGVKSRYTDKETASIFMMVMCGKINKEIVVSLQSLGVNAVGLGGIDGKILKAIRKKKLLIIDERKRKRAIEGGFTGKIQDVNTELLTDLIKSGYLPVISPVALSDESEVLNVNGDRAASNIAAHLNADRVIFLTDVDGISLNDKLLSNLTLSQSKEILPELGFGMEQKLISCIESLENGVNEGIIASGLIDNPISSAVRHSNCTVITNE;locus_tag=LOCUS_2220;EC_number=2.7.2.8;note=WP_010978133.1 acetylaminoadipate kinase (Sulfolobus tokodaii str. 7) [pid:43.0%25%2C q_cov:95.2%25%2C s_cov:96.6%25%2C Eval:1.3e-49],MGA_239
sequence13	MetaGeneAnnotator	CDS	5391	6443	.	-	0	ID=MGA_240;product=N-acetyl-gamma-glutamyl-phosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978134.1;translation=MKVGIMGASGFVGGELLRLIINHPEVDLSFATSRQYDGQFLYKVHPNLKGFTEVKFSSFDSSKVSDQCDLLFTAAPHGSSYEFMHDLVNSGVKIVDMSADYRLSNPDMYDKWYGFKHPLPDLLNSFTFGLPELHRDSIKSSKFTSTPGCTALTSILALAPLIHDNLINSTNIIIDSKVGSSGAGVKPTIGSHHANRYGVIRPFKPYAHRHTSEIDQELSNLSDNSVNVSLSVHSVNLVRGILCTSYASLNPDITEVDIWKSFRQFYSDSPFVRLIADKKGLYKYPDPKLLVGSNFCDIGFAYDKSASRLVIMSSSDNLIKGAAGTAIQNMNLMSGFDEITGLWTPGIHPM;locus_tag=LOCUS_2230;EC_number=1.2.1.38;note=WP_010978134.1 N-acetyl-gamma-glutamyl-phosphate reductase (Sulfolobus tokodaii str. 7) [pid:42.7%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:1.0e-87],MGA_240
sequence13	MetaGeneAnnotator	CDS	6450	7316	.	-	0	ID=MGA_241;product=lysine biosynthesis enzyme LysX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256241.1;translation=MNKRISLIYDRVRWEEKEIFNAFEEKNIPFSKHDAKTLVLRSDDSTESIQSSFGDSVIQRCISHYRGMLIAHYLESKNCLVVNNSDTSRICGNKFLSTLKFEESGIKTPLTLFSFSDKSAEDSIEELGFPSVLKPIVGSWGRGVVKLNDKDSAKALIEMRYNDDGLLSKIFYIQQHVKRPPRDIRTVVVGNEVVGAEYRYSSNDDWRTNFSLGAKIENCPITKELEDIVLKASSSVGGGILGVDLMESDDGFLVHEINNNVEFKGVSKFTKDNIAYKIVDYINNISKR;locus_tag=LOCUS_2240;note=WP_012256241.1 lysine biosynthesis enzyme LysX (Chloroflexus aurantiacus J-10-fl) [pid:37.2%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:3.9e-52],MGA_241
sequence13	MetaGeneAnnotator	CDS	7318	7491	.	-	0	ID=MGA_242;product=lysine biosynthesis protein LysW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256240.1;translation=MEQKCQDCDATMKILDDVVVGEIIGCPDCGNEFEVSKIDSNNVTLSPAESVGEDWGE;locus_tag=LOCUS_2250;note=WP_012256240.1 lysine biosynthesis protein LysW (Chloroflexus aurantiacus J-10-fl) [pid:42.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-07],MGA_242
sequence13	MetaGeneAnnotator	CDS	7491	8981	.	-	0	ID=MGA_243;product=argininosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870298.1;translation=MTNNVDILRGNRLSKTSDLASSFISSIDDDLLILDSVKKINMAHMIMLVKQNALDKKTANKCIKTLKSIDNSFKLDPGLEDVHMNVESFVISRIGSEIGGQLNLAKSRNDQVASAIRMTSRTLILSMLTSIHDLQNVILNLAKTHTTYLMPSFTHLQHAQIITLSHNLLAHYDSLSRDVERFQESYHRVNKSPQGSGAIASVIINVDRDYVAKLLGFNGIIENSIDATSTRDFCIELMSNLTLLMLNIEKIANELVLWSTSEFSYVEISDEFSSTSSIMPQKKNPVIAELIRSKSSIVIGDLVASIGIIKSLTMGYSIDIQDLTPRLWNSLNKSLISVQLLSKMLATCKFNKESMRNNLDDTMIAADLANYLASNYNISFRQSHHIVGTLSKSSIDSNKKLSELVKTNIVKTTKKITGKTIKINIDEIDSIFNYVDNVNSKTTKGSPSNSESNRMIKIRKVDLANSSKFIKKQKSLLNKSELLLEKTIKNLSGGGN;locus_tag=LOCUS_2260;EC_number=4.3.2.1;note=WP_010870298.1 argininosuccinate lyase (Methanocaldococcus jannaschii DSM 2661) [pid:35.2%25%2C q_cov:97.6%25%2C s_cov:100.0%25%2C Eval:6.5e-81],MGA_243
sequence13	MetaGeneAnnotator	CDS	8978	10153	.	-	0	ID=MGA_244;product=argininosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E0N9;translation=MSEKIVLAFSGGLDTSISVSWLKKKHNLDVITAIVDVGQEDNFEAIEKKAYSIGASKHYTIDAKKEFIEDYIFSAIKSNALYQNKYPLATALGRPLIAYKLAEVANKEYTKNFSHGCTGKGNDQARFDVTLRSVMSDAKIIAPVRDENMSRDEEIQYAKELNVSIEKKSQYSIDENLWGRSIEGGILEDSFNEPPIDIYKWINTDSKLDDKYIEINFNQGIPISIDGITDSLKMINHLNTIAGKHGIGVVDHIEDRLMGIKSREIYEAPAATVLIEAHKDLEKLVLTRNELEVKSILEQKWSWMIYSGLFVDPLVKAIDSFINKTQERVNGTVKLKLKNGSFNVVGRKSENSIYDQNLSSYSSSSNFNQTYSKGFIELWGLQSKFNEGNTK;locus_tag=LOCUS_2270;gene=argG;EC_number=6.3.4.5;note=B8E0N9 argininosuccinate synthase (Dictyoglomus turgidum DSM 6724) [pid:53.9%25%2C q_cov:97.4%25%2C s_cov:96.5%25%2C Eval:2.8e-113],MGA_244
sequence13	MetaGeneAnnotator	CDS	10267	10887	.	+	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIESDLSIQDSIARDYANLSGIARLLKPKIEKMGITEVNEDAIITAIKRIVPKYTSINNEITDVIAKSDINVRTGVAKLSVKKNNLNQEKIQNVILKNNEEFIQISEATSALTIIYSERLRNELLNVFNKSEILEDSNDLAAIIVHSPIEVISVPGFVFTIYGQVAKRQINIEDTVSCFTDTIIVVKTKDVAITFSVLNELFDGSR;locus_tag=LOCUS_2280;note=MGA_245
sequence13	MetaGeneAnnotator	CDS	10897	11961	.	-	0	ID=MGA_246;product=inositol-3-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060968.1;translation=MPKVKVALAGIGNCASALIQGLEYYRQNPEETVGLVDYSIGGIEPNDIEFVAAFDVNDKKVGSDLSDAIFAHPNNTAKIIDVPNIGVDVSRAPVKDGIGKYLKDIVEVNDPNGSDVVDILKSSGADMLINYLPVGSTDATKYYAQCALDSNIGFINSMPVFIASNPEWQNKFVDKGLPIAGDDVMSQLGATVVHKSLIKLFVERGVKIDETYQLNIGGDADFLNMLEESRLVDKRESKTSAVRAMSPYPIPTRIGPSDYVDFLKNDKICYVWIKGHYFGNIPVTLDLKLHVMDAYNSGGVIVDAIRATKVALDRKISGPLNSISAYCFKHPPVQMPYEEAKNEFLEFIAGNRER;locus_tag=LOCUS_2290;note=WP_048060968.1 inositol-3-phosphate synthase (Methanothermobacter thermautotrophicus str. Delta H) [pid:51.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-104],MGA_246
sequence13	MetaGeneAnnotator	CDS	12024	12827	.	+	0	ID=MGA_247;product=inorganic polyphosphate/ATP-NAD kinase (Poly(P)/ATP NAD kinase);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546481.1;translation=MDYSSIISKTLIKAQNTIKDRYFEGNHTQLDKNAFGDMQYEIDVLAERTIIEEIKKYVSGATIISEETGIIEGDKNLLVLIDPLDGSLNSIRQIPFFSSTIAIAKGDKFSDIIAAGVIDIIHGELYLGNTKKATANNIPIKPNTIEKLNEALIAIDLNIRSNKASKAYQNMIKIFEITKAQRILGSAIMENVYVATGAIDAFIAPSKQLRTFDCLPAMYIGKQAGLFIRFLNEKNDFDLLSKEGVSYVSACTETLGNNILNELEYYN;locus_tag=LOCUS_2300;EC_number=2.7.1.23;note=WP_012546481.1 inorganic polyphosphate/ATP-NAD kinase (Poly(P)/ATP NAD kinase) (Thermodesulfovibrio yellowstonii DSM 11347) [pid:28.4%25%2C q_cov:96.6%25%2C s_cov:96.2%25%2C Eval:2.1e-20],MGA_247
sequence14	MetaGeneAnnotator	misc_feature	1	1187	.	+	.	ID=MGA_249;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to P56129:diaminopimelate decarboxylase,P56129 diaminopimelate decarboxylase (Helicobacter pylori 26695) [pid:29.0%25%2C q_cov:97.5%25%2C s_cov:92.8%25%2C Eval:1.7e-30],MGA_249;locus_tag=LOCUS_2310
sequence14	MetaGeneAnnotator	CDS	1177	1734	.	-	0	ID=MGA_250;product=2%2C3-bisphosphoglycerate-dependent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6UEW3;translation=MTWFFVRHGQSTYNLQNKFTGWHDPSLSELGEKQATETAIKLSKYNIDIIYSSNLSRAKETAEIIIKNHPNTPKNIISNELLNERNYGNWSGKNKEEVKNEIGDDNFLKVRRGWDTPPENGESLKDTANRVKQWVDDLKKLHNNNENILIVSHGNTIRAISVILDINTEENVHEFELQTGEIFIV;locus_tag=LOCUS_2320;gene=gpmA;EC_number=5.4.2.11;note=A6UEW3 2%2C3-bisphosphoglycerate-dependent phosphoglycerate mutase (Sinorhizobium medicae WSM419) [pid:38.5%25%2C q_cov:96.8%25%2C s_cov:86.3%25%2C Eval:2.9e-31],MGA_250
sequence14	MetaGeneAnnotator	CDS	1844	2758	.	+	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDAYAFVNSNTDFHSLSIIDSDKTDIACSLCKINTNSDEFIVKSTDTPIELEKFNNSSINNFSLEQDKMRHYYIADSSHKNLSKLSVNKLHKLLLEVQKVNKEMISDNLKNIQIFTNSGSLSDGNSIHNGFELINLPIISPTLKNEIDLSKQSIFDLGICPICRIINFETGGPRQILSTVSFLAFCPWSSSHPFEFWIYPKSHQYSFTLIDNNELEDLAQILRSTLGGLDNVLNNPSYNIIFHNSLNEIDSEIHWHIEIIPQLSYSTGFKSGFGISVNSLIPEKSAEILGKASRKELASLVGVI;locus_tag=LOCUS_2330;note=WP_004080684.1 galactose-1-phosphate uridylyltransferase (Thermotoga maritima MSB8) [pid:34.5%25%2C q_cov:63.8%25%2C s_cov:58.6%25%2C Eval:2.3e-26%2C partial hit],MGA_251
sequence14	MetaGeneAnnotator	CDS	2755	3831	.	-	0	ID=MGA_252;product=phosphate starvation-inducible protein PsiE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583631.1;translation=MTYEEKLNEERINNIDKSGLFGQYEKWPTYAKEAINIAPNIPQEREIKNIIFIGMGGSATSGDIIQNWLRDELPVPFEVLKDYKLPGYVNNKTLVIGASISGETRETISACIEAKTKKDALVVSISAGGSLMKISKKYNIPHTKVQLALTPRASLLYALLPAINLLSKLGIINSTENEFTDMMNLLNIRNNQIKKDVPFKKNIAKQIASDILELATPPTIYSGQTLSAPGYRFKASLNENSKIRAQHILLPELCHNEIQSWGKNPDNKITSIFLRDDDESLEQRERFESLSQILIKMDIKPLEIYTEGKTKLGRIIDLIYLLDYVSLYLAILKDIDPTPTPNIDEIKKLLKNRFKEIN;locus_tag=LOCUS_2340;note=WP_012583631.1 phosphate starvation-inducible protein PsiE (Dictyoglomus turgidum DSM 6724) [pid:31.9%25%2C q_cov:95.8%25%2C s_cov:97.2%25%2C Eval:8.6e-42],MGA_252
sequence14	MetaGeneAnnotator	CDS	3828	5105	.	-	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNLILIEDKIIENLEPITSTRTSLELQFGASNFYQQLKNDVKFDNITVFIRNYLKKSTKNKFKEINIGKLDFEGDAIIVNSLINLNNKDTIKLLKTKEKFIAKTGKNLVCARIPVSIIKDIDNENTFRFIKKIAAIKKYPIKQIDSESLIRFPWDYIKESGEAINRQYKLFKKLNSMKNIKTISDNKRIIISKNVKIIDKNKIYLDSSNGPVIIDKGVTIEPFTFIKGPVYIGSETNINGARIYPYTSIGDHCNIGGEVQNSIIHEYTNKAHEGYIGHSIIGSWVNLGARTTNSDLKNTYGKIKMNIGNKRIQSKEVKFGCIIGDNTKTAIGSLIFTGIKIGVCGQLFGHVTEDIPAFTFYNKDKKKILVEYNINKAIKIQERMMKRRGINQNNYDRNLLREIYNNTIEQRKMNRVKVGDMKI;locus_tag=LOCUS_2350;note=WP_011119694.1 glucose-1-phosphate thymidylyltransferase (Rhodopirellula baltica SH 1) [pid:39.8%25%2C q_cov:48.9%25%2C s_cov:46.1%25%2C Eval:9.1e-41%2C partial hit],MGA_253
sequence14	MetaGeneAnnotator	CDS	5105	5800	.	-	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAVILAGGLGKRVRPYTLFLPKPMLPLGDKPILGHLIDWIKKQKIKEIIICTSYMSDIIEEHFGNGKKYGVKITYVRAKKPLGTAGQLKSAQKYLDGTFLCIYSDSLFNFKISNAVKFHKKTNPIVTMIVSNYETKLKYGIIELNRDRSVAEWKEKPVIKGLINTGCFIMNSKVLKYIPKNKIYEMDQVFKRIQKENQNIYGYPVTGDILDLGDKNEYEKVFKQFNKVKK;locus_tag=LOCUS_2360;note=WP_000679337.1 phosphoglucomutase (Bacillus cereus ATCC 14579) [pid:39.0%25%2C q_cov:100.0%25%2C s_cov:29.7%25%2C Eval:1.2e-44%2C partial hit],MGA_254
sequence14	MetaGeneAnnotator	CDS	5843	6823	.	-	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIEIKNRINKLVNTDNNAALMIGCRTTEYFHECCEYNVLLVGEKDEARIINDEQLGFIQIEYIEREEFLRISNKEVSNLINSEIIQDNYFTLSTKIEDIKEHKSQIIKHYINSTDIELTTNMQKANNAINKFSLNDAAYWTSLSTYNLIKLSIVQDKIIPNPSHLLNQLKERKVEHNIDQYYSLLDLENATKSSVERRLQALNNLYRLLSTRIIGNQELFLRRMKLIENKIRWFIENKMITNAFVLLGYENLLVIEKIYTEYCNDKQVSKHNYRIISEITENNISSGIGKSSIKMLSITMDQQKIIDKIDIINNLLSEIRDNMTI;locus_tag=LOCUS_2370;note=MGA_255
sequence14	MetaGeneAnnotator	CDS	6840	7730	.	-	0	ID=MGA_256;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNICIIGHISIDMITNKQIKEKSIGGPPCYTGITCINEGLNVEIYTKVGKDFPIEYKTWLENKGIIMKNSISVSNTTSFEITEYNNNNKKLKLLNKCENIILEESEINNYEGIIISPIVNELNVKNKKILNAFGKKTMLDPQGYLRKFNKKGICNLKYININELPQTEIIKISEEESLMLDKSRNFLDRLKNISKIYPITIGTINNQLTYLINDGKCYAIKNNQSSILKDTIGLGDILNGVFFSMYMKNNDILWSISRAIAFTSTREGIGIKKLESNNEYDELSNLIYDNIMRIY;locus_tag=LOCUS_2380;note=MGA_256
sequence14	MetaGeneAnnotator	CDS	7802	8086	.	+	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKRKSGGRAKGGKGSTGSISCSNCGTLVPKDKAKKKTGRVTLVEPALAKELRSAGTYIAAQKTIKYYCVSCAVHYGLVKVRAKDDRRRRTKY;locus_tag=LOCUS_2390;note=WP_010979487.1 30S ribosomal protein S26e (Sulfolobus tokodaii str. 7) [pid:47.1%25%2C q_cov:74.5%25%2C s_cov:73.7%25%2C Eval:1.8e-10%2C partial hit],MGA_257
sequence14	MetaGeneAnnotator	CDS	8088	8678	.	-	0	ID=MGA_258;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868695.1;translation=MLEKIRSKVEPITNKIGHELSKLGMTPIMLSIFAIIFSLISAFFYSDLMQFDSNNIISNQALGAIFLLITGLCDMLDGAIARVTKKSSLRGAFIDSTFDRVTEIIIFCGLLIGQYAEPLLVFFAITLSMLVSYARTRAEAINVDLRGVGIAERSERILILCLFSFFGEIRLAIIIIVILSFITFMERFIAVMRRVE;locus_tag=LOCUS_2400;note=WP_010868695.1 hypothetical protein (Pyrococcus abyssi GE5) [pid:33.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-25],MGA_258
sequence14	MetaGeneAnnotator	CDS	8750	8965	.	+	0	ID=MGA_259;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYIMGKISKGVECSLDDCSSSAIRSISSKNVDSNEFSISSDSNKVYFCTEHYKLWKKSTKELRKSERARY;locus_tag=LOCUS_2410;note=MGA_259
sequence14	MetaGeneAnnotator	CDS	8975	10828	.	+	0	ID=MGA_260;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868458.1;translation=MRILLLHSNYIEFKALKKEIAIAEESNTESHRYNDVAVLFTCLESHDDENIIQKSLSEIKSSLDNLNCNRIVVYPYSHLSDNLANASKAVSLLNTFKIGLTEAGNEVNSSPFGWNKSFTISVKGHPLAEQLKIISSDSVETHESEALKSEERLESKYVIMSVDGTTEPAEKFNYSNFKNLNSLQKYELSKSRIVTSHPPHVELMKKLSLVDYEPGSDSGNLRFYPKGRFIKSLLERYVTSQVKKYGALEVETPIMYDSNHPSLASYLNRFPARQYIVNSDNKELFLRFSACFGQFLMLHDSIISHKQLPVKLYELTRYSFRREKSGELVGLRRLRAFTMPDCHALCKNIESSKDEILTRFTLSRNVLQGIGFTQDDYELAIRTTQDFYDANIDFIKQIAKDWNRPVFIEIWPEKFFYFIFKWEFNFIDNLGKASALATDQIDVENAERYGINYVDENGEKKIPVILHNSPSGAIERCLYALLEKAAKIQKEGKTPTIPFWLCPTQIRVIPLSQDFHEVSLGYLEELSKSGFRIDFDDRDLSVGKKVREAEKEWIPFILVVGKNEVESNKFQVRDRYSGEMTSMSLSELIAHCKNLSTQMISDELPLSKFISDRPQFK;locus_tag=LOCUS_2420;EC_number=6.1.1.3;note=WP_010868458.1 threonine--tRNA ligase (Pyrococcus abyssi GE5) [pid:51.4%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:2.5e-178],MGA_260
sequence14	MetaGeneAnnotator	CDS	10831	11697	.	-	0	ID=MGA_261;product=agmatinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023880.1;translation=MSKSDLYMSNESLITNLTNNQDNKVNIFGVPFDATSTYRIGSRFAPNTIREAFQNIEIYSKRLKKDLENVNIRDLGNLAKVGNIKEMNKMVEEVTKEIIQNGKIPAILGGDHSLTNGSVRGINKSTLVVFDAHLDFRNEFEGLKLSHATFLRRLYEDGCISNLIHVGSRAATKAEWDFVDKDDIKIIDMEKIYNLESGLKEFKNELTSSNDIYVSIDLDVIDPAFAPGVGNPEANGMSSREILEFIYCLENFKLTGFDIVELIPSYDNGSTSALAARLLAELICIAES;locus_tag=LOCUS_2430;gene=speB;note=WP_011023880.1 agmatinase (Methanosarcina acetivorans C2A) [pid:36.1%25%2C q_cov:94.4%25%2C s_cov:94.8%25%2C Eval:3.5e-45],MGA_261
sequence15	MetaGeneAnnotator	CDS	178	1695	.	-	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYSLNTNWLFSKQFKAATATLLLAASMLVIMGLPIAPSVQAANTGTLTLSSSQIFGNQTVSMTISDSDIGVEELRGTYNPSVVLEWTNATNTYTVNVTQNTGGTWVAYATDALWVMYSSSCIALNVTASDRGPSSGGSARLTPGAAGGSANFAAAEAAMTGTPGFPPHAKGSNGVATGACATAYINNGHLANGAPSSRTYSNLTLDLTAAGMASATNSILTSPIIHGYNMTRGHTMTITYKDASDSTGAAKDVSQTLLYKETKATLYNTEEKQTTVTPGATLRLFLNHNDLNQDPTEVESFLVFNNTNGLKAEIVTSSNATLQNVLNKTMSYMGAGNHHDNGNTAGTGAGAFRLNFTETGANTGIFKCSNPTGSSLTTSPCLEMERFYYNTTVPGETGNTNKSGGNPYDGISRPIWNFTSDNTGTSGWKNGDTFKISLTPIQASATGSYWGYNSTTCGGTGTTQKLGCYNSTSVTFTITETAGTMSVSSNDLTSSSDVTVTITD;locus_tag=LOCUS_2440;note=MGA_264
sequence15	MetaGeneAnnotator	CDS	1884	2966	.	-	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLQIIDNLNNQLKDERKLFLLIFSFNLFFFLFGLALGYDVHHFADKADTDGTSYYNIALNPFSSSPEESGFRHATFLYPLLTYLIAQGNPFATALTMEMINITAFSFSVVMFSKVASLDNRRSSILFYAFNPILLISTHGGMNEPLFFTFMFGALYYFRTDNFKMSAIFLAFASLARPDFVIFSFPFFLLAKDRKFLPYFLIPLITISVHGLHLIYRFGLDHFLRFTSGIDSGFPHSMIGIPFQTFFQNRLFGGVNTPAITGLNYLINEFLTWSIFFALILSIYFIYKKKHIDYFSLSLIVFGSVLQPAYSFFSGYFRFASMIPYLYKIPGLTLNNRMLPLFGFLYLIFGISLLFAWFF;locus_tag=LOCUS_2450;note=MGA_265
sequence15	MetaGeneAnnotator	CDS	3059	4057	.	+	0	ID=MGA_266;product=dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004194045.1;translation=MEDKLTAIAPHRISICGGGTDFPSFYNNHGGAVINFAITRFSKIKLKRLKNKFIVIASDVDEYFEGTKEELFKVKNNSMPLYTVLEKGIPLKISINSDVPPGSGLGSSGTLAVNLVNALNHIDNKKKINPLELSETAYKLEADIFKKAIGKQDHMPAAFGGFNFIEYKKNKTIVSPFKNKITKSVTDYCLLFYLGMTRDADKILRRQEKRVQGKSEEMIDVLKTMNKLTRKMKKDLDDGNFKDVGSTLEIAWELKKKFTKNVSNKFIDKVHDVSIESGAYGAKITGAGGGGHFLVIADKSQHKKIIRNLHSVGCKRVLFDVSVKGAVVNYGK;locus_tag=LOCUS_2460;gene=hddA;note=WP_004194045.1 dehydrogenase (Burkholderia mallei ATCC 23344) [pid:31.7%25%2C q_cov:91.9%25%2C s_cov:91.6%25%2C Eval:1.4e-35],MGA_266
sequence15	MetaGeneAnnotator	CDS	4047	4595	.	+	0	ID=MGA_267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENEKFLQDSKKSIDSLIENNDKILEMINLLQDVRNNKKNVFVIGNGGSSSTASHFVCDLLKTSINESQPRFRAQCLTDNTPVMTAWSNDVSYDDIFAEQLKNFVEEGDILIAISCSGNSTNILRAVEESNKKGIKTIGLTGQSGKLSELSDIVIEVPSDNILLIEGVHSVLLHYVTEILRG;locus_tag=LOCUS_2470;note=WP_012259619.1 phosphoheptose isomerase (Chloroflexus aurantiacus J-10-fl) [pid:51.9%25%2C q_cov:73.6%25%2C s_cov:66.8%25%2C Eval:8.0e-34%2C partial hit],MGA_267
sequence15	MetaGeneAnnotator	CDS	4592	5038	.	+	0	ID=MGA_268;product=D%2CD-heptose 1%2C7-bisphosphate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A1JP45;translation=MKVPALFIDRDGTIIKQIDGEYISSINQIELIETIFPAILMLQNEGYLIIMVTNQAGINKGILSKEQVDEINQHIIQSLKRQGIEVSAVYVCPHRTDEKCKCRKPEPGLLLKAAEEHNIDLGNSVIIGDSDKDTEAGLKAGLKKVIKI;locus_tag=LOCUS_2480;EC_number=3.1.3.-;note=A1JP45 D%2CD-heptose 1%2C7-bisphosphate phosphatase (Yersinia enterocolitica subsp. enterocolitica 8081) [pid:38.8%25%2C q_cov:94.6%25%2C s_cov:77.1%25%2C Eval:2.8e-26],MGA_268
sequence15	MetaGeneAnnotator	CDS	5035	5814	.	+	0	ID=MGA_269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKITIITPIHGKQKQYEIMIQKIGNKLNEQTIKPLEWIIVCDEKSQWIKNLKVPSFSKILVAKKNNISLKRNLALDNSNGDYIFLLDSDQIPESNELLSDCIRKCKEGFDLIRIPEKFSGTGGYLKRSYHHLRGLYWEKSDEGIPRFVKSELVKEKRFDPERLHFEDELFFEELRNKYTEGKIESIIIHNEAFELYPNLRKARIAQKQSKSHKIRSSFRLNIKTIIIETPVLLLPGVIFILALRTIAKRILPVESGTSR;locus_tag=LOCUS_2490;note=MGA_269
sequence15	MetaGeneAnnotator	CDS	5854	6345	.	+	0	ID=MGA_270;product=acyl-CoA thioesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003975762.1;translation=MKGKTVKESAITSSHLMLIKDSGNFIFEAGKTMPMVHGGILMTLMDEIAGMVATKHSGTHVATACIDMQFIAPAFAGNRMILKSSVNYTTKTSMEIGVRIEAEDMKTGVVKHTNSCYLVAVAINEKGKPKDIPSIIPETKDEQRRFNEAKVRNEERLKKRIKN;locus_tag=LOCUS_2500;note=WP_003975762.1 acyl-CoA thioesterase (Streptomyces coelicolor A3(2)) [pid:38.1%25%2C q_cov:96.9%25%2C s_cov:77.2%25%2C Eval:4.0e-25],MGA_270
sequence15	MetaGeneAnnotator	CDS	6335	7561	.	-	0	ID=MGA_271;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870985.1;translation=MIDLKCINCESLFDPDIIMHNCSKCNDLLEVQYDLNKISNNLDSNWRDKPLSVWKYEDFLPIGKDVERVTLREGGTRLHSSKKLSSFFGIDNLHIKNEGDNPTASFKDRGMTVAVSKAKQLGAKIITCASTGNTSASLAAYGARGGLKRIVLIPSGKVAYGKLSQAMICGAHVLQIDSNFDKCLEVVMELSSKYEDIYLVNSINPFRIEGQKTIIFEIFEQLGHIPDWIIVPVGNAGNVSAIWKGLSEFHQLGIIDKLPKLVGVQAEGSAPISTAFSEGKMEVNNVQKPETLATAIRIGAPASWKKALRAIYDSQGLATTVSDKEILDGQMNLAKLEGLFIEPASAAPIAALKKLLRNGTISSDEEVVCIATGHGLKDPDIITKFVEKPTEVSSNIDEIQKAINKTNF;locus_tag=LOCUS_2510;EC_number=4.2.3.1;note=WP_010870985.1 threonine synthase (Methanocaldococcus jannaschii DSM 2661) [pid:51.9%25%2C q_cov:98.3%25%2C s_cov:99.0%25%2C Eval:5.8e-114],MGA_271
sequence15	MetaGeneAnnotator	CDS	7561	8496	.	-	0	ID=MGA_272;product=homoserine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978483.1;translation=MKKTKNITAIGPASSANLGSGFDCFAIALDNLYDTVKITKSENSGISIKNYGLKSGISNKPEEHTGGIVAINILKEFSLKGVELSVEKGVPPGKGLGSSAATAAAVTVGLDKLFSLKLTDKEKLRFAASGEVASAGISHADNVAGSLFGGFVVINSSTCDDIVSFLPPKNLHVCIGTPKMKSVAKKTGKARKLIPTKVKFTDSIINVSYAAMMVAGFSTGNKDLIGKSMNDTIVETARSNTIPNYYKLKSELLELGALGVTISGAGPSVISFLDNKKSFPKIKKCFKKQFKSAGFDSSVILTKIGKGARII;locus_tag=LOCUS_2520;EC_number=2.7.1.39;note=WP_010978483.1 homoserine kinase (Sulfolobus tokodaii str. 7) [pid:30.0%25%2C q_cov:95.2%25%2C s_cov:96.1%25%2C Eval:1.4e-37],MGA_272
sequence15	MetaGeneAnnotator	CDS	8625	9635	.	+	0	ID=MGA_273;product=homoserine dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871127.1;translation=MRTILIGLGTIGQSYCQLLENRKEDLLKNYGIDSKVVAVADSRGVAINEKGINISDILKIKKENKSVSDLSIGDKNKTSIDLVQEIDAELLVDATPTNIQDGEPSASLLENAMKTKKNIITANKGPLALAFSSIIEKADYNNVILKYSATVGGGTPVLEFGRKCLEADRILEIHAILNGTTNYILTEMDSRGLSFQEALKEAQELGYAETDPTLDVDGFDAAAKLVIMGNLLLDKELVLNDLKIEGIRDITQKDITKAKDNGDTIKLIASVNDMAKVEPVTISKNDPMSVTGALCSVKFISEFAGEEVIIGKGAGGMETASAMIRDLVEIKQKMRV;locus_tag=LOCUS_2530;EC_number=1.1.1.3;note=WP_010871127.1 homoserine dehydrogenase (Methanocaldococcus jannaschii DSM 2661) [pid:41.4%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:4.5e-74],MGA_273
sequence15	MetaGeneAnnotator	CDS	9638	11026	.	+	0	ID=MGA_274;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870075.1;translation=MKIVLKFGGTSVGNGKKIDNVCNIIQKVKKDNQVIVVSSALQSTTDELLELSEDAKKGKINEKIINEISQRHRDAIKDIIKDKEIQNEVFKVVEELIEDLKKTVDGVIIVKELSDKTQDKIVAFGERLAVTIISGKLRDMGIKSKSFTGGEAGIMTDDNFGNASPLMKVTQHNVKNNLSDLIEEIIPVVTGFIGTTQQGDISTLGRGGSDFSASLIGMCLNVDEIWFMTDVDGLLTANPKIYPKAKTIPQLSYNEAVEMATMGAKGMHARALEPAKIANIPVRIKNTFRPDVEGTLINDQVIVKPEEITKAVTSLNGLAMITIAGMNMVGNPGTAGEIFSMLGRNKVNIIMISQSISEANITFLIKHDDLRKAVSVLQVSLLGKSSVTDITSDDEVCVISIVGAGMKGTSGVAAKLFTAISGVNINVKMIAQGSSEQNISFVVQESDSLLAIEAIHKEFNMD;locus_tag=LOCUS_2540;EC_number=2.7.2.4;note=WP_010870075.1 aspartate kinase (Methanocaldococcus jannaschii DSM 2661) [pid:46.6%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:3.2e-111],MGA_274
sequence16	MetaGeneAnnotator	misc_feature	1	740	.	+	.	ID=MGA_276;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q73RR5:glycine--tRNA ligase,Q73RR5 glycine--tRNA ligase (Treponema denticola ATCC 35405) [pid:41.0%25%2C q_cov:84.1%25%2C s_cov:49.2%25%2C Eval:1.0e-44%2C partial hit],MGA_276;locus_tag=LOCUS_2550
sequence16	MetaGeneAnnotator	CDS	720	1517	.	-	0	ID=MGA_277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQDIQYLIFISIIIITSIIVLKLKILNFKGTISSIFMGNLVYLVTGIGGFILVIEFFIIGFIGTKFRFKQKRKKGLAQEKDGIRSWENVLANGFAFSLFGTIYHYTNNELFLFAFIASIAIATGDTLATEIGLLSSNKPKLITNFKEVEAGKSGGITTLGIFASIIGIIIIIISSLVIGFVLNYYSIFAIIIGSFVGILIDSIIGATIQAQYYCVDCKKYSELQYHHKKKNELTKGYSFIDNNIVNLLSTTIGSVLSILIIIIF;locus_tag=LOCUS_2560;note=WP_011250209.1 membrane protein (Thermococcus kodakarensis KOD1) [pid:35.9%25%2C q_cov:72.5%25%2C s_cov:80.6%25%2C Eval:2.2e-27%2C partial hit],MGA_277
sequence16	MetaGeneAnnotator	CDS	1552	2235	.	-	0	ID=MGA_278;product=XRE family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496864.1;translation=MENADLDIIAKIAGNVVVSNNPGEMLKIWRKRLKIKQITLANKMKISPSVLSDYESGRRYSPGIVFIKKYIEALVIIDKSNNKTLNRLLKEDHSAILGIGEFKKPISAGKLKKSLNIDILNEEDNLDTKIYGYTIVDSINTIYMLSGIDFYKIFGATTERVLIFTRVGIGRSPLVAIRVSQLKPRMVILHGPEKIDKLAIDLAEKDKIILGLTRNNESRIKEKLIKL;locus_tag=LOCUS_2570;note=WP_064496864.1 XRE family transcriptional regulator (Methanocaldococcus jannaschii DSM 2661) [pid:47.1%25%2C q_cov:93.8%25%2C s_cov:95.2%25%2C Eval:3.1e-45],MGA_278
sequence16	MetaGeneAnnotator	CDS	2271	2531	.	-	0	ID=MGA_279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGMRYNTRGENQTSIIEILDNIEIADNKQENNEDFVKILNKLIEIKLNEIGKTYFEVIKENKTREKQLKKLNSWAIWLEENEDIIE;locus_tag=LOCUS_2580;note=MGA_279
sequence16	MetaGeneAnnotator	CDS	2599	3015	.	+	0	ID=MGA_280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGTEKITVKLKHGSWEVEITCPENRVKQTVENVISGIDTKTSLTTVSDNIKPTTPIKSNKSTEHVICRDLIELLWQENWFTTERNLSEVDEELSRRGYHYDKTSISHSLKDLVRENILTRNGSMRNYRYVQKRPPVA;locus_tag=LOCUS_2590;note=MGA_280
sequence16	MetaGeneAnnotator	CDS	3047	3526	.	+	0	ID=MGA_281;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDSITKIKLRISNIEVEIECDIHNLEEIISKIPKIIESVNNTSEIHTKDNNFSIINNSVETEPIIPPDITINKSDSLTDVLLKLFTSNWSNTPKKLNEIREILQLYGLMYPKQTVAVTLLRMAKSGRLRRFKSNTGEYVYTASNSLISSTEKFSNSSL;locus_tag=LOCUS_2600;note=MGA_281
sequence16	MetaGeneAnnotator	CDS	3544	4038	.	+	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEILITIIHNDTTIDFKGSPSEVLYSVNEFLLKSIPSIELAKKISINYTLEDISLKFHKIIKITPEGPRIWIDSNNLSDRERICLQLLANYTGFLAGKSNNSFTTISDLCKLTGLNPKSISSRLSELQKSCYVDKENIDKKIMFKITTQGINWLDSIIDNRLK;locus_tag=LOCUS_2610;note=MGA_282
sequence16	MetaGeneAnnotator	CDS	4040	4342	.	+	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLFIIGLFFLIFGYLAFQNAIDNLVTLEEYIVDAQAGMLPGAVQNNELDVMSEAEMADSLRRGEAILQVSRAFMLFGFVIFVYSLVDDIKKIKNKLL;locus_tag=LOCUS_2620;note=MGA_283
sequence16	MetaGeneAnnotator	CDS	4343	6184	.	-	0	ID=MGA_284;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875885.1;translation=MTKESKQKFNKVRIVPDTSIIINQILSEKIEKGDIKNSEIIIPIAVLDELQSQASKNKEIGFIGLEELKKIKDISTKKKIKFRYLGTRPSLEDIKLSRSGRIDAIIRDESIKNDAILFTGDYVQAIVAEAMGAKVNYIQKIINEDDSNLDKFFKDELISSVHIKEGIPIRVKKGLPGEIELISIGKDIDEDEINKIIKDIEEFSRISKKRDKPISRDGAKVIQLDKFRITITTPPFSDKPEITIIKPIKKLQISDYKIPKKLMERIELSAEGILVAGSPGSGKSTFASSLAEFYSTKNKIVKTIESPKDLQVNPEISQYGQLEGDFEKTAEILLLVRPDYTVFDEVRKSRDFMIFADLRLSGVGMIGVVHASNPVNSIQRFVERIEMGMISNVVDTVIFLRDGKIEKTYQLELVMKVPTGMQEADLTRPVIEIRDFIDSTLEYEIYTYGEEKVIIPVIEVEKKERITKDKAIKKLQENYGKYIDEIDIEMISSRRALIKTDKKNIPEIIGRNGQNIMNMEKKLGIKIDVEPNNNALGKNINHTIHETGNSLDILFKQRKLDGKTLNLYIDNEYILSATVGKRNRIRVAKDSDIGKSIINAIIQERKIIVTKID;locus_tag=LOCUS_2630;note=WP_010875885.1 ATPase (Methanothermobacter thermautotrophicus str. Delta H) [pid:42.1%25%2C q_cov:96.2%25%2C s_cov:97.7%25%2C Eval:5.3e-136],MGA_284
sequence16	MetaGeneAnnotator	CDS	6225	7688	.	+	0	ID=MGA_285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868372.1;translation=MTNNSLTKYEDVLYSIIKEAQKYNVEYAEARFHSIKELAAILQNGEPKPTFSIEKQGIGIRMIYDGVMVFASTNVFDQSLNELIEKTILRAKASKKISKSPIKFSNEKSLKRDWAANEKENLKNVHVDEMISVLNEVDGYITSFNSDVSIANRTLILDTSVEEKFYINTDGSHLLGRVPRVAFYSQIAAKYDGKLSAFSIPAGYAGLGRSGGWEMIKTFNLDNYIPQQLSIASNSIKSKSEKFENDIDVIVGPDIAGLVAHESCGHPFEADRILGREAAQAGESYLEFDCYGTKIGSDEVFVSDDPTIPESMGFYLFDDEGVESKKRKLITAGIITDLLHNRETSSKMNIQSNGASRSTEFDKEPVIRMSNTFIEPGNYELEELISDVKSGVYIKNFMEWNIDDRRENQRYVGFEAYRIKNGELDIHVNSPVLELTSKKFWSSVDARSKNLDFKAANCGKSEPMQGAPVWTGAPDVRLRNIKVGTRS;locus_tag=LOCUS_2640;note=WP_010868372.1 hypothetical protein (Pyrococcus abyssi GE5) [pid:39.8%25%2C q_cov:96.7%25%2C s_cov:98.5%25%2C Eval:9.4e-101],MGA_285
sequence16	MetaGeneAnnotator	CDS	7685	9013	.	+	0	ID=MGA_286;product=zinc-dependent protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249649.1;translation=MNLEHILSIIEKKISSFNCDDYSFLLSKNHEDLIRFSNNTINIFDNVEDVSISIYLGQDKKRVSGVIYNLDEDSILTYLDSLLQYCNDSPINNDYTQLPSGPFDYSSKHAVEIDQITNHESIIDHVENSINYALQEGASRVCGSFTSRISEIILKTSAGIDLTDKSITNLLNIRAFTESKSSGHGISCSSSINNIDSKHAGIDAGNYAKSSINPKQCDPGKYDILFTPTVAADIFQFVGHVSSADSVDSGDSFLADKMNLQVSSNDLSISDIGNPNNGIYNRIFDDEGIPTQSTKIIDNGKLKNYLHNITTSKKYDVKSTGNAGIIAPHCWNLDVSPGTFTFDEQLTSIENGLLITNNWYTRFQNPAAGSYSTVPRDACFVIKNGEISHPIHGIRISDDIPRQLSNIVSLSKARRWIEWWEVETPVLSPFVAIKDVPVTRST;locus_tag=LOCUS_2650;note=WP_011249649.1 zinc-dependent protease (Thermococcus kodakarensis KOD1) [pid:35.8%25%2C q_cov:98.0%25%2C s_cov:98.2%25%2C Eval:7.3e-81],MGA_286
sequence16	MetaGeneAnnotator	CDS	9211	10896	.	+	0	ID=MGA_287;product=thermosome subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867141.1;translation=MAHQANVGVAPNGQPVIILKEGSSQTKGREAQKNNIMAAKVVSEIIRSSLGPRGMDKMLVDGMGDVTITNDGATILKEIDVQHPAAKMMVEVSKTADTEVGDGTTSVVILAGSLIGKAEELIDKEVHPTIVVDGYKKAATQALKILDEIAIKVTPGDKKWLIKVAKTSMASKLIWRESDTLSKIVTDAVLAVADNVDGRYTVDIDDIKVEKKAGEMLKDTSLIQGIILDKEVVHAGMPKKINNAKIALVAAPFEIEKTEFDAKINITNPDQIQAFLDQESTMLKDMVDKVEQSGANVLITQKGIDDSAQHYLSKAGILTVRRVKQSDMEKLSRATGARIITNLEDLSKKDLGHSQLVEERRIEEDNWVFVEGCKNPKSVTILIRGGTQRVVDEADRSIHDSLMVVKDVLVKPSIVVGGGAPEAEISRLLKVYSNKLSGREQLAVQKFAEALEIIPITLAENAGLDPIDTQVQIAAAHGQGNTWYGVNVVKGQVDDCEKLGIYEPTIVKEQIIKAATETAGMLLRIDDVVASSKTPAPPPGADGGMGGMGGMGGMPPGMGMM;locus_tag=LOCUS_2660;note=WP_010867141.1 thermosome subunit (Pyrococcus abyssi GE5) [pid:56.4%25%2C q_cov:92.9%25%2C s_cov:94.7%25%2C Eval:4.9e-173],MGA_287
sequence17	MetaGeneAnnotator	CDS	2629	4992	.	+	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLINSSVIDKVGFRPSSDIDNAIEREQQYRNNLKKILFSTAIFLFTIIILYTIQLYPIPIVFLISILSAFIGFKSIPSGFLLSFILFIPAYLYQTSIPFWWLLLSFFIVGVFIAKSLNDPNNILTLIFGLTAGSLFLTPYYFVSIPLMLFYTLIQKTDNLSHNVGLLFSFLILFIPFNALGFAEKLSISANTRPQVIYSLISESTLPIFSQIIYESNPRASSFNEFNLAESLSGLFSLQNNIFNSYLFVLIDNLVLLFIPILLVISFSFITILDKIWPWMEERGVELSILPNFSYVITLILGTLFFIIPLQTMQIPFDYSTGFNSTDSFKSIIAAGTIGVVVSLSSINLSRRTEGAELTESVKEQCNSYLQTLDNSDLQLEEIQEICPGIDINPEITSLSEFKEELSITLDGLYTLSYSGLREKSENIRILSSSQIDDKDSLHLKVLNFHNDQLDKCKDMLSKLEGLGIGNLPTINSDHLSYSDDLTFSDVLNNQRELNDYLLEVSQNTIRVAESLVLVVQKEFDHTLEFTSISISENFISQGKGEQALDTLLVTIASLHKRYHQVMQKTITSLKRLIERSLKMHEYNVIPLNESLGQTPADVETIDVAKQIQINYDELSNFNGILYLPDVMSILQFLETGTHTVISELLRLLREFEKRNDTRVPLDFQWGKDTQLISEIESSLRRLDDKSGAELSDRLSNIEYGIKIIENEATTLKKYLIMNEFILNYVNIEPLISSLISIEGKVIPRQLPVKSRYAVQYLQLFAYGKSKVTFDSSKNTLLKNK;locus_tag=LOCUS_2670;note=MGA_290
sequence17	MetaGeneAnnotator	CDS	4994	5974	.	-	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQIKDIEYQSVIFEQDTKNIKGRLIISGNELIFQKKVGLISKKYEMEFQTEIELIKNIEKEGYSKILISNEDSSLLAKFILDTPVEANEICDMINNTIEKAIQDTEERKQDEIDDRINQANYSTYIYDVTFKLWTIISLLFTIMKETIDDNWDEVDQGIEKFKELVLELETNKVNINNDAKNIITSIKSRDNITIINSIRIMIRTLGESLQVQVPYVEWREMKSEVKPCWENLQFFYLFAVAVFESYYFESMKMNEEKKLSESNVIRYIPIVNGHFADQLFDKTKYSTKTLREKNDTIEQLIDETTNRLENLLKESLKKVSLLN;locus_tag=LOCUS_2680;note=MGA_291
sequence17	MetaGeneAnnotator	CDS	6061	7380	.	+	0	ID=MGA_292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRPTSRKISYSSFILCPDGHKNVRGLAECATCNLPLINFKKELSVLIDYLNSIKVANHHKVINFGIGDFGSQTLLSFKDSIHPERLNHLLVNYFNSENTSSDLSESASNHSNYYLIDDDYDSNINTWSEFEDTFSEFDKFEDKIRRVGINNNIDEQTAIITGSIGETLVSGLTLPLIKKIKRINPKSSRIVLTSLPSNNDTDQVQFNAFCGVSRLVRNQKTSGDMLIVLQGNALNKMIGIDRSGKKLGSDVLVPRILNLLTSNGHAINSLGKMAKSLKVLAFSPVYVYGRSYEIYDNLKNILDDAAYFPLSPFQYESTVLSIAVIRIPENVLNSISPNRLENDYNAWNRKRFPSLKESLIQIVPVKENSDRLDVLLLLGGTKLETIVEPVKPGYERFKEYIRELDLWNEFKINEDDLKKLENTITTYDRNINKLLKSN;locus_tag=LOCUS_2690;note=MGA_292
sequence18	MetaGeneAnnotator	CDS	357	2045	.	-	0	ID=MGA_295;product=dihydroxy-acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980252.1;translation=MTLLLMNDELKIRSNDVTKGPQRAPARAMMKAMGLNDEDLGKPLIGVASTWNEATPCNLHLDRLAHKASEGVSISGGTPREFISVSVSDGIAMGHEGMRASLVSREVIADSIELMVHAHRYDGVVTIAGCDKSLPGSIMALARLNLPGIFVYGGTIMPGNVNGKDITIQDVFEAVGSHAAGNISKEELKEIEDKACPGAGSCGGLYTANTMSSISEAIGIALPGSASPPAIHETRDEVCKKTGSSLMKLLENNIRPRDILTFEAFENAIVVLQAMGGSTNGVLHLLAMAREAGVNLTIDEFETIRRKVPHIADMRPGGKYVMLDLDKIGGVPVVMKKLFKAGLINGDVMTVTGKTMKENLEEFNINIENDVVYEIETPISKTGTLTILRGNLAPDGAVIKIAGVKNLQITGAAKVYDSEEEAFIDVSKNKIVEGDVLVIRYEGPKGGPGMREMLGVTAALYGQGLGEKVGLLTDGRFSGATHGLMVGHVAPEAAVGGPIGIIENGDKITIDAINRKLEVELSNSDIKERTIKWKSKEAKYKWGVLSKYAKLVSSASEGAICK;locus_tag=LOCUS_2700;note=WP_010980252.1 dihydroxy-acid dehydratase (Sulfolobus tokodaii str. 7) [pid:58.3%25%2C q_cov:98.8%25%2C s_cov:99.5%25%2C Eval:1.4e-188],MGA_295
sequence18	MetaGeneAnnotator	CDS	2110	3363	.	+	0	ID=MGA_296;product=TIGR00300 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871002.1;translation=MKKIRSNKYTKEIEVKGHLIDSMILTRIFDRIMDLQGDFEVKEFKIGQGKNDYSYAKLAVTGKNESHLSQMLNEIYSAGGISVELQSVQYSKVKKNSVLPENFYSTTNNPTFIYLNNKWIKVKHQMMDKAIVIDPLKNTAVCTMLRDITKGDFVIVGEEGIKIVPPERPREGLDSFQFMSSHTSTEKPIQSISSKLARELISIKKNKGKIVIVGGPAIVHTGAVDSLSQLIRMGFVHGILAGNALLVHDVEHGLLGTSLGIDVKRGSSTHMGHRHHIVAVNELFKAGSVKKLVKSGKLNSGIFYECEKNNVPYVLAGSIRDDGPAPDVITDVVKAQKQYQKILSNADLVIMLSTLLHSIAVGNMIPSTVKVVAIDINPSSVTKLLDRGTGQAIGVVSDVGSFLPILINDIKKISKTR;locus_tag=LOCUS_2710;note=WP_010871002.1 TIGR00300 family protein (Methanocaldococcus jannaschii DSM 2661) [pid:52.2%25%2C q_cov:98.1%25%2C s_cov:97.9%25%2C Eval:5.6e-128],MGA_296
sequence18	MetaGeneAnnotator	CDS	3394	4629	.	+	0	ID=MGA_297;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259142.1;translation=MTTESKTIDNPYSWPVIALSLAIANMTFGFGIFFPYLPLFAEALGANLGLQIALLTTGFMAARTLTALPFGSVSDQIGRKNSIVLGLFVYGIITILFYFSQDWTHVLLLRTIQGITAGLIWPSSRAMIYDLVGPGARGRAISVLNVSAGAGMAFGPIFGAFLLSYFQSSMNLTPIDSFRIPFIFAGIFGLFSSIFASITLSSDFIPSKRTRFFKMIDNLDPKFVKTFYSSLLMNLSHGFAFGMFRPVLVLYVYQVLGYSLLETASISAISFSLGSLANSLCQIIGGRLADSQNRRYIVSIGVIISQIATFSILFVNDMMQFYILIVIRFSAIGIFIPSLASLEGDLIPPNQRGQLSGLVEGFRGIGSAIGPLACLALYDYVWTGSPFVLSPAIFLICLILYYINYREPFQK;locus_tag=LOCUS_2720;note=WP_012259142.1 MFS transporter (Chloroflexus aurantiacus J-10-fl) [pid:25.3%25%2C q_cov:89.5%25%2C s_cov:90.8%25%2C Eval:1.0e-17],MGA_297
sequence18	MetaGeneAnnotator	CDS	4664	5176	.	+	0	ID=MGA_298;product=transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868546.1;translation=MTKKKFEDSFVKISGLIGGEDYVKVAKSLLSHENTTDEEIAESTELKINIVRKALYDLFGRSLITGIRVRDTKRGWFVYRWKAQRDQVEPFVETQKSKAITRLTQRLNYESDNEFYHCGNPSCMKYVFNKAIEVSFNCEVCGQALKLLDNSKLKEALQLKIHEIQNEESD;locus_tag=LOCUS_2730;note=WP_010868546.1 transcription factor (Pyrococcus abyssi GE5) [pid:35.2%25%2C q_cov:93.5%25%2C s_cov:83.7%25%2C Eval:1.3e-27],MGA_298
sequence18	MetaGeneAnnotator	CDS	5351	6241	.	-	0	ID=MGA_299;product=EamA family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250743.1;translation=MNIRNKIGINLDSKTFGIIEIIFATLIWGSLGVVIRNIDMDPFSIVAYRALIALPIMIILFSKNREKLNKNYKLLILSSIAITLAWSAHFFAFKLTTIANTVVLLYTGPIYVAILSPLLLKEVREKKTNICLILSILGMFLMYNQGLGDELNDRGLMLGAISGILFAFVIISTKRLSKDYSSITIVTMQLLASVIILSPSLFIEQQVVINNLPLLLTLGLIHTALAEFLYIDGLIRVSTQKASTISYIEPASAIIYAIILLNEIPKGLEIIGISLIATANIILYVNIDDIKKIIKR;locus_tag=LOCUS_2740;note=WP_011250743.1 EamA family transporter (Thermococcus kodakarensis KOD1) [pid:30.2%25%2C q_cov:89.9%25%2C s_cov:97.5%25%2C Eval:4.5e-27],MGA_299
sequence18	MetaGeneAnnotator	CDS	6225	7553	.	-	0	ID=MGA_300;product=tRNA(Ile2) 2-agmatinylcytidine synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879748.1;translation=MTTIHLGLDDTDSDDGMCTTYLITLILEELLKERIKVLDYPNLIRLNPNIPWRTRGNASLCLRLETNNPKRIFNIAKKIMIKNSESKRNKANSGLVMLCSKNIPKELIEFSKKCVNQEIKMKEMEKLVKNKDIYHFGQGTKRGLIGALAGIGNTLEEDHTYELIGYRKNGIGDRGVSLESILKIDKKKEYSMFSNIDYNNHRILITPHGKDPILFALRGNNPKNLYKAMSELRLYEDVERFVIFRSNQGTNEHITKELDLSNLKTYDSGYAIGEVITKPIVIRGGHVFIKIQNGKKKINCAIYAPTITLKNIARNLKIGDKIEVGGGISKKSKNYGRILNVEYIKIIKLENRIIKRNPLCKKCNKSMKSKGKNQGYKCIKCGSESTRIRKLRIKHGIQNKLYLPVLSAQRHLIKPIERYGNEKHSKSAKVKGIWFKIFEHKE;locus_tag=LOCUS_2750;note=WP_010879748.1 tRNA(Ile2) 2-agmatinylcytidine synthetase (Archaeoglobus fulgidus DSM 4304) [pid:32.5%25%2C q_cov:94.8%25%2C s_cov:98.1%25%2C Eval:2.2e-61],MGA_300
sequence18	MetaGeneAnnotator	CDS	7568	7795	.	-	0	ID=MGA_301;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLAYVLINAEIGKERSCFEEIKEISNVKEVHILYGFYDIVAIVESSDINKVNNALKTIRQNNNVMTTETMPVIE;locus_tag=LOCUS_2760;note=MGA_301
sequence18	MetaGeneAnnotator	CDS	7833	9623	.	-	0	ID=MGA_302;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVFYKLKSLITIISLLVFIAGLQISGGFLSIPNAQGAGNVSMDMKNTIEINELGILELNYNLLVKNSGQTSETINKGIVLYLPLSYQNKIDAYRMNSSLDVELSISKNFKNTVLKIDNNNGIILSPDKEEYVNIELRIRDALNATERDGLYFATIPMLTTSNIDINRLDLTLRVPDSAPFYNISDYSPAKSEGGFGRETQSYIEIAKTTFSNITKNDYLEERLYVLTNPGIEAFSIVEIDSFTREVYISDRGDIMIRETIEITNLDSGRALRKIRLDLIGPERDELNVPRIRNITTVPDREPPIAAKGVLTLENPPINRIEIERLVRHTLEAGNSLVIKYEYKLDKEFIETDTNSIIVNIPTTPTLKTITDNYRIVIVESDSYSISSNSPLEVNLDKNEQLMNNNITISYVPGIAWASTTSVPIGSIIFFIALLGMMIRVERKEDVEIEGGGEEEIVVKTRELTGLYGEKISLLKNILERMEKWDKETISKNQIENVKNEINTIRTRNAGQLAIIRKDIIELKSSQKEVFEELNKSEQSLERDIFQTIQLYEQYRLNRINKQEMEKRLSEYKKNVFGKINNIIATLQVNSDSLEKK;locus_tag=LOCUS_2770;note=MGA_302
sequence18	MetaGeneAnnotator	CDS	9743	10744	.	+	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSGEKHSIFVVGIGHAGCQILSKLETDSGFSNSVYVSSVLEDFPHSSKGLSLNINMKIGGSLSIPMIRSLCKEQIDIISDSIKSADCVIITCNPGEKIAAALSPVITKLCHDNNIKCMPVLSMPYDSETHRHFNAGTTLTKIKQYSSNIILIDNDEILESLPRIPISEAFNLIYSKIALSLSSLFSNNTHEIENILEITEDDKYSILSFGESSQEENTDNAVKNALHMLSSTTNTSSISRVLLFLNGNSNLSTTDVLSSVNMIKGQVHESQISHSYATTNNSDTMAVLLSSGLTKTKFDDYDPLASIFNGNNLDDDIEYHIDENLDIPILSE;locus_tag=LOCUS_2780;note=MGA_303
sequence19	MetaGeneAnnotator	CDS	420	1091	.	+	0	ID=MGA_306;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDPKYSRKKSARPRNPWQRNLLKEELELVGNFGLRNKKELHIASTELSRIRKQARQLLAAATEIRTSREPILLSSLTRKGIVTEDATLDNVLALNVSNFLERRLQTIVLRKGLARTPHQARQLITHGHITIGENRVTIPSYTVTRNEEPLIKMKEGSTFVLQEIPVPKLKSDTYGNPDEKEELESKEKPAEEAKAEEKPAEEAKAEEKPAEETVKEESKENE;locus_tag=LOCUS_2790;note=WP_010980144.1 30S ribosomal protein S4 (Sulfolobus tokodaii str. 7) [pid:55.3%25%2C q_cov:71.7%25%2C s_cov:91.0%25%2C Eval:1.5e-39%2C partial hit],MGA_306
sequence19	MetaGeneAnnotator	CDS	1084	1485	.	+	0	ID=MGA_307;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867653.1;translation=MSSSDVSKKWGIVHIFSSYNNTIVHITDLSGSETIAISSGGRHVKADRFQATPYAAMKAAQAAAETARSKGIEHLHIRVRAVGGVGGRTPGPGAQAVIRAIARGGFRVGKIEDVTPIPHDTTRKAGGRRGRRA;locus_tag=LOCUS_2800;note=WP_010867653.1 30S ribosomal protein S11 (Pyrococcus abyssi GE5) [pid:56.0%25%2C q_cov:87.2%25%2C s_cov:84.7%25%2C Eval:2.5e-31],MGA_307
sequence19	MetaGeneAnnotator	CDS	1522	3288	.	+	0	ID=MGA_308;product=glutamine--fructose-6-phosphate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249760.1;translation=MCGITGYIGNKEAAPILLKSLKRMEYRGYDSAGISTIKENNIVIKKDIGRIDFINEKIELSKAKGKIGIAHTRWATHGGVTRENAHPHSSCKNEVILVHNGIIENYRELFEELSDNHEIKSETDSEIIVHLIEEEYNKSKDPLKTLQNISKKLNGSFALVVIFSDKTSEIYGVRKYAPLIIGIGEKENFISSDIVSFIDYTDNVIFLEDKEIIRVTSESIEIINFDGDQITRDKTHVAWEAADISKEEFSHHTIKEIHEQSSTIQDALNQDDKEFNEFIKELKSGKNIFITGSGSSFHIALMFKKMLTKLVKSQVQAFLSSEPDEYIELMNENAILIPISQSGETADLLEVIRNVKDKGVTILSIYNTVGSSLSRVSDNSLNLNCGPEIGVAATKSFTSQLVIVFKIIFELADVKNGNEKIKDLSNHVKEILSNEKSLKDIIEVINESNDVYFLGRAIHHPIALEGALKLKELAYIHAEGMAAGEIKHGTLALVEEGTPAIIINPKDESYEDTMNNAIEMKSRGAKIIGISIENNEAYDYWIQIPEVDNILYPLIELIPLQLLAYYTAIRRKNNPDYPRNLAKSVTVK;locus_tag=LOCUS_2810;EC_number=2.6.1.16;note=WP_011249760.1 glutamine--fructose-6-phosphate aminotransferase (Thermococcus kodakarensis KOD1) [pid:41.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-136],MGA_308
sequence19	MetaGeneAnnotator	CDS	3292	3525	.	-	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRLIKHSTDKPFIHITPSGDKVKICMCGVSKTYPFCDATHSKTKDETDGLCCYDKNGNRLSAEEWAFNEDKEITEV;locus_tag=LOCUS_2820;note=MGA_309
sequence19	MetaGeneAnnotator	CDS	3758	4999	.	+	0	ID=MGA_310;product=UPF0272 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8CTP4;translation=MKNDILVIDPSIAGISGDMLLSSFIDLGADEKLVIDNIKNIKDYVKNCNQLEISFNDVIKNGFRAKKADIVIQEDDLVHNVDELYNDLEKCIENISLSQEAKLFIKKSFEELISAEKRLHGISKEKMHLHEAGSIDTFVDIIGTGTALDNLGILKLKQIVTTPVSIGGGDISFSHGKMQNPAPAILEIARKNKIIIKGGPGMYETATPTGMSMLAALVESSQEFFPGIKPDLVGVGAGSSDFKETPNILRTTLGMKSTLVTDEVAIIETNIDDRTGEELGYAMQRIIDQGALDVSLIPTIGKKGRPSNVLKVITNVSKSEFFSDLVMQETGTLGVRVYPISRFIQMRENLRINLRINNNDEEIDVKIVKSESGEIIQYKPEFDQMVKIAEKYKLNLIVLKEDVLKQIQRELFS;locus_tag=LOCUS_2830;note=Q8CTP4 UPF0272 protein (Staphylococcus epidermidis ATCC 12228) [pid:34.9%25%2C q_cov:95.6%25%2C s_cov:94.7%25%2C Eval:1.1e-51],MGA_310
sequence19	MetaGeneAnnotator	CDS	4988	5752	.	-	0	ID=MGA_311;product=phosphoribosylaminoimidazole carboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020480.1;translation=MTIDEILKKVSKGELTPSAAKKQIQLNSINEVANIAKIDTGRAHRKGVPEIVLAEGKSSAQVVKIAKNMFSTSGHVIISRTNKSHIAAISKSFSKKHIRKNVLANTIVISNKKKQKVHGHVAIITAGTADIPVAEEAKVILDEVGCKNTTYYDVGIAGIHRLFSSLSSVIQNDVDVIVAVAGREGAMPSIIAGMVDIPVIGVPTSIGYGYGDKGTAALMSMLQSCALGIATVNIDSGIAAGVLASIIVQKRSTK;locus_tag=LOCUS_2840;note=WP_011020480.1 phosphoribosylaminoimidazole carboxylase (Methanosarcina acetivorans C2A) [pid:44.8%25%2C q_cov:97.2%25%2C s_cov:89.2%25%2C Eval:6.4e-53],MGA_311
sequence19	MetaGeneAnnotator	CDS	5763	6569	.	-	0	ID=MGA_312;product=7-cyano-7-deazaguanine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RFJ6;translation=MQSTINSKLQDLESWFKDYDSVLIAFSGGVDSTLLAKAAFNSIGKKAVAVTADSPSIPRSELTNAKSLAQLIGIEHLVINTNEMENPDYVKNPSNRCYYCKSELFSTLSTLSKEKNIEIIVDGTNLDDLSDFRPGLTAANENQILHPFVDLKLTKNDIRNMSKHLQLPTADKPSAPCLSSRVVYGQPITLNTLSKIERAEALIKQLTGIEIIRVRDHNNIARIEVGRNERSLLFDELIMDKIDKELKNIGFKYITLELSGYKSGNLNK;locus_tag=LOCUS_2850;EC_number=6.3.4.20;note=Q2RFJ6 7-cyano-7-deazaguanine synthase (Moorella thermoacetica ATCC 39073) [pid:46.1%25%2C q_cov:99.6%25%2C s_cov:97.8%25%2C Eval:6.8e-64],MGA_312
sequence19	MetaGeneAnnotator	CDS	6614	7171	.	-	0	ID=MGA_313;product=5-formyltetrahydrofolate cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q180V5;translation=MTARESIRNKIENIRNLQSKDDVNKNSNIILDKLFSIQIFEKSNCIAFYSSLEKEVYTINMIQQTLTLGKTVCLPKVNQKSHTMNFHIIDGLENLKKNTLGISEPIDGEICTNIDVAIIPGIAFDKSGNRLGFGSGYYDKFLSSHSNSYKIALAFDFQIVDSINSLKHDVPMDLIITENRTIYIK;locus_tag=LOCUS_2860;EC_number=6.3.3.2;note=Q180V5 5-formyltetrahydrofolate cyclo-ligase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:36.4%25%2C q_cov:96.8%25%2C s_cov:97.4%25%2C Eval:4.5e-24],MGA_313
sequence19	MetaGeneAnnotator	CDS	7176	7541	.	-	0	ID=MGA_314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISSRPVKEYIISSLIKHNSPDNLARRTAIQSHSMTSPYVKWIDGIVYRVLNLTFGGVDERLTEQFIDKGILWVDLEYAEMETFTSTINSPQENIVVPVIDNSSDSNEKALIAWIKDNNQ;locus_tag=LOCUS_2870;note=MGA_314
sequence19	MetaGeneAnnotator	CDS	7577	8071	.	-	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010890414.1;translation=MTDIQPEKHEIKKKRLILVVSKGTIDMLYPALVLATTAPAMGMTCDMYFTFWGLKVLTKDGVNSVKIAPVGNPGMPMPNIVGVIPGMTKMASTMMKSKIEKFWPNVYDMIKMAKDSGVKIHACSPTMGFMDVKEENLIPEVDDIVGASAFLSWASEPDAVTLFI;locus_tag=LOCUS_2880;note=WP_010890414.1 hypothetical protein (Halobacterium salinarum NRC-1) [pid:36.3%25%2C q_cov:88.4%25%2C s_cov:76.8%25%2C Eval:1.0e-23],MGA_315
sequence19	MetaGeneAnnotator	CDS	8077	8337	.	-	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004193727.1;translation=MDKVMSEDLDISQTLDQKGLLCPLPIINTAKEIAKLSSGQILKVIATDPGAPIDFEGWAHTTGNILLDSVAEDTSPKTFIFHIKKK;locus_tag=LOCUS_2890;note=WP_004193727.1 hypothetical protein (Burkholderia mallei ATCC 23344) [pid:46.1%25%2C q_cov:88.4%25%2C s_cov:97.4%25%2C Eval:5.1e-13],MGA_316
sequence19	MetaGeneAnnotator	CDS	8344	9009	.	-	0	ID=MGA_317;product=peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088064.1;translation=MSLRINDVAPDFKIDTTQGEIEFHNWIGEGWAILFSHPKDFTPVCTTELGALAELESDFISRNTKVIGLSVDPVEDHVAWLDDIAEVTGFRPNYPLIADTELRIAKLYDMLPASTEGSCVGRTAADNQTVRSVFIIGPDKKIKLHLSYPMATGRNFKELLRIIDSLQLTVNHKLATPANWNKGEDVIIVPAVKNEEAESLFPNGWRTVKPYIRLVSDPSTN;locus_tag=LOCUS_2900;note=WP_011088064.1 peroxidase (Bradyrhizobium diazoefficiens USDA 110) [pid:62.8%25%2C q_cov:98.6%25%2C s_cov:99.5%25%2C Eval:4.0e-82],MGA_317
sequence19	MetaGeneAnnotator	CDS	9193	9531	.	+	0	ID=MGA_318;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKNINSKIEFPIRFQVNVSLTESNISGKIFNDDLEIPIYIKYGDKEIFIPEEFRDVGKNIKINFTTENENTVITTGKAEINDIQLIQIYDTELWNKMANDNPVTMHIETI;locus_tag=LOCUS_2910;note=MGA_318
sequence20	MetaGeneAnnotator	CDS	598	1602	.	-	0	ID=MGA_321;product=adenylosuccinate synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496543.1;translation=MTVTVAVGGFYGDEGKGKIVAYLSLKDSHTLAVRGGVGPNAGHTVNFGEQVLKLRMLPSAVVNKSTKLLIGPGVLVNPDVTLDEAKKYNATNRLIVDNQCAIIEQKHIDSDKTGFLASKVGSTGTGTGPANSDRIMRIAKLAKDIDVFQNHVDNVPEMVNSTIDSGNDVLVEGTQGTFLSLYFGNYPFVTSKDITASAICSDVGIGPKRVDDVIVIFKAFVTRVGEGPFTGELSPEETVSRGWAEIGTVTGRTRRAAPFDFELAKKAIMLNSATSIAVTKLDVLYPSARGVTNYEQLDSSAKGFIEKIENELNISVSLIGTGPEVYETIDRRVK;locus_tag=LOCUS_2920;note=WP_064496543.1 adenylosuccinate synthetase (Methanocaldococcus jannaschii DSM 2661) [pid:55.1%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:2.9e-97],MGA_321
sequence20	MetaGeneAnnotator	CDS	1617	2399	.	-	0	ID=MGA_322;product=UDP diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870889.1;translation=MLINLLRHVGVYRFYENYLKNQISKSNSPTHVALILDGNRRWAKSKFIPEWMGHFAGADIVDDLLDWSAELDIKIITLYALSAENLSRPQNEIDRLYEIISQKLSELLNEPKIDQYRVHVKGIGNLSLLPQEIQEKIHEIEQKTKDYDGLFFNLALAYGGRYEILEAVKNIATDVVDRSVEINDITNDMIENYLFTSHLSSPEPDLVIRTSGEERLSGFLLWQSAYSELVFLDVYWPDFRKIDLMRAIRTYQNRNRRYGE;locus_tag=LOCUS_2930;note=WP_010870889.1 UDP diphosphate synthase (Methanocaldococcus jannaschii DSM 2661) [pid:46.7%25%2C q_cov:98.1%25%2C s_cov:91.1%25%2C Eval:7.4e-68],MGA_322
sequence20	MetaGeneAnnotator	CDS	2412	3575	.	-	0	ID=MGA_323;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048147160.1;translation=MSISRKKSTSISRRKKQSTKTTPILILCIDRDDDLGEKTNLKSPIIGLKNCQNAGMKLAISDPEEADANAIFGAIKTYNELSRSGRKCEVAIVTGTHAGGFKSDEKMRKEIQTIVNKTKMLDTILVSDDSDESNIIPLVQDIISINSIQRIVIKHSGALEETYAVLGRYLKMLIFDQRYSKFALGIPGILFLSWAFLALFNLLEQAITVTLAILGAAFVIRGFDLDRLTRSLPKLELTSYVRLFSTVAGSLVLIIGIFVGASSLSNLISVNQVFSSPSNLLSSAPELIGVFANESLFLLWVGLGLFISGDLLSNWIINRKRRVIRGVILLLTLIFLFLPIQQFAKLLIGIGDTFTFIASLIFGLAGSFISVIFLYQRYIRLPRSRRK;locus_tag=LOCUS_2940;note=WP_048147160.1 membrane protein (Pyrococcus abyssi GE5) [pid:32.5%25%2C q_cov:75.2%25%2C s_cov:79.1%25%2C Eval:1.7e-38],MGA_323
sequence20	MetaGeneAnnotator	CDS	3559	4467	.	-	0	ID=MGA_324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979293.1;translation=MSELESTNTNEINTKIKDILDSRKNLLTQLKSLNKQRLDMRDEIHTITSQLAEHQADLEPLYRQVGDFRKERQVLVNEKKQVWTQINDTNDGVKLNNSSTKDHSSKNDRRFNKKENSKNLSKRIQEIEWKLQTAQLTRQEEKQLIDSIKSLQIKYNIWKKSNSARKELSGLFKKIKQIGSNIDSIEESRNTAKATLNEKKIVFDTKFQQRENLFSEINGFNDDIKELETTLKSNTKELQTLKSQRNEIFKSIKSVSKSEILKKKKVILEKEKSKAKEKLESGQSLSFDELRLAYDDDDEYLA;locus_tag=LOCUS_2950;note=WP_010979293.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:21.6%25%2C q_cov:96.0%25%2C s_cov:92.0%25%2C Eval:9.1e-15],MGA_324
sequence20	MetaGeneAnnotator	CDS	4557	5102	.	+	0	ID=MGA_325;product=NTPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066487.1;translation=MNSKIWGVTGRAGTGKTKVINTLHYRLSSDNISTGGILTRDIKSHGKRTGIEIHNILTDVNCEIANVNKKTGPRLQKFRINLKNIDKFIIDELKQSSTESDLIIIDMIGPMELFSSEFCDLIMTLLNNNKKILCAIQTKYNHPIIKEIKEYMNLELYDLNEYHKVEVIDKIYNGIIEEFEK;locus_tag=LOCUS_2960;note=WP_048066487.1 NTPase (Methanosarcina acetivorans C2A) [pid:28.5%25%2C q_cov:94.5%25%2C s_cov:96.0%25%2C Eval:3.3e-16],MGA_325
sequence20	MetaGeneAnnotator	CDS	5092	5790	.	+	0	ID=MGA_326;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867642.1;translation=MKNKIISGLDEAGRGSIIGPLVIACVSANKKSIRKFSKLGVKDSKKLSSKNREILSKIIKEEAEDVSIIKLSEKKIDKAVMLRKRYVKNINSNIKNKIIGLNELEAYSMAKIMNNLNSDLVYVDSCDVNTERFKQRIINNMNIKMKIYSRHKADERYLIVAAASIIAKYNRDKEIIRLGKKYGEIGSGYPSDPITRKFLYKWIKMNKKMPEFTRKSWKTWEAFQPKIEDYFE;locus_tag=LOCUS_2970;EC_number=3.1.26.4;note=WP_010867642.1 ribonuclease HII (Pyrococcus abyssi GE5) [pid:38.2%25%2C q_cov:96.1%25%2C s_cov:92.4%25%2C Eval:5.9e-39],MGA_326
sequence20	MetaGeneAnnotator	CDS	5794	6477	.	-	0	ID=MGA_327;product=fibrillarin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846944.1;translation=MKNDDDLPDNVDWIEVAGKEKLATKNYVPGNSVYGEHLQRSSNSEFRIWDPYRSKLAASIINGLKNIPINSGSTILYLGSSTGTTPSHVSDIVGKTGLLFCVEISSRVARDFIDNVVSFRNNIIPIIADARNTDSYTSIFRNIDSVYCDISQPDQTDIAILNCKKFLVSNSQLLLVIKSRSIDTTKEPQSIYKQEISKLESNGFEINQMVDLHPFDKDHVLILSTMK;locus_tag=LOCUS_2980;note=WP_052846944.1 fibrillarin (Sulfolobus tokodaii str. 7) [pid:48.6%25%2C q_cov:92.5%25%2C s_cov:89.7%25%2C Eval:8.2e-54],MGA_327
sequence20	MetaGeneAnnotator	CDS	6452	7663	.	-	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979285.1;translation=MVNKIILTEAGIIIINDKYEVLQNHRFEPGSEISLYSEIKRGTLPNDVKLFFKNSSEELSDSCEVTDQSLITILDKLYSDTNFIYKTIDSSNLFSLFVQSGFFTSEEEIRTFLHTFSIEYSKQQIRDVSGKEDLQIIEGINSLDELDKAINILMARINEWYGLHFPELENLVKDSNVYFKFVSLGLDRTSITEKELSSFSFSEKKLDAIFSAAQDSKGGSINSKDLSIISILSENIINLVKVRDKVLNYINDLMNNIAPNLSSIAGPTIGARLIAKSGGLMKLAKLPSSTIQVLGAEKALFRSLKSGSRPPKHGIIFQHDKVHSSPKHQRGKIARSLASKIAIAARIDAFRGTKEIDFENSLDERYREIQEKYASPVANRNNFTKKKHKKLRRSMNEKRRRSS;locus_tag=LOCUS_2990;note=WP_010979285.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:38.6%25%2C q_cov:91.1%25%2C s_cov:90.5%25%2C Eval:6.7e-70],MGA_328
sequence20	MetaGeneAnnotator	CDS	7757	7936	.	+	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTHGSLTKAGKVRGQTPKVEGKVRVSKNPRIRTKRSFKNRVILNRSIGQKWDKVVRTR;locus_tag=LOCUS_3000;note=WP_011763628.1 30S ribosomal protein S30e (Pyrobaculum islandicum DSM 4184) [pid:58.1%25%2C q_cov:72.9%25%2C s_cov:76.8%25%2C Eval:5.0e-08%2C partial hit],MGA_329
sequence20	MetaGeneAnnotator	CDS	8011	8574	.	+	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKQIVVLGLLIAVTGAYLFSMSSVTVLSEFDVIPTTSFITYYAEVDAAPLPFADYRLELTNNNKEDGLPIDLYVFDDENYDMFKRCGGSREGADFCGSWEAILSQMELTGTYKRALDPNMEKVTVVVWNHNMEETLDNSISIRMESNYSGLANVVVIAGLLVFYIGLSRKAERIQSKKIKSKDAEE;locus_tag=LOCUS_3010;note=MGA_330
sequence20	MetaGeneAnnotator	CDS	8585	10168	.	+	0	ID=MGA_331;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RX38;translation=MSTIGRGTWIDKLTNDIIKREKELERSTEKIIVESGLGASGIPHIGSLGDAVRAYGVKMALEDNGYRSELIAYSDDMDGLRKIPEGFPDTLKEELGKPVSSIEDPFGCHSSYGQHMSSLLLNGLDKLNIEYNFKSATEIYQEGILKEQTSKILKNSEIIGKKIAEITGQTKFEKLLPYYPICGNCKKIYVTIPTEFNENNDSLNYICNDVEIGGNLIKGCNYEGETKLSEGKGKLGWKVEFAARWSALDIRFEAYGKDIEDSVKINDWISGNILDHPHPFHIRYEMFLDKSGKKISKSIGNVLTPQKWLEYGTPESLLLLMFKRIAGARALSVEDIPTYMDEVDSVEDVYFDKVKSENKDKEIRIKGLYEYMNHLNPPEKESIHLPYRLLVELAEIAPKNNSADYIAKKLIEYQYVKEIDDNIVNKINLGINWARDFKSESMTNVEVSEEHKKPLLEIITLLEKNSDPEVIQSEIFEIAKSNDMKPRALFQLIYQILLGSNKGPRLGKYIIDADKSTITKKIKAAIE;locus_tag=LOCUS_3020;gene=lysS;EC_number=6.1.1.6;note=Q2RX38 lysine--tRNA ligase (Rhodospirillum rubrum ATCC 11170) [pid:31.5%25%2C q_cov:90.9%25%2C s_cov:85.5%25%2C Eval:7.5e-59],MGA_331
sequence21	MetaGeneAnnotator	CDS	270	1340	.	+	0	ID=MGA_334;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEEDNQRMLLVSAIITALTIGFLIGGTFVYHSNNETGVEQYQAVVFNTIGKTATVIDNYLLTSLTNINIEIESGQYGAHYNEKNNKLYLIHEGKSELLTLNPQSLEIQSKVRVGPNLQHAGIFDEKGEIFFVISRDSNSLVMINTTTDRIISRIEVQKQPHHLALLADSIAVTNTESQSISIVDIKKLNVVNNIKIDADPLMIVSDKDERMFVGAIRPAKLFFIDNEEVKNSINLESDPHGIALTGNGKNIIVTLPEEDKILIINMKGEIIKELQTGDFPHNIDIEPNGNYGYISNSNDASVSVIDLNKFEIIATIETGNGSHNVQFYNIMNSNTPLNESNKDGKIVSANFNCGG;locus_tag=LOCUS_3030;note=WP_011461894.1 hypothetical protein (Desulfitobacterium hafniense Y51) [pid:25.9%25%2C q_cov:50.3%25%2C s_cov:57.1%25%2C Eval:1.8e-15%2C partial hit],MGA_334
sequence21	MetaGeneAnnotator	CDS	1344	2441	.	+	0	ID=MGA_335;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000492327.1;translation=MIEYNNIFSLIATLLIGLGFGILLQKGRFCFTSALRDFIAFKDTRVLNGVIIGIVTMMLGTSLAYVLGVSSSNFWVSNYGLSNIIGGFIFGIGMVYGGGCASGTLYRAGEGYIHYWLVLISACIGYIAFAALFPSVFLPYFFVPLQIFDGYSVISSLKLFSPIVPIFLIIAAVIYLRSKNGLIINQTIENLKISNISSNSLKAEWDTKLVGVGMGVLATLWFVVWGTLSVTGPQARWTGLIYSEMFGVETLQENIYWNSVVFRDGIFSISLDMILFVSLIVGAFISAYLSGDFKIRTIKRARIPNAVIGGLIMGFGSRMAPGCNISNTFSGLAFLSVAGFITSLGLLLGVYVATHWMFRRSGCAI;locus_tag=LOCUS_3040;note=WP_000492327.1 membrane protein (Escherichia coli O157:H7 str. Sakai) [pid:25.1%25%2C q_cov:94.2%25%2C s_cov:93.2%25%2C Eval:4.4e-25],MGA_335
sequence21	MetaGeneAnnotator	CDS	2457	2726	.	+	0	ID=MGA_336;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEERKVNDEDLKEIEESAVIIDMEGEVCPYPQIIAREEIKKIDSGKIVLIKTDHVMATKAVPQSVSNDISEYGIWKSGSGQYKIILWKK;locus_tag=LOCUS_3050;note=MGA_336
sequence21	MetaGeneAnnotator	CDS	2781	4280	.	+	0	ID=MGA_337;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLRIAYAGIIQLVAQFATLLTGLIFVTIVTRNLSVNEFGLWQTLGSSVGLLLIPLAPINYWALRYSARNHDVGKTSLLSGMITIPIFVLIYVGIALTASASIESILVYVLIYSVQIPMLCIWEVARPIARSYKPEYLGYATIGLELGKVLAAYYTISILRMGLTGAILSLALGQLIQIIIIVYIIRPKIRGRFQFPVIKKWYKSAWIPISNVSISRLSIADSIVVSLILGSTAVVGIFQASKIFTLIIRYSETFVRILYPKLIRDKINSDITLTIKLQSFFLVPLVVGAITLSESLLGVLGPQYSATGIILRILTIVAIMEGIEFFVWNILTGIEQIDENIDNLEFRKLRNSWLVRLPLIDISKSVIYFIILGTIMYSFRDLGSQLTLAIYWSVILLLITLPVMVYKIILLKRTITFEFPTATIMKYVGSGIVMAVFLYSYQQVFFKTETTVIASIKYLIIPGVTSVLIYLIVVYLTDPFIKKAILEVKSTIFKKNKL;locus_tag=LOCUS_3060;note=MGA_337
sequence21	Aragorn:1.2.38	tRNA	4285	4362	.	-	.	ID=Aragorn_3;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0030;note=Aragorn_3
sequence21	MetaGeneAnnotator	CDS	4426	5706	.	+	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLQKTREYVIEFIVQAIGMPNDLKYIYDDIPEDIINQISISLTGRDIDAETFDPDIAPDVDGFIQWAQEIYEELCKENNIPVIWKSRWPNGKTFAVALTHDSDSIDVTEEHLQEVKDRFNESDLKEALEGKKNLYWNVERIKEIESKFDFHSSFYFLTSEYNLEQYKDVLDELSKDGWEIGLHAGFGTHENEGKMNEDINEFKRQLKQQPIGVREHYLQFDYHNTLNFLEKNQFVYDSSLGFREHPGFLLGTSLPFNPPRENWEKRKILELPLIIMDTSLWGYMNLNEDDGMKLIEDYIANIKKFNGLLTILWHQEAFLMKKGNIYPKILEKLAKEECFVSSGIKIAEWWNSRNDVELSVVEDSEKGWKCNIKNVEKGLCLEMKNFDISKEIAINGQGRITHKSEVDGEIYYKIELEGDCELFYV;locus_tag=LOCUS_3070;note=WP_011020209.1 hypothetical protein (Methanosarcina acetivorans C2A) [pid:30.5%25%2C q_cov:62.7%25%2C s_cov:82.3%25%2C Eval:1.3e-34%2C partial hit],MGA_338
sequence21	MetaGeneAnnotator	CDS	5699	6775	.	+	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNVLVTGSGGIGGVNFVNALRVTKKEYLISGTDFNKYYLELPSLDFKYITPRHTDPKFLEKIKEIIGKDKIDFLHPSPHAEASVIAKEINDIKTATYLPKYDVIIRDKLQTQEILERNQVPVAKTEIVDSLQDIKSTKEKFRDEKVWVRMKSGAGGKLSLLCETSQQIEDWIRIWVNRGTAKYSDFMIQEYLPGKNIACDSLWHNGKFIASFTRERLEYPFKHISPSGITGTPTVSRIIVDEKVNEIAKKAILSSDSKPHGSYAVDLKGNKEDNPVVTEIDSGKFHTTTALWGIIANKLGLDERKNLADYYCGIGMNLVEPEELGTDIYPDNLYLIRHIDTGTWIWKEDGDKVKIL;locus_tag=LOCUS_3080;note=MGA_339
sequence21	MetaGeneAnnotator	CDS	6772	7365	.	+	0	ID=MGA_340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIELVIFDLDGTLIKLPVRYDFLRNELKNKFNIQGELFLIPMILDKTKENEEVKRNAFELICKEECNAIDGLEIHEGAIEVIKEIHSRNKKIALVTLQCERAANKILESIGIKNLFVNIFTRDDYTDRSEQIINTMKKFNINADKTLMIGDRINDFESAERVGCKSIIIRRGDQEGNDGMNWVKDNVQLKNEVVKIL;locus_tag=LOCUS_3090;note=WP_010878428.1 hydrolase (Archaeoglobus fulgidus DSM 4304) [pid:30.5%25%2C q_cov:84.8%25%2C s_cov:74.8%25%2C Eval:7.3e-10%2C partial hit],MGA_340
sequence21	MetaGeneAnnotator	CDS	7369	8376	.	-	0	ID=MGA_341;product=NAD-dependent dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545566.1;translation=MNDLIDSDIATLLSDNKKFRISGKKFLITGGAGFLGSWLCDILIAKNAKVYCLDNLSSGRAENIKHLLNNKSFVFKKQDITKTPINLKPDYIFHLASRPSPDDYLNNELKTIDVNTEGTRKILELTRKTDAKLLFTSTSEVYGEASVFPTPETYYGNVNPSGPRACYDESKRLCESLCMAYYRTYGINLRIVRLFNTYGPRLRGDGNYGRALSRFIWQSINNQKITIWGNGKQTRSFCYITDMINGLMSSLLVNKTKGETFNLGNPKETRIIDLANTIIKLTNSKSKVKYLPMPDNDPRRRLPKINKAKQIIDFKPRVKLDQGLAKTIKWQMDSK;locus_tag=LOCUS_3100;note=WP_012545566.1 NAD-dependent dehydratase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:47.9%25%2C q_cov:91.6%25%2C s_cov:96.5%25%2C Eval:1.5e-77],MGA_341
sequence21	MetaGeneAnnotator	CDS	8377	9255	.	-	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053240442.1;translation=MLKKVVIPVAGRGTRLLPTTKVQPKEMLPVFSSSKGNILLKPMVQLIFEQLFDFGVRDFCFIVGKEKRAIKDHFSLNYPSLDDLSNKKNSISFKDMKSFYKRIEKSNITWITQTNQLGYGHAVSLASSFVGKDDFILHAGDTLIVQPNHRHLIDLDRLSKRADCVVALEKISEPSAYGVVVGKRTKKYSLPSNDKVYKITQAVEKPSKKISNLAIMALNKFTPDVMKILKKIPAGYGGEIQITDAIQYMVDSQMNVLGYEYHHSCTRLDIGTPETYWHAQQYSKKLATKGWM;locus_tag=LOCUS_3110;note=WP_053240442.1 hypothetical protein (Pyrobaculum islandicum DSM 4184) [pid:35.9%25%2C q_cov:97.9%25%2C s_cov:96.7%25%2C Eval:8.1e-45],MGA_342
sequence22	MetaGeneAnnotator	CDS	238	912	.	-	0	ID=MGA_344;product=RNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978417.1;translation=MKTNSVERKYVIPGDLVIEGEHNPIANVIKKGNKIISTKVGMAEIGYNGVKVIPLNGTYVPRTDDVVIGKVVDMNGFAWEVDINSWFFGILTGSAVFGRQFSSSRDSMKSQFNKGECLVAKILSFDRTRDPLISISGPGLGKIKEGEIAYITSSKIPRVIGKKGAMIKLIEENTGCHLTIGQNGAILLKGTDEGREKAKKAIELIGNNAHLSDLNDKVISLISK;locus_tag=LOCUS_3120;note=WP_010978417.1 RNA-binding protein (Sulfolobus tokodaii str. 7) [pid:36.1%25%2C q_cov:94.6%25%2C s_cov:87.0%25%2C Eval:1.0e-32],MGA_344
sequence22	MetaGeneAnnotator	CDS	915	1628	.	-	0	ID=MGA_345;product=rRNA metabolism protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496552.1;translation=MKDFQKKNVNSKFTVVRLSISGEKFEIFVDPDQALKFKKGEIHEYEKAIAFDEIYSDANKGIRIPDEKLHKYLKTKNNQEALKMILEKGELLLNTQQRKQKIEEKRKQIITIIASNYVDPKTKIPHPPQRIEQALIEARVSIDPIKGTDEQVKGIIEELRKIIPMKSEISKLKIVIPPQYAPQSIGILKKYGTVESEEWQNDGSLSTVIVLSPGSKIMLIEKLNSLTKGNIIADSIE;locus_tag=LOCUS_3130;note=WP_064496552.1 rRNA metabolism protein (Methanocaldococcus jannaschii DSM 2661) [pid:38.7%25%2C q_cov:91.6%25%2C s_cov:92.3%25%2C Eval:1.6e-42],MGA_345
sequence22	MetaGeneAnnotator	CDS	2058	2858	.	+	0	ID=MGA_346;product=apolipoprotein N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011404263.1;translation=MSNRINLSYVQFNPKFGNIDSNLKTVSKLLYKVKPGVVVLPELMNTGYNLTSKDEVRYLSEIPKTGKTSLLLTQISSDIKSTIVAGFIEKSKNNFYNSAMIVSKGKFLGVYRKTHLFYNEKRFFSKGNTGFRVFSIDNFKLGVMICSDWIWPESARTLAIKGADIIAHPANLILKGLCQKTMPIRCFENSVFAITANRTGIEKRGKDTFHYTGQSQIVAPDMKILSRASSNYNSVNSVAVNLLNARNKQLYKNNNLLKDRRPQFYK;locus_tag=LOCUS_3140;note=WP_011404263.1 apolipoprotein N-acyltransferase (Salinibacter ruber DSM 13855) [pid:40.6%25%2C q_cov:98.1%25%2C s_cov:94.3%25%2C Eval:5.3e-53],MGA_346
sequence22	MetaGeneAnnotator	CDS	2860	3246	.	-	0	ID=MGA_347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANSYVLGRSREHNLLNKLRTNGWFAIRGSGSKAGMVIVDGKKYFPIDIVSVKKEKKKTLVWFIQVSKYLSDIDDIEKKYLTKWAKKVGAEPILAWTFEKRRKANPKRGKWEFYNLLSEEYIEIKNKK;locus_tag=LOCUS_3150;note=MGA_347
sequence22	MetaGeneAnnotator	CDS	3302	3967	.	+	0	ID=MGA_348;product=riboflavin kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879597.1;translation=MMKSSYLSTLIQLLILGAKNPIKLSTSELAISINKTQQTASQHLLFLEKSNMISRYKIDGLDMIQITKPGLDYLLSVNQKIQSAFDENSSNSVTGKVFSGLGEGAYYISLPGYKKQFISKLGFEPYPGTLNLELASNLHQQFITKLSEFKGIIIEGFTDKKRTYGNVVCYPSIINSNIQVSIIIIERTHHGSSVIELISPIYLRKKLKIKDGDDVTVKINI;locus_tag=LOCUS_3160;note=WP_010879597.1 riboflavin kinase (Archaeoglobus fulgidus DSM 4304) [pid:40.2%25%2C q_cov:96.4%25%2C s_cov:91.0%25%2C Eval:5.1e-37],MGA_348
sequence22	MetaGeneAnnotator	CDS	3976	4590	.	-	0	ID=MGA_349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRINNTEKKILKKIVINNLQGKKSLRNLQKDFDIEKRELDKYINNLKNMKLIKQIKSNYILTDKGRKNIKIVFTGGVYDIIHPGHIHTLKKSKEEGDLLIVSIARDDRVKKIKGKKPINNEKRRIILVSAIRYVDHSLLGSKGNIFNIIKKIKPDIITIGYDQKHQISELRELVKLNNLRIKIKRLESPIPHVKSSNLRRKYKT;locus_tag=LOCUS_3170;note=WP_010868432.1 FAD synthase (Pyrococcus abyssi GE5) [pid:44.7%25%2C q_cov:59.8%25%2C s_cov:82.4%25%2C Eval:8.9e-22%2C partial hit],MGA_349
sequence22	MetaGeneAnnotator	CDS	4594	5619	.	-	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVFAGLGLNENTITQEIINMVKNADKIYFERYTSPPMPYNDYIFDFQFEQIGREFIENGDKIIEESKSGTVILLTYGNPMIATTHMDLRMRAEKRGIETKVLHNSSITTVLPGETGLHSYKFGRITTLMTNTEVAPLSVYDVIFNNLLTELHSTVLLEYNLDKKEYLNPINAIKQLLKIEEEQKKKVISEETKLIIASRIGMNKQEIYCDTLKELLNKQYDKPPYTIIIPSKLHFTEIEALKQLFNIKEDFIDNSLGIKSNANNMLDKYIPKTINTLEKIKEMTKNNNRYNDLFKNIEAYIDDSERFKNEGRFELAILSIGYAEGLIDSLIFLGEIELEW;locus_tag=LOCUS_3180;note=WP_010870787.1 diphthine synthase (Methanocaldococcus jannaschii DSM 2661) [pid:36.6%25%2C q_cov:71.8%25%2C s_cov:98.4%25%2C Eval:1.3e-36%2C partial hit],MGA_350
sequence22	MetaGeneAnnotator	CDS	5964	6941	.	-	0	ID=MGA_351;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978451.1;translation=MKMSEINELMWVEKYRPEKITEFINQESTIKRLKPIMKNSSGMPHLLFTGPPGTGKTTLAIIIAKTILGENWQDYSILLNASDERGINTIRNRVKTFARYADNREKVPFKMIILDEADEMTNDAQTALRRIMEEASKSCRFILIGNYVSNIIEPIQSRCASFNFTRIDEKELVKHLEVICGKEDIKFEKQAIIEISNITNGDLRSGINLLQSCSSLGDINLKNIEKATGHSFKIKIEEILELALNNDFISAREKMSVLTKIYGLSERDFLKYMNEAINKNKYKEIKELIEILAKYDYRIITGSNPDIQLTALLAEISDLRNNDAN;locus_tag=LOCUS_3190;gene=rfc;note=WP_010978451.1 ATPase AAA (Sulfolobus tokodaii str. 7) [pid:41.7%25%2C q_cov:96.9%25%2C s_cov:96.9%25%2C Eval:1.3e-65],MGA_351
sequence22	MetaGeneAnnotator	CDS	7060	7626	.	+	0	ID=MGA_352;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFGKEDSISSMMNDLKVESELSLVKVIAIDDIDETEIGGFKLEYKEAESKFDVPQWVASILVEKNLVKLADVGIDTELSTANNNEKMKGMFELSELKPEIYKRINFHLKNLRSRSNNDPVIFQESNKISTEFNDLINTRISKMVSIASLPETPDNIQKILTPEEYLLFNIVSSNIQEWRESILGDEL;locus_tag=LOCUS_3200;note=MGA_352
sequence23	MetaGeneAnnotator	CDS	74	331	.	+	0	ID=MGA_355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQIKFFGNICNHTHANNISADFNNHSINQMLDILKSKYNIDQSILKSNNLLIAINNVEISVLNNHDTLIKTGDIISIISISHGG;locus_tag=LOCUS_3210;note=MGA_355
sequence23	MetaGeneAnnotator	CDS	529	849	.	+	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAREFEVDLLMRISITDQIEEALKISGISPKNKSYIIISLGTPSKLKLLQTWIFDNLNYSTNFNINNYNKISKLHKINLNKLNQSNIELDLLSYSAVKLTSKYSN;locus_tag=LOCUS_3220;note=MGA_356
sequence23	MetaGeneAnnotator	CDS	893	1594	.	+	0	ID=MGA_357;product=triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871052.1;translation=MKKYRTPSLVINLKNYSEIYSNYSIDIAKISESVASETSVEVIVCPPNPVLSKLIENVNIPIYAQHVDNAKIGSSTGSIVPELLKSINCSGSLINHSEKRIPIDEIEKLINRFHEIELTSLVCAQSIDEVEEIAKLSPDIIAIEPPELIGSGRAVSKVNPKIISESVEVVNKINNNIDVLCGAGIMTGEDVSIALELGSKGILIASGIIQSDDWKNKITELATPMTMHQNNND;locus_tag=LOCUS_3230;EC_number=5.3.1.1;note=WP_010871052.1 triose-phosphate isomerase (Methanocaldococcus jannaschii DSM 2661) [pid:46.9%25%2C q_cov:91.4%25%2C s_cov:97.3%25%2C Eval:1.9e-53],MGA_357
sequence23	MetaGeneAnnotator	CDS	1666	2331	.	+	0	ID=MGA_358;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979256.1;translation=MSHFGQRWNNERTPGFSDKVKEVIRADKEPVKPKLEQAVRQIKTQIVKLDQTSGKLKSRDANIFNSVVAALQKHDKAHATVYANELAEVRKMNKMVTQSKLALEQIALRLNTVSELGDVVVTLTPAMGVIKDIQSGVMNILPEAEHEISEINGLLSGILVDAGQMGGHNINFENSNAESRQIMDEASAIAEEKMKEQFPDLPAPVDSLLHKKNKINEGLFE;locus_tag=LOCUS_3240;note=WP_010979256.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:38.3%25%2C q_cov:96.8%25%2C s_cov:97.3%25%2C Eval:4.0e-42],MGA_358
sequence23	MetaGeneAnnotator	CDS	2366	3181	.	+	0	ID=MGA_359;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDNMFERIKLNIKNIRDRNQINQSLKILQIQQKDVSTLKIKLNQRINKIRLLCNDASTNNNHTFYSIYKKEYDDLEKLFENIKISEISIIRAISRMETLKDVHQATNSLSLAVEMCKDMDIKLSNIIPDINDQIMTLNNSLNQSLDLPELSSNELSELNKSIESNILKPITERIENESDKFESIVKNNQITSIGNKKLINNTDNPTMNFKKYTPKDSDKNKLEEKISRYIDNNKGNFDVVDAANELGLSVETVETKTIELMNRGKIKIQR;locus_tag=LOCUS_3250;note=MGA_359
sequence23	MetaGeneAnnotator	CDS	3187	4353	.	+	0	ID=MGA_360;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979234.1;translation=MSSAPEVLQNTAQNYAREAIKFDSQGSRGTAIQMYQKSIEALIKLTKLYPNESHTQLYIKHAKRYQDRIDQLQNNTDIPQDNQTESQSGVVEIVKSSYDDVILQEKPNVGWDEIVGNSDAKKALRESITFPSMRPDLFPLGWPRGILLYGPPGTGKTLLAAAVASDIDGHFMNVDASSIMSKWLGEAEQNVSKLFKSAKHMMDEEGVVSVVIFIDEVDSLFGKGGNNSDTGGEARVRNQFLKEMDSISDKGKNLPLYVIGATNKPWSLDWPFLRRFQKRICVNLPILDARVEMMEMYTSSLKIDDSIRLSDIANSLEGYSGSDIRDICQSVQLKVVSKLFEMGSPSEDVQPDTITSEDFYEIMDKRKPSVSSEMLHAYTTWSDNYKAL;locus_tag=LOCUS_3260;note=WP_010979234.1 ATPase AAA (Sulfolobus tokodaii str. 7) [pid:48.4%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:1.6e-97],MGA_360
sequence23	MetaGeneAnnotator	CDS	4355	5650	.	-	0	ID=MGA_361;product=aspartate--tRNA(Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496866.1;translation=MDKYYLENLDKIDESNYGKDVDTSGWIEDSRSIGSLIFLTLRNNTGKLQLIIKKNQVSEDLWNKIGNISRQSIVKASGNLVFNKKNNIVELIIKELIILNQAEHPLPLDPTGRVDSGLDVILDARPLSLRKPEIQSIFKIRHNSLMYIREFFIQNNFIEINTPKILSLGAEGGATLFKTEYFDKLGFLAQSPQLYKEQLMLAFERVFEISQYFRAEKSNTTRHLNEFVSVDFEWAYKDNNETMDLCENLIKYVINNLNTDMSTELNLLESNLEVHRNKFDRITYEDVINDLNSLDNKKDFGDDITEHDLVVLSEKHKSFYFITDWPNEIKPFYIASYDNSEFSMSFDLQFSNVELVSGGVRIHEINKLEENIKKSGLDLDNFKSHLQTFKWGMPPHSGLGLGFDRLIMVLTNRKNIREAVLYPRDKDRLDP;locus_tag=LOCUS_3270;note=WP_064496866.1 aspartate--tRNA(Asn) ligase (Methanocaldococcus jannaschii DSM 2661) [pid:41.2%25%2C q_cov:96.1%25%2C s_cov:96.1%25%2C Eval:2.8e-93],MGA_361
sequence23	MetaGeneAnnotator	CDS	5719	5931	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAGSPIPEPLGQIAKVLLIIGGLNWGLAIVDTNLVGIIANATADVVGTLVYALVGLSAIISVVDLATGSK;locus_tag=LOCUS_3280;note=MGA_362
sequence23	MetaGeneAnnotator	CDS	5975	6826	.	-	0	ID=MGA_363;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIITEEYVKNLTMPRKSSSHKGENGVIGIIGGSRLYHGAPTLSALGALRSGSDLVYLFVPQIIVNPIRSISTDLIVYPLPDSKFTPGVCNKILNFRKEINTFVIGPGIVNQNMNGMIKLVTELQKRDVNIILDAGAINNKLLDNISGKNIIITAHLGEFKKIIDNSLNNNEENIKEEILKYSKNKNLLMVVKGETDYISDGNKLFFNKSGNSCMTKGGTGDILSGIIATQLSNGQNTLDSAIIGTYLMGKTGEIVYEKFGFQFMNSEFLMELAIYLKKFNEII;locus_tag=LOCUS_3290;note=WP_010980182.1 bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase (Sulfolobus tokodaii str. 7) [pid:32.8%25%2C q_cov:92.6%25%2C s_cov:52.7%25%2C Eval:3.0e-33%2C partial hit],MGA_363
sequence23	MetaGeneAnnotator	CDS	6894	8348	.	+	0	ID=MGA_364;product=inosine-5'-monophosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O67820;translation=MSNNNIENDFRTGYTFDDVLLIPQRSTISSRKDTNLQSNLSKNIRLNIPIISANMDTVTESSMAIKIASLGGIGIIHRFMTIEEQINEVLMVKRSEGIMIDQPVTIDQNGNVGQVKELMALHKIGGILVKDTSNKLLGIITKRDLFFEYEDTKPVKDVMTKDLITAPEGTSLDDAKTIFINNKIEKLPIVNSSNELVGLITSKDIYKRDKFPISSKDDKGRLLVGAAIGVRNEDIDRAIKLTEAGADAIVIDIAHGHSDHTINMISKIKDKIGKADIIVGNVATAEGTKDLIEAGADSVKVGVGSGSICITRIVTGAGVPQLSAILDCVAVGNEYKIPIIADGGIRNSGDITKALAAGASTVMIGSMLAGTDESPGVIVSRPNGRYKMTRGMASLGATVDRRIKETNSMDEEEMLEYVPEGVEALVQYRGQASEVIGKLVGGLRSGLSYCNSKNIDELQAKSKFIRITGAGKAESGAHDVHIVD;locus_tag=LOCUS_3300;gene=guaB;EC_number=1.1.1.205;note=O67820 inosine-5'-monophosphate dehydrogenase (Aquifex aeolicus VF5) [pid:53.8%25%2C q_cov:98.6%25%2C s_cov:97.3%25%2C Eval:1.9e-133],MGA_364
sequence24	MetaGeneAnnotator	CDS	826	1134	.	-	0	ID=MGA_367;product=NAD(P)H-quinone oxidoreductase subunit 4L;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7VE33;translation=MEPLINYFIVSLALLCVGIYGLIAKRNAIRLLFSVEIIINAAIINFVAFARYHDIPLITGQTFSIFAIALAATEAAVGLAIIVQAFRLNNDIDVLELKKLRG;locus_tag=LOCUS_3310;gene=ndhE;EC_number=1.6.5.-;note=Q7VE33 NAD(P)H-quinone oxidoreductase subunit 4L (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:41.4%25%2C q_cov:97.1%25%2C s_cov:91.7%25%2C Eval:8.5e-16],MGA_367
sequence24	MetaGeneAnnotator	CDS	1139	1630	.	-	0	ID=MGA_368;product=NADH-quinone oxidoreductase subunit J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012257850.1;translation=MTDVVFLTVSLLTVVFAILAIEARELVYGAVALSLSFLGAAALFILLDSIFIAIFQVLVYVGSIAILIVFVIMLVRRDKWTSIKGGNERILGIIAAVLLFSIMTYFSFSTSLTDQYSNPSVIFNFSEIGSQLINDYWIILQLTGLALAVSIVGALTMAKFENR;locus_tag=LOCUS_3320;note=WP_012257850.1 NADH-quinone oxidoreductase subunit J (Chloroflexus aurantiacus J-10-fl) [pid:31.0%25%2C q_cov:96.9%25%2C s_cov:75.5%25%2C Eval:4.4e-16],MGA_368
sequence24	MetaGeneAnnotator	CDS	1623	2123	.	-	0	ID=MGA_369;product=NADH-quinone oxidoreductase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052847026.1;translation=MNIKLITGILGAFAVGLRNIFKRRMTLRYPEQKLDIESGYTFDAKSNTGSAGFKGRHILYTDKCTGCSLCAIACENIADCIDMVQVEGSWPTNPKNIMPQIDYGRCVFCGFCVDACPFDCLFMTPEYELSATDKRKLVHTPFQLAVFPEKKGDVQLIPDDGGAHHD;locus_tag=LOCUS_3330;note=WP_052847026.1 NADH-quinone oxidoreductase subunit I (Sulfolobus tokodaii str. 7) [pid:34.7%25%2C q_cov:94.6%25%2C s_cov:91.6%25%2C Eval:5.9e-19],MGA_369
sequence24	MetaGeneAnnotator	CDS	2123	3283	.	-	0	ID=MGA_370;product=NADH-quinone oxidoreductase subunit H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HAY9;translation=METFEEFVKRILTILFWFLLLSPLVIFPVLFLVVPILGIDVTTVNEILTATIDPLKAIKLADKYGIGPSSTFFKVAAFPGFTFAALVATLTILYERKLMAKAQLRVGPLYAGRFEGVLQPIADLFKLLGKELVVPEKADKTFFWAAPILSLGLGAALLTVIPLSPTTYIARSEFSLLIPFAIIGFSPLVVLIAAWASSNKFAFIGGLRALHQLAAYEIPMLLSILGIVILTGSFDLMKIVEAQKDIWFIFPQFLAAIIFYITILSELERIPFDLPEAETEIVSGWLTEYTGMHFGLLQLGVYVKFYVLALLFTLLFLGGWNGPAFLPPIAWLLLKLFFVITLIIFPRAVLPRLRIDQLIRIGWAWLIALSFINLFIAVIESSLGVI;locus_tag=LOCUS_3340;gene=nuoH;EC_number=1.6.5.11;note=Q6HAY9 NADH-quinone oxidoreductase subunit H ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:41.0%25%2C q_cov:80.8%25%2C s_cov:94.3%25%2C Eval:7.5e-63],MGA_370
sequence24	MetaGeneAnnotator	CDS	3289	4410	.	-	0	ID=MGA_371;product=NADH dehydrogenase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762086.1;translation=MQNAAMNIEDKGGDKLVLHVGPQHPGSGHFRIVVTVDGDYIVGAKPDPGYVHRGAEKMAEYRDYIQNIPHLERPVIIDATGVTLPYVLTAERIIDVEAPERAQYIRMIMAELNRIISHLYWLGIYGIFLGHSTMFMWPMGDRELFIDLAESIGGTRVTFSYVVPGGVRNDMPSNFKERALKTFDYFEKRIEEYKKIFFNNPLMAARTEGIGILEKKDAIRLGITGSNLRACGIDSDTRKDEPYCLYDRVDFEIPTRKEGDSYARCIVRLEELQQSMNIMKQVLDIMEPGPIKQVIGGVMRGEPGEAFVRTEAARGTMFYHIVSDGEKNPYRVKISVPSFRNLIGMTHLLVGSRLADMPAIYWSLDYWPVEADR;locus_tag=LOCUS_3350;note=WP_011762086.1 NADH dehydrogenase subunit D (Pyrobaculum islandicum DSM 4184) [pid:43.7%25%2C q_cov:97.3%25%2C s_cov:93.9%25%2C Eval:2.7e-86],MGA_371
sequence24	MetaGeneAnnotator	CDS	4412	4891	.	-	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPAKLDTENQLVTSLTDQFKNKIKTEYVITNRIKVSTSQDNFKNLAIAVKNLGFEQVISQGGTDYPDNNVFRLEYHLICVSKKKLRRIMFSIMTEISKDKPEIDTLIEIFPSAEFHEQETYENFGITFIGHPRKERLLLPEDWDDIPPLRKDYILPGRG;locus_tag=LOCUS_3360;note=B5YL31 NADH-quinone oxidoreductase subunit C (Thermodesulfovibrio yellowstonii DSM 11347) [pid:31.1%25%2C q_cov:93.7%25%2C s_cov:72.6%25%2C Eval:2.9e-17%2C partial hit],MGA_372
sequence24	MetaGeneAnnotator	CDS	4904	5416	.	-	0	ID=MGA_373;product=NADH-quinone oxidoreductase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813216.1;translation=MVNDPTLNLLVGKASDILDNTIEKNVREPIRFLVNWGRLYSLWPVHLETACCSIEFGAASGPRHDVERFGMLEAFGSLRQCDVLVVQGTVTRKMAPRMKWVYEQMPEPKWVIAMGACAISGGLYMDSYNVLQGVDKIVPVDVYIPGCPPRPETLIQGIIELQNKIRKSKV;locus_tag=LOCUS_3370;note=WP_005813216.1 NADH-quinone oxidoreductase subunit B (Desulfitobacterium hafniense Y51) [pid:59.3%25%2C q_cov:84.7%25%2C s_cov:83.8%25%2C Eval:4.6e-46],MGA_373
sequence24	MetaGeneAnnotator	CDS	5410	5772	.	-	0	ID=MGA_374;product=NADH-quinone oxidoreductase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HAY5;translation=MVSSEFAMILVMALAGVVFSLPTLIIPSLFAPKKRNPIKLQTFEAGQPPTGESRIHLIMQYYSYLIMFVIFDVTVMFLFAWGLSFSNLGIQSLITLLPFLAVILCPMVYALHLAGRRENW;locus_tag=LOCUS_3380;gene=nuoA;EC_number=1.6.5.11;note=Q6HAY5 NADH-quinone oxidoreductase subunit A ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:29.9%25%2C q_cov:89.2%25%2C s_cov:87.7%25%2C Eval:6.0e-14],MGA_374
sequence24	MetaGeneAnnotator	CDS	5921	6268	.	-	0	ID=MGA_375;product=transcription factor S;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249488.1;translation=MKFCPECSSKMRPKKILDESNSNTKPKSIIVCSSCGYQEKSRRVTVKETKIEDKTNIKVVDSKTQKLQSMPTTKATCSKCGHDSAYFWEKQTSSLEEASTQFFRCAKCEHTWRAS;locus_tag=LOCUS_3390;note=WP_011249488.1 transcription factor S (Thermococcus kodakarensis KOD1) [pid:42.0%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:1.0e-21],MGA_375
sequence24	MetaGeneAnnotator	CDS	6309	6722	.	-	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMNILQTNIEFNKFLLDFINQLNFECENGAIVLVEGKKDTRALLSLGFIGKTIEYCNNNTLSKIEIKSYDYDKIIILFDYDAEGRRLTSKILRQLNSTSLIELQYRRNLSIASNGGIKRIEELSKLSPYIILTENFI;locus_tag=LOCUS_3400;note=MGA_376
sequence24	MetaGeneAnnotator	CDS	6752	7090	.	-	0	ID=MGA_377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILPDGFIFGFFDNFILILGAYFGVTVEYRLHRLTHDYKFARKLRDFLKKNSKGVIGGLIGAGLSHVVSNGLGAFLDPTLNHMVLGIAIGTLVPVLFIPLIEKYKSKNTSNI;locus_tag=LOCUS_3410;note=MGA_377
sequence24	MetaGeneAnnotator	CDS	7152	7457	.	-	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSELNVLWEFLDFLPAGFIFGFFDNFILLIGAYTGINIEKYIDQKASGVLGGVVGAGLANSISDGIGALIDPNMNDMFVGIVIGTILPLFLIPIIEKIRK;locus_tag=LOCUS_3420;note=MGA_378
sequence24	MetaGeneAnnotator	misc_feature	7459	8668	.	-	.	ID=MGA_379;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_012048186.1:butyryl-CoA dehydrogenase,WP_012048186.1 butyryl-CoA dehydrogenase (Clostridium botulinum A str. ATCC 3502) [pid:45.0%25%2C q_cov:97.8%25%2C s_cov:99.5%25%2C Eval:2.5e-93],MGA_379;locus_tag=LOCUS_3430
sequence25	MetaGeneAnnotator	CDS	493	936	.	+	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNLKTKKKLAARVFGIGQNRLKLDASQAEKLDDAITRGSIRSLKKDNVVTLPKKQGVSRGRHRRQKRKLKRGRTQGSKEGAKYSRLSKKNRWMIKVRAQRKRLKISKDRKEISNSSFWTLYKMSSSGGIRSVKHLNELIAEHKGEN;locus_tag=LOCUS_3440;note=MGA_381
sequence25	MetaGeneAnnotator	CDS	942	1421	.	+	0	ID=MGA_382;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTRNTHVPIFKRRRTGQTDYSKRKSMITSRSTILSIRISNKHSIFQFIEPKIIGDSIRSSSHSKQIIKLGWTGSGKSLHGLYLTGYLAGKKAKSTGLDKAILYIGRREFHSGSKIIYALKGVIDAGIEIPVNNEIFPDDEKFKTDNTEKIITEINSKYG;locus_tag=LOCUS_3450;note=WP_010875664.1 50S ribosomal protein L18 (Methanothermobacter thermautotrophicus str. Delta H) [pid:40.1%25%2C q_cov:86.2%25%2C s_cov:71.4%25%2C Eval:8.5e-25%2C partial hit],MGA_382
sequence25	MetaGeneAnnotator	CDS	1427	2170	.	+	0	ID=MGA_383;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011763044.1;translation=MSEQNVKNNDKNNKEVNSNTQSNNDSRGNRDRRNDRRNDRHRRERRPEPEVIWTPRTRLGTLVQSGSVQSLDTIFQNGWKIKEYEIVNKLLPDVKSFVVHVGVVQKQTDAGESTRFKSVVAVGDENGWFGIGTGKKPQMKNAIDSATQNALLNIIPVKLGCGSWECRCGTNHSIPHRTVGKGGSVKIELIPGPKGLGLVAGETIRNLLALAGVKDVWSKSFGSTSTMPSVANAVYDSIRQLHGMSLQ;locus_tag=LOCUS_3460;note=WP_011763044.1 30S ribosomal protein S5 (Pyrobaculum islandicum DSM 4184) [pid:49.2%25%2C q_cov:77.3%25%2C s_cov:94.6%25%2C Eval:1.5e-51],MGA_383
sequence25	MetaGeneAnnotator	CDS	2174	2641	.	+	0	ID=MGA_384;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867442.1;translation=MMSALIVVNLRGTINQRSTVKTTLEHLHLGSRYRATIIPDNPISKGMLQTVKNHVAWMDADSSIIESLITNRGEKSNSIKYDEDLAKKDGYDNISDLAKALCDDKINLSSLSNLKPSFRLSPPKGGFRKSTRRMHSQGGTLGYNPDLSKLISNMI;locus_tag=LOCUS_3470;note=WP_010867442.1 50S ribosomal protein L30 (Pyrococcus abyssi GE5) [pid:33.5%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:2.0e-20],MGA_384
sequence25	MetaGeneAnnotator	CDS	2652	3056	.	+	0	ID=MGA_385;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875667.1;translation=MGTRNRKIRKLRGSRSHGWGQVKGHRSHPGGRGNAGLMKYKWSWTVKYDPDHFRKPSLNPPNRKIVKKWINVGDLDGLFLHSQTNTPIDLEKLGYEKLLGSGSVKGSYELFVTSFTKQAQSKIEKAGGKISPRS;locus_tag=LOCUS_3480;note=WP_010875667.1 50S ribosomal protein L15 (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.1%25%2C q_cov:94.0%25%2C s_cov:94.5%25%2C Eval:8.1e-19],MGA_385
sequence25	MetaGeneAnnotator	CDS	3059	4471	.	+	0	ID=MGA_386;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867440.1;translation=MGLTTDFVRQVASILPEVAKPKIKPSLTNRLLWTAVAVTTYLVMAQIPLYGVASGAQDQMSYTAIIFASSQGTLMTLGIGPIVTAGLILQLLKGAEIIKLDFKKPDDRALFSAGTKILALIVTFAEAVAFMVGGSFGQNLPFPTAATIIVQIMFGGLIVILLDELIQKGWGLGSGISLFIAAGVSQQIFWSVFALIPAGSSYFGIIPHTISTLISSSPESIFIRPSGLPDFLTLLLTITVIGLIVYAEGIRIEIPITSTKYRGFQGTYPIKLLYVSVLPVILTGALLANVTFFAQIVWSRFNATNSNAILNLFAQFNVADPSLGPIGGFAYFVTPPRGIEVLSVEPLRAISYVFFYVVMCTIFARVWVEIGGLGSKAVAGKLLGANVQVPGFRRSEGSLEVLLDRYIPVITIIGGILMGLLASVSDILGVFGGGTGILLMVSIFINYYQLLMKERLETMMPGLASFLGKD;locus_tag=LOCUS_3490;note=WP_010867440.1 preprotein translocase subunit SecY (Pyrococcus abyssi GE5) [pid:39.1%25%2C q_cov:98.1%25%2C s_cov:98.5%25%2C Eval:1.7e-91],MGA_386
sequence25	MetaGeneAnnotator	CDS	4478	5059	.	+	0	ID=MGA_387;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846302.1;translation=MTNTKRVVIVGIAGVGKSTVVNEVLSLLEKKDAKVENLTFGTVMFEEAQKLGISDRDEMRTLSTDKQQELQINAAKSIANINSDVVIIDTHLFIKTNSGYMPGLPIPILESLIPTNLILIEALPQDVLDRRSNDPTRNRDTTTIESIELDNQIARSMLSSAGILTGASLLVVLNSDGKSHEAAESIVNSLGLD;locus_tag=LOCUS_3500;note=WP_052846302.1 adenylate kinase (Sulfolobus tokodaii str. 7) [pid:39.2%25%2C q_cov:94.8%25%2C s_cov:97.4%25%2C Eval:7.2e-31],MGA_387
sequence25	MetaGeneAnnotator	CDS	5071	5628	.	+	0	ID=MGA_388;product=cytidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762154.1;translation=MKGIILSGMPAVGKTTIAHSLCKEFNIKYYSGGDMLKEIAKEKGFEISGLDWWDNENGMKFLSNRMQDSSFDKLVDQRLINLLNQGNVVITSYTLPWLTSNGISVWLEASKENRSLRLGSRDSVSLEESIQVVNERDIKNQQIYEKLYSMKLGTDLSVFDIIIDTNDMNISQVCKSVINSINESL;locus_tag=LOCUS_3510;note=WP_011762154.1 cytidylate kinase (Pyrobaculum islandicum DSM 4184) [pid:30.0%25%2C q_cov:96.2%25%2C s_cov:91.3%25%2C Eval:2.6e-19],MGA_388
sequence25	MetaGeneAnnotator	CDS	5615	6616	.	+	0	ID=MGA_389;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869643.1;translation=MNHSKTNNNEQIILDEEPDILDSGSYPDKRSIEDLIDNCIIFIDKQSGPTSHQVVSWVKSMLNYNKAGHSGTLDPMVTGLLPISLGNATKALPILLYGPKEYVAVIRLHNSVNQTKLYDCINKFKGPIYQRPPQRSAVKRQTRIRNIYDISILDDTSRLLCLRVLCEAGTYIRKLIYDIGEIMECGATMVELRRTRVMHIEGENNFVRLHELSDAIYRLQHENDETRFRELVHPVEFITKPLKSITVRCSAIDSLCHGAQLAIPGILKLSKEISLNENISILSQKGELIALAESLMSSDDITKNKKGIACKTKRVIMKTGTYPKLWTKNNIQD;locus_tag=LOCUS_3520;note=WP_010869643.1 tRNA pseudouridine(55) synthase TruB (Methanocaldococcus jannaschii DSM 2661) [pid:43.4%25%2C q_cov:97.3%25%2C s_cov:96.4%25%2C Eval:5.8e-74],MGA_389
sequence25	MetaGeneAnnotator	CDS	6775	7059	.	-	0	ID=MGA_390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKGKLVNLLEASLIGYELIYVDKKKKLTKMYTSEESTAYNISIALDSTNKITELQILQIIWGKDNEAEIVELKEAPNKLNKDLESDIVKITKM;locus_tag=LOCUS_3530;note=MGA_390
sequence25	MetaGeneAnnotator	CDS	7206	8276	.	+	0	ID=MGA_391;product=3-methyl-2-oxobutanoate dehydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P9WIS3;translation=MTHMIQCITKEGEILKDVSIDLSEAELIKAYQTMILTRTLDTKMVALQRQGRIGFYLPSYGEEACSVGSALGVSNNDWFFPAYREQGAMLLKGVTLNFIISHLRGSADDEHKGRSLPGLFGCSSKRFVPPSAPVGTQISHAVGTAFASKLLDDKVATIVYFGDGATSSNDFHSGLNFAGVYKTPTVFFCKNNQWAISTNISDQTASDGIAIKAKAYGFDGVVVDGNDILAVYMATKSAMEKARAGKGPTLIEAKTYRLSSHSTSDDGARYQDQDEYKNWLSQDPIARFRKYLENSGIWNRDLEQEIQQKTERQITEAITQAESSPMPSLDTLITDVYSEIPDSLKADFQSLKDSKL;locus_tag=LOCUS_3540;gene=bkdA;EC_number=1.2.4.4;note=P9WIS3 3-methyl-2-oxobutanoate dehydrogenase subunit alpha (Mycobacterium tuberculosis H37Rv) [pid:43.7%25%2C q_cov:93.3%25%2C s_cov:88.0%25%2C Eval:2.9e-74],MGA_391
sequence25	MetaGeneAnnotator	CDS	8278	8625	.	-	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFSIQDAFTDIGLVNLTQVEIIFFDNSGTILDRVSVPNNDIIEGDFSIKYNIGNDGIYDVKIEVLEEGKVAKIDTQFRILVANKSILQDSSFIIGIAISLIIIGLIIKNRVIDR;locus_tag=LOCUS_3550;note=MGA_392
sequence26	MetaGeneAnnotator	CDS	1284	4025	.	+	0	ID=MGA_394;product=helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020807.1;translation=MSSQEFEKSVEEKYNKIGFNKLTDIQKNSYVKIVKDENVLLIAPTGSGKTEAAIIPVIMGSIKSKKKNKISAVYITPLKALNRDIFRRVIHYAEAEGLKVNIRHGDTTRKEKQKITKEPPDVLITTPETLGIMIGNKSTREILTDTKYVIIDEFHELIGNERGTHLSLSLERLQELTAKKIVRIGLSATLGNVNTGLHLLSGESYKSTAVLDHTKKEYDISNMYIKGDLFEIAKIILKKIKETNKATLLFTNTRVEAEAIGSILKAKEPEFPIEIHHGSLSREAREDAETRLRSGQPILVVCTSSLELGLDIGSIDNVMQFGSPRQAIKLIQRMGRSKHRTGEISTGIILSNRIDDELESLALIDRVEQKDLEEINIHENSLDVLCHQITGMLMENGKMDINKVVKIANRSYPFRNTTREEIIDTVNLLNNQGIVRFDGKIIRRGFKIFEYYFHNLSTIPDSVQFEVIDISKKRIVGRLDQLFVGEYAEPGEPFILKGNSWRIVSIDDDKMSVHVEPMFSDVSRVPHWVGELIPVEFKTAQRVGKLRKDIANNKEKRISDEQKQMIEDTENTLGIIPDDRTLVIEQSITNKSIVIHSCLGSRVNQTLSTLLSTIISSKNGYLVDSKSDAYRISLSSQGQLSQTYIEETLKQDIDFKSILEVAVIGTHPLNWKTWHVAKRFGVVSKDSKYDKRAARLIKERFKNTPLDKEIMRELILEKYDLKNTLEIMNEIKENKIAIKYVKVSEFSSLAKPILDYANTFAALPLTVEKSIIELVKKRLEETNNKLLCLSCGVWETVVKPKDIMDIDIQCPRCKSRIVTRTYITDMEIGKIIKKKQKKKKLTRDENIYYRKLWKVSSLIQNHGKDAVLTLSAYGIGPDTAARVLRNKIDEEDMFRKIYLAEKVYVTTRGFWKE;locus_tag=LOCUS_3560;note=WP_011020807.1 helicase (Methanosarcina acetivorans C2A) [pid:33.8%25%2C q_cov:99.3%25%2C s_cov:99.1%25%2C Eval:3.4e-153],MGA_394
sequence26	MetaGeneAnnotator	CDS	4022	4993	.	+	0	ID=MGA_395;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENRKTYCISHGKDVDGIASASIVKMANGAKTFLVNYDKIIETLEKIPDNSEVYVCDLGMNDSIAERFIEECNRITKNGKFTYIDHHILKLNTKRKLLKAKVKLVHSRKECAGVLTYQHFKKQVPKGASILACYAAITDYLDNQKIAKSLISNYDRQLLLLESTMLAYALAYDGAKPQFGNKIVDAFQDLKFPHEIKDVSTLANQQAERMKNIMKTINTEAKSYKSFACMESSNPTIGLVANMIIGELNVPVAFAYRHNPNGHYEMSFRARYDSKAELGKIVAEITPKLGGMGGGHNKACGARIPDDKLNKFIKLFSAELKK;locus_tag=LOCUS_3570;note=MGA_395
sequence26	MetaGeneAnnotator	CDS	4994	6328	.	-	0	ID=MGA_396;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064444.1;translation=MSKRDTHELEKAAQKPGEDALKLHPFYKGKIETMLKCSVKSLDDFAVWYSPGVAAPCKDISNNKEKVFEHTNRGNSVAIVSDGSRVLGLGDIGPEAGLPVMEGKALLFKYLGGVDAVPIMLDTKDKDEIIRFCKVIAPTFGGINLEDIESPKCFDILSELQQTLPIPIWHDDQQGTALVVIAGLINSAKFVNKKFESLKISLIGSGAANVALVRLLGKAGVNLENISVVDSRGIINLDRNDLQNHPAKWNIAKTTNKEQITGGIKESLQNADACIALSKPGPDVIEASWIKDMSDSPIVFACANPVPEIWPWNATKAGAAIVATGRSDFPNQVNNSLGFPGLFRGALDVRALKLTDGMCLAAASEIASYAEKTGLSENHIVPTMEALELFAHEAAAVAMQAIDEGVAQIKLDRSEVYENALEVITRSRNITKNQMDSGFIKPAP;locus_tag=LOCUS_3580;note=WP_048064444.1 malate dehydrogenase (Archaeoglobus fulgidus DSM 4304) [pid:54.9%25%2C q_cov:95.7%25%2C s_cov:96.8%25%2C Eval:7.4e-134],MGA_396
sequence26	MetaGeneAnnotator	CDS	6437	7459	.	+	0	ID=MGA_397;product=dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878151.1;translation=MKIAIIGLGVAGSFLLHTLSKEHDVEGFEMQKAGEFNAVCAWGAAKSEMQRIFERINIDFNDYVYFNGENINLELKGKVRKIACKGLVTYNKHQLELDLTKGLNAKYGKRIIPSTFPSDQYDLVIDATSLQRVMLPKISDQLLVPCVEYMVEYEKLPYDDFYVKPFSTASGYFWYFPLEKNTAYVGAGDYYRKHMEELDYFNNKHGGKIIKKIGRPIRLSAPEVCQPFTQGNVVGVGEAIGTVFPLIGEGIIPSLQCAEILQKNIDNIPRYVEEVKEYFKVYSDVYKVIKLKMNNNLGPYTFIKNSGAVWSTYRTMKKQEERFGLEVRVRDMAEILLTQL;locus_tag=LOCUS_3590;note=WP_010878151.1 dehydrogenase (Archaeoglobus fulgidus DSM 4304) [pid:30.0%25%2C q_cov:86.5%25%2C s_cov:89.1%25%2C Eval:3.6e-26],MGA_397
sequence27	MetaGeneAnnotator	CDS	496	1650	.	-	0	ID=MGA_400;product=LL-diaminopimelate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877916.1;translation=MKISDRLNSLPPYPFAKLENLISKKRQEGIDLISFGIGDPDLTTPDFINKALIEGLSIPGNHNYSSSAGEKSFRDSISKWFEKRFTVSLNPDEEICALIGSKEGLAHIFRAFLNSGQTVAVPNPGYPLYEHGGTMLNDFKPLILDLSEESNYIPQTDQLQESDFSGLYLNYPNNPTGAVIQQSELDNIVNICHEKNSIIVYDNAYSEITYGDYKAPSIMQCENANQNSIEFHSLSKTFNMTGYRIGFAVGNKNLIDGLKKIKNQIDSGSPKFIQHAATIALDSYSNGVPPKDILNNLKIYENRMSLLYHGLSNLGYQVKMPSGTFYLWMKVDENCESFAMKLLDKGIVVTPGLGFGNAGKNYVRFSLTVSESDISKALEKIPSC;locus_tag=LOCUS_3600;EC_number=2.6.1.1;note=WP_010877916.1 LL-diaminopimelate aminotransferase (Archaeoglobus fulgidus DSM 4304) [pid:43.0%25%2C q_cov:99.0%25%2C s_cov:97.9%25%2C Eval:2.3e-88],MGA_400
sequence27	MetaGeneAnnotator	CDS	1647	2930	.	-	0	ID=MGA_401;product=diaminopimelate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876948.1;translation=MWKLETPLKNLNGKLFFANISTNKLATKFGTPLFVTDSERIISNYNNLYSAFSSHYDKFKINYAVKANNNLSILKLFNHLGSGADCSCPEEIFLAKKIGFSSKDILYTGNYNSDDQLSYALKQKIMINVDSLSILPRLLKIGTPNTISFRINPGIGSGSHSVLVFGGKNTKFGMSKKDAVAAYRLAKKSGVKKFGIHMMTGSSILDSSYFKKATSKLIDIAVEIVEECKISLDFINIGGGFGIPYKPPEKSLDIKKVGSDIGKIFNGRKSSKILDKPWLFVEPGRYLVADSTILLTNVHSIKKGPINYVGIDAGMNTLLRPALYDAYHHVVNASRLNSRSNESVNICGQICENTDILAKNRKIGNVKEGDLLAILNVGAYGFSMSSQYNTRPRAAEVMINKKNCKIIRQRETINDLIKGQKVITWFN;locus_tag=LOCUS_3610;note=WP_010876948.1 diaminopimelate decarboxylase (Methanothermobacter thermautotrophicus str. Delta H) [pid:44.4%25%2C q_cov:96.7%25%2C s_cov:96.7%25%2C Eval:1.8e-100],MGA_401
sequence27	MetaGeneAnnotator	CDS	2941	3735	.	-	0	ID=MGA_402;product=4-hydroxy-tetrahydrodipicolinate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B5YGJ4;translation=MSLTKLCIVGACGRLGKSIIQESIDNFEIVGAVETSNSPHIGKSLTSLGIIESDIQITSSDNLSSAISDADVTISATIPDSELVNAPIYVNNNKKIIIGTTGFSEKQYSDLVSIINGKVPSIITSNFSIGMNFLYRLSKLVGQLPDEFEISINEKHHSKKIDSPSGTALSLAKIISESKGYEDLVFDRSNHGKRKTSELDVTSERLGGTPGIHEVSIAGQYEILRLEHIAFSRSAFARGALVAAHWLNNISESQIYSMQDVIFS;locus_tag=LOCUS_3620;gene=dapB1;EC_number=1.17.1.8;note=B5YGJ4 4-hydroxy-tetrahydrodipicolinate reductase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:36.8%25%2C q_cov:98.5%25%2C s_cov:98.9%25%2C Eval:5.3e-37],MGA_402
sequence27	MetaGeneAnnotator	CDS	3722	4768	.	-	0	ID=MGA_403;product=4-hydroxy-tetrahydrodipicolinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869742.1;translation=MNDRELFKGCYTALITPFTNDFKVDYDGLKKLVEFQISENVSGILVAGTTGESPTLSWSEHEKVIKTVYDVAGERTVIIAGTGSNNTSESLQVTEFAHDLGINNILLIDPYYNGPSSLEIRREYLEIIAKKFPSVTVIPYIIPGRTGTKLLPQDLAISYSNCPNINTVKEATGDFDNAKLTRKLCGKDFCILSGDDDKTVKLIQNSDIKSTGVISVASNLVPSAVTELVLKTIDNDSQYINLEKSISPLFKLVGIQTTESTTVGDVIVKSRNPVPTKTLMRILGLPSGPSRQPLGLVTKQALEFILEQSKLVYENSDLFKPIEDFFDVNIQERLYSDKYISGLYYESY;locus_tag=LOCUS_3630;EC_number=4.2.1.52;note=WP_010869742.1 4-hydroxy-tetrahydrodipicolinate synthase (Methanocaldococcus jannaschii DSM 2661) [pid:35.4%25%2C q_cov:88.2%25%2C s_cov:100.0%25%2C Eval:2.7e-45],MGA_403
sequence27	MetaGeneAnnotator	CDS	5154	6242	.	-	0	ID=MGA_404;product=L-myo-inositol-1-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846748.1;translation=MIRTIILGVGNSASALVQGLAYYKDLEKNNQNTDEHGLWHPLVGSYKISDIEIVGAYDIEKNKLGGIDLNKSIFSPSNKLEKFVDLEISDINVEPGLLSDTDMNENLQSSIELSQDTGFNPFSENEFIDSLKTKNPDVIINLISSGLHKSSEKYAEIAADVGSSFINATPTKIATNEKFVKIFNDKKLIVVGDDLMSQFGGTAFHKGIMNLMHERGIRINKSYQLDVGGGIETNNTVDEDLRILKRQIKSDTIESELPYDVQTVSGTTDYVDFMGNSRTNYFWIEGDSFLGSKVRFDIYLRSTDGPNAGGLLLDIIRGIQHSHDMNESGNIEELSNFGFKSTVNKNDLRNSYQNFSKKYIKK;locus_tag=LOCUS_3640;note=WP_052846748.1 L-myo-inositol-1-phosphate synthase (Sulfolobus tokodaii str. 7) [pid:36.8%25%2C q_cov:93.9%25%2C s_cov:91.4%25%2C Eval:3.1e-47],MGA_404
sequence27	MetaGeneAnnotator	CDS	6276	6482	.	-	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIVTNRKLDSDLMFRAIGGILIILGLLSASYTSSTPTLPPQIVPIYYFISLVLILSGLFGLISIIRD;locus_tag=LOCUS_3650;note=MGA_405
sequence27	MetaGeneAnnotator	CDS	6728	8149	.	+	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIITRKVLIILFTIPIILGLIVGSQIISNSGDEEKEIVQDSCNIRYENNNKYIKEYVIPSKCSGPVAITIDDEGIVWFIENNNSKLASFDPKEYSFNEYEISNIYTNIKSWSMIAIEDEIWFTDHQNNFIWKYSKSENKFEHFRLITENSYPVQILDNEDRIIVSEIFGKKIAILEKNKLLINTTNGINEISPEIDLDVLGGIAIDSDNTIWFTMLTWPIEGYLGNYKDGEFNSYKLPEGVSSPVGIAVKENHIWINDHGSSQFVLFNLENNTFTKYVTSSSKSDFTTTLPYWNKFDQEGNIWMNIHQSNTIAKFDIMKQILIEYEIPTKNFDWGGISNPLQFDIDEQGNIWFTEWTENKIGVIDAQKPLEFSIEISTREITMNRNDVKEFTLIIEPENIIYAEIKISGTMTINGILENVSLEFEQIKNEFDKTKSIPIILQTENLNSGIYTIMVSVESEEITQSIPVKLIIK;locus_tag=LOCUS_3660;note=MGA_406
sequence28	MetaGeneAnnotator	CDS	934	1692	.	+	0	ID=MGA_408;product=proteasome assembly chaperone family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878032.1;translation=MEIRIKTLKKRKFNNPVLICGMPGSGYVGKLAVEHLLNEFKSTAICEIQSDLFPPQISTNNGIVENMSNTIYYVETNGQKNDILVLTGDSQPITERGNYLVTEKILEYAQNLGIKKIFTLAAYITGEFVDKPKVFGTATEKKHVKKLKNNGIKIMNQGMITGMNGILIGSAKIKGIEGYSLLGETSGYMIDPRSSKAILESLSKILKIKINLEQLTKKIKESSELINQVEEMKTNTEGIEYSNRDNSKEYIN;locus_tag=LOCUS_3670;note=WP_010878032.1 proteasome assembly chaperone family protein (Archaeoglobus fulgidus DSM 4304) [pid:36.1%25%2C q_cov:90.9%25%2C s_cov:90.0%25%2C Eval:6.6e-42],MGA_408
sequence28	MetaGeneAnnotator	CDS	1697	1978	.	-	0	ID=MGA_409;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYNYIIMDDNHIILHINVKTGLKDSFIKFEDNQIILGIKSLPLKNKANNEIINLLSTIFHADSINVKILNGTTTNSKTIKIIDPQYIPNELL;locus_tag=LOCUS_3680;note=MGA_409
sequence28	MetaGeneAnnotator	CDS	2006	3466	.	+	0	ID=MGA_410;product=RNA-splicing ligase RtcB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74CI9;translation=MNDIINVVKKKSNTIWEIPMNYKQGMKVPVRIYATEQLLKFMDHQVIDQITNVATLPGIINYAYTMPDAHSGYGFPIGGVAAMDLNEGVISPGGIGFDINCGMRLVLTNLTYNDVKPKLRELVDQLYNKVPAGVGGAGFVKINKSQFRDITEMGSTWCVENGYGWEDDLENTEENGIMKKANAEKVSDVAIKRGLKQIGTLGSGNHYLEIQVVKPEYIFDEKAAKAVGIFPNQVVIMFHCGSRGFGHQVASDYLKKFLGVMESKYNINILDRELACAPFQSQEGQDYFSAMQCAINMSFVNRQTILHRIREVFSTVFKTEPEKLGLSMVYDVAHNTAKVEEHEVDGKNKKMIVHRKGATRAFGPGRLEIPQKYRNIGQPVIIGGSMETGSYLLLGTKEAHKETFASTAHGSGRIMSRTKAKKMFRGETLYRDMLKKGIYVKSVSYAGLAEEAGNAYKDIDDVVDATVNAKISKRVVRFIPIGNVKG;locus_tag=LOCUS_3690;gene=rtcB;EC_number=6.5.1.-;note=Q74CI9 RNA-splicing ligase RtcB (Geobacter sulfurreducens PCA) [pid:65.6%25%2C q_cov:98.6%25%2C s_cov:98.8%25%2C Eval:1.8e-184],MGA_410
sequence28	MetaGeneAnnotator	CDS	3469	3900	.	+	0	ID=MGA_411;product=protein archease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010942323.1;translation=MPYIYKDDISMADAAIEVNSDSLEGIFVDSGKALTNTMVEDLKSIKTNQKYTFKVESQERDLLLFEFLEKLVIEKDANQMLFSEFEVKINKTDKKFMVSVIAYGEHIDYDRHELCADVKAVTLHKFSLTKEKENWKAAMILDI;locus_tag=LOCUS_3700;note=WP_010942323.1 protein archease (Geobacter sulfurreducens PCA) [pid:41.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-26],MGA_411
sequence28	MetaGeneAnnotator	CDS	3897	5210	.	-	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIPTYVRGFICTRNGGLNDVNLNFMNHRAWSGYLCYDDDFNYSINEQLTNLSSNIIACLGNSSINDSNVLIHGEIYGDYIPIINDIINSDTIEKLTSNIHELYKLDGSYCMIIVGKLGTICLRDPLGCKPLYIGKNNNSLSVSTQKSILINSNFHVEDFIPGTAMILNNEKIINVRNLSPTSYSKYEADTLLTLLKNSIVSRIGNKKTIGVSFSGGIDSSILISIANEFTEIKAFNVRMKDSHDFENAKKLANLLGIDLIEIEPKKDHIPTDIPNITSIAEIIRPMDVSIALGFYYVAKTAKEHNVSTLFVGQLADELFGGYARYIRTLSEESPQFVTDMMNSDVHQAYTKNFERDEKITSPFVDLFVPYASIPLVDFALSCPIESKIDPKNEIRKVILRSVAKKLNLPDEIIYQTKKAIHFSSGIDKVVKRALKNN;locus_tag=LOCUS_3710;note=WP_010868250.1 asparagine synthase (glutamine-hydrolyzing) (Pyrococcus abyssi GE5) [pid:31.5%25%2C q_cov:76.0%25%2C s_cov:66.8%25%2C Eval:8.3e-37%2C partial hit],MGA_412
sequence28	MetaGeneAnnotator	CDS	5191	7365	.	-	0	ID=MGA_413;product=extensin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011023138.1;translation=MNISSLDLSEKSINFLHNQGFKTLYPPQAECIKTGLLENNNLIVSTPTASGKTLVAIISALQHIENSGKIIYLSPLRALASEKYADFKKLESLSKSDGSSIKVSISTGDFESNNEYLKNSDIIILTNEKFDSLQRHGIKWLSQVSLIVIDEIHLIGDSYRGPTLEMIIAKMLISEHSPQILGLSATINNVEEISDWIGAKSVVSTWRPVDLSEGVFCFGQVDFKDGTSPINIDNSGEGTAIDIAIDMVKKNGQSIIFTETRKRASSLAKKIEKMMPLILTKEQSDELFDLSQLLKKSDTNTDMNDLLVKLLKHGVAFHHAGVSNQQRQIIESGFRDRKIKIICATPTLAAGVNLPARRVVLSSYLRYDMQYGGMSPISVLDYKQMCGRAGRPQYDDKGETILIANNESEQDSLFDHYINGDVEDIESALSNEDSLRTHILATISSSKFGISKPNLLKLFNNTLYTLQNGNDELEFKVEDCIDFLIDENFIEKRNNKFISTRFGKQTSLLYINPITARDFRDSILSSHKEQDYTMGILQVIASSPDFGRLFSFRKSDEINYLSFINEHKPEFFDIGHSDHEFRSTFRILAALNAWINEKKENDILNFVDIDPGDLYFATENTKWLLNAFYRLTVLFQTRHLFDHILVLQNRIQQGIRSELIELTSLKGIGRVYARRLFDSGFTSLNSLNSASISDISKIPHVNSSLAEKIKEQLKDFESNDSNIR;locus_tag=LOCUS_3720;note=WP_011023138.1 extensin (Methanosarcina acetivorans C2A) [pid:38.7%25%2C q_cov:98.5%25%2C s_cov:96.0%25%2C Eval:2.3e-133],MGA_413
sequence28	MetaGeneAnnotator	misc_feature	7375	8128	.	-	.	ID=MGA_414;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_052846340.1:minichromosome maintenance protein MCM,WP_052846340.1 minichromosome maintenance protein MCM (Sulfolobus tokodaii str. 7) [pid:39.4%25%2C q_cov:99.6%25%2C s_cov:35.6%25%2C Eval:1.4e-36%2C partial hit],MGA_414;locus_tag=LOCUS_3730
sequence29	MetaGeneAnnotator	CDS	806	1093	.	-	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVYRSQVKIVADVLSSINDGNDGETGLGITRIIQKANLSYSRATKIITRLVDSGLIEQVTVNNNQRYILSHKGIEYLRSHSDFADFAESFGMKL;locus_tag=LOCUS_3740;note=MGA_416
sequence29	MetaGeneAnnotator	CDS	1080	1787	.	-	0	ID=MGA_417;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGSYFLFSEYKLIEGLLYLIGSFIGYRVLRIAREGYRNTRSPTLLRLTISFIALTIGFFITAFTYIFPIFFQLTFQSNFILNLRLDFLGISIALTSLFFIIAASFELLGYFILALGHGIKSYQKTTMAPIAYGFLTTVSVLSILKSISFVFLLYGAFETLLSYLEAKKRPILFMFLGFTALAAGEFIRWLALFYSGLSPLMISSILVKLIGFIMLYTPVSTFNTYKGEQNNVSI;locus_tag=LOCUS_3750;note=MGA_417
sequence29	MetaGeneAnnotator	CDS	1852	2145	.	-	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYLKTKVLNKTLYIEVLLYLRLLNILPNFSTFGYLFIIIGLLILLIPELIKKFNILIPANFPWFILYVYKQNNFTFATSPLLIILSLLFLFYSIIR;locus_tag=LOCUS_3760;note=MGA_418
sequence29	MetaGeneAnnotator	CDS	2262	2567	.	+	0	ID=MGA_419;product=stress response translation initiation inhibitor YciH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496503.1;translation=MEVCNKCGLPTDLCVCQELEKEDSRIIVRLEMRRFRKPTTIIEGLASKSTDVSEIAKKLKNTLACGGSGKGNLVILQGDHRDVLKAHLINLGFSESSIEVQ;locus_tag=LOCUS_3770;note=WP_064496503.1 stress response translation initiation inhibitor YciH (Methanocaldococcus jannaschii DSM 2661) [pid:49.0%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:1.1e-23],MGA_419
sequence29	MetaGeneAnnotator	CDS	2574	2783	.	+	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKKIKKFKDELNQINNLKARRKILETKIKICPECTSELEPMNEQLEWLMPQKYICKKCNYLGTAYFEK;locus_tag=LOCUS_3780;note=MGA_420
sequence29	MetaGeneAnnotator	CDS	2813	3247	.	+	0	ID=MGA_421;product=dCMP deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932428.1;translation=MTRPTWDKYFMEIAHQVSKRSTCDRKNVGAVIVRDKVILSTGYNGSIRGIKHCDEVGHLMENGHCVRTVHAEVNAVAQSAMNGTEIKDSSIYLTASPCWSCFKVIVNSGIKRIYFGEFYKDEKIFQFAQEIGVELIDMSESKNE;locus_tag=LOCUS_3790;note=WP_010932428.1 dCMP deaminase (Chlorobium tepidum TLS) [pid:49.0%25%2C q_cov:93.1%25%2C s_cov:81.7%25%2C Eval:2.0e-34],MGA_421
sequence29	MetaGeneAnnotator	CDS	3251	4180	.	-	0	ID=MGA_422;product=transcription initiation factor IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978312.1;translation=MKEELGSLPSRPSVDRCTRCGKGPIVVDSSGGEMNCSNCGYVIVDKIEEEGPEWRAFSKEEKDDRARTGVPSSLAMHDMGLATVIGAEDRDAAGRSLPASMKAAIERLRTWDGRSQVHEPVDRNLRQAFSELDRLADKLNLSDAVIEKAAYIYRKALEKGLVRGRSISALIAASLYAACRDTETPRTLKDVAAACNIKKKDIARCYRLLLREMDLRMPVVDPTKCVSRIASKAGLSEKTKRSALIILHKAETTRTSAGKDPMGLAAAALYVACVMEGESKTQKDVAEAAGVTEVTIRNRYKGLKSALQL;locus_tag=LOCUS_3800;gene=tfb;note=WP_010978312.1 transcription initiation factor IIB (Sulfolobus tokodaii str. 7) [pid:47.0%25%2C q_cov:97.1%25%2C s_cov:97.4%25%2C Eval:6.2e-75],MGA_422
sequence29	MetaGeneAnnotator	CDS	4360	5799	.	+	0	ID=MGA_423;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8E028;translation=MVKIGITEKKDENFSEWYTQTVLKAELIDYSQVKGFIILREYGFSIWENIQSILDKEFKKDGTKNAYFPLLIPESLLNRESDHFKGFTPEVFWVTRTGDNEIDNKLAIRPTSETIAYESYAKWIKSWRDLPLKLNFWNSVLRAEIKDTKPFIRTSEFLWQEGHTAHETKEEATKQVDFMLKLYEDFVNDYLALPILTGRKSDKEKFVGADYTLTIEGIMPDGKALQMGTSHHLGQNFSKPFEISFLGKDEEQHFAWQTSWGVSWRLMGALIMTHGDDKGLILPPKIAPIQVVIIPIYYDEMKKNEIMKVIEGVIKQLDAKGVRSYVDSTEQHTPGWKFNQWEMKGVPIRIEIGPKDLEKNSFVVVKRNSREKRDIPIDNNTAGEIVKELKTIQSELYDIAKKKHNNMIFESVDYNELCERLNNERGFVKTGWCESRECEDKIKDETGADIRLIEDEKIDSTCIVCGKNTKNTVYFAKSY;locus_tag=LOCUS_3810;gene=proS;EC_number=6.1.1.15;note=B8E028 proline--tRNA ligase (Dictyoglomus turgidum DSM 6724) [pid:50.6%25%2C q_cov:99.0%25%2C s_cov:98.3%25%2C Eval:1.3e-139],MGA_423
sequence29	MetaGeneAnnotator	CDS	5838	6638	.	+	0	ID=MGA_424;product=undecaprenyl-diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979881.1;translation=MDLFQIIIISIIQGIIEWLPISSQGNIIILMSEVFDYSIENALKLSIILHLGTVMSACIYFRNDIIQITSNLKNYKFGYSTEVNSLTTFIILSTVSSSVIGLVVFASLLEISGSSFFPLIIGGGLIITGIIQKIIKSDLRNEKNLTHNVAIVTGILQGFAIIPGISRSGITTSYLLVRKFSPSTALRLSFIMSIPAVLVANLFVIFVEGIQNLQLIELIIAVSLSCVSGLISISSFIKIARKIRFWIFSIFVGVLLLIPYVLDIII;locus_tag=LOCUS_3820;EC_number=3.6.1.27;note=WP_010979881.1 undecaprenyl-diphosphatase (Sulfolobus tokodaii str. 7) [pid:26.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-23],MGA_424
sequence29	MetaGeneAnnotator	CDS	6694	6963	.	+	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDVAETKFKVKVYDYPEGQKPKRVAKEVTESLKGVVSTKKIGKLKKQAIHCPVLDEERNFVECFACKSHIRRVMGEVDCAGGSTELQV;locus_tag=LOCUS_3830;note=MGA_425
sequence29	MetaGeneAnnotator	CDS	6974	7819	.	-	0	ID=MGA_426;product=DNA topoisomerase VI subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876639.1;translation=MAFFANELMSNKKSSTLRDVYYSSQAYAVDYDDQSESDAIITDLESVISTARERLNIYPEERSAIFGDLDIEYTVPGYEGNRLNLSSHPDGYLIGPSLSTADFVDTSAEMIIAIEKGGLFNRFVEEKVHSKYKAIIIDTAGQAPRATRYMLKRLHKELNLPVYIMTDGDVYGEHIAMVIVSGSAGAAHLRDLTVPSAKWLGIWASDIAKYKLPTIPMTEVDFKRVSELKRDPRYQKGVWNKELDVFMKIKAKCELEAFSKYGLTTIVDKYLPEKLEQAKSM;locus_tag=LOCUS_3840;EC_number=5.99.1.3;note=WP_010876639.1 DNA topoisomerase VI subunit A (Methanothermobacter thermautotrophicus str. Delta H) [pid:45.5%25%2C q_cov:99.3%25%2C s_cov:78.5%25%2C Eval:3.6e-63],MGA_426
sequence30	MetaGeneAnnotator	CDS	226	540	.	+	0	ID=MGA_428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSHDFSEDDVLEAMSEVVDPEINVPILEMGEGNGLIDEVNISEDNSVEVKYHATTPYCPPVFALQISMDIKKSVEQMEKIGNVKVIVSGHAMSKQINDKINENS;locus_tag=LOCUS_3850;note=WP_010868774.1 dTDP-4-keto-l-rhamnose reductase related (Pyrococcus abyssi GE5) [pid:34.1%25%2C q_cov:78.8%25%2C s_cov:43.2%25%2C Eval:5.4e-07%2C partial hit],MGA_428
sequence30	MetaGeneAnnotator	CDS	541	837	.	-	0	ID=MGA_429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIPVRRWDGETRKWLDELDGVIKVPEKMNKVGMDDEDLKYATICVMCEKRITKHQIDGGRKTYWNEGISNGKLIKAGWIHQECLGFNSGVYEKAYMP;locus_tag=LOCUS_3860;note=MGA_429
sequence30	MetaGeneAnnotator	CDS	942	2159	.	+	0	ID=MGA_430;product=metalloprotease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867359.1;translation=MEDKTSNFDIRFPLIILKTQRGQRLLEKLSKFRFISFLSWISLFLMPIFSLLAISILILTASLYLSFPEVREIARETGPQGALLIPGINPYLPIVYGWVAIFIGIVIHELSHGVIARAVDIPVKSSGIMFFIFLPIGAFVEVDDTKLDSVSFKKSGRIIAAGSGSNIIVGLFALFLLVGVVNTMEPVADGIPVSRIVVDSPANLAGLLPGDIITHLNDIPVSDSDVFSQNYNNLSPGDSISLIVQRQSERYEYELVLSSRPDNSEEPFIGIMRPSIDVTDSLTRYQNGLSLSTDLLVYFSFPSGDSYSIPFSSSMQNFYTSSLGNQYTVLTNLLFWIWFINFNLGIFNALPLGPLDGGQAFKRGLKSITRNKISQNKINYVSRLVSFSILFLILAMFLLPYLPVQ;locus_tag=LOCUS_3870;note=WP_010867359.1 metalloprotease (Pyrococcus abyssi GE5) [pid:30.1%25%2C q_cov:84.2%25%2C s_cov:76.5%25%2C Eval:2.4e-35],MGA_430
sequence30	MetaGeneAnnotator	CDS	2163	3404	.	-	0	ID=MGA_431;product=S-adenosyl-L-homocysteine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978302.1;translation=MSKITDKNLAEKGKKSYEWAKNNMPALVTTINKTAEDFSFKGTKIAVCLHVTKETSVLAMGLKELEADVYLAGANPLSTQDDIAAYLDSEGINVFAWRGQNDQEYQECVNAILEAEPEIIMDDGADAHITLHENSKFAQLNVIGGTEETTTGVVRLEALEKSGKLKYPIIAVNNAYTKHLFDNRYGTGQSTFDGILRSTALLIAGKKVTVCGYGWVGRGIAARAKGLGGIVSVSEIDPIRAIEAVMDGFNVKPINELAKESDIFVTATGQKHVIDKNSIKNLKDGAILANAGHFDLEIDVAFLQDIAKNVRTIRDNLEEYELENGTKIILIAKGRIANLVAAEGHPPEVMSMSFSNQLLGAVKIKLDHEKLKGLVDMPKEIDYNVAKYALEGMKINIDTQTQEQKDYGESYVI;locus_tag=LOCUS_3880;EC_number=3.3.1.1;note=WP_010978302.1 S-adenosyl-L-homocysteine hydrolase (Sulfolobus tokodaii str. 7) [pid:56.7%25%2C q_cov:98.1%25%2C s_cov:97.3%25%2C Eval:1.4e-123],MGA_431
sequence30	MetaGeneAnnotator	CDS	3451	4233	.	-	0	ID=MGA_432;product=5'-methylthioadenosine phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867247.1;translation=MKTEVAIIGGTGIYNTDIISDKETIDIETPYGKTSDSLTIGEFNQKKIVFLPRHGKKHSVPPHKINFRANIWALKEIGVKRIIAPCAVGSLRKEMEPGHIAIPDQFIDRTKDRDSTFYDQGTVAHISTADPFCPELRSLAIAAGKKLNYNIHEKATQVCIEGPRFSTRAESNMFRNWGADTINMTLFPECVLARESQICYVAMATITDYDVWAETAVSHHEVLKTLEKNVEKTSNIIQAIIPEINENRNCLCVNALDEAI;locus_tag=LOCUS_3890;EC_number=2.4.2.28;note=WP_010867247.1 5'-methylthioadenosine phosphorylase (Pyrococcus abyssi GE5) [pid:54.2%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:6.2e-75],MGA_432
sequence30	MetaGeneAnnotator	CDS	4235	4744	.	-	0	ID=MGA_433;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q183I0;translation=MNIKNVIKDYPDYPKKGIIFKDMWPAIEDPDAFEYILTEFENEFRGKIDTIIGIESRGFIFGAALANRLKISFIPIRKKGKLPGETISRDFELEYGNASIEIKNESLQNKKILLIDDLLATGGTVEAAIKMIKQLEGNIIGLGFLIELKFLKAREILKDYKIFSIVGYE;locus_tag=LOCUS_3900;gene=apt;EC_number=2.4.2.7;note=Q183I0 adenine phosphoribosyltransferase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:45.3%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:7.0e-39],MGA_433
sequence30	MetaGeneAnnotator	CDS	4832	5248	.	+	0	ID=MGA_434;product=translation initiation factor IF-2 subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868556.1;translation=MKDDSYKKLLTRIEDQLSTVDVKKKDRIEIPKAETFWIGQKTFFRNFSVYPKLLRRTTEHFMMFLSKELATSASIDGDRAIFIGRKTPDSFDFILKRYIRQYVNCSVCDSYDTSLDKVKRLYFINCEACGAKTTAGSR;locus_tag=LOCUS_3910;note=WP_010868556.1 translation initiation factor IF-2 subunit beta (Pyrococcus abyssi GE5) [pid:39.8%25%2C q_cov:92.8%25%2C s_cov:91.4%25%2C Eval:2.2e-21],MGA_434
sequence30	MetaGeneAnnotator	CDS	5251	5562	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSKSFHFRSITNNEINIVNICDTDNIGTTISEGNFEIEISEDYFGGDIIDENKAQELLKTSDTLNLVGNNIVNLAVDLDLVSIESIKKIQGISFVLIYKFIQ;locus_tag=LOCUS_3920;note=MGA_435
sequence30	MetaGeneAnnotator	CDS	5601	5912	.	+	0	ID=MGA_436;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869944.1;translation=MGKRKVLNEKSLKDVVLPQEGEMFGRVVKHLGSELIQIKCADDKIRIGRIRGKLKRRVWIRDNDVVIIAPWDFKSDDRGDILWRYTVGQVEWLQSQGHLPKEL;locus_tag=LOCUS_3930;note=WP_010869944.1 translation initiation factor IF-1 (Methanocaldococcus jannaschii DSM 2661) [pid:43.5%25%2C q_cov:82.5%25%2C s_cov:83.3%25%2C Eval:8.1e-19],MGA_436
sequence30	MetaGeneAnnotator	CDS	5916	6707	.	+	0	ID=MGA_437;product=serine/threonine protein kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048060945.1;translation=MSFQIDNRAIKKALNKVNSSDKSNRSLKKRSEDFQVFQDVFNKPTLLTLYSLFNNGTLSYLNGIVNSGKESNIFWGVTPEGNDVAIKIYLTVASEFRKRLKYIEGDNRFKNINTNGHKLIELWARKEYKNLLKAYSINIPVPKPIAVKQNVLVMEFQGIDGSPFPTLSETEVSESDLHEVLDLVTKLYTKCNLVHSDLSEYNVFKNSSDLILFDFGSAVDVSHPMSKDFLSRDLNNLCRFFSKRGIPKFDVEKKYQELIDNDV;locus_tag=LOCUS_3940;note=WP_048060945.1 serine/threonine protein kinase (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.3%25%2C q_cov:90.9%25%2C s_cov:90.4%25%2C Eval:3.6e-46],MGA_437
sequence30	MetaGeneAnnotator	CDS	6700	7266	.	+	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKTIRIPVDRIGSIIGRSGKTKLWIEEKCKVNLDIDSRSGEIHISSDNDLSNPFLAVDLIQSIGHGFSKINASHLLNENNFLSIIDLTQYYKKSSSSISRIKSRVIGQNGKARKVMEEISNTHISVYGHTISIIGSYEQIKLVENAINLLISGAQHKTAYDLLQKSRTQSKLDRLQLWEDGPVVEN;locus_tag=LOCUS_3950;note=MGA_438
sequence31	MetaGeneAnnotator	CDS	490	1083	.	+	0	ID=MGA_440;product=23S rRNA (uridine(2552)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870893.1;translation=MRLEDAKKDHYRKLAKEQGYRSRSAFKLIELNQKYNLIKANDSVLDFGAAPGGWLQVSSKLVMPKGKIIGVDLLPIKPIGDNVTIFQGDIRDEEVIERILNESKKKVDVILSDMAPNISGIWKIDHNNQIDLTRLIVDRFPDLLEKNGRCLLKAFDGPMLKSLENELKKSFRNVKLIKPKVSRNASSELYISCRGFR;locus_tag=LOCUS_3960;note=WP_010870893.1 23S rRNA (uridine(2552)-2'-O)-methyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:44.3%25%2C q_cov:96.4%25%2C s_cov:79.2%25%2C Eval:5.6e-42],MGA_440
sequence31	MetaGeneAnnotator	CDS	1054	2214	.	-	0	ID=MGA_441;product=tRNA (guanine(10)-N(2))-dimethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010876814.1;translation=MSTDSNPSHTLFLEGITEFFIPKTSLTQIPPPRTPVFFNTMAKFKRDLLISIFNSYASQSESKITFSDTLSGIGATGIRLANESNYVKKIYFNDANLNTLEFLNNSLKHNNLDLLAEISINEANKFLSNFTNNDVRFDFIDLDPFGSPIQYIDSAIRALKINGILSITATDGAVLCGVYPKVCLRKYGSLSLNTEYFNETALRILLFSIASMASRYELGIKPIFCHTDKHYIQVYVQITDSISDTEGKIGFLMHCTICNYRTLSETPILSCKLCSSNCKLAGPIWLGAIFDKDFLNKAIDLSNDSNLTKLFQIAISESSLPALYYVTDNISQNLKISSFPVETILSQLNENNFTSSKTVLHSTGFRTNANINEINDILSKSSTRNI;locus_tag=LOCUS_3970;EC_number=2.1.1.32;note=WP_010876814.1 tRNA (guanine(10)-N(2))-dimethyltransferase (Methanothermobacter thermautotrophicus str. Delta H) [pid:32.6%25%2C q_cov:89.9%25%2C s_cov:93.2%25%2C Eval:5.6e-50],MGA_441
sequence31	MetaGeneAnnotator	CDS	2221	2523	.	-	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDYERQVIWLDYFNSSYSRSQGRRVSRNRSIKNPILSDLLEAAKRLNLNPTSHEVVHPKHTSIHSGYISVDKKNKKTVVLQDIAKMLTIVKGETKKSSK;locus_tag=LOCUS_3980;note=MGA_442
sequence31	MetaGeneAnnotator	CDS	2737	3123	.	-	0	ID=MGA_443;product=30S ribosomal protein S8e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879641.1;translation=MVKALENIRKRKHTGGRIKHTRNRRSDEQDSFSVDTLLGDHSVRIKNSRGGNVKVSLVSDNSVNVIDKSNNSIKKTTINRVLKNPSNRDYERRGVITKGAILDTDLGKVRVLSRPGQTGIIDGILINE;locus_tag=LOCUS_3990;note=WP_010879641.1 30S ribosomal protein S8e (Archaeoglobus fulgidus DSM 4304) [pid:40.2%25%2C q_cov:91.4%25%2C s_cov:93.6%25%2C Eval:4.3e-20],MGA_443
sequence31	MetaGeneAnnotator	CDS	3159	3740	.	-	0	ID=MGA_444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDSNTLSISNDKLLQAKIEAALYAAGRPLSKFELAKAAGITSTIKSSNIARNLMLKINSTFEAIQMFELEGERFVIQLKSDFTTSARKFSSRPLLSNAELKTLSFIVYFQPISGKDLADRRGPNSYQHVRTLKQLGFIKSEPSGRTKIFSTTSRLAEYFGIANDPAILKQQLVKYGFKPKKTPVISTSPNKP;locus_tag=LOCUS_4000;note=MGA_444
sequence31	MetaGeneAnnotator	CDS	3737	4408	.	-	0	ID=MGA_445;product=chromosome segregation protein ScpA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880237.1;translation=MTKDSNQLSKAPLNLLVNPKTARKGKPWEIDIADLLDLFLKQIIAKNNPDLRLCGTAALSSAVLYRFKVETLFYFEKLKVKRPRISRSGPPSIIVLPFRYELYSTSIDDLIINLEKILEDVSRQDIERKDKSSQLIPNSEPDFDQYVVKFEELAKDFKTELITKLTNKDKLLFSEIIKDKSAIEKARSFLLLLFVAIDNVVSLEQLESPDSLESDIIITRVLE;locus_tag=LOCUS_4010;note=WP_010880237.1 chromosome segregation protein ScpA (Aquifex aeolicus VF5) [pid:26.4%25%2C q_cov:93.3%25%2C s_cov:95.1%25%2C Eval:3.9e-08],MGA_445
sequence31	MetaGeneAnnotator	misc_feature	4413	7151	.	-	.	ID=MGA_446;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to O66878:chromosome partition protein Smc,O66878 chromosome partition protein Smc (Aquifex aeolicus VF5) [pid:24.7%25%2C q_cov:98.8%25%2C s_cov:76.0%25%2C Eval:4.8e-67],MGA_446;locus_tag=LOCUS_4020
sequence32	MetaGeneAnnotator	CDS	373	1911	.	-	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSQFIEKQYVKSNTIDKRDYQINIADAIKSQNSIVVLPTGLGKTVIALLSIAESMIKQPTKTCMILAPTRVLVHQHYEFLLNSLNLSKTEISVITGEDTLKKRQTKWQNQIVCATPQILHLDINRGIIDLKQFSVVIFDEVHRAVGEYAYVPIAQSLYSHNNEIIMHGMTASLPSESPKVEEIMNNLHASHIESRDRESEDVKPYIHNTEVQKIEIELTDDIKNISNLIKKTISSYSLKLRNNGQLLPRDPSLKAVLAKSHQIEKDPYLSKRWDIRSNLYSLVRLLHGVNIIETQGVNSFSKYISRLQSKQKSSGVKKLLEHPDFNQAIVLTNRLQSLGEDHPKLAKLEMIMETNLKGTDKAIIFASYRDTVDKIFEVLHNKGYHVGTLIGKSGQTGQSQKQQLESLEKLKSGEFDIIVATQVGEEGLDVSECKLVVFYDNVSSAIRFTQRLGRTGRRSPGKVVSFITKGTRDETNYYISQQRLSKSQRTIKRINKNYKKPVEKKGLDKFL;locus_tag=LOCUS_4030;note=WP_010878955.1 Hef nuclease (Archaeoglobus fulgidus DSM 4304) [pid:34.9%25%2C q_cov:96.5%25%2C s_cov:67.5%25%2C Eval:4.1e-78%2C partial hit],MGA_448
sequence32	MetaGeneAnnotator	CDS	2001	2597	.	+	0	ID=MGA_449;product=thymidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867602.1;translation=MKKGKFIVIEGIDQSGKKTQSLLLKNRLKKKGYKVGYLSFPKYNTNIGKLVKKCLHDDRFSVQTSHVLLSANRWEAEKEIYQNLEKMDFLVCNRYRDSNIAYGLANGLEKKWLENLDLGLPKPDLTILIDIPITESVIRKTKNRDRYEKNKKFLKNVKSRYMKLATMRKWKIIKGDRSKGEVSKDIWNIVVKRYKIKE;locus_tag=LOCUS_4040;EC_number=2.7.4.9;note=WP_010867602.1 thymidylate kinase (Pyrococcus abyssi GE5) [pid:35.7%25%2C q_cov:94.9%25%2C s_cov:96.1%25%2C Eval:1.2e-23],MGA_449
sequence32	MetaGeneAnnotator	CDS	2604	3875	.	+	0	ID=MGA_450;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048146536.1;translation=MRGEVTQIRDPVHGYIYANELECKIIDSPVFQRLRGIRQLASAHLTYPGALHTRFEHCIGSMYLAKRASNHLRSQEIINEDMSNELSIAALLHDIGHGPFSHLFEEVLHEKGMTHENITDRIIKETEIADIISSYGINVKKFSNLCVGTSKNHPRFMNDIIAGFLSVDSMDYLLRDSYFSGVEYGKVDVHRIIDAYEIAGKKLAINKDSLYALESLMLARYEMFRAVYFHKSVRASAVMIIRAMNLADNELHFTDLDNLSGFLELGDEKVLYNISNVNSVNEETKLAKKLAIDYTNRKMLKLVFEKIVLGRDKFSTKIFAQKKFRENLTEEISDKSKVPKSHIFIDVSSATSVPTTSTKESFNEITVLLDKSRKKEFEVTKATELPLMNAILGYMNIIRIYTTNKYKKKLEIVVKEIFEKEIL;locus_tag=LOCUS_4050;note=WP_048146536.1 nucleotidyltransferase (Pyrococcus abyssi GE5) [pid:30.6%25%2C q_cov:90.8%25%2C s_cov:90.8%25%2C Eval:1.0e-47],MGA_450
sequence32	MetaGeneAnnotator	CDS	3876	4208	.	-	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQEKLIDEIISIENQSFHLSILKYSNGCFISLTEGNEPRFGSMSMSLKQSNLVNTTIIIPSKFSPTIQQLISELASDLSNGIGLSSVYITKELKMETAVNIIQIIRSYLK;locus_tag=LOCUS_4060;note=MGA_451
sequence32	MetaGeneAnnotator	CDS	4408	5100	.	-	0	ID=MGA_452;product=3%2C4-dihydroxy-2-butanone-4-phosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869547.1;translation=MNEQSNIDEIINNFQKGEFIFLHDDDSRENETDIMLAAKHVTPEKIYQMRQLGGGLLCVAISPDIASKLKLSYMWDILLQTQSPSLTDLVNTDRNKSQRSTHSITFNHRKLGGATDSQRSNTISNLYQLCDDYSSNNNFYTDFHSMFESPGHLQMLIGSSGLLNSREGHTELSLFLCEISHLTPIVIMCEILDNETFIAKSVTDCKQVAKKNNITFIEAGTILDYYKNNF;locus_tag=LOCUS_4070;note=WP_010869547.1 3%2C4-dihydroxy-2-butanone-4-phosphate synthase (Methanocaldococcus jannaschii DSM 2661) [pid:37.1%25%2C q_cov:98.3%25%2C s_cov:98.2%25%2C Eval:4.9e-38],MGA_452
sequence32	MetaGeneAnnotator	CDS	5195	5773	.	+	0	ID=MGA_453;product=heat-shock protein Hsp20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978534.1;translation=MTEIDEFFKRIKSNYPFFMPLFNDLFKDLDGFEEIFRDFEQEMNNDLVNMINKMESENNDKSEPFIYGYSINIDENGKAEINEFGNIKTNSSEENIEISESREPLVDIIEGKNSWTVVIELPGVEKSDIKVEIKESTLLVTTSNSKNYYKEIPLTGNIIANTTRARYNNGILEIIINKDNTNNSKNNLVTIE;locus_tag=LOCUS_4080;note=WP_010978534.1 heat-shock protein Hsp20 (Sulfolobus tokodaii str. 7) [pid:36.6%25%2C q_cov:75.0%25%2C s_cov:84.1%25%2C Eval:8.7e-21],MGA_453
sequence32	MetaGeneAnnotator	CDS	5817	6197	.	+	0	ID=MGA_454;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLPVTRWQQDSREWITEHGASYKKMKLPTLSGANQDTATVSKEGNTECKNCGEMFEVWGTNKTAAPSYCSFDCMKQWLDYHIDNKDASAGGMIKKKSSMGIPANSKLPITRWDGPARKWISNKAA;locus_tag=LOCUS_4090;note=MGA_454
sequence32	MetaGeneAnnotator	CDS	6222	6608	.	+	0	ID=MGA_455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSGIFRDIRRFGSNNNISQKVLTSTIFLFFSGTLIFLDTGGSFMYGIPIELILPIYIIQLALIPAYLKRYEVAYIIGMIVAIFVALTYRDATTIARTIPILQYFLAFFSFLAYKEIKELKLGKKKNKN;locus_tag=LOCUS_4100;note=MGA_455
sequence33	MetaGeneAnnotator	CDS	212	517	.	+	0	ID=MGA_457;product=putative pterin-4-alpha-carbinolamine dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q63PF1;translation=MGETNRKLESDEIELELSKIDNWTFDKDRIKKTFEFKDFGDAFAFMTRMAIEIEKMNHHPEWFNVYNKIKVELTTHDVNGLSMYDFKLAKIMDDFEKVYHK;locus_tag=LOCUS_4110;EC_number=4.2.1.96;note=Q63PF1 putative pterin-4-alpha-carbinolamine dehydratase (Burkholderia pseudomallei K96243) [pid:49.5%25%2C q_cov:90.1%25%2C s_cov:92.1%25%2C Eval:6.1e-22],MGA_457
sequence33	MetaGeneAnnotator	CDS	520	741	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEEEAIKKAIEYVNLFGYIQWNELKSINLNNEMAIWTVLFSAKEKETGDIIPYSLEVNDLSGNITNLQMNND;locus_tag=LOCUS_4120;note=MGA_458
sequence33	MetaGeneAnnotator	CDS	805	1302	.	+	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKVSRTIIMEAPVDDVFMYYARPEHVAGHFPEEAKMKVIPIKITEGWGVGTVMRIIGEFGGRTMQWDSITCEVTKNKKIVSKALNGPFKKNVITVEFEEINDTTKVTFEADYILPQSIIGIIIDRLHVRKQVINGMDSSLLEVKKSVEEKHKEIVKEVTIESKN;locus_tag=LOCUS_4130;note=MGA_459
sequence33	MetaGeneAnnotator	CDS	1299	2219	.	-	0	ID=MGA_460;product=protoheme IX farnesyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846973.1;translation=MSPNSTELNYRNLISHLIEVSKPSIIYLLDFVAISALLIAYYDPNYITNPISFTIVIALLIAGTLSSAGSAALNCYVDRDIDIKMERTKNRASATGQLSPNITLVYGIVMITIATIISTAFLNLLTTGMILLGSFFYVFIYTIWLKRRTTWNIVIGGFAGSAAAFAGWTAITGQLHIVAILMGALVFIWTPSHFWALALLKDDDYTEAGIPMLPVVVGKAKAARYTIINTLLLIPFSLVFVLFGFGLIYLIISIIFGILLLYSNIKLLQNPSDKKIALTAFKFSSPYLAIIFIALIIDVFFRIPIF;locus_tag=LOCUS_4140;note=WP_052846973.1 protoheme IX farnesyltransferase (Sulfolobus tokodaii str. 7) [pid:39.2%25%2C q_cov:93.8%25%2C s_cov:96.6%25%2C Eval:3.9e-45],MGA_460
sequence33	MetaGeneAnnotator	CDS	2230	2409	.	-	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMFNIINLILNMFVLLSDSTEHVDHEQGTKKLILTLTVIFLVFGIAYLLWQSFFVIPSE;locus_tag=LOCUS_4150;note=MGA_461
sequence33	MetaGeneAnnotator	CDS	2446	3120	.	-	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLFNKRKNTNYHFQDGLLQIILGNALILLLTSPTLERYEVENLFFHIMIEHLLYISVGFLNASGLDSILKSFKFSSSNYRLKILKYYSSYLALNNRFNPFGLITGLFFIILLFYWHIPSNFDKAIIDINSHMIMHFSIILSGIFLYSSFKMISRIQSLVFILSVDKAMGVLGFFLAGGNSQIYQTYPLSVQMTSGFWMIIMMVGIDLLCILLILKNFFNSNPK;locus_tag=LOCUS_4160;note=MGA_462
sequence33	MetaGeneAnnotator	CDS	3134	3559	.	-	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPLKTLSISSAIGIYILIVVGGITTQSGSGMACPDWPLCFGELLPNLTTSVLIEMTHRYLAMIVGFLILGTFIVAYRSYRDSKYIIASSGITLFLVTIQAYIGMLTVTSILDPAIVTIHLAVSTALFGTSIITALLSLRT;locus_tag=LOCUS_4170;note=WP_011142162.1 heme A synthase (Gloeobacter violaceus PCC 7421) [pid:38.2%25%2C q_cov:85.8%25%2C s_cov:39.5%25%2C Eval:1.0e-16%2C partial hit],MGA_463
sequence33	MetaGeneAnnotator	CDS	3563	5095	.	-	0	ID=MGA_464;product=cytochrome c oxidase subunit 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7NMM5;translation=MEIKEVKKETTTQEHHNFYSSWKSILTTTHHTDIGIMYLVFSLFFFFMGGFASLLVRYGLTRGGSIAPEAYSSLFTIHGVSMIFLFVIPAWAGFGNYLVPKYIGAKDMYFPKLNALGFWMLPPAGFLIWAGMPNVGWTAYAPLSIYEAGWGMDMTILGLHLLGTSSIIGALNFIVTIMKMRAPSVNYRNMPLMVWTQLTTAFLQALATPVLAMALTLLLLDRNLGTGFFNPALGGDPIMWQHLFWFYSHPAVYIMVLPGMGLVSQILPSMSRKKIFGYTSIAVSTALIGFLGFGVWAHHMWTSGLSITARVPFMFLTMAIAIPSGVKVFNWVATLYGGKLKLSTPMLFALSFILSFIIQGVEGVFLANIPLDYQLQDTYYVVSHLHYVLFGVSAQAVFAGIYYYFPYMTGRKYNEMLGQLHFALTTVGMYTLFTAMLFLGLEGMPRRYYQYLPEFFTLNVAATFGAVLIAFGALVFLYNILSSWYSGPAVENKDDPWKLADYGMKEWPDQ;locus_tag=LOCUS_4180;gene=ctaD;EC_number=1.9.3.1;note=Q7NMM5 cytochrome c oxidase subunit 1 (Gloeobacter violaceus PCC 7421) [pid:46.9%25%2C q_cov:95.3%25%2C s_cov:89.9%25%2C Eval:1.2e-133],MGA_464
sequence33	MetaGeneAnnotator	CDS	5102	5527	.	-	0	ID=MGA_465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METLEKLEWATIIGGTVLLFGLAALALPVLDALDNPDYYGEPDYIVKVESGQWYWKFIYPDGSESGELIIKKGDIVRLELESVDVIHSLYVREMGFKVDIIPGKTRVQVISGETPGEYWIQCAEFCGAYHGGMRTKLIIEE;locus_tag=LOCUS_4190;note=Q7NIL9 cytochrome c oxidase subunit 2 (Gloeobacter violaceus PCC 7421) [pid:42.7%25%2C q_cov:81.6%25%2C s_cov:37.7%25%2C Eval:2.2e-19%2C partial hit],MGA_465
sequence33	MetaGeneAnnotator	CDS	5530	5787	.	-	0	ID=MGA_466;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGILSTFDKIVWGSTVIVTFLVLFILGGGLLISWYPDPIDARAALIKSYYDIVYVAGMAVSALFVGTFFYLILKFWDRTQSAGLD;locus_tag=LOCUS_4200;note=MGA_466
sequence33	MetaGeneAnnotator	CDS	5859	6161	.	-	0	ID=MGA_467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHSTYLSELEELRRQQISDKVSKYRKFAMILAVIIHVIAFVTGIVMLVIFSYSFTTMLAFHATMQIIAYLNIYYGPKLYEKRLRKNVIKPDPIMLNRFK;locus_tag=LOCUS_4210;note=MGA_467
sequence34	MetaGeneAnnotator	CDS	787	1692	.	+	0	ID=MGA_470;product=protoheme IX farnesyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846973.1;translation=MQKRSIKSKFLDYYELTKPNVWWLLVFTAIGAMIRAGGVNGEFSINTEIIILVILSVTCGTAGAEAISNYIDKDIDAIMKRTKNRPIPSGRIKASNSLIFGLILSSIALITTFTIDTINNSALPIVTFLMAFGLFDYIIVYSAYLKRKSFTNIILGGFSGAMPALIGYTAVSKVITMEGLLISALVFIWIPAHIWSLSLRFQEDYSEADIPMLPIIVSLKTSIRLIALSSILLIIFSLMLYEIGIIYTIAAIISGAIVLLASIKLLLEPTQEKAWTLFKISSPYLAVLFIAMILDVIINSL;locus_tag=LOCUS_4220;note=WP_052846973.1 protoheme IX farnesyltransferase (Sulfolobus tokodaii str. 7) [pid:33.0%25%2C q_cov:97.7%25%2C s_cov:99.0%25%2C Eval:3.2e-44],MGA_470
sequence34	MetaGeneAnnotator	CDS	1687	1965	.	-	0	ID=MGA_471;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLPGLGGSEIIIVALIIFLMFGAQRLPQLARSLGQSKGEFEKGKTDSKPEDSQPESGSKSRAELEKAAKELGIDPTDKSDEELKNLIKDSL;locus_tag=LOCUS_4230;note=Q8KC14 Sec-independent protein translocase protein TatA (Chlorobium tepidum TLS) [pid:40.0%25%2C q_cov:70.7%25%2C s_cov:97.0%25%2C Eval:1.0e-08%2C partial hit],MGA_471
sequence34	MetaGeneAnnotator	CDS	2011	2766	.	-	0	ID=MGA_472;product=F420-0--gamma-glutamyl ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870273.1;translation=MTSNNIIIKSISGIPEINSGDNIAKIIIQALKKNRIKLQNKDVIVITQKIISKSENRLIHKNNVIPKKSAIKLSKSINKNPILTQLILNESKRIIQKKPGVIITETHHGFICANSGIDQSNIPSDYYCLLPVNPDKSAKQIRISLEKEFKINLGVIISDTFGRPFRNGQIDVAIGISGIHPLFNYKGSKDSFHKNINFTSIAIADELASSAELVLGKINNNPIALIRGINFKISSKNSKSLIMPKNKSMFS;locus_tag=LOCUS_4240;note=WP_010870273.1 F420-0--gamma-glutamyl ligase (Methanocaldococcus jannaschii DSM 2661) [pid:42.1%25%2C q_cov:94.4%25%2C s_cov:93.6%25%2C Eval:8.8e-47],MGA_472
sequence34	MetaGeneAnnotator	CDS	2778	3875	.	-	0	ID=MGA_473;product=dihydroorotate dehydrogenase (quinone);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q83CY0;translation=MYLRYNDTANSSQAEIIHEKSKNHLLMLSKSLKDNSKYFQSNNSNEIEINSQKFPNPIGLASGFDKNSDLFVPMSYVFGLVTIGTVIKNKNIGNAQKPLEGIKRVIVNPQNQSIINSQGYPSEGLDYTVDKLKRFSNKRNKKSKLILSFSGISKNESVDNLLQNSQEIIQATHEFVDGYEDSRSSPNTEYNKLIQTSEITNSLISILNSHAPSKIKILKVAPYSSLSPSKNDISNKFNMIEKFYDNGGNMVVLNNSLSIDVKKLFNISNFSNKYGGLSGDQLFPYTEKLVESVHNKFSKLPIIACGGITNGEKVWSLLNKGASLFEIYSGITFKGLNLVIEINNTLSQKLGNDSIQTFIGKRDSK;locus_tag=LOCUS_4250;gene=pyrD;EC_number=1.3.5.2;note=Q83CY0 dihydroorotate dehydrogenase (quinone) (Coxiella burnetii RSA 493) [pid:29.2%25%2C q_cov:79.5%25%2C s_cov:80.7%25%2C Eval:1.8e-23],MGA_473
sequence34	MetaGeneAnnotator	CDS	3979	4359	.	-	0	ID=MGA_474;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHHKTVHTKNILIIYNEPTILTTDSIDPNGLTLLLGLEGGMNLSFLLRNNAVEYLVSSNWKNDFPESEYNASWEWISNEINGNVYAILEDIEKSIISRKDIDQGIKIISNADVSSIIDKNDVIFVY;locus_tag=LOCUS_4260;note=MGA_474
sequence34	MetaGeneAnnotator	CDS	4421	4828	.	+	0	ID=MGA_475;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNSICIFAESGEYVKFHNLLSIAMASVANDMEVNIFFSYSALERLKKGNTNNMTFNDENLKNKFINSINSNNIQSIEQMIETLRETGIVKFYVCSASLSIMEIKEDELLAVDSIMGLSTFLNKAEKASIVLYI;locus_tag=LOCUS_4270;note=MGA_475
sequence34	MetaGeneAnnotator	CDS	4855	5292	.	-	0	ID=MGA_476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEEINPINNEETQSPVDQDTPVTTETTTPETTTPETTNVSTSNEVNNNTSNEPARDPNTIYVGKKRVMNYVLACMTILQSGSDTVTIKARGRSISAAVDVAQILTRRFTQGVNVKSISIATEQVPNRETNELSNVSSIEIEMGK;locus_tag=LOCUS_4280;note=WP_010879448.1 DNA-binding protein (Archaeoglobus fulgidus DSM 4304) [pid:56.3%25%2C q_cov:60.0%25%2C s_cov:96.6%25%2C Eval:4.6e-18%2C partial hit],MGA_476
sequence34	MetaGeneAnnotator	CDS	5390	5617	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKAFVLLNVKSGYEDTVRDELTKTKGVSESHAIYGKYDFMISMESSSQDELKTDIFSLRKMSGVTSTLSMIVIE;locus_tag=LOCUS_4290;note=MGA_477
sequence35	MetaGeneAnnotator	CDS	693	1454	.	-	0	ID=MGA_480;product=acetylglutamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250424.1;translation=MANKLTILKLGGSVITKKSKPLTFNSDSVQKISKVIKKFNEPLIIVHGAGSFGHYYAKRYRISDKPTKSTNHVVKIRDSMQLLNQKLVKIFHKNNVNTFSFSPMYMYHNKKIINNWQSILKKSISLDLIPITFGDVLLAKNGFYIYSGDLIVSDLCKLLNPKRVIFASNIDGIYQNPDDDSTLIPIIKNNMHNLKFSKLNYDVTGGIKTKITQSLKIANLGIDVQITNGLNSKTLIKALMGEHVGTLFIGDKR;locus_tag=LOCUS_4300;note=WP_011250424.1 acetylglutamate kinase (Thermococcus kodakarensis KOD1) [pid:33.8%25%2C q_cov:95.7%25%2C s_cov:98.9%25%2C Eval:7.6e-30],MGA_480
sequence35	MetaGeneAnnotator	CDS	1439	2377	.	-	0	ID=MGA_481;product=mevalonate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003594553.1;translation=MISIAEAPGKIILTGEHFVVHGAQALAAAINKRIRISSSFSPNNNITYKNQRIHSTNYNIKNDPVYVVRNKTLEYLGEKSPLSITVDSGIPRGSGLGSSSALCVATAASISSLFNTKLDRKTLFNLAMYGEKKIHGNPSGIDVATSIMGGIISFRKGFDPKRINLKHNPELIVSISGKRRKTSNMINKFTNFRNEKPHSFHSLVNSSNTLTKKTLSALSQKDYLAVGSYFNFFNSTLNYFGLSSLATDTVIEKCLELGSYGAKITGGGGGGSIIAISPSKHVGVIVNELNSMNYETFSVKLPQKGVKVWLTN;locus_tag=LOCUS_4310;note=WP_003594553.1 mevalonate kinase (Lactobacillus paracasei ATCC 334) [pid:25.5%25%2C q_cov:93.6%25%2C s_cov:95.5%25%2C Eval:1.0e-24],MGA_481
sequence35	MetaGeneAnnotator	CDS	2445	3107	.	-	0	ID=MGA_482;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875684.1;translation=MSINFETEDVESTGTLDSSITQHVSEQVLLSTGIRVGTLVKTKSMSTFISRTRPDGLHIIDVAKTLQRIELASKFISNLDSSRVVVYSSREYGKTPVAKFTELTGTIPLTGRFMPGTFTNPLYPKHLDPEAVIVTDPSMDQQAVIEATQVGVPVIAICDTDNLTENVDFVIPANNRGRKALAAVMWLLSRSVLQQSGKLSSDESLSYSIEDFETKLVDDE;locus_tag=LOCUS_4320;note=WP_010875684.1 30S ribosomal protein S2 (Methanothermobacter thermautotrophicus str. Delta H) [pid:48.7%25%2C q_cov:85.0%25%2C s_cov:94.4%25%2C Eval:2.3e-50],MGA_482
sequence35	MetaGeneAnnotator	CDS	3097	4362	.	-	0	ID=MGA_483;product=enolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875683.1;translation=MTKITDIKSRLIYNSRGSETIEVDVYVDNIIGTASSPAGASVGKFEAVSFRNSKCKDTIEYLDTYKSDLIGADTSDIYNLKNILKEVDKTDNYSNIGGSAAYAISLASVDAASQILDKPIYEILLNGKAAAMPLPLGNVLGGGMHAGNGSTDIQEFLSYPLGADSIHSGIQANLMVHKEIKKIIDKKDSKFSGGKGDEGAWAPQLSNTEALEVAQEAINTISDSVGFEIRLGLDVASSSLWNPDKNLYLYSRENKTRNTEEQISYVLELIEKYNLIYVEDPLHEEAFSDFTELSSKNDNCLIVGDDLFVTNTSILQKGIDQKAGNAVILKVNQAGALGDAMEFANLCNEHNYAIIASHRSGDTVDRHLAHIAIGSGAIMMKSGVVGGERISKLNELLRIEETNFINNNMSMPIARINKYVN;locus_tag=LOCUS_4330;EC_number=4.2.1.11;note=WP_010875683.1 enolase (Methanothermobacter thermautotrophicus str. Delta H) [pid:45.0%25%2C q_cov:94.5%25%2C s_cov:96.2%25%2C Eval:6.1e-98],MGA_483
sequence35	MetaGeneAnnotator	CDS	4390	4620	.	-	0	ID=MGA_484;product=DNA-directed RNA polymerase subunit N;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980138.1;translation=MIIPIRCFSCGSVIADKLETLESRTSNGENPADILNDLKVTRYCCRRMLLSNSNVIDQIIQYHESAHDKRAEFDLS;locus_tag=LOCUS_4340;EC_number=2.7.7.6;note=WP_010980138.1 DNA-directed RNA polymerase subunit N (Sulfolobus tokodaii str. 7) [pid:61.3%25%2C q_cov:81.6%25%2C s_cov:93.9%25%2C Eval:4.4e-17],MGA_484
sequence35	MetaGeneAnnotator	CDS	4638	5042	.	-	0	ID=MGA_485;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048061175.1;translation=MKKKSKLIPASRKTAKATAVITQGTGKVFINKTPVEIVTPLMARERMLTPLELIGDHRDKVDINIRVSGGGYMGQAEACAIAISRALTSHLKTKEIKNKIADFDQHLLSGDSRRSESKKFGGPSARRRKQKSYR;locus_tag=LOCUS_4350;note=WP_048061175.1 30S ribosomal protein S9 (Methanothermobacter thermautotrophicus str. Delta H) [pid:51.2%25%2C q_cov:91.8%25%2C s_cov:92.5%25%2C Eval:8.7e-29],MGA_485
sequence35	MetaGeneAnnotator	CDS	5039	5491	.	-	0	ID=MGA_486;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250452.1;translation=MLANSESTIVINGDKHLAGRLCSVVAKMLLNGNRVVLVNAEKILISGSRANILKENELRLEITSRVHPKHGPFHPRRPDTYIEKMVRGMLPYKKPKGNAAKKLLRVYISVPEKYQKAEQKTIETALAPRSLSYYTTIGELCSSMGWRKLE;locus_tag=LOCUS_4360;note=WP_011250452.1 50S ribosomal protein L13 (Thermococcus kodakarensis KOD1) [pid:43.1%25%2C q_cov:90.7%25%2C s_cov:96.5%25%2C Eval:7.7e-27],MGA_486
sequence35	MetaGeneAnnotator	CDS	5481	5813	.	-	0	ID=MGA_487;product=50S ribosomal protein L18e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869688.1;translation=MTFNDYRIESIKRIARKNHAKIWINIVQKLEHNHEINVGTLSKVTKTGDVIAVPGKVLGAGIIEHSITIGAVSFSESAKEKIKNAGGTTMLIEKLVETNPEGKGVKIFVG;locus_tag=LOCUS_4370;note=WP_010869688.1 50S ribosomal protein L18e (Methanocaldococcus jannaschii DSM 2661) [pid:47.1%25%2C q_cov:90.9%25%2C s_cov:86.0%25%2C Eval:1.8e-21],MGA_487
sequence35	MetaGeneAnnotator	CDS	5815	6450	.	-	0	ID=MGA_488;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATIKILESSDSHVKLLLKGIDRVYANALRRFAISEVPCMAIDEIVIHENSSVLYDEILAHRLGLIPLTTDLEGYILPQDCSCKTSLGCTKCRVLLVLDAVATEEIKTIYSGDLVSEDTRVKPHLDNIPIIKLAPNQKIKLEAYAKLGKGRTHAKWQPVTVSTLTDTDNRSEFHLTIESTGSLPANEILLQATNILNTKLKDLNESIKESA;locus_tag=LOCUS_4380;note=WP_010879771.1 DNA-directed RNA polymerase subunit D (Archaeoglobus fulgidus DSM 4304) [pid:43.5%25%2C q_cov:76.3%25%2C s_cov:59.5%25%2C Eval:1.0e-31%2C partial hit],MGA_488
sequence36	MetaGeneAnnotator	CDS	120	821	.	+	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYLDMEIFSFAILALFMGIKHAFDADHIIVVSNFLSKSKRLDESLNISLSWGVGHMLTAGIITTFIFYNRNSIPVIMLLENFEIIIALIMIVMGIISLTIGIPLQHKHEHNHEGVKHEHVHTHRVGGFINKDIKSHHASFGVGIIHGLANNDELFIVLILGLGIGSITTLLGALVLFSTGVVLGMIAFSIVLFRFSNVFTNNIKLIINYGFGISAIIYGLYLLNVITGLEII;locus_tag=LOCUS_4390;note=MGA_490
sequence36	MetaGeneAnnotator	CDS	823	3708	.	-	0	ID=MGA_491;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021621.1;translation=MTINWSNIEQKWREKWDDSSLHNTDVDINKKKFFLTVAYPYPNSPQHIGHGRTYTLTDVYARYKRMLGFNVLFPMAFHYTGTPILAMTKRLAENDPELTSAFQDVYNIPMSVIKELDEPKKIAQYFHNEIKQGMVEMGYSIDWRREFTTIDKAYSKFIEWQFKKLNSGGFITRGSHPVGWCPNDGNPVGQHDTLGDVEPDIGEYTIIKFTFDDAKLVTATLRPETIFGVTNIWINPEIEYVKISLNDEKWIVSRDSMTKFDHLINDNSSIETISGDSLIGKWTENPFTQMKIQLLPASFVDPKNGTGLVMSVPSHAPYDYQAIVDFTQDNSLLSKYPIIDTNNLAPIDVIKTEKYDNTPAKHLLSDLSIKNQDDPKLVDATKELYTLEFNSGKMLVITGDYANLPVKQAKEKVKTDLIQMGLASKLYEIMNRPIICRCGTECVIKMFEDQWFIDYGKSDWKEKAHSSIDSMSLVPTEIIVEFHNTVDWLHEKACARNSGLGTILPWDSNWIIESLSDSVIYMAYYTISRLIQEHNLNPSNLSEEFFDYVFLGIGNSNSVSQSTKINKNIIDELRNEFVYFYPLDSRHSGRDLVPNHLTFFIFNHSAIFPKNHWPQQIVVNGSVLMDGKKMSKSFGNIIPLRQAVRTYGADPIRLGIMSAAELLQDADFSLELVKSFNERLNKMYNIINEIKTASDYDINNANSIEKWMLSRLQRTIKLSTDSMNKLRVRESLHNIIYLLDIDLQWYNRRTTSSVSERNSFLKFFFETRIKLLAPFAPFFCEETWEILGHNNTITLEKWPEIDEHLINETAELSEELIKNTIEDINNILKVTKIQTQKICIYVPANWKWNIFLFALNKDQVNLKDLIETSLNNPDYSAFKKHIPKFCQSLFKELSNMDSDSKSRILRMGKLNETQILKELQLFYKSQNNIQVDLYSEDDSEIYDPKNRSTYSRPMRPAIFLE;locus_tag=LOCUS_4400;gene=leuS;EC_number=6.1.1.4;note=WP_011021621.1 leucine--tRNA ligase (Methanosarcina acetivorans C2A) [pid:42.3%25%2C q_cov:99.3%25%2C s_cov:99.1%25%2C Eval:5.2e-237],MGA_491
sequence36	MetaGeneAnnotator	CDS	3719	6445	.	-	0	ID=MGA_492;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870068.1;translation=MNKDLLRKKFSSDYKNYYTVNLFEKEGFVRKQCPNCDNFFWTADESRLTCPEQPCEQYGFIGNSPTSTKLDYAQCWKAIEKYFVDHDHTSVNRYPVVARWRPDLYFTIASIVDFQRIEGGKIAFEFPENPLIVPQMCLRFNDIENVGVSGKHFTSFVMIGQHCVANDTGYWKNECIDLDYGLLTNVFGIPKKEIVFKEDVWVGYGAFGYSLEYYVRGLELGNAVFTQFEGDPTSYKTMNDKIIDMGAGLERFSWLTQGTSTAYEAVFGNVIQKMVDKCNIVYDQNFFKNYSKFSGMLNLDEVSDIELTRKQVAEKLGVEKDILDQKIIPFESMFAVLDHVKTLVFAISDGALPSNVGGGYNLRVLLRRSLSKIHSQKWNVELGEIADWHINYLSQIYPELKEHRNEILKILEVEEKRYDNTQERIKKIVSNMQKSNQPVNEDNLIKLYDSDGITPEFIRDQGLNIDIPANFYAKVTERHILNKTEKPKRSFDIDKLPETRPLFYENQELTEFEGQVLQVYDDSKHSFIVLDQTAFYARAGGQEPDFGTLNNYNVLDVEKYGQVILHKINKANIKVGDVLKGKIDETRRQILTRHHTATHVMLGAAKRALGSWIWQSSAFKDVDKARLDITHFEHLSLQQIEKIEKLANDAIRQNLPVHKLVLDRGEAEKKYGFSIYQGGIAPGKNIRVQDIETWDVEACAGTHVASTGELGLIKIIKNERVQDGVERLEYVAGETAIEYIQKQNELLYSICNNLSVPIDKLNKTVDDLIQDNETIKRDSKSLIKNHLADLIYDKLVNSSVKISDSVLSIIDWTGVDEDFHILVGEHCINKLDNLIYVGIINTDQNSRLFVFCGDKINQKYKAVDLARQISKSFGGSGGGTERFAQGGCSKISDTKTIINTVQSLVNIK;locus_tag=LOCUS_4410;EC_number=6.1.1.7;note=WP_010870068.1 alanine--tRNA ligase (Methanocaldococcus jannaschii DSM 2661) [pid:37.3%25%2C q_cov:96.0%25%2C s_cov:97.6%25%2C Eval:3.7e-168],MGA_492
sequence37	MetaGeneAnnotator	CDS	223	573	.	-	0	ID=MGA_493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILAGVVVQLILGFAGLVTPVMMAPITIAHVVIGVGGFGATLFMTNKALKVSTTPITKYVMVIASLVILGQLATGYMLLAGMSNLLISHTMSAWLILALFVGHAGYAMYYAKKQK;locus_tag=LOCUS_4420;note=MGA_493
sequence37	MetaGeneAnnotator	CDS	645	1382	.	+	0	ID=MGA_494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMANAITIKDLTKTFDDITAVDNLSLEVPKGSAFAFLGPNGAGKSTTLKILTSLIKPTSGEAHFFNINALEEPHEALLQIGAVIESSEFYPSLTPSETLEYFGRLRGMNSDKIHKNTNKFLKIVGLENWSDKKIGTFSRGMKQRLALAQALLHEPPILLFDEPTFGLDPRGMAEIRTVFKDLTKEGKTIFFSSHLISEIEEICDTLAIIDKGQVLFSDTIKNLTKKFKTDDLEEIYLKTIKESVR;locus_tag=LOCUS_4430;note=WP_011250530.1 ABC transporter (Thermococcus kodakarensis KOD1) [pid:47.3%25%2C q_cov:91.4%25%2C s_cov:73.0%25%2C Eval:3.2e-54%2C partial hit],MGA_494
sequence37	MetaGeneAnnotator	CDS	1807	2139	.	-	0	ID=MGA_495;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLTIVCDCPGTRRDGISIIESLGYGISKIYTTIPAAYVSDHHGLISEMTKKYSSNPTTRNHRKMNAIFDILLRLKKELSANDVESKARLNNDVKIRERSAFSGIAECLA;locus_tag=LOCUS_4440;note=MGA_495
sequence37	MetaGeneAnnotator	CDS	2233	2658	.	-	0	ID=MGA_496;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFSKDRRIFVIIIVVFVGIGIIFVADLDSLLQENFNDSEEKVQVEKERRPPEEFHVDVVSKTVYTPAMLNIQVGDTVTWTNVDSEVHTVSSANVTSDGGVYFHDTLLPDEVYSVTFDTPGTYFYSCLIKFHGMTGIVRVS;locus_tag=LOCUS_4450;note=WP_011085799.1 amicyanin (Bradyrhizobium diazoefficiens USDA 110) [pid:41.4%25%2C q_cov:61.7%25%2C s_cov:69.4%25%2C Eval:7.9e-09%2C partial hit],MGA_496
sequence37	MetaGeneAnnotator	CDS	2734	3267	.	+	0	ID=MGA_497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSTSQIALSAAAFVVILSAFAFIYPAVTRPDVNLIVSVDAELNGIADDYNKEYRPIQTDEQNIMTEIFALRIANLGNVDVNNIVIDLNFSPTNNWYSLVSIEQTFGPPTSISDNQVTVEKLSIDETLTIKYEVSMNASAIGSNNLLQRKSQINFLVKTAENLMISDNLFNVRLPPA;locus_tag=LOCUS_4460;note=MGA_497
sequence37	MetaGeneAnnotator	CDS	3323	3922	.	+	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEDKRLKKREKEQRRQDRKKHKKRSKQMQQIRTYSIYVIAVVLIGYGLFSIISGPQIGPMGSTHEHVDLLVYINGEPLDLNQSRYAMKSSYGHIHGGEGDIMHLHAINIPLSWFMETLDLAITPTSINVHGFEYVTNDDNVFMVVINGNAIGDMDQMLIDEDKVLIYYGPGDEDDLNRAQSLIPDRAQEINSMPNKGD;locus_tag=LOCUS_4470;note=MGA_498
sequence37	MetaGeneAnnotator	CDS	3924	4202	.	-	0	ID=MGA_499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEIIVETLSSSSGGAIFQVKVRDESGQTEHRVRMSHDYHQKLANGKTPEEFIKTSFEFLLSKEPKESILSEFDLPKISTFFPEFEEEIKKM;locus_tag=LOCUS_4480;note=MGA_499
sequence37	MetaGeneAnnotator	CDS	4252	5043	.	-	0	ID=MGA_500;product=enoyl-CoA hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000445567.1;translation=MSENELVKIRLEDGIGIVTVDNPPVNALNSSVLEQLDKVIDDVSENKEIIGIVLTGGGNNAFCAGADIKSFAQLTDPNDVLAVIELGQKVFKKLSSVGKPVVAAINGAAYGGGNELALSCDIRISSDRARFSQPEVNLGLIPAWGGTQRLSRLVGVSKAKELIFTGQFVTAQEAYRIGMVNKVVPDGEELRAASDIVRQIASRAAPLAIKAAKEIINAGNDESTLEEGLSLEVEAMKELVKTEDIQEGIKGFTEKRQPKFKGK;locus_tag=LOCUS_4490;gene=crt;EC_number=4.2.1.17;note=WP_000445567.1 enoyl-CoA hydratase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:43.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-54],MGA_500
sequence37	MetaGeneAnnotator	CDS	5048	6022	.	-	0	ID=MGA_501;product=3-hydroxybutyryl-CoA dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P52041;translation=MVLFAKRVGIIGGGAMGSQIADIMAINGKEVIIKDISEEYLKKARENVEKNLNSLLEFNVTRADKEIERIEKSNQIQLTDEQKAKIQETLKPKFNEDMKKEALNRIQTTTDYTGFSDVDLVIEAAVENVDLKREIFSELDKNTRSHVILATNTSSLSVTEIASATKRPEKVVGVHFFNPPVTLPLVEVIPGMETSEETVNDMIDFMSTIRNHRYPMQPIKVKEVPGFLVNRILFAMMNEAYSCYDEGVASMRDIDLAMKAGAGMPMGPFELSDLVGIDVIYHVEEEVRKMIGGNTTRQPSQTIRKLYHAGRYGKKTKRGFYDYR;locus_tag=LOCUS_4500;gene=hbd;EC_number=1.1.1.157;note=P52041 3-hydroxybutyryl-CoA dehydrogenase (Clostridium acetobutylicum ATCC 824) [pid:41.8%25%2C q_cov:98.1%25%2C s_cov:98.9%25%2C Eval:1.9e-61],MGA_501
sequence37	MetaGeneAnnotator	CDS	6056	6436	.	-	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDEALFVNDIIEATREGIIKSYSCIDCNESGVSVQALCGNCGSSKLEIKEINNVGKVVTYTIQTVAPDPFVNEVPYAWVIVELDKKIRITGWIPFISSKEELKIGQKVKLVKSYKPGMVFEKISE;locus_tag=LOCUS_4510;note=MGA_502
sequence38	MetaGeneAnnotator	misc_feature	1	982	.	+	.	ID=MGA_504;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_048066007.1:aspartyl/glutamyl-tRNA amidotransferase subunit A,WP_048066007.1 aspartyl/glutamyl-tRNA amidotransferase subunit A (Methanosarcina acetivorans C2A) [pid:54.2%25%2C q_cov:97.9%25%2C s_cov:66.7%25%2C Eval:6.4e-102%2C partial hit],MGA_504;locus_tag=LOCUS_4520
sequence38	MetaGeneAnnotator	CDS	975	2390	.	+	0	ID=MGA_505;product=glutamyl-tRNA amidotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_052846244.1;translation=MNNVSDGVKIGLEIHCQLTALNTKMFCNCSSDYRGKSPNTLLCTVCTGLPGALPVLNKRALEAAIKIGLALNCKISSNSNFFRKNYFYPDSPKNYQITQYDKAGGVAIANDGIVETNLGKVRITRIQMEEDPGKLQYEGSITTSSNTLIDYNRAGISLVEIVTEPDIVSPKHAREFLNTIQSIVETIGECDSKLDGSMRADANVSISDGRRVEIKNISSFKEVERALNFEITRQKTIQAASKMETRHWDDVRRVTVTLRVKEGEEGYRYFPDPDLPPMIISDNYIDELLESLPELPDKRFQRFTQEIKLSEEIARILIRNKIVADYFEETLSYEFNPKLLSGWIATDVMGYLNRNNIEFVDMPIKPEILALLSKSVSDSKINDSTAKSILLKSLSSGDNIKDLLKSEIDNSSTSYDLQNIIDTVFENNSKAVEDAKKDPQAIHFLIGQVMKATEGRANHSEVKKILEERLI;locus_tag=LOCUS_4530;note=WP_052846244.1 glutamyl-tRNA amidotransferase (Sulfolobus tokodaii str. 7) [pid:47.3%25%2C q_cov:97.5%25%2C s_cov:99.2%25%2C Eval:1.1e-111],MGA_505
sequence38	MetaGeneAnnotator	CDS	2562	4682	.	+	0	ID=MGA_506;product=alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003895174.1;translation=MTPIESAEGQNSLTRAERNWEYINHNKFGTNFNPQTQLNKDNVEHIELKWIYPIPSAAQMGGGALTNFASVTEGTTAPPLVVDGVTFIILNRKTVIATDAETGALIWSAEHPGVDSNADTVQEGGNLPITGELVHTHSMNYWGGRLWFTDFGCTLTGLDAKTGERTREFKNLCLERPLDLNDKVGYGLPGNSGLYGSLQPHAPIKYEAENLIFYSDGGASEGTWGGRMYMAAYDYSTGELAWRTYLMPPCGDPTTCGPGKDGPLFVEEKAEWGQWLVDNCGKIWIQTIKSCEMNQEILRNDWGDMRSNSGISNVWGQNVVDEETGILYFGTAQAGPDWNGTYSPGPRLFGASVMALDAKTGELVWAHQTTARDLWDYDCSWNTMLTTTVVKGEERKVVIKGCKNGIVYVLDAATGEAYHLLEPPMIKRTKHSILYDPLNDAEMLKPWANHPSSDVWIQNCWAAGCLEADIVFDDTRNMVFFGTYNNPVIVQVVPVENRGNMGLNFAPEGVEWFNDWLADTPSLVNATINAYDVDTGELKWTYDMIGTGFRGGVIVSGGVVWMSSIDGFSTALDADTGQVLYKLNMGLGSSIMPVIAADDNGDVKLFRPQGAGFVGNANWGPGQTTSPGAIMVYGLPDVIPEPEVIIEQVEVEVEVEKIVEVEKEVEVTVVEEVTVETISPVSYVIIGLGIVAIIVAGVLYQRTKQA;locus_tag=LOCUS_4540;note=WP_003895174.1 alcohol dehydrogenase (Mycobacterium smegmatis str. MC2 155) [pid:24.2%25%2C q_cov:81.3%25%2C s_cov:84.3%25%2C Eval:3.1e-26],MGA_506
sequence38	MetaGeneAnnotator	CDS	4951	5949	.	-	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979465.1;translation=MFMIMRNVGKKLARLEYMNNNSKNAVLKSLIEKSDNEKIVKERFDRLLSSFVIPPVSIDPKGIITKLEHILNTQEDNMKDEIKLMTKDIDDVEISVLMNLVEVSLGINLMYKYIRHFYISGKKTGNMMIIAQIQMILPQIMEQAEAYNAAIPSLKSKKPIGDGIGPLVASRLSGESESKEVVKDTILNEIVIENRNAYIIKAKGPGGNVGKPGEAIKKVVEDNKQISLIITIDAALKLEGEDTGEVAEGIGAAIGGPGIERYKIEEIATNNKIKYLAIVTKMSEKEAITEMKEEIEKSSEILLNKVKETIKQHSENNQNIIIAGIGNTLGVK;locus_tag=LOCUS_4550;note=WP_010979465.1 hypothetical protein (Sulfolobus tokodaii str. 7) [pid:35.1%25%2C q_cov:99.7%25%2C s_cov:87.1%25%2C Eval:7.4e-53],MGA_507
sequence39	MetaGeneAnnotator	CDS	123	950	.	-	0	ID=MGA_509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFGLSIPVTIGKNWKDKLLKVLPLIEDAGISSLLVWDHYMLPEKYGSESNNTIDAWTLLSFIAANTTKIKIGTCVTPIPFRPPQQLAKVVSSVDNISDGRVILGVGAGWHKPEFDAYSEWNNSKIRFEKTVEGLEIMKKLWTNDVVNFSGKYYKIENAVLQPKPIQKPFPELWFGTTGRKMLKVMIEYGSGWIPVGISVKSYLECAEYIKKNSDKKICLTYYDHRDMETYDVNKVINEFQSVGCEYFIGLLRYESENSKQKLRKFVDVISSYKK;locus_tag=LOCUS_4560;note=YP_001705004.1 luciferase-like monooxygenase superfamily protein (Mycobacterium abscessus) [pid:32.5%25%2C q_cov:80.7%25%2C s_cov:73.6%25%2C Eval:6.4e-25%2C partial hit],MGA_509
sequence39	MetaGeneAnnotator	CDS	961	1479	.	-	0	ID=MGA_510;product=peptide-methionine (S)-S-oxide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048066219.1;translation=MIIFRINYIKEISSNNMEKAVFGAGCFWHIQDKFKKVNGVMSTSVGYSGGNIKSPTYEQVCTGNTGHAEVVEIDYDPKVVTYSELLNVFWSCHNPTTKDRQGPDIGHQYRSVIYYLNDEQKDLAVDSMTKMDKSGKFRDLIVTEVQPIKQYYKAEDYHQDYFDKKGSLFGLM;locus_tag=LOCUS_4570;gene=msrA;note=WP_048066219.1 peptide-methionine (S)-S-oxide reductase (Methanosarcina acetivorans C2A) [pid:59.0%25%2C q_cov:90.7%25%2C s_cov:96.9%25%2C Eval:2.8e-54],MGA_510
sequence39	MetaGeneAnnotator	CDS	1540	2475	.	+	0	ID=MGA_511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYDPSTYERAPVEDENTSNDTQGNDDPSSISPKIVFVIVGLLVGVAIGYGIAQLLTESPETITVEVPAENSNNNDLNKLQTDLDKANSEILILESRLTSFDETQDLLAQTQQNLEESNRELLESTNKFSNYEQTIEDLQNEIELHIDDLEIANKRISDLLTVENPAADPEPAAPDPEPAAPDPEPAADPVAAIDEKISLGAINLLYGTSLIPISDPTPIGEPILIETEAINISEDRVTISWIAIITNIETGETKEVFVFNIQLDPGKSFKLGNTWTPESAGQYNIEAFAVDNLTDKNPISQSQSKVITVA;locus_tag=LOCUS_4580;note=MGA_511
sequence39	MetaGeneAnnotator	CDS	2491	2910	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878244.1;translation=MNIITKEITIKTKHENQMIDLSDDINTEIKSSGLKTGIATIFTRHSTGAITTIEYEPGLEKDFPAMLKRIAPDDIFYEHENTWHDGNGRSHVKASLIGSSITVPFKDQKLLLGQWQHIIFLECNIEGRDRQIIFQMMGN;locus_tag=LOCUS_4590;note=WP_010878244.1 hypothetical protein (Archaeoglobus fulgidus DSM 4304) [pid:43.3%25%2C q_cov:86.3%25%2C s_cov:97.6%25%2C Eval:1.3e-27],MGA_512
sequence39	MetaGeneAnnotator	CDS	2916	3926	.	-	0	ID=MGA_513;product=galactose-1-phosphate uridylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546259.1;translation=MSKVRKDYFSEDFVLFSDEKPKKIKNLKKIIKKKDCPYCPGNEHITGPADLVLISKEGTLAKLVDEPENYVKDWTVRVILNKDAIVSHDEEKIFTDYPQYSEPAIGYHYVVVLSQKHTVDLSEIDSEQWTNILTTVQDKARWLYSQKHVSYVSVYMNHGLEAGSEIEHPHLQIVSLPTVPPIIESEAKFMKKPLREKGVCPMCDIIKEEESSKRIISKSENFLVFTPWASKHAFEYWIFPRQHEVSFVKSTQKGISELSEIIHKSIKSLMKTLGIVSFNLIIHSSPEKKTSKQIHWHIEIYPRIETKTGLEISSNIYTNKIIPESAAKELKKNFQK;locus_tag=LOCUS_4600;gene=galT;EC_number=2.7.7.10;note=WP_012546259.1 galactose-1-phosphate uridylyltransferase (Thermodesulfovibrio yellowstonii DSM 11347) [pid:30.1%25%2C q_cov:98.8%25%2C s_cov:99.1%25%2C Eval:7.3e-40],MGA_513
sequence39	MetaGeneAnnotator	CDS	3954	4919	.	-	0	ID=MGA_514;product=quinolinate synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5SJM4;translation=MIIAQINTSESNFQEAINELKEEKNALILSHNYQIPEIQDLADVVGDSLNLSLQALNSDKDLIIFCGVNFMAETASILAPNKKVLIPDLEAGCSLADTIDVKQLREWKEKHSDAVVISYINTSAEIKAESDYCCTSSNAVKVVEEIPKNKEILFLPDLFLGAYIENMTGRKMHIWPGECHVHAKLTASEINVMQNNYSDADFLVHPECGCVSNILFQLSEGVINNDNTKILSTGGMIEYAKKSNAKDFVVATETGILHQLQKQNPKKKFHPVKENAVCEYMKMITLEKVYKSLNEEVYEVKVPEEIANKAIKPITRMINIT;locus_tag=LOCUS_4610;gene=nadA;EC_number=2.5.1.72;note=Q5SJM4 quinolinate synthase A (Thermus thermophilus HB8) [pid:51.3%25%2C q_cov:95.3%25%2C s_cov:96.5%25%2C Eval:1.7e-91],MGA_514
sequence39	MetaGeneAnnotator	CDS	4976	5830	.	+	0	ID=MGA_515;product=nicotinate-nucleotide diphosphorylase (carboxylating);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011020993.1;translation=MCTFVIEDTLDSEIERFLHEDISHGDITSDLFIDPDLNSNAEIISRESGILAGRNEITQIFNHFNIESNWSFKDGDSFNINSQIVTLNGSSKSILLSERVSLNLLGHMCGIATATNNAVNVIKKISPHTNISATRKTLPGLRKYEKYSVIVGGGLPHRYNLNEMILIKDNHIKLIHNLEKTINSVRNQIGSTKKIEFEVDSLESAFKALDLDIDIILLDNMTPEDISKFINELKTITKKTPLTEASGGINMSNLKSYAKTQVDIISMGTLTHSSKSIDFSLQII;locus_tag=LOCUS_4620;gene=nadC;note=WP_011020993.1 nicotinate-nucleotide diphosphorylase (carboxylating) (Methanosarcina acetivorans C2A) [pid:45.4%25%2C q_cov:95.8%25%2C s_cov:97.1%25%2C Eval:7.2e-59],MGA_515
sequence40	MetaGeneAnnotator	CDS	697	2154	.	+	0	ID=MGA_517;product=geranylgeranyl reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762689.1;translation=MPRDYDVIVAGGGMTGLITATSIAKYTNQNKKILVIDRNEEINPARKNISGWTCGDAVSKRSIDFYSKEVGISYEFPELEHKVKGVVAFSPDRETKVSFDGEGYVLNRKLLGLRQVEDAKKLGVEFSFETESDKLISENGYITGIEILDKNKERKTLTANIVVDATGSASKLRQNLPIDNSFMEKQIDRENDMETTGRYILEFDRGETDTSLYDDDYCIIHLNQDIAPGGYAWVFPKSKNKVNIGLGVQKKRLVTRNQRLGKNDTLQSLIDNYISSNTSIKNYRLSSDAGDSGNSRGNWQVPVRRQNDCMVENGYVIVGDAAWLPRPIDAGGIGPGIFASVIAGKTIANALEAEDYSQNNLWNYNTEYVRNYGYQMASFEILRRFLQIVLNEKISYGMKHFLSADDVDKITSREHPSFDKVNMLNPLMLFKILTHWSLAKELRYTAKKSNELVTHSQNYPESPKSFPEWKNKLHTLLNEAYSRFS;locus_tag=LOCUS_4630;note=WP_011762689.1 geranylgeranyl reductase (Pyrobaculum islandicum DSM 4184) [pid:26.8%25%2C q_cov:98.8%25%2C s_cov:97.1%25%2C Eval:1.4e-43],MGA_517
sequence40	MetaGeneAnnotator	CDS	2161	3834	.	-	0	ID=MGA_518;product=long-chain-fatty-acid--CoA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879268.1;translation=MSETTEQGRVWLNKYPDGLKFNINVPDVTFGDYIDNICKKYSNEIAYEYNGSSFTYNEINELSNKFANALIKLGVKKGDRVALLLPNIPQFPIALYGILKAGAISVGTNFLYTSAEIESQLRDAKPKIVIACTDLVKKPIERDLYQGFHETRDNLDIEKVITTSVTEFLPGIKKRLAFVKVKKRKFDNTIDFMEVLNSGDNTRPENISVSDDIAALQYTGGTTGKSKGAMLTHKNIITEVEMVCEWVKLRENNDTALIVLPLFHIFGFIGQMIMMRSGGKVVLLPSFEEKQVLKTIQKSKITIFPGVTTMFTRLIDHSSMKNAELSSLRISFAAAMALPEAVVKQFVEKSKSPLVELYGLSETTGAVTFNPVHDMNLAKVGSIGVPLPMCDVAIVNSENHEEFVGVNEIGEIAVKGPVVMKGYWENIEETENMIKNGWLLTGDIGKMDEEGYFYIVDRKKDMIKVGGFNVYPRDVEDVLYENENVLEAAAVGIKNKDLSEYIKAFVVFKEGKTASEEELIEFCRTKLTGYKVPKEIEFRKELPKSLIGKILRKELKN;locus_tag=LOCUS_4640;note=WP_010879268.1 long-chain-fatty-acid--CoA ligase (Archaeoglobus fulgidus DSM 4304) [pid:41.5%25%2C q_cov:98.9%25%2C s_cov:95.8%25%2C Eval:7.8e-115],MGA_518
sequence40	MetaGeneAnnotator	CDS	3872	4873	.	-	0	ID=MGA_519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLAAISKDGIPIKDTINNIVDIKPNIDEYSLSWLECVVDDVKTGSKEIAKEFGIPLEPAAVLGGYYSNYEDAGEVLGITVPLIKFSGGTVDSLSVLIYIARDKIISIHDEEAEKLLRLSGFAEGIMKKLPSSKELWADRQTILFARIIDEISERNYDTLRLIVEKAQTLEIEMTDERTMDKDISVEMSNIKRSIITFLTAIWATHTTVHSLRYGDPEMLSDKDEILSRFDIILADLDRQIQLAEQVLEVLATGVNVIQTNITNRLSTIILWLTVIGTAVLVPNTLATVFAIIPNPASMFIELMGILVTSTLIASVIAYMGAKRILGSKKRKK;locus_tag=LOCUS_4650;note=MGA_519
sequence40	MetaGeneAnnotator	CDS	5075	5425	.	-	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKEIFFGLIILSLVLGIVFVSLSENNIILVNRFDYQPEDITIKKGTTVYWFNIDLEGHNVTSDLSQNIEHNKILQINLSKDVDTLGIISYKFNEKGEFHYYCILHPYMKGTILVS;locus_tag=LOCUS_4660;note=MGA_520
sequence41	MetaGeneAnnotator	CDS	2319	2882	.	-	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIIHIILYAIILIVNRIYGVLSIFLLLTSIVLLFFFMLSVNQLESTVEELRYSNDINLERIENLIKENQILSDEISSLTLLYDNDLITQANLTITQTFQNNIVQINGKSFSVVNGSITNFGLQNANDVEVEVTWWILSDCGCDALPIRTELVKIDSIPSSSVYNFEKSFPFTFEKFEYLVININWK;locus_tag=LOCUS_4670;note=MGA_522
sequence41	MetaGeneAnnotator	CDS	2914	4518	.	+	0	ID=MGA_523;product=tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496733.1;translation=MAQINSKPDEKKRWKILAKDLGVKEFNNISSLHDIKRHIGKTRYQDRIPSNSELLDILPSDKRKQHLQLLKIKPTKSASGIAVISVMTKPYDCPHGVCIFCPGGEKIGTPQSYLPTEPATMRALEAEYEPERQIENRFNQLKKIGHYIDKVELLIIGGTFMNLPFEYQQSFVKSCYDALNGVKSNNINHAKKIAEKSTIKNVGLSVETKPDWCKQKHIDLALDFGVTRIEIGIQTLSDEIYKKTNRGHTLLDVEESLQIAKDAGYKIVAHMMPGLPGSNLRKDFDDFIELFNNSKYKPDMLKIYPTLVVPGTGLYKMYKDNKFTAYNTEEVVDLLAKVKKEVPPWIRIMRIQREISEEYIEAGTGKGNIRELIINKMKQNGDKCNCIRCREIGLKQLKEKLQIDNYDIEIKNIYYEASGGEEYFISAEEKNTKSLIGFVRMRIPSNKAHRKEIVDNTAIIRELHVYGQVVPIGERDTNSWQHKGIGIKLMLEAERLAKEELSIRKLLVISAVGTREYYKRLGYELEGPYMAKIL;locus_tag=LOCUS_4680;note=WP_064496733.1 tRNA uridine(34) 5-carboxymethylaminomethyl modification radical SAM/GNAT enzyme Elp3 (Methanocaldococcus jannaschii DSM 2661) [pid:45.9%25%2C q_cov:91.0%25%2C s_cov:91.1%25%2C Eval:2.7e-125],MGA_523
sequence42	MetaGeneAnnotator	CDS	203	670	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVTSPSSIEFSHYRFEDLSLNDLYGVLRLRSIVFNHQQRLVEVSDGKCIEIDDNDSSCIHIIGKLPNQKIIATARLFDKQSPLQWGRFAVDPNFQKHGVGTQLLEYLDSIINSKPIEMNAQSYLIDWYSKFGWSISGPEFIECGIKHVRMIKNM;locus_tag=LOCUS_4690;note=MGA_526
sequence42	MetaGeneAnnotator	CDS	674	1777	.	-	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELSDEEIERYSRQIVMDEIGFEGQQKLKNARVTVIGVGGLGSPITQQLVAMGIGTIRIVDRDVVEVSNLHRQVLYGDEDVGLSKAEAAHDRLKRINPKVNIEPLTLSINDDTVDEAINGSDVVIDGLDSVSARYSINRACVRLNIPYIFGSAIVTTGSSTSIIPGKTPCLECFQPALKDDDMPKCGTEGVHPSILTTISSVQVSETVRILIGKEPNLVNKLFLADIKNLDYDKVKIIKQSRCKVCGPDADLSIKESKRKLIEDICGREGKSVHIISPKENLEIDLDKLNQIIINKQMNIIRKGELGTTLQYNEKITISIVTSGVSIIVGALEEKRALEIFSEIIINELEINPEKIDTEFKNILQFN;locus_tag=LOCUS_4700;note=WP_003821634.1 thiazole biosynthesis adenylyltransferase ThiF (Bifidobacterium bifidum PRL2010) [pid:37.5%25%2C q_cov:72.8%25%2C s_cov:99.6%25%2C Eval:1.1e-47%2C partial hit],MGA_527
sequence42	MetaGeneAnnotator	CDS	1781	2056	.	-	0	ID=MGA_528;product=MoaD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:YP_008920730.1;translation=MVKVLIPAVMATSTNGERELDIEGNTVIEVIDELSEKYGDGFKNKVIDNDGKLKPIINVYVNDENIKFLQDLETILKDKDEILFLPAVSGG;locus_tag=LOCUS_4710;note=YP_008920730.1 MoaD family protein (Aquifex aeolicus VF5) [pid:42.2%25%2C q_cov:98.9%25%2C s_cov:97.8%25%2C Eval:5.0e-16],MGA_528
sequence42	MetaGeneAnnotator	CDS	2059	3291	.	-	0	ID=MGA_529;product=threonine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878058.1;translation=MKTNMSIKYLLCRKCSTEFRPDLKYVCDECFNPLDVIYDFDKITLTKETIKNRDKNLWRYFELLPLRNKNNIIDIGAGYTPLHKADKLAKRLGLNNLYIKNDTVNPSFSFKDRPAGVAVSKSIELGLEAVGSPSTGNLASATAAHAARAGIPCYIFIPYDIEQAKISQVQTYGANIIPVNGTYDDANRLASYAGDKYNIGIVNINLRTYYVEGSKTLAFEVCEQLGWNAPDHVIVPTGSGAMLCAIDRGLKEFEKIDLIPNNKTKITSAQPEGCSPIVDAIKNKTNSIQPVKRPNTLAKSLAIGEPGDGIFAVETVNNSGGYGEKANDEEIREAIRLLASTEGIFAEPGGAVSIAILLKLVRDGKIDSNEKVVCYVTGNGLKAPEAPFIQQPELKVVEPKREVLQDIIGR;locus_tag=LOCUS_4720;EC_number=4.2.3.1;note=WP_010878058.1 threonine synthase (Archaeoglobus fulgidus DSM 4304) [pid:49.1%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:9.1e-107],MGA_529
sequence42	MetaGeneAnnotator	CDS	3345	3884	.	-	0	ID=MGA_530;product=oxetanocin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011248969.1;translation=MNTNELNKFFLCLEELKSIKRKGWEIKTNVNNVESVADHSYVATSIAMILSDLADLDTEKVVKMMLIHDLPEIIIGDLMPGENPNKSIEENIAINKILENLPENIRAEYIDIWNEFTNKQSKESMLVNEIDKLELIIQLSLYKNQMSKEVFNEFLQSAEKNIDSEFNRKLLKEILQSMR;locus_tag=LOCUS_4730;note=WP_011248969.1 oxetanocin (Thermococcus kodakarensis KOD1) [pid:32.9%25%2C q_cov:87.7%25%2C s_cov:86.5%25%2C Eval:2.6e-13],MGA_530
sequence42	MetaGeneAnnotator	CDS	3881	4906	.	-	0	ID=MGA_531;product=endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250232.1;translation=MGVKLKDLADPRKTSFENLSGNLIAIDGYNIIYQFLTTIRGPTGEPLMNNKGKITSHLTGLFYRNINLLNNNIQPIYVLDGKPPQLKSTLIKKRKEIREKNQEKYRKAMEEGDQEQARRYAHSMIKINEDIINDVKKILELLGIQCIQAPAEGEATAAYMNDIGLVNYTVSQDYDSLLFGAKRLCRNLTVSGKRRIPRTNRFIDVDPEIIDLKEFLRINEITREQLIDIAILIGTDYNPDGFTRIGPKTAIKHIKKYNNIENIPKIEKELELIDINEVRNMFLNPEVVKPEISDKKEIQKEKLISYLCDDNDFSTDRISNMIKKLDKVEEQKSESLDKWFN;locus_tag=LOCUS_4740;note=WP_011250232.1 endonuclease (Thermococcus kodakarensis KOD1) [pid:45.2%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:4.2e-83],MGA_531
sequence42	MetaGeneAnnotator	CDS	4961	5263	.	+	0	ID=MGA_532;product=ferredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762401.1;translation=MSDENEQILSLESKLGLLSFDWDNSEFIKVNTDICKTCEKKPCLYVCPSEVYTLNENELVYNIEGCIEMGLCTIVCDQLGNGAIEWNHPQGGKGVTYKLG;locus_tag=LOCUS_4750;note=WP_011762401.1 ferredoxin family protein (Pyrobaculum islandicum DSM 4184) [pid:36.3%25%2C q_cov:89.0%25%2C s_cov:91.7%25%2C Eval:6.8e-13],MGA_532
sequence43	MetaGeneAnnotator	misc_feature	1	762	.	+	.	ID=MGA_533;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_048147353.1:V-type ATP synthase subunit B,WP_048147353.1 V-type ATP synthase subunit B (Pyrococcus abyssi GE5) [pid:64.3%25%2C q_cov:98.4%25%2C s_cov:53.9%25%2C Eval:1.7e-93%2C partial hit],MGA_533;locus_tag=LOCUS_4760
sequence43	MetaGeneAnnotator	CDS	765	1397	.	+	0	ID=MGA_534;product=V-type ATP synthase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010979483.1;translation=MSSSNKRPPPTKIELIKVKRSLVVAKSVYKILEDKRDVLLKNIDEMIDEAGKARNEMSEPLSNAYRSLFNAYMSLGSSKLESIALTSPSHIDVDVDVKVVVDVRIPTISISEKEIGLNYGFADSDSKLDDATQMMRLALPRILRAAEYENSILELARSLEKTQRLLNALDYVIMPGYDESIKYISSILEEREREDFSRLKHVKKVLERKR;locus_tag=LOCUS_4770;EC_number=3.6.3.14;note=WP_010979483.1 V-type ATP synthase subunit D (Sulfolobus tokodaii str. 7) [pid:34.1%25%2C q_cov:98.6%25%2C s_cov:96.3%25%2C Eval:4.7e-29],MGA_534
sequence43	MetaGeneAnnotator	CDS	1403	1528	.	+	0	ID=MGA_535;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDKEYKKLTEKIKKKYESDIDELKKEIFSAKDKAYKELKK;locus_tag=LOCUS_4780;note=MGA_535
sequence43	MetaGeneAnnotator	CDS	1548	1859	.	+	0	ID=MGA_536;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMNYKISIIMLTIIATVFLQFVPIAHAQEESSGSSGEKFLGAGIAFAGAAIGAGMAVGRAGSAGLAAAAEDESLKTQGLIITALGEAIAIYGIVVALLILGS;locus_tag=LOCUS_4790;note=MGA_536
sequence43	MetaGeneAnnotator	CDS	1865	2077	.	-	0	ID=MGA_537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIENKIIKKGFRFVPTILLTFFLLTGALLGIDMYETIDSPIAIIIPFILPMIGLIIAILLIIRLAKIINY;locus_tag=LOCUS_4800;note=MGA_537
sequence43	MetaGeneAnnotator	CDS	2094	2555	.	-	0	ID=MGA_538;product=aspartate carbamoyltransferase regulatory subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868441.1;translation=MTETHDLRINRIKRGTVLDHIVAGRAFNVLSALNINGTDGNQVSVAMNVPSKQYNKKDIIKIENRILAVEETNRLALITPHSTINIIENYEIIEKRNVELPEKFTGVFECTNPTCISNSKEPIISELFVSSQDPPSLICKYCTRISLSEEILK;locus_tag=LOCUS_4810;EC_number=2.1.3.2;note=WP_010868441.1 aspartate carbamoyltransferase regulatory subunit (Pyrococcus abyssi GE5) [pid:42.6%25%2C q_cov:96.1%25%2C s_cov:96.7%25%2C Eval:4.2e-31],MGA_538
sequence43	MetaGeneAnnotator	CDS	2608	3543	.	+	0	ID=MGA_539;product=aspartate carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762814.1;translation=MKRLKNPFYNRDVVSIKDFQRPDLEYLFQVADKIKSSLPNASLNSKSIGLMFFEPSTRTRLSFESAMNSLGGKSISFGNPSDSSTQKGENLSDSLLTMDQYVDAIILRHASEGVSRYASEICKNPIINAGSGSEEHPTQAMLDVFTILKECDKIDGLNIAIFGDLKYGRTVYSLLYALSNYKPNIHLVSPKPLQLRPDPLSELQNRLNISVHENLQDIISELDVIYTTRIQKERFPDLQEYERVKGSYKIDKNLLNNAKENLVLLHPMPRSDEIPSDIDNTVFAKYFNQVGYGKLVRSTLLYLIFTENPSF;locus_tag=LOCUS_4820;note=WP_011762814.1 aspartate carbamoyltransferase (Pyrobaculum islandicum DSM 4184) [pid:49.5%25%2C q_cov:94.5%25%2C s_cov:97.7%25%2C Eval:2.5e-79],MGA_539
sequence43	MetaGeneAnnotator	misc_feature	3540	5342	.	-	.	ID=MGA_540;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_012583735.1:ribonucleotide-diphosphate reductase subunit alpha,WP_012583735.1 ribonucleotide-diphosphate reductase subunit alpha (Dictyoglomus turgidum DSM 6724) [pid:40.4%25%2C q_cov:97.8%25%2C s_cov:72.4%25%2C Eval:2.0e-103%2C partial hit],MGA_540;locus_tag=LOCUS_4830
sequence44	MetaGeneAnnotator	misc_feature	1	1491	.	+	.	ID=MGA_541;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q64P05:carbamoyl-phosphate synthase (glutamine-hydrolyzing),Q64P05 carbamoyl-phosphate synthase (glutamine-hydrolyzing) (Bacteroides fragilis YCH46) [pid:45.1%25%2C q_cov:98.8%25%2C s_cov:45.2%25%2C Eval:8.4e-113%2C partial hit],MGA_541;locus_tag=LOCUS_4840
sequence44	MetaGeneAnnotator	CDS	1495	2124	.	-	0	ID=MGA_542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAIFDTEGVLIDGEFLPELAKIVGKEKEIWEITNKGINGEIEWEKGLLDRINELKGVSYDDCKQVADNMRIMHGARETFEELRQLGFKTLTVSGGPDILIERIKEELRIDYAFSNKLVFEEMKLKGVEINVGSDKSIPIKNTLDVMNKQKNEIVITVDGANDIKLFDLAGLRISFNGTELINEKADSIVNKKDLREILPLIKQKFNLE;locus_tag=LOCUS_4850;note=WP_048061103.1 phosphoserine phosphatase SerB (Methanothermobacter thermautotrophicus str. Delta H) [pid:39.3%25%2C q_cov:97.1%25%2C s_cov:41.8%25%2C Eval:1.1e-35%2C partial hit],MGA_542
sequence44	MetaGeneAnnotator	CDS	2185	2652	.	-	0	ID=MGA_543;product=30S ribosomal protein S19e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250227.1;translation=MKLNLTNVNEVPADRLIETLALKLKEENIVKPPEWSDFVKTGSHAERPPQNNDWWYERCASLLRKVYIHGPIGLADLQDFYGGKKKIKFAKRHQRSAGQSAIRKPLQQLESAGYIEKKELKGRMISGKGMSLIDKTSAVILKELAENNSELKRYV;locus_tag=LOCUS_4860;note=WP_011250227.1 30S ribosomal protein S19e (Thermococcus kodakarensis KOD1) [pid:50.0%25%2C q_cov:96.8%25%2C s_cov:100.0%25%2C Eval:8.1e-38],MGA_543
sequence44	MetaGeneAnnotator	CDS	2664	2984	.	-	0	ID=MGA_544;product=ribonuclease P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867686.1;translation=MNIKKKKRQIAENRINHLAIEIEKSLKDNRNLAEIQAKQAREFSKKFNIKSGYSQRMLFCHKCKRFIVPGFNSRVRLSKIRKSLNITCFHCGVTYRKIINKSQTYI;locus_tag=LOCUS_4870;EC_number=3.1.26.5;note=WP_010867686.1 ribonuclease P (Pyrococcus abyssi GE5) [pid:37.8%25%2C q_cov:84.0%25%2C s_cov:76.9%25%2C Eval:1.5e-09],MGA_544
sequence44	MetaGeneAnnotator	CDS	3095	3685	.	+	0	ID=MGA_545;product=16S rRNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980208.1;translation=MSKSNKHTFLDKSYHSHFMKNLDNIDKRGRPDIVHLSSLAITSTPLYLEKKIKFYIHTISDYVIDIDFGVRLPKSYHRFIGLFGKLFNNYSNNTNSDPLMKIYESSFSKLINTIQSDHVVGLSKHGTQLTSDYLSNKIITSSNPVILIGGFSHGTFSNNVLNSTDNLISLGNYNLESHTTCSRIIYEIEKSNLNSS;locus_tag=LOCUS_4880;note=WP_010980208.1 16S rRNA methyltransferase (Sulfolobus tokodaii str. 7) [pid:38.2%25%2C q_cov:93.9%25%2C s_cov:80.8%25%2C Eval:2.3e-24],MGA_545
sequence44	MetaGeneAnnotator	CDS	4007	4744	.	+	0	ID=MGA_546;product=phosphoglycolate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877951.1;translation=MNREIFSDKINLLVLDLDGTVFGTSRLLLEEIEKIRNLIDSGVRVIISSGRTLHYVLGIARCLGIEDIVICEEGTVTYDCRNHKLSLLGEQKDLILLKNNLSSWLPFCIIPKEAHHDKNVIIALDREPRINVDDFLHEVSEVISDKNLNLNLTRSDEMINLMPPNITKGFALDKVLQSEKINPNSVVAIGDSLNDLSVFDAVKYSIAVSNSHDLVKEKSFYTSNKTNGDCVSEVIDFILSNNKKY;locus_tag=LOCUS_4890;EC_number=3.1.3.18;note=WP_010877951.1 phosphoglycolate phosphatase (Archaeoglobus fulgidus DSM 4304) [pid:22.8%25%2C q_cov:93.9%25%2C s_cov:97.3%25%2C Eval:8.9e-12],MGA_546
sequence44	MetaGeneAnnotator	CDS	4793	5098	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVESWNSDWGKLNESNMRKRLEEEGFSVITYSYSPGTYFSEHSHTIDKKDTVLSGKFKMTALGKEFILGPGDMLLVPAGTIHTAKVIGNEPVISLDATKY;locus_tag=LOCUS_4900;note=MGA_547
sequence45	MetaGeneAnnotator	CDS	542	1453	.	-	0	ID=MGA_549;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P49814;translation=MISIIGAGNVGATAALQVISHDLDDVTLIDIVKGKAEGEAMDFSQMACEMGIDREIIGTEDFSKLEGSDIIVVPAGMGRKPGETRMDLLHKNMGIVKSVGENIKKYSPNSIVIMVTNPLDAMTYVMNKILGTERERVFGMSGALDNLRFKNVLSEKLGVSRKSLTTIVIGEHGEGMLPLIRYSTVNGVPLDKFASKEILDECYSDTIGAAAKIIGLKGATYYAPSMGIYSMVEAIKLNKKILMPASTLLKGEYNQEGICIGVPTILGKNGIEKVIEFDLNQNELEQFNKGVQNLKNAVAETKL;locus_tag=LOCUS_4910;gene=mdh;EC_number=1.1.1.37;note=P49814 malate dehydrogenase (Bacillus subtilis subsp. subtilis str. 168) [pid:42.5%25%2C q_cov:98.0%25%2C s_cov:96.5%25%2C Eval:7.9e-67],MGA_549
sequence45	MetaGeneAnnotator	CDS	1847	2869	.	+	0	ID=MGA_550;product=glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048064727.1;translation=MSIKVGINGFGVIGRRVAYAVNKQEDMDLIGIGKTSPDYKAKIGIEKGFNFYVPEDSHKEKFDKAGFKVSGSIDELIENSDIIVDATPGSLGEMYREKYLKAKTPALFQGGESKDLAEVSFVAQCNYENSTGKNVVRVVSCNTTGLSRVLSSIDNVHDISKVTSVIARRAVDPDLPKGMVDSVSLDPVSVPSHHGPDVSTILPDLDIVTMAIKIPTTHNHVHSLIVDLNTSTTPDAIIDTLKKTPRVMLVSSKNGVKSTAHTFDLGRELGRDRGDIYESMVWEDSITVIGNRVYMYMAVAQEAIVLPENVDAIRAVLNTATREESIKKTNDSLCIGGPTS;locus_tag=LOCUS_4920;EC_number=1.2.1.59;note=WP_048064727.1 glyceraldehyde-3-phosphate dehydrogenase (Archaeoglobus fulgidus DSM 4304) [pid:48.5%25%2C q_cov:98.8%25%2C s_cov:99.1%25%2C Eval:3.9e-89],MGA_550
sequence45	MetaGeneAnnotator	CDS	2896	3471	.	+	0	ID=MGA_551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLLDSSIEYYLLKEKGWDLGHGKIFDSDGNVIGKMSRRLRNIRGLTKLTETDGTGILKIQRKFLSPRITYDIFENHEDDGKHGKQFARCYRAFTSIIRPKMWLNYDPDKNGKPTKRLDAQGSFAGWNFTVVFEGKDIAEVKKLDRFRDLLGPKILDIADTHAIHILDKDFDRKILLGFIMCIERSLNTKK;locus_tag=LOCUS_4930;note=MGA_551
sequence45	MetaGeneAnnotator	CDS	3461	4057	.	-	0	ID=MGA_552;product=amino acid transporter LysE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001121269.1;translation=METETFIAMVWFIFSVSFTPGPGNILSSAHGAQYGFRKTTNLLLGLISGWAFLGLFVGFSISFIQQYPIILEGLTWICAALIIRLAWILGTAKPIKTEDEKTNNLGFITGFFFSLVNGKAWVFHLTLMGGFAQEWGTSFLGILSLVGFLSIFGLAAISSWAYAGTLLKEIFNSEKNAKILNVIFGVSLVAVAIEIIIS;locus_tag=LOCUS_4940;gene=lysE;note=WP_001121269.1 amino acid transporter LysE ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:32.4%25%2C q_cov:94.4%25%2C s_cov:95.9%25%2C Eval:5.0e-19],MGA_552
sequence45	MetaGeneAnnotator	CDS	4096	4341	.	-	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKIRNQFLIGVIIVLIGIGLYISGITPGQVTECDPRIAGGGIEDCRNYSAFQRSTIPTIILITGIIFIIRGILMLRNSS;locus_tag=LOCUS_4950;note=MGA_553
sequence45	MetaGeneAnnotator	CDS	4374	4673	.	-	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKIRNQFLIGGLIMLVGISIYFSEVNVNTLLFFQTQEDSITYPWQCEIVGRQGGGGQGMEYKDCDESSAQKLTIPAIILVIGMVFMIRGILTIRSSL;locus_tag=LOCUS_4960;note=MGA_554
sequence46	MetaGeneAnnotator	CDS	6	1082	.	-	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDKLRTIIVEPKISDSEINDFSQLLFESGINNIFMHDMPNSDALSKFETYSFSGKSDVQVVDSKTLNKVNSDQRFSYFASLNDDSNLDEIVNAAKNNAESVIIEFEENTEWKIIPLENLIAELHGLKTKIFTVINDPSEIKMMFTILELGVDGVLLRTSNIDDVNKLNSELNELSKIDLSVAEIIEIKEVGMGERACVDTASMLNQGEGLLVGNQANFMFLMHNESAGSGFTSPRPFRVNAGAVQCYTLLPDNRTKYLSELESGTEVMIVSHQGVVRTSIVGRLKIESRPLFLVRAKSDDKIGGVLIQNAETIAFVKDNGKPISTTSLKVGDKILVKTESNKGRHFGMEVEEYILEK;locus_tag=LOCUS_4970;note=WP_010870761.1 3-dehydroquinate synthase II (Methanocaldococcus jannaschii DSM 2661) [pid:46.2%25%2C q_cov:70.1%25%2C s_cov:69.8%25%2C Eval:3.7e-61%2C partial hit],MGA_556
sequence46	MetaGeneAnnotator	CDS	1083	1838	.	-	0	ID=MGA_557;product=fructose-bisphosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869899.1;translation=MDNINRSGKILAVTLDHGLTIGPVSGLIDMNKTVDSVQKGGASAVVAHKGIFKTLDTKVNIGKIVHLSASTNLSVFPDDKVIVGSPELVREMGADAVSIHINIGSSHDRNMLEDLGLIADECSELNIPLLAMMYPRGENISNPFDPKIVAHVARIGAELGADVVKTVYTGDSESFRTVVEGCPVPIVIAGGPQANNDKELLEMVKGAIDAGAVGVSMGRNIFQHSNPENITKAISNIIFDNSSVESALEVI;locus_tag=LOCUS_4980;EC_number=4.1.2.13;note=WP_010869899.1 fructose-bisphosphate aldolase (Methanocaldococcus jannaschii DSM 2661) [pid:53.4%25%2C q_cov:97.6%25%2C s_cov:90.5%25%2C Eval:3.0e-71],MGA_557
sequence46	MetaGeneAnnotator	CDS	1890	3392	.	+	0	ID=MGA_558;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9Z6X4;translation=MRNTSNGSLNILSYYTLRYDEDLLHINSAFAITQIMTLRLFNSLGRTKETFVPKNKDEVKVYCCGPTVYDYAHIGNLRTFLFEDVLRRYLEYKGHNVKFVMNITDVDDKTINSSKKNNVTLQDYTNRFIEEFFKDLKSLNIKTATLYPKATEYIEDIENHIIELQKKDYCYESNGSYYFSINKFSEYGKLSGLEINKTDKKTRLNEDEYTKDNPQDFALWKAWDNDDGDVYWTGKLGKGRPGWHIECSVMSTKILGDEIDIHAGGVDLIFPHHENEIAQSEPLTNKQFVKYWIHAEHLIVEGKKMSKSEGNFFTLRDLLEKGHDAKHIRFLLISSHYRSQLNFTFDGINQAKENIDRIQETYSKIIDCKTKNGRNSDLSKITKEAKIEFENAMDDDLDMPVALASIFGFVREINKYLDKEQILEENKLEITEYFELINKILGVLSNETIEFDDEIKMLVAERDEARNTKDWKKSDEIRKELSRRGYTVEDTEKGTRIKRS;locus_tag=LOCUS_4990;gene=cysS;EC_number=6.1.1.16;note=Q9Z6X4 cysteine--tRNA ligase (Chlamydophila pneumoniae CWL029) [pid:45.7%25%2C q_cov:93.6%25%2C s_cov:99.4%25%2C Eval:2.4e-120],MGA_558
sequence46	MetaGeneAnnotator	CDS	3394	3708	.	-	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIMSNNQNRDLPDEIEFKMLESNADGSDEVIFQLEDGSIIKIRVNIDRAGVATNYRNSDGSKHYNVQASMSVNVISSDRTYKLTKSGMKSDKSDKSVVSKPYK;locus_tag=LOCUS_5000;note=MGA_559
sequence47	MetaGeneAnnotator	CDS	169	1176	.	-	0	ID=MGA_562;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010971999.1;translation=MSNNKLIIYGTIETWEFDSWISEFNKIHPGIKVEYSRKYVYGTPPPMSTQIKHDLSNTGSSADIIFSAISPHLQMQNQDLFQSYKSNGRKNIPESLKDSDGFWTSVILLPTMQIYNNENVEKNDVPTRSKDLLQDRWKNRISIHDITLGTFGSNWLSSLRSNLIDDDWSVFVNLLSQQNLQLWPLFRHVLGSVSLGNSDLGLTVMLYEYLRAKDMNLPIERMILSDIPLSVSATAASILKTSNNLESAKLFIDYILSKDGQNMIGNNYIRVPAYIQSDSKYSLSKLLPDEKYSIFPSFDVITKTNQDRQLFQNLFQNHITTEEAFNSNVDKVLKK;locus_tag=LOCUS_5010;note=WP_010971999.1 ABC transporter substrate-binding protein (Agrobacterium fabrum str. C58) [pid:25.3%25%2C q_cov:92.5%25%2C s_cov:91.1%25%2C Eval:2.0e-13],MGA_562
sequence47	MetaGeneAnnotator	CDS	1173	2963	.	-	0	ID=MGA_563;product=methanol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010975084.1;translation=MLRNLLYKLLTIFLLLLFIGNISAVSSENFFDWKYSAFDKDNTGFSPQTVISKSNVQDLELNWIYQFDSVEPLDDDIVPPEGIQTTPLIYQGIVYVATGYNEVYAIDASDGSPLWSFKPDIDDFKNTKIWAKRLAMRSLTIHNEAVYVQTSECSIYGLDLVTGEVVFELPDTCSNIPGNNGEYFSPFAPTFYKNLLITRAQGNAFGGRGFVSAYDLDTKELVWHWFSSPPAGGELNWGYDQANLGNILPFEDDWGYTNYIAGGTSWGLLAIDEESETLYLLTGEPANQFDAALRPGPNLFSSSIVALDITSGTLKWYHQMSTHDINNNDPGWKVVYSDISVNNVDRKAIIAASKSNYLYVVDALTGDLIHKPIHFGPDSYNLTNENTENQSDMYASQTKYIGEIFCPSQLGGVFAGMSVADNVAYIPSQNVCGTVLPRQLEYKGEVIDGYVYRLDLDRPTNGSIYAVDLSTSELKWQITIPDRIQSASLIVSAGVLYSIDRSGVFYAIDIEDGTILNSIPFNSMGSAGPSIGADATGSMMIVFPMGGGTLTGNNPGILVSMSVDESSESYSNYILFIITFASLIYATIVTRRRITN;locus_tag=LOCUS_5020;note=WP_010975084.1 methanol dehydrogenase (Sinorhizobium meliloti 1021) [pid:24.6%25%2C q_cov:80.7%25%2C s_cov:81.2%25%2C Eval:2.5e-34],MGA_563
sequence47	MetaGeneAnnotator	CDS	3049	3795	.	+	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVKLELMNKINCGDTLDLIKNIESNSVHLAITSPPYNVGKDYDNHNDLMGYDEYLDWLSKVWIETKRVLIDGGRFALNVGPTGIRDFKPLHHDLSNRLREIGMIFRTEILWYKQTMLKRTAWGSWKSPSNPHIIPSWEYVLIFSKNSMKLEGDKSKSDITRDEFLSFSDGHWNILPVTKNRKGHPAPFPEELIYRLIKYYSYEGNTVLDMFGGTGTVASVASKNNRNFIHIDISKEYCKIASERITK;locus_tag=LOCUS_5030;note=Q9WYG3 methyltransferase (Thermotoga maritima MSB8) [pid:43.7%25%2C q_cov:96.8%25%2C s_cov:73.6%25%2C Eval:1.4e-52%2C partial hit],MGA_564
sequence47	MetaGeneAnnotator	misc_feature	3797	4795	.	-	.	ID=MGA_565;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_012256339.1:LLM class F420-dependent oxidoreductase,WP_012256339.1 LLM class F420-dependent oxidoreductase (Chloroflexus aurantiacus J-10-fl) [pid:46.6%25%2C q_cov:91.9%25%2C s_cov:88.2%25%2C Eval:8.7e-86],MGA_565;locus_tag=LOCUS_5040
sequence48	MetaGeneAnnotator	misc_feature	1	846	.	+	.	ID=MGA_566;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011762251.1:UDP-N-acetyl-D-mannosaminuronic acid dehydrogenase,WP_011762251.1 UDP-N-acetyl-D-mannosaminuronic acid dehydrogenase (Pyrobaculum islandicum DSM 4184) [pid:43.8%25%2C q_cov:95.4%25%2C s_cov:61.0%25%2C Eval:2.8e-55%2C partial hit],MGA_566;locus_tag=LOCUS_5050
sequence48	MetaGeneAnnotator	CDS	847	1542	.	-	0	ID=MGA_567;product=nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762125.1;translation=MNYIMKALILAGGMGKRLRPLTDDKPKPMISISNKPILEWQITWLKSHDIRDIVLCTGYMGNNITEYFGDGGKFGVHIEYSKEEEPLGTGGALMQSRSLLKEHSNFLVMNGDIISNIEPSSLIQSLTDNLIGTIAVVALRSPFGEIEIKDNGLISRFTEKPILNDHWINAGIYCFSNKIFNYLSDIGSLESDVFPILATENKLSAIKQSDVKWRSIDSHKDIEEAQKEFGN;locus_tag=LOCUS_5060;note=WP_011762125.1 nucleotidyltransferase (Pyrobaculum islandicum DSM 4184) [pid:48.9%25%2C q_cov:98.3%25%2C s_cov:99.1%25%2C Eval:3.6e-57],MGA_567
sequence48	MetaGeneAnnotator	CDS	1610	2167	.	+	0	ID=MGA_568;product=inosine-5-monophosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250217.1;translation=MFEIDDIVKLRKQLGLTQTELANLSGVSQSLITKMEAKKVEPAYSKVKILIETLQKQEQRDGDKRTAKNICSKTVKGIDKKEILKEAAKRIREKNISQLPVFDKNNIIGSLSEKTILRELSESGSPNEAFAKKVGDVMDPPFPTVDADTPVELLYQMLEFFEAVVVTEKAKVIGIVTRSDLFKLK;locus_tag=LOCUS_5070;note=WP_011250217.1 inosine-5-monophosphate dehydrogenase (Thermococcus kodakarensis KOD1) [pid:36.7%25%2C q_cov:96.8%25%2C s_cov:90.6%25%2C Eval:2.0e-27],MGA_568
sequence48	MetaGeneAnnotator	CDS	2217	3155	.	+	0	ID=MGA_569;product=methylcobamide--CoM methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584103.1;translation=MINYWIAGIYPRNERLIESTRLYEKTLKEQFKKEKTRLLTIQSKNKFDYVTDPLIDWDDNMRPFTDNLIGIERGPLTRYYENNTFYRQPIITKRISTSGKILKNNICFNLFSKRPMIKLDILDPFTFYDLSSNEFYKSENDVINAYAEIIKKELNSVKKNVKLIQFNAPSLARVKEKERLDIVKKAMDKITKQLGIKTCLNLWGSDISDTLEEFQEFPVDIIGIDFTMSKIDKFDRTNIKRGLACGLIDAKNTKMEKTSEVIQELKSIKEIFNPQSLAVIPNWDFEFIPESFASKKLNIMKQIKEKSKVIKL;locus_tag=LOCUS_5080;note=WP_012584103.1 methylcobamide--CoM methyltransferase (Dictyoglomus turgidum DSM 6724) [pid:27.1%25%2C q_cov:93.9%25%2C s_cov:92.9%25%2C Eval:2.8e-22],MGA_569
sequence48	MetaGeneAnnotator	CDS	3152	4168	.	+	0	ID=MGA_570;product=methionine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250397.1;translation=MRKFPLATQEIGSIRKPRWLVKLLQDKNVSDEIKEEARSDVALLNLKLFEDIGLDVVYDGEARRVEMYEYSIRRIQGLELAGKIRSWDNKYYNKGRCIKKVQYKGPYHVDEFLFVKENANKMIKLPITGAYTLADWSYNESYKSKEDFTIDLARKVIRPLIRDLVKTGAEFIQIDEPAATTHPDEMELVVKSFNESIKGINAKFGIHICYSEDYSNMYPEVLEMKNHQYELEFANRDSWNKGVNHSNRNGFESFLKTFREYGEKKEIGLGVLDVHVDDVEPPELVRDRILYAVKMTDNPNLIHVNPDCGLRTRTREISFSKLRNMVTGTEMAKKKLGL;locus_tag=LOCUS_5090;note=WP_011250397.1 methionine synthase (Thermococcus kodakarensis KOD1) [pid:39.7%25%2C q_cov:97.9%25%2C s_cov:94.3%25%2C Eval:4.4e-61],MGA_570
sequence49	MetaGeneAnnotator	CDS	1254	2075	.	+	0	ID=MGA_573;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPQFQGRNIPIFWIVAVAVVVSVAYVINSDSALTGVASLDDDSLIFDEDFGNLSSENDQGVTSFDGIDDMAHVPPSPGGLVPPSIGNEVLSWIDIRKTNIWIEDEWLWVKITVVKAPPTNLARTLPVPDGALFQLTDELLTWRVRIDHNNDNVTDYTIDAVWNPTGENLDMDGNPKDDLSGGYFRDAGQPGAQGQRGYNIGAEEFPGLIGTNKNTILTGFPLVLLPELGDEFEVAVCVNYTGDHELLDDFILAAYDCDPDIFPPGAEWIQVKL;locus_tag=LOCUS_5100;note=MGA_573
sequence49	MetaGeneAnnotator	CDS	2076	3872	.	-	0	ID=MGA_574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSTFNLQRKFRLLFTLPTFFVSLVIASSTSLSIILIQGIFSNAPMSQRYEAISIFFIAFLFSIILERLILLRHSFASVRRLLAMSIVPNASWAILSAFGLYQYSVLQEQQVFYLMVVMGLSTAISIRIIILGSVFFNRISVGTLVSFLQPMLLFIIIPFAQTGVLFPIEQFSLLLVEEALAFSLVLIIPVLSVSYLLVLSRTGGHIIKSSPLIIFQAFLQAWVAERPKVIEDLIETFSLEKEIVTSVIEFSDKSNISTKNRAIIVPEVHPGPFYPIGSSNLPFELWKWSDSINLKSLIFHGISGHEHNLASKAIVTSYLNEMNNLQIVSDGSTCTEPKSRNIGRATVTGLAFGDYAMLILTLAPYGMEDFPIFVREEINKASKSIGFNGVILIDAHNSIGATPVREDCEDIIRAAKDILRKIRFNTQVEFKMGYSHSKKLGINLKDDVGPAGIGMVLFEIKSKTYGIVSVDANNIALGFRDDVLSEIDDVIDICTTDTHFNAAKVMNSLGYTPFGGESSVKEIKKVIKKLQIAAEKSMIKSDFVIKRNKNLYKVFGSALLDDYSVGLDRLFMIAKIGGVSTFLIILLVYALGITLVK;locus_tag=LOCUS_5110;note=WP_010902126.1 membrane protein (Halobacterium salinarum NRC-1) [pid:22.8%25%2C q_cov:67.2%25%2C s_cov:69.1%25%2C Eval:2.1e-20%2C partial hit],MGA_574
sequence49	MetaGeneAnnotator	CDS	3889	4068	.	-	0	ID=MGA_575;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSAKKAKKDKSGQMPASQAGLLTFFGDDSKGIKVSPIIVFGGALAIIVISIALRVFPVI;locus_tag=LOCUS_5120;note=MGA_575
sequence50	MetaGeneAnnotator	misc_feature	1	534	.	+	.	ID=MGA_577;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010870955.1:haloacid dehalogenase,WP_010870955.1 haloacid dehalogenase (Methanocaldococcus jannaschii DSM 2661) [pid:38.9%25%2C q_cov:49.7%25%2C s_cov:38.6%25%2C Eval:1.4e-08%2C partial hit],MGA_577;locus_tag=LOCUS_5130
sequence50	MetaGeneAnnotator	CDS	536	982	.	+	0	ID=MGA_578;product=50S ribosomal protein L15e;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870497.1;translation=MYKHSSTTWKTIYKNNYKQIRERVVDWRKQNTITRLERPTRLDRARTLGYKAKQGIIVVRIKVSRGGMRRPRPKAGRRQKHAGVVKMKANINMKQTSENRVSRKYPNLHVLNSYFVYKDGKNAWYEVILVDPSHPSIKSDTDFKYLVS;locus_tag=LOCUS_5140;note=WP_010870497.1 50S ribosomal protein L15e (Methanocaldococcus jannaschii DSM 2661) [pid:51.0%25%2C q_cov:98.6%25%2C s_cov:75.8%25%2C Eval:2.9e-39],MGA_578
sequence50	MetaGeneAnnotator	CDS	1027	1932	.	+	0	ID=MGA_579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNRYDVRAEKIITESSDSKSFIFTPIDNDDGLYDYLPGQFFMLESKISRPETIVYDKESKQMVPSGPDVEVVEKKAYSVVSSPTQKGHIELMIKSEQGVFAPYLLDQLHEGDTCTLIGPTGKFMKEIFEQNSPNIACWSAGSGIPSTLSLMQYCLDNGLDTQVVAFDSNKTQADIIYHEKIKEMVSKSDNFKAVFTATREPLDKLPKSKSDIKYKSGRFWTNENTLEKYTDNRGIIAKLLNKKTNWQDYYNTICGSSSFINGKGRDKDGKMAKLGEGVEDHLLKFNCSPSNIDKDQYYLQ;locus_tag=LOCUS_5150;note=WP_011728662.1 3-ketosteroid-9-alpha-hydroxylase reductase subunit (Mycobacterium smegmatis str. MC2 155) [pid:22.9%25%2C q_cov:59.1%25%2C s_cov:44.2%25%2C Eval:7.4e-09%2C partial hit],MGA_579
sequence50	MetaGeneAnnotator	CDS	1924	2286	.	-	0	ID=MGA_580;product=peptidyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010877304.1;translation=MSSIEIKQAIIVRTDLEMGKGKIAVQVAHASLSSAEIVKKHDNSLFKRWTINGQAKVALKVQSLEHLLDIQKEVQKKGIFCYLVQDKGLTQVDEGTITCLGIGPAVVDEIDEITKELKLL;locus_tag=LOCUS_5160;EC_number=3.1.1.29;note=WP_010877304.1 peptidyl-tRNA hydrolase (Methanothermobacter thermautotrophicus str. Delta H) [pid:51.3%25%2C q_cov:95.8%25%2C s_cov:100.0%25%2C Eval:2.0e-25],MGA_580
sequence50	MetaGeneAnnotator	CDS	2320	3507	.	+	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010871044.1;translation=MLIIINSIIMNPASNDVVIAGASISGLICAHELAQNNYNVTVIEEHDEIGIPEKCDGLISINALSSLGVIPNKKTIQNKITGARFFSPSGKLIDVDSSNLDIVVLNRNKFDNELYENAICAGAIVEKSTRFIKSDSYNSNIRIKSTSNQYDCKYFVDAMGVSSLMKKQKVGVLQAAKYIVKADWFEPNKVDLYFNQLLSPGFFTWVIPINENLAKVGIAGYGINSFNNLDYFLKDKKHTVLKKIACPIIVSGPIKTFIKNNIVSIGDSAAQTKPTTAGGIFSGGMAGLFAGQSLCKSLESHTNLLHIYENRWRDTFGSEFNSTRLFRKIYDNLDNRHLDDIFDILSSSSDLQNLINNSGDFDFHSFTLLKALGLKKITQLFNVVSSNEIKKLFNN;locus_tag=LOCUS_5170;note=WP_010871044.1 hypothetical protein (Methanocaldococcus jannaschii DSM 2661) [pid:29.7%25%2C q_cov:91.9%25%2C s_cov:95.9%25%2C Eval:1.2e-36],MGA_581
sequence50	MetaGeneAnnotator	CDS	3633	3830	.	-	0	ID=MGA_582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEISGSKVEAFNPGPVGEIFTRATRIPIKNHYGPSNPQSEQEYNRLNLRHFEHRHNVLSVQLGH;locus_tag=LOCUS_5180;note=MGA_582
sequence50	MetaGeneAnnotator	CDS	3745	4032	.	+	0	ID=MGA_583;product=elongation factor 1-beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869959.1;translation=MGILVARVKISPTGPGLNASTFEPLISDILPVGSKIRQIKEEPLAFGVFTIFADIEFEDNPGALDVVEECLNKLEQVSELETIAVSNTSTSTGEV;locus_tag=LOCUS_5190;note=WP_010869959.1 elongation factor 1-beta (Methanocaldococcus jannaschii DSM 2661) [pid:34.5%25%2C q_cov:90.5%25%2C s_cov:97.8%25%2C Eval:9.0e-10],MGA_583
sequence51	MetaGeneAnnotator	CDS	873	1712	.	-	0	ID=MGA_586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPLRELRTYISALSIIPIAVMIANPVVVTAFASYLSSIAFFSAFGLIFVYLLLKQIGFIKSLGPNQQVFFESLLLVLPIIIPMFTVLTTGNPSDFIAAFLAYLVIGTIVSLSRVVIGAGVGAFGKVLYFFFAYMMALMVYAGCVAGAITGETFSLLLAFDQIAGIATYLGYQGHPIELPLIEYVRLGMAFAIPGITFSALAAQVRLSEVRDNPGGESKMVSSLRSSVALLTLGSALLLLPVYLISIAMYNFAPYLVTILPPVLVMGFILLSLYFVERE;locus_tag=LOCUS_5200;note=MGA_586
sequence51	MetaGeneAnnotator	CDS	1690	2922	.	-	0	ID=MGA_587;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKHIRLLIGFFGLMTICSLALLPNATLAMLSVMFALCINLVLFKYLKPSNNFEITRVFDKYQVMPPADIHTSLEMKYSGRFPANASVEFDCKSLGLNVNTGTVVFQPGQKYDISKTFVADRRGIHKISNTKIVVKDWLLLSGITIASNDEAEILVLPHIYPFETSPQTSAAGLLGVSSAVKQGRSSEVWGIRDYQPGDDFKIISWKAMAKSPDHKPKSKITAGEEGQAITIVADIGKDSELPNGDQISLDISADLAASLAYNFIKRGTRTGLVLFDTRSRAILKPARGDAHVDSLLRNLAKVEPSQDKFLITSFTNAYLDLSASEFGNSFILILTRTDDRLIESYLSKLKSSRDLIIILIYNEDNYERAQQIQKTVQDNGIEIILTNHSSILDTMKKMEEWSYATVKRT;locus_tag=LOCUS_5210;note=WP_011250796.1 DUF58 domain-containing protein (Thermococcus kodakarensis KOD1) [pid:24.7%25%2C q_cov:57.8%25%2C s_cov:53.1%25%2C Eval:2.8e-07%2C partial hit],MGA_587
sequence51	MetaGeneAnnotator	CDS	2929	3912	.	-	0	ID=MGA_588;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250797.1;translation=MIETLKSTEDIKNLRDKLKVEIGNNLVGLDNIVDSLIISILVGGHVLIEGFPGTGKTLIANLFSKSVESTSNRIQSTSDLMPSDITGTRIYNPKEREFEFRSGPIFSNFVIVDEINRAPPKSQSALLECMQERQVSVEGMTRKMDEPFMVLATKNSIELEGTYPLPEAQLDRFLFRLIIDYPDKDSEAEIIKRRIGHSPEISSVVSKQAILEGKDMIHSGINAEKNVLEYISSLVQNTANIPKVTLGASPRASVALLYASKGYAAVTEGRSYVIPDDVKAVAFDVLNHRLILQQNALLDLDDSDSNSATEYLRKIVQDCIEEVIVPV;locus_tag=LOCUS_5220;note=WP_011250797.1 ATPase (Thermococcus kodakarensis KOD1) [pid:50.5%25%2C q_cov:85.9%25%2C s_cov:89.3%25%2C Eval:1.1e-72],MGA_588
sequence52	MetaGeneAnnotator	misc_feature	1	511	.	+	.	ID=MGA_590;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010930038.1:NADH-quinone oxidoreductase subunit M,WP_010930038.1 NADH-quinone oxidoreductase subunit M (Bordetella pertussis Tohama I) [pid:38.7%25%2C q_cov:65.1%25%2C s_cov:22.2%25%2C Eval:4.6e-14%2C partial hit],MGA_590;locus_tag=LOCUS_5230
sequence52	MetaGeneAnnotator	CDS	513	1961	.	+	0	ID=MGA_591;product=dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011021520.1;translation=MDTPIIVLIVLTSVAVTSPLYGMIFGKKSIKYVQYLTTFSLLVSLVLLISSTLSLTPQESTVPHLLRNDTLGSFFSLMVILVTLFVTITSFDYMKGNSNESIYYSLLLFTAIGMTMLSFAVDLLVIFVAWELMSLPTFILAGYNKQDKLSNEAAVKFFILGALSSGILLYGISLMFGLTGSTNLEVISQSLPSLSPDMLPFIIFSTVSMLAGLGLKLSIVPFHMWIPDTYEGSPTTVSALLSAATKKAGFAAAIRIFAIIFPLFYFDLSLALSIVALVTMTLGNLAALTQKSITRMLAYSSIAQAGYLLIGIVVLPYSDLGLIGLLYHSFNHAILQASAFLAAGLVRLKTSSSSLESYNGLSKVMPITSFCLALSLLGLAGIPPLNGFWSKLVLFAAAVDGGYTWLAFAGLINSAISVAYYLLVIKRMYMDETSLKAMKEPFVFVSILVFASAIIIVTGLLPNVLYDVSENVTMSFLTNNPV;locus_tag=LOCUS_5240;note=WP_011021520.1 dehydrogenase (Methanosarcina acetivorans C2A) [pid:35.0%25%2C q_cov:96.7%25%2C s_cov:97.3%25%2C Eval:2.4e-80],MGA_591
sequence52	MetaGeneAnnotator	CDS	1945	2847	.	-	0	ID=MGA_592;product=serralysin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868037.1;translation=MSTFKIIKNGKGRILLNREELIRELENRSRSYIVRFDKALVKVFDNHLWSSFHEPLIYATHGGKRIRPLILMLSAEAVGVPSTKTDLASVAVELLHTESIIHDDIIDEQIKRRNRDSFHKRYGNNTSILTADFVFGIILEIASRYNDPRVAKELSLAATKMCEGEQRELSMNSREVPWVEYLTVISEKTAALFQTSSKLGAIIGGGNEEEIDALAGFGVNLGIAYQIHDDILDWETDNKFSNDMKIRHNSEDNKYVTLTKLKEMANVYAENAKNSLNVIKDSEQKEFLHDLADFTIRRDY;locus_tag=LOCUS_5250;note=WP_010868037.1 serralysin (Pyrococcus abyssi GE5) [pid:31.1%25%2C q_cov:81.0%25%2C s_cov:87.3%25%2C Eval:4.7e-32],MGA_592
sequence52	MetaGeneAnnotator	CDS	3130	3726	.	+	0	ID=MGA_593;product=peptidyl-prolyl cis-trans isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I7T6;translation=MSSRNNRIPIIIGLVLLILVGLFLLNNNSDSSDSMGSGSGPIAVIETNFGNIIIQLFPDVAPGHVDNFVKLAQDGFYDGTTFHRVIPGFMIQGGDPNSKDEDRSNDGQGGPGYMIKAEFSQDLTHKRGILSMARAQDPNSAGSQFFIVVADSPFLDKQYSIFGEVIEGMDVADQIVNVQRDSMDNPKEKITMKVTIRS;locus_tag=LOCUS_5260;gene=ppiB;EC_number=5.2.1.8;note=A5I7T6 peptidyl-prolyl cis-trans isomerase (Clostridium botulinum A str. ATCC 3502) [pid:54.1%25%2C q_cov:77.3%25%2C s_cov:88.4%25%2C Eval:6.1e-41],MGA_593
sequence53	MetaGeneAnnotator	misc_feature	1	1368	.	+	.	ID=MGA_595;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_000863308.1:aconitate hydratase,WP_000863308.1 aconitate hydratase (Leptospira interrogans serovar Lai str. 56601) [pid:53.1%25%2C q_cov:98.9%25%2C s_cov:59.7%25%2C Eval:3.1e-135%2C partial hit],MGA_595;locus_tag=LOCUS_5270
sequence53	MetaGeneAnnotator	CDS	1363	1602	.	-	0	ID=MGA_596;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIECIKCNMTKESIEVLNFKGDLGVEIQESVCNECFLEWENDMQMKVMNEYRLDLSNKEHRDFMIKKMKEFFTLIETEL;locus_tag=LOCUS_5280;note=MGA_596
sequence53	MetaGeneAnnotator	CDS	1654	2136	.	+	0	ID=MGA_597;product=flavin reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256436.1;translation=MREVFVPISTNKFKKTLGSFATGVTVVTTCLDSKLHGLTVNAFSSLSLNPPLVLICIDKKSESNKILKQSKIFAVNILSKDQKNLSKIFSDSKNKNRFHKVKTTTKITGSPIIVNSLGYIDCSVEKIIPAGDHNIFVGKIKSLNTKNLDPLIYYRGNYLV;locus_tag=LOCUS_5290;note=WP_012256436.1 flavin reductase (Chloroflexus aurantiacus J-10-fl) [pid:43.7%25%2C q_cov:94.4%25%2C s_cov:96.8%25%2C Eval:5.8e-29],MGA_597
sequence53	MetaGeneAnnotator	CDS	2129	2629	.	+	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNSSKRIAVCGSNIITSESIINIAENIGSGIAKNGGILLCGGMGGVMEAASRGVKNYNGITVGILPTNDISDANPYTDIIINTSLGKIRNFFVVSLADVVIGIAGSWGTLSELSMAMNLDKKVILLANTGGVVDLLINNKPQISSSTFFVAKDANTAISEAFSSN;locus_tag=LOCUS_5300;note=WP_011022480.1 TIGR00725 family protein (Methanosarcina acetivorans C2A) [pid:44.2%25%2C q_cov:62.7%25%2C s_cov:61.5%25%2C Eval:2.4e-20%2C partial hit],MGA_598
sequence53	MetaGeneAnnotator	CDS	2699	3628	.	+	0	ID=MGA_599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLLTGLKFSVLLISLLFLTITIPVSHAQAPAVITNFTILDPNGNDVTDEFLVAGGSYTINFEIEIGATLSDNILLTTSMEKSGNSFWTLNNNYEGVDTSTWTPGSQSITFQAVEGNAQFTLNGKIPEAITEKEIIEIDKTIHALELVPLLVMSLDSMEILDERTYTITDQTIISYDALLQSKKDKLDSTSMEGKYNSLALEIVSEAEYLTSFGFYNDAIQLLETIPDSDYPAPPSTTTLFIIASVVLGLTTIVFALLFVRTRSSTSYLSSSVSEKADKLDLLLIKASRIDKSLADDLETIKRELKELV;locus_tag=LOCUS_5310;note=MGA_599
sequence54	MetaGeneAnnotator	CDS	105	488	.	+	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLHSEVEAQAIIPFLRTTVAKILIDKYSLTQQQSAKKMGITQATISNYMNRSRGNIELYLITERIQSYAEQIADAIMDESNEIIIGEKFEVALKFIREQGIIYDLHQELENNHIIKDCPLCSNRQK;locus_tag=LOCUS_5320;note=MGA_601
sequence54	MetaGeneAnnotator	CDS	514	2202	.	+	0	ID=MGA_602;product=spermidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258554.1;translation=MNIMSNEIVNSKYFFYLLRVQVFISGASIMGLELLGSRLMSPYFGNTLFVWGSLIGITLTGLSAGYSYGGKISDREASYQTFSLLIFIAGGYTLLSTLLAGEIFKIILLLKIGEIYGPLISSIVFLLVPAFLLGTVTPFAIKLSTKSMKTIGQTAGNLYSLSTIGSIFGTFATTFILVPILGVDVILYSISVILIISSLIGISNQIKVIAIILICISMYSAIFVQAPLAGVVFEKDTQYHKLLVHDDSVTNIRTLILDNNFHSAMDLENKDRIVYEYTKYFHLGLLFTDNTQDVLFIGGGGFSAPKRFLVDYPEINIDVVEIDKDVVSAGKEYFFLPQDERLEITTDDGRIFLRKTDKKYDIIVLDAYDKTYVPFHLMTKEFHQLIADHLTDDGVLISNIITSIDGDSATLFLAELKTMDSVYHNIHIYPVVSEQDRVIQNIIVVAQNKEDRITKLELMSRHENINIDLSEEIEKEFKGTLEFNSYKILEDNFAPVENYLNPLTGKQYVKRIILEDGVVIETSDDNKQDWNPELGMNQVLLILISTIVLVYSIYSYSYIDKT;locus_tag=LOCUS_5330;note=WP_012258554.1 spermidine synthase (Chloroflexus aurantiacus J-10-fl) [pid:28.2%25%2C q_cov:77.0%25%2C s_cov:83.7%25%2C Eval:2.8e-43],MGA_602
sequence54	MetaGeneAnnotator	CDS	2214	3623	.	+	0	ID=MGA_603;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P21880;translation=MAEFQVVVIGAGPGGYLTAIKLSKLGHKVALIENDKLGGECLNYGCIPSKTMINTSDMYHKITDLSGQGIEVEAVKVDLEKFQTWKNSITNKLRGGISLLCKNYGVEVISGTAKIKDKNLVEIINGEDKNEVSTEYIIIATGSRANDLENLRFDGNQIISAKDVLDLDKVPKSMLIVGGGAIGLELGTALAKFGTQVTILEITDKLLPGIEQDLVNVVERSLEEIGVRVLLNSKITEMSKESDVVVSIDNNSKTLNEKFEKVLIAVGRRANVENLGLEEIGVELDNNGFIKVNENMQTNVSNVFAIGDVIGPPWLAHKAYMQGRKLAYYIAKIPTDIQIEHIPYAVYTEPEIASVGLTEEKALEQNYDIRVGKFQFMANARALTSNDGKGFAKLVVDNKTHEVLGVHIVGKNASELISEGILGLNLGMKIEDVEKSIHPHPTLTEALFEAAMASLDKSVHSFMKKSKTE;locus_tag=LOCUS_5340;gene=pdhD;EC_number=1.8.1.4;note=P21880 dihydrolipoyl dehydrogenase (Bacillus subtilis subsp. subtilis str. 168) [pid:41.8%25%2C q_cov:97.7%25%2C s_cov:97.7%25%2C Eval:1.2e-97],MGA_603
sequence55	MetaGeneAnnotator	CDS	169	2247	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPYRTSKRVRTIYSVIASSNRLDILRILNSKGPLSYSELKTLAGFKSKKESGKFAYHLRKLVKQMLVTLNRSERRYNVTNLGRLILNLTRQIEEQSVIESGKIYVRTSKEMMEEFKPDKILQALVKEAGMPVDLAQKMTSEAEARLYKFQTSYLTAPLIREIVNALLIEHGYEEYRHKLTRIGLPIHDVTQMLKQSTRSDNSVSSLVTQTSKEVFSEYLLLNQLSRDVTDAHLSGDIHISNLGVWGLKPDTIFVNLNSLPTQGIKVKGKLLNSVKINKAESFSDSIANIVLLTTELSKEINTEIAYNNFIEYIISFSDNKAVNSKESILQMFKMISQIVSEESNPCVSINLAIQKNIKIDEKQLSKLYKLILESYEDYIQTVAIPKITLIIPSIGLQNTELSKKLFGIIKKGGYIAISNDAKSNFSYTGINKSIIKNSAGGNIVLHAVSINLPRLAYESNKDDTYFRAKVNLILKTGISALSTRREIIDDMIGKGLLPLLNINTGIISNQKIPLIINLTGLDEAIDSLLGTKSTAKERGKLAGKIVDTAMEEISNSGKKLGEEFGLSLIADDSAKRFTNIDIDKFGKGRVITKSESKEYQQSIILSLEEPERIEEIYTYMNKFKGGHSIYLDVSNSTIKNFLDITNKVSKKANFFKYYCKLKVCIACASKNVYNTEKCSNCNSTSLQEYPVR;locus_tag=LOCUS_5350;note=WP_048061309.1 anaerobic ribonucleoside triphosphate reductase (Methanothermobacter thermautotrophicus str. Delta H) [pid:32.1%25%2C q_cov:26.7%25%2C s_cov:25.1%25%2C Eval:5.7e-25%2C partial hit],MGA_605
sequence55	MetaGeneAnnotator	CDS	2448	2585	.	+	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIIFRRYKKNRQNVNLNDNTFTSVDLPGNMLNALILRVHIRLS;locus_tag=LOCUS_5360;note=MGA_606
sequence56	MetaGeneAnnotator	CDS	223	513	.	+	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEEEATATEVEEVPEGEQVEEQVEEKPVTKPKGKRQKRKARFSPQIYKFYKVDDDKVTRLRKDCPRCGKGNFLAEHSDRLSCGKCGYADFKQIKK;locus_tag=LOCUS_5370;note=WP_010878609.1 30S ribosomal protein S27ae (Archaeoglobus fulgidus DSM 4304) [pid:58.5%25%2C q_cov:55.2%25%2C s_cov:96.4%25%2C Eval:2.1e-14%2C partial hit],MGA_609
sequence56	MetaGeneAnnotator	CDS	518	1351	.	-	0	ID=MGA_610;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQRNLNLNDEKERILRIINKVTKGLDIEAICIYGSRVAGYANEKSDYDLIVVINNYKKKVRYRYIFDKIEISAIFVDKESLVYDAKEAKLGEFIVGRLLNPYEVLLNKKFFDSIEIEYKKRIILELIERLQIRYRSLIEYLRVPSEYFLFQKLNFRMRMYPPVKYSYIMTYSGKINSRNIKKSVKGFDRAAKLLQKENQLHFEDGIIRMNMNKRRNRFVMNLMIVRRIINHYYIHLKAGRVKYNIAFKELFSKISRKKHIKEIPEYLIKPESLLKTN;locus_tag=LOCUS_5380;note=MGA_610
sequence56	MetaGeneAnnotator	CDS	1323	2102	.	-	0	ID=MGA_611;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNVDYESFGKSKDNNVPEKIIKDPFGKFEDINIQNTIPKKIIKDIIRKREFIENGINRIEEASKIKYPEYYVEPVLPVAFTSLERGSPTPYFARNIFHIWKGEIRIIIQLSAPLIAFGLKGTIQAILAHEFLHYIEYVRKFEKLDIISDEISSTLFEAKYADACRSFKPELIFTHSNKSPQILKHLREKFQNHSVGERLIKKTKEDWINKSLPVRRVSLENNVSSIPIETIMKTRFDLDIGRTIKELEQNAKKSKPKR;locus_tag=LOCUS_5390;note=MGA_611
sequence56	MetaGeneAnnotator	CDS	2175	2651	.	-	0	ID=MGA_612;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010867261.1;translation=MEKFDEIDIMILGELTQESNISIPKLSEKIEINSSVVYSRINRLIRKGFIKKFTLEVDENLLGYPVKAIIGCNISSRQRETILEDIEKIEETREIIEITGRFDLLIWISAKSLDDLHGLVSKQVSQISGITHTETFIEMKRNKLNFIARINSEISKKK;locus_tag=LOCUS_5400;note=WP_010867261.1 transcriptional regulator (Pyrococcus abyssi GE5) [pid:28.1%25%2C q_cov:85.4%25%2C s_cov:85.4%25%2C Eval:3.6e-12],MGA_612
sequence56	MetaGeneAnnotator	misc_feature	2697	3592	.	-	.	ID=MGA_613;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010879003.1:aspartate-semialdehyde dehydrogenase,WP_010879003.1 aspartate-semialdehyde dehydrogenase (Archaeoglobus fulgidus DSM 4304) [pid:47.8%25%2C q_cov:95.6%25%2C s_cov:82.5%25%2C Eval:2.3e-63],MGA_613;locus_tag=LOCUS_5410
sequence57	MetaGeneAnnotator	CDS	952	3492	.	-	0	ID=MGA_615;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762568.1;translation=MTEQIENENMVLLSASYDGTEKKACLKFYDEKTNTIKLWYDSTEHKPYCLVKKDTDEKLLETFKNEDKIVVEETTKIDLLNDKEENMLKIIADNPLIIGGMPGRSIRDRVVAWEADIKYYETYMYDKSLIPGIYYKIKDNQIIPTKFTTPKETNEMLQKGIENADDDIKEKINEWAELLSQPLPNIKRVALDIEVQSDKMDRFPDAGEARYQIISVGFAASDNLKQVIMLRREGIESGTNELEKDIDVIFVDDEKTLLENVFKIIRDYPCIITYNGDDFDLKYIYNRAIKAGMKKEEIPIQLGRIEANLKHGIHLDLYRTFLNRSIQIYAFGNKYSEHSLNAVSTAILGKSKIEFTGEIGQQTYYHLAKYNFNDAEITLELTSFDGDLLMKLLLVISRITKMPINDLSRIGVSNWIRSMVYFEHRKINALIPRKDELAIDDDELKEMSSEAVIEGKQYQGGMVLEPKIGVYFGVSALDFASLYPSIIKVNNLSYETVRCKHKEHQKNLIKGSKHWICNNRRGIISLLVGSLRDIRVNYYKPLPKMEGLSSDDRNLYSVVSQALKVILNASYGVLGAPIFPLFFLPVADSTAAIGRNIITETVEAAKNNNIEVLYGDTDSLFIKSIDQNEIDNLISWSQKNQGVDLELEAKYRYAVFSERKKNYIVVKNNGQVIIKGLTGKKSHIPLFVKEAFYEAIDKLGEAETEKDFEKVKTEVRNIARESNKLLKEDKVPIEKLAFRMMLSKSTKMYKSTIPQHVRAARLLEEHNREKGDTEVMKPGDIISFVKTIGGVKPLELAKIREIDKKKYEEIMKSTFDQLLGPLGYSFDDILGVTRLEDLFWSSNTEN;locus_tag=LOCUS_5420;note=WP_011762568.1 DNA polymerase I (Pyrobaculum islandicum DSM 4184) [pid:40.9%25%2C q_cov:97.5%25%2C s_cov:95.3%25%2C Eval:1.9e-179],MGA_615
sequence58	MetaGeneAnnotator	CDS	7	1293	.	+	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSITRPRLAEPVTKINAENSWSFDNLTQKDTNYLTHCYHRYPAKFIPQLARRLILENSRNGDIICDPFYGSGSTILESILQNRIALGTDVNPIAHMITMAKTTPLDPSKVSKTKLSLHSKIKNSSREENYDIPTELSKWFDQETYNVLNHLLLQIKLIKPRKLQIFFLCAFSHILKTSSYWNNGSVKPHKDKTKFLNRVNDPLSRYFAQVDKMELRNKQLIDALSPKILKNLDFYRRAFVGDLQNLPTNDKSSLIVTSPPYVISYEYRDIHSLSLSFLEDFFTDIPSKKHFIGSSHRKSNDNNLYSYTGGLIADSLLSSSKSLSKTVHSYFIDMQNFFHKSYNLLKNNGKMAVVIGNTALRGVDISNTQVFDEILATIGFTEDKIIKRKIPFKCLPTTRDPKTGRFVSSNSNHNKSYSHEYIMIYSKN;locus_tag=LOCUS_5430;note=WP_012545124.1 DNA methyltransferase C1 (Thermodesulfovibrio yellowstonii DSM 11347) [pid:27.5%25%2C q_cov:86.4%25%2C s_cov:70.3%25%2C Eval:2.3e-23%2C partial hit],MGA_616
sequence58	MetaGeneAnnotator	CDS	1354	1854	.	+	0	ID=MGA_617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILQKKNQLITHQDGDLDKLIECDKAFEQKDLTFFINLLQQDESISVRTRCVCVLADIGDNSVVPILSELLQTDETPLVRHEAAFTLGQLGFPQCVTYLIEAMLTDIDHVVRHEAAVALGSIGNESARDALIRATSDEDQLVSHSAYSSLLNLDLLKINLNKNSSK;locus_tag=LOCUS_5440;note=MGA_617
sequence58	MetaGeneAnnotator	CDS	1896	2981	.	+	0	ID=MGA_618;product=histidinol-phosphate transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496679.1;translation=MKIRKFIKNFVPYSWEPSTDDIAKSIGKKPNEIVRFDTNVSHKTPMDWLKQLSNEFDNLEINRYPDSSYISVRKLLADYCSCDVDELILTNGADEGLFMVGSLFIEPSSNVILSTPTYSYYEKMIQILGGNVKEITRNPDFSDNFSQISENIDADTSLIVLCSPNNPTGNLVNKNSLEQLLKNSDIPIVVDEAYFEFTDSTVSDLVTRYDNLIVVRTFSKAFGLAGLRVGYLISSNNTTSLLNKVRPPNSVGELSVNLSRIALNNVSWIENNVKEILSEKKSFIDRVSKINNIEIIPSSSNFMLLKFLNYNGSNIYEKLLHKGIVVRDVSGTKGLEDFIRINIGLPDENNKLIQAIEEVSN;locus_tag=LOCUS_5450;note=WP_064496679.1 histidinol-phosphate transaminase (Methanocaldococcus jannaschii DSM 2661) [pid:29.6%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:2.1e-48],MGA_618
sequence59	MetaGeneAnnotator	CDS	557	1207	.	+	0	ID=MGA_621;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q6HEV5;translation=MKIAPSMLASKPENFVHDAQILEKANVEWFHIDMLDGTFTNTHAFPVEDLRIINNATDSPMDIHLMTNHPIESLPEYIDAGGDMLTAHVEAVNPRKYIDAVKKYDKMVGLAVNPDTPLSSIVDYIGELDRILIMTVVPGKTGQSFIEAPLSKVKEARQLIDKHNYDVELCVDGGINEKTAPLAIEAGVDVVVSGAGILYKDDMIKAVEDLRALASK;locus_tag=LOCUS_5460;gene=rpe;EC_number=5.1.3.1;note=Q6HEV5 ribulose-phosphate 3-epimerase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:34.4%25%2C q_cov:97.7%25%2C s_cov:99.1%25%2C Eval:7.8e-35],MGA_621
sequence59	MetaGeneAnnotator	misc_feature	1209	3183	.	-	.	ID=MGA_622;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_011142294.1:transketolase,WP_011142294.1 transketolase (Gloeobacter violaceus PCC 7421) [pid:55.1%25%2C q_cov:99.7%25%2C s_cov:96.7%25%2C Eval:6.4e-212],MGA_622;locus_tag=LOCUS_5470
sequence60	MetaGeneAnnotator	CDS	1323	1649	.	-	0	ID=MGA_624;product=methionine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880236.1;translation=MEIINFDDFTKMKIKVGKIINAEAVEGSNKLIKMKVDIGEEERQIVAGIAKYYQVDDLINKIVIVLVNLEPRKIFGNESQGMLLASINGDEVSLLQTDKEMLPGSEIG;locus_tag=LOCUS_5480;gene=metG';note=WP_010880236.1 methionine--tRNA ligase subunit beta (Aquifex aeolicus VF5) [pid:45.7%25%2C q_cov:97.2%25%2C s_cov:94.6%25%2C Eval:2.0e-25],MGA_624
sequence61	MetaGeneAnnotator	misc_feature	1	654	.	+	.	ID=MGA_626;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010978287.1:tRNA guanosine(15) transglycosylase TgtA,WP_010978287.1 tRNA guanosine(15) transglycosylase TgtA (Sulfolobus tokodaii str. 7) [pid:32.7%25%2C q_cov:68.7%25%2C s_cov:28.7%25%2C Eval:5.5e-12%2C partial hit],MGA_626;locus_tag=LOCUS_5490
sequence61	MetaGeneAnnotator	CDS	645	1349	.	-	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISAKLFPDDLDVKGLSLITGFHGIGSTGFLALNHLINSLQPERIGVFETDYLSPISSINSGKIVTPFEIYKQDNLAFLRVAVPPLQGNEIVFLRNVCEIILEKNFKELILLGGLDAQLKKDDSNFRYVKTSSYQLPKSLLDSTPLEDERIIIGPVAQMLNFMEVRNFPTLGLLPFATSIRLDPRAASEAVRILSEIFNLNIEIDTLIEQAVELETDQPNLVENINSNPSNIYS;locus_tag=LOCUS_5500;note=MGA_627
sequence61	MetaGeneAnnotator	CDS	1396	2664	.	+	0	ID=MGA_628;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010980269.1;translation=MKLTTLGASREVGRSAFLLEIENKKIILDYGVQIRQPMTWPLHVNPKDIDAIILSHAHLDHSGGVPSFYLSNNIKTYCTNPTAEISNLLIDDFINLSNDVTKQYLPYQHQELEKMKENIVDIGMNSEFNIGEIKVNFVNAGHMPGSVSIVMEGEGKRVVYTGDINSSDQNLVKGADTKYGDVDLLITEATYGVNDHPDREDVEKEFVSFAKDITERGGTLLVPAFAVGRSQEIACVLESHNFSLPVAMDGMALKTNQILLKNLEFLGEPELFKRMINGLTEAKNWKQRKELMNTPGVIIVPAGMMVGGLSSYYKGNIAMNKKNAISLVSYQAEGTPGRTLLEKKMIRVDGKLKKIKGKFEHFNFSSHSGSKQLFEMIDGIKGNPTIVAVHGEEEQTTSFVEKVQKDYGYEAIAPELGDKIII;locus_tag=LOCUS_5510;note=WP_010980269.1 MBL fold metallo-hydrolase (Sulfolobus tokodaii str. 7) [pid:39.0%25%2C q_cov:98.3%25%2C s_cov:97.6%25%2C Eval:4.4e-80],MGA_628
sequence61	MetaGeneAnnotator	CDS	2661	3065	.	-	0	ID=MGA_629;product=iron-sulfur cluster scaffold-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259321.1;translation=MSEDIYKEIILDHYRNPRNKGKLPDSEISAQDNNPVCGDRISIDIKLENNIVSDIKFDGEGCAISQSSASILTDMLMGKTVEELSKFTKDQLLEELGTPSLGPARIKCALLSLKVLKIGTYQYLGTELPDDSEN;locus_tag=LOCUS_5520;note=WP_012259321.1 iron-sulfur cluster scaffold-like protein (Chloroflexus aurantiacus J-10-fl) [pid:47.5%25%2C q_cov:88.8%25%2C s_cov:92.3%25%2C Eval:3.9e-29],MGA_629
sequence62	MetaGeneAnnotator	CDS	174	815	.	+	0	ID=MGA_631;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_048065874.1;translation=MKNIEIIYNRLRSSYPPIDTSLDYKTPFQLLIATILSAQCTDEVVNRTTKILFNEYSEPEHFVKANINKIKKIIRPTGYYSLKANRIKKTSKRIVEIFNSEVPSNMEDLLTLDGVGRKTANIVLSVAFNKTEGIAVDTHVNRLSNRLGLTKYSNPEKIEMDLMKNLKKENWDRFSILLILHGRKVCQARKPDCDNCLLNDICPYFDSKKKLKS;locus_tag=LOCUS_5530;gene=nth;note=WP_048065874.1 endonuclease III (Methanosarcina acetivorans C2A) [pid:50.7%25%2C q_cov:94.4%25%2C s_cov:85.9%25%2C Eval:8.9e-52],MGA_631
sequence62	MetaGeneAnnotator	CDS	793	1707	.	-	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTSTIINLSINDYAFYWSLPELIGIKNGYYEEENLKINVNNVTPISQVKSKSQMYIDLQKKNLSDFYHAAEYVSLSRVVESENSSIVCYSPWNKSAINGSFGLYVQPDVSSPQELKNKKIAVEASTGSYYTTIEDLEKYFSIEDSNLLKLGDPHERLLSTLNNETSASSLMGIYCDFALSLGLKKLMESNRRKGTLMISRNDMDVDIIRSFINATNKSINYINNNPDDIREFYLNKCQFIINKFSKHQQQIINETISDISIPYWEPWQKYSENAFNEIYSWMLKRKLITSINYSDIVNSSVFS;locus_tag=LOCUS_5540;note=MGA_632
sequence62	MetaGeneAnnotator	CDS	1933	2412	.	+	0	ID=MGA_633;product=acetolactate synthase small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_064496411.1;translation=MSNEYLISTVVENKPGVLYRTANVFRQRGYNIRSISVGELRDNSMSRMTFLIDAEENAINQLVKVMDKQTDVVDVKILDPKRLIKKELALIKIYVKDQKMIPKIRDISNIGTIIDESVNSVVIEVTGTSEKITDFVELASDYGKIDISRTGLTAIERGE;locus_tag=LOCUS_5550;note=WP_064496411.1 acetolactate synthase small subunit (Methanocaldococcus jannaschii DSM 2661) [pid:36.2%25%2C q_cov:99.4%25%2C s_cov:95.2%25%2C Eval:8.2e-28],MGA_633
sequence63	Aragorn:1.2.38	tRNA	1045	1131	.	-	.	ID=Aragorn_5;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0040;note=Aragorn_5
sequence63	MetaGeneAnnotator	CDS	1235	1456	.	+	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQEGLALHIAKSGRLIIQCKSKKVKGKNVFDQRGNKIAKISEIIGPVKAPYISAIPLNDKAKRVIGKKVYIK;locus_tag=LOCUS_5560;note=MGA_636
sequence63	MetaGeneAnnotator	CDS	1466	2383	.	+	0	ID=MGA_637;product=transcription initiation factor IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010878796.1;translation=MAIQNSESVFCNSCRTPLIGDIERGEYVCPGCGLVGNDRIVDTGPEWKAIDSEDKMKKVRTGAPTSLALHDRGLSTQIGDIVKDGNSANNKSMERMKKWQQRLRTSSSQERGLANVLGRISEFSRLLNLPDSTKETAALIYRKALGNGTAKSKSIKGMAAASIYLACRKCGTSKSMREISDVSGLPKPTIAKYYRLILKDVEQEHVPLHPLQGYISKLVNKAELDPKIQLCAIRMANQINDTKLTSGKSPAGIAAAFVYISSVMLGEKIPQREIAEYADVTEVTIRNRTREILDRYTIRQIIKTK;locus_tag=LOCUS_5570;gene=tfb;note=WP_010878796.1 transcription initiation factor IIB (Archaeoglobus fulgidus DSM 4304) [pid:40.4%25%2C q_cov:98.4%25%2C s_cov:93.9%25%2C Eval:2.5e-60],MGA_637
sequence64	MetaGeneAnnotator	misc_feature	1	548	.	+	.	ID=MGA_638;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_064496567.1:phosphoglycerate kinase,WP_064496567.1 phosphoglycerate kinase (Methanocaldococcus jannaschii DSM 2661) [pid:38.2%25%2C q_cov:91.2%25%2C s_cov:41.0%25%2C Eval:6.1e-26%2C partial hit],MGA_638;locus_tag=LOCUS_5580
sequence64	MetaGeneAnnotator	CDS	558	932	.	+	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKQEFPAWLAEEISSVKMKKVETLELTGYLLDINKKESKIDIQFYQQLPDGRQIATLVIGKKKMLKDLESEHNKSRDAPEFNFKVVVNKASLSNKAKEYLSENYAMTLDNLYGFELESFNLLK;locus_tag=LOCUS_5590;note=MGA_639
sequence64	MetaGeneAnnotator	CDS	975	2243	.	+	0	ID=MGA_640;product=3-hydroxy-3-methylglutaryl-CoA reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010879232.1;translation=MAERSSRIPGFYKLNANERSSKLKEFANLTNEEMRIIESMSGIELDDAAKMIENTVGGISIPLGIVTNFIINENEYLIPLATEEPSVIAACSNAAGIGRKKGGFTAKSNGNIMRAQIQLIKINNIELVKKDIREKKSELLELANEKTPTLSSMGGGAKDIQLKELDTKRGKMLIVEISIDCKDAMGANACNTVAEALSVKIEQISGAKALLKIVSNLATERMVEASATFDKELLGGDRVVEGILDASEFAQNDPYRAVTSNKGIMNGITALAIATGQDTRAIEAAVHAYASISGKYIPLTTWEKDSLGNLIGRIEVPIPVGIVGGASSVHPSSKICLKILKVKTASQLGEIIASVGLAQNLAALRALVAEGIQEGHMKLHAKNIAISAGARGKLIEQISEIMIQEKNVKFLRAKELIKKLEK;locus_tag=LOCUS_5600;note=WP_010879232.1 3-hydroxy-3-methylglutaryl-CoA reductase (Archaeoglobus fulgidus DSM 4304) [pid:53.6%25%2C q_cov:98.6%25%2C s_cov:95.0%25%2C Eval:3.6e-122],MGA_640
sequence64	Aragorn:1.2.38	tRNA	2252	2326	.	-	.	ID=Aragorn_6;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0050;note=Aragorn_6
sequence65	MetaGeneAnnotator	CDS	230	832	.	+	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQFTTSTLDINEIAKIVDNGGIIAYPTDTVYGLGCNPYIPDSVTKIFEIKLRTNKPLPLLCSSIEFASKIASFDSISLKLAEEFWPGPLTILVPITDDSLKTLTCGSNFIGLRVPDNVVTLSLLSKCDGYLVGTSANISGSGSNYYASSVISQLPNIDAILVDDIKNKSKESTIIKVENNDITIIRQGSLDSQSINNIL;locus_tag=LOCUS_5610;note=Q831F8 threonylcarbamoyl-AMP synthase (Enterococcus faecalis V583) [pid:34.0%25%2C q_cov:95.5%25%2C s_cov:57.9%25%2C Eval:9.1e-24%2C partial hit],MGA_642
sequence65	MetaGeneAnnotator	CDS	827	1873	.	-	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPHNKLQTIFSDIKTTTLADVFIDRIVKVKNLDELVKQSKAKALVGGGSIRGIEQKEIVGGNATNIAYSLVKFGSETQLFVIGDEFTKRILDLRFEKFTNIKINMINGRPGFTIALETDYKNDSNIMISDVGGIEEFDGKVIIDNYLDVIRESDIVIISNWASNKNGNQLVGNVFNIAKNSIKLLDFADLSSSTDRLQELIDNVVNNKIIDIISLNENECQVLSKFLGIRKISADYSIKEIKETALELSSILDTVIDIHTPLGSCSAVQDDVQFVESFSIKPKILTGAGDVWNAVNVLAFKKELSTNNRLNLANAAAASYVSEFHNGDYSLEIIEELLESRNISINSL;locus_tag=LOCUS_5620;note=MGA_643
sequence66	MetaGeneAnnotator	misc_feature	1	528	.	+	.	ID=MGA_645;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_010978391.1:30S ribosomal protein S4e,WP_010978391.1 30S ribosomal protein S4e (Sulfolobus tokodaii str. 7) [pid:35.1%25%2C q_cov:93.1%25%2C s_cov:70.4%25%2C Eval:2.0e-23%2C partial hit],MGA_645;locus_tag=LOCUS_5630
sequence66	MetaGeneAnnotator	CDS	530	1042	.	+	0	ID=MGA_646;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010978390.1;translation=MASQINQVKLTKVVINIGVGKSGEPLEQAKRIILEICDQTPVTTYAKKSYRELGVQKNSPIGVKTTLRKQIAEETLKKLFIACGNKIAKRSFDLTGNFSFGVKEHIEIPGTKYDPQLGIWGMDVCVSLEKTGYGVKRRQIRPSTIGKNQQVSQDEAINFAKEHFGIVVEE;locus_tag=LOCUS_5640;note=WP_010978390.1 50S ribosomal protein L5 (Sulfolobus tokodaii str. 7) [pid:46.1%25%2C q_cov:97.6%25%2C s_cov:93.8%25%2C Eval:3.5e-38],MGA_646
sequence66	MetaGeneAnnotator	CDS	1045	1239	.	+	0	ID=MGA_647;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIKIKQRYPTWRHKDGSFRKFGKGARSCVRCGRYSGIIQKYGLNLCRQCFREQAVKIGFRKYD;locus_tag=LOCUS_5650;note=WP_011250478.1 30S ribosomal protein S14 (Thermococcus kodakarensis KOD1) [pid:66.7%25%2C q_cov:70.3%25%2C s_cov:80.4%25%2C Eval:1.9e-12%2C partial hit],MGA_647
sequence66	MetaGeneAnnotator	CDS	1249	1641	.	+	0	ID=MGA_648;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011250477.1;translation=MPAQNTLANLFSNLQNAELRNKNECLVIPSSKLIIDTLNTMKANNYIGEFEVIDDKLGGKIRIQLLGKINRCGIVSPRFSVSKTDYSLWERRFLPAVGIGILLVSTSKGVMTHTDAEKLNEGGRLLGYVY;locus_tag=LOCUS_5660;note=WP_011250477.1 30S ribosomal protein S8 (Thermococcus kodakarensis KOD1) [pid:52.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-32],MGA_648
sequence66	MetaGeneAnnotator	CDS	1631	2182	.	+	0	ID=MGA_649;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010875661.1;translation=MSTDRNSLIREITLPDGVNAQFTDDVLSITGPLGSTSKDFRLIRANVNIDSNKITIESFGSRKKQRATFGTTVAHVNNLIIGVTEGYTYKLKTAFAHFPLTVKTEPGKIIVENFYGERGNRIAKVIGESNVSVKGDEIIISGINIEEVSQTAANLEQSTRIKNKDLRVYLDGIYLFEKGRGKE;locus_tag=LOCUS_5670;note=WP_010875661.1 50S ribosomal protein L6 (Methanothermobacter thermautotrophicus str. Delta H) [pid:45.1%25%2C q_cov:94.0%25%2C s_cov:97.2%25%2C Eval:1.4e-38],MGA_649
sequence67	MetaGeneAnnotator	CDS	136	867	.	+	0	ID=MGA_652;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYSMTNIESDKQNRRDFIKYAGGAAVGLGIGGLGFLNSNGNLAEERDKNSQLQTDLVSLNEQLEDLQRWAVFGGGSNVKNMPNVIDKQPTVKMDETFYFDQKRAFCRVDNNPEAFIMPTYLMGEVPIEANTFFMLMSTSTLHVKSIEESENSTCILESDSGDCFTEASAGGNIYGSRVKPEPFKSEIVAVDGKAFSYTAYFDENEAPINYAIFGPKFTFTGELNIGSVTVKRVEQLAKSLPK;locus_tag=LOCUS_5680;note=MGA_652
sequence68	MetaGeneAnnotator	CDS	1032	1496	.	-	0	ID=MGA_655;product=phosphopantetheine adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870543.1;translation=MSKYKRGAVGGTFDILHIGHKHLLETTFKISDEVIIGISSDDFVNKLNKTVINNYEIRKLNIEKFIQSSFPHIEYSIYELNNYFGPASSINDIDIIVLTSENSHRLDSLNKERKSKGLDPLKAEIVNLLNDKDGFPISTTRIKKGIIDSDGNLI;locus_tag=LOCUS_5690;EC_number=2.7.7.3;note=WP_010870543.1 phosphopantetheine adenylyltransferase (Methanocaldococcus jannaschii DSM 2661) [pid:45.2%25%2C q_cov:94.8%25%2C s_cov:96.6%25%2C Eval:6.0e-25],MGA_655
sequence69	MetaGeneAnnotator	CDS	182	1327	.	-	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIYTFFEIIIPLIALSWFSILLFRIFSYFKIDKLITNDKLLSSPLISIVIPARNEKLNIERCLQSIKNQSYDNIEVIVIDDNSTDETYDLVDKFCQTDTRFSAIKLTNDKNDWVGKNYACYEGYKNSNGSILLFIDADTEHHPNSVISSLSYMQNNNLDVLTMLPKLICSDFWGKLILPILISMIHILYSPLLLNSKHTPIAYLIGGFILIKKQVYDTIGGHESVKSSFVEDKSLGEKIKKLGYNLKLIRSSNFVTTYSNIGYSNNVNALQRATSASFIKSNFLIGLLSIFLAFVGLIMPYLLLFILNSFNITYSVLIFLTVIFMGLSYLIEFTDINHSKLYVLFQPFTNLILFFNMIISVFKIYSNSTFVWRERAYTKK;locus_tag=LOCUS_5700;note=WP_010933643.1 glycosyl hydrolase (Chlorobium tepidum TLS) [pid:31.9%25%2C q_cov:76.1%25%2C s_cov:73.2%25%2C Eval:2.5e-34%2C partial hit],MGA_658
##FASTA
>sequence01
GAGGCGTGATAATTATCAAAGACGTGATGGATATCAGAGGCGTGATAATTATCAAAGACGTGATGGATATCAGAGGCGTGACCATGATTCATGGAATAGAGATGAAGAGCAAGTAGAACAAAAGAATTTTTCAGAAGTTGAGGAAATTCCTGTAGAACTTGTTACGAAAGCAAAGGATATTCTTTCTGAATTAGAAGGTAGTTTAGAAGCACATTTGTATGATTCAAGTATGAACGAAGTACTAAAAGTACCTGTTAATGAATTAGTAAAGAATCTTGAAGATAGCAAGGATTCAGAACATTTGATATTTGATGGAATTGTTACTGAAAGATTAATTGAATTAGCAGATGCAAGTGGCATAAAAACAATAATTACAAACAGAATTGGAAATTTAAACAATAATAAAACTTCTTTAAAGATAATTACATTCAATCAAATAAGATAAACATGTTAATTAGTAGGCTAAGAAAAAAGCCTGGAATAGCTGTTGTAACACCTGAAAGTACAGAAGATCTATGGATACTAAGGAGAATTTTAAAAAATGGAGATGTAATAACTAGTCAAACAAAACGCGTAATAAAAAATCAGAAAGAGTTTACAAGACCAGATAAAGGAGAAAGAATTAATGTAAAATTATCAATAGAATTAGAGAATATTTCAATTGATCAAATATTGGAAAGAATTCGAATATCAGGAAAGATAACAGAAACTACTGATGATTCAATAAGTAAAGGATCATATCATTCATTAAGTATAACATTAGGAAATTCAATTGTAATATCAAAAAAGATATTTGAAGATTTTCAAATAGGATTGTTAAAAAAGACTAGTAAGAAATCGGATAGATATATAATAATAACAATAGACAGAAGACAAGCAGGAATTGGTTTGGTAACAGGAACACATTTACGAGTGTTTCCGGATATTTTATCAGGTCTGGCTGGAAAAATGTATAAAACAAAAGCAACATATGATACGTTTTTTGATGAATTAATAAAAAATATCACAAATATCGACTCCAATAACACAAAGATTATAGTGACAGGCCCAACTGAAGTAAAAAGGGCATTTATTAATTATGTGGAAGAAAAGAGTCAGAAAATCCGTAAAAAAATTACAATCATTGATGGAGTAGATTTGGCGGGTCAAGAAGGAATCTATATGGCTTTAAAACATCCAGCAATTAAGGAATTCATGAAAAACTCGGAATTATCGTCTGCGACTGAAGCAACGGAAGATGCAATACATAAAATTTCGAAGAATGACAAAAAAGCATACTATAGTTTTAATGATGTAAAGAAAGTGGCAGGAATGGGGGCAATTGAAAAAGTAATGATTTCAAGTAAAGTTTTTGAGTTAACTAATGAAGAAGCAGTAATATTATTACTAGATGAAATTGAAAAATTCGATGGACAGATTTACCTTTTGGATAGTTCAACAGAAGTGGGTAAACAAATTGATTTAGTTGGAGGAATAATTGCATTATTAAGATATCCAGTCTATGATGTAGATTGAATCAGCCATTTAAAATATGAATCGTTAACGTTATCTAATTCGAAATCGATGATTTCTGGAACATCATATTTATGTCGCGCAGAGATATAATCACGTAATTTAGAAATATTAGAATTAGTAGTTTTGAATATTACAAGGAATTCGTTAGAAGATTCGATAGAATTTTTCCATGAATAAATAGAATTAACTGGTAAAATATTAGCACAAGCAGCAAATTTTTCATTTATTGCATTATAAGATATTTCTTTTGCTTCCTCCATAGTAGAAAAAGTTGAGATCAATATAGAGCATTTCATTATATTAAATCAACTCAAATATACCTTCACGTATAAGTCTGATTGCTACAGCTCCTATTAGAAGACCCATGATTCTAGAAATTGCTTGAGAACCATCTTTACCTAAGAATTTCAACAAACCGGAACCAACGCGTATACTCAACCAGCAGATAAAAATTGAAAGAGTGATTACAAGGAGTTTAAGAAATAATCCAGACATAACTAGAACAAAGCTTATACTACCAGGGCCGGCAAGAATTGGGATGGCAAGAGGAAATACTGCAAGATTGGTTTCAGAATTTTTTTGTAGATAATTAGTATTACGGCCAAGTACATAATCTATAGAGAAAATAAGTAAGACTAGACCACCTATTAGCTTTAAATCGTTCATAGTAATTCCAAGTAAAATAAGTAAATATTCACCAAAAAATCCAAAACCTAGTAAGATAAATGTAGCAATAATTGCAGATTTATTAACAGTAGCAATACGTTCTTTCTTTGATAATTTATCAGTTAACGACGAGAATACAGGAATATTTCCAACAGGATCAAGTATCGCAAGAAGAGTAATCAATGATTGTAAGAAAATTATAAAATTGATATCGAGAAATGATGTCATATATAGATAGATATACACTAATCAATAAATCTATTTAGAAGAGATTGATAATAGAGAAACATGGATAACAAGTGTACTAAATGTACTGGAAATCCAGTATATTTTAGGAAATATTCGGGCGAGAGATTATGTTCAGAGTGTTTTTCAAGTTCTATCATTGAAAAAGCGAGAAGAACAATAAAAAAACACAAGATGTTAAAATACGGGGAAAAAATAGCAATAGGAGTATCAGGAGGAAAAGATAGTTTAGCATTGCTTGATATTTTAGTAAAAATGCAAAGAGAAAATGAATATGAATTAGTTGCAATAACAATTGATGAAGGTATTAAAGATTATAGAGACGAAGCAGTAGAACTGGCAATAAAAGCATGCAGTAAATATAATGTTAAACATGTAAATATGTCATTTAGAGAATTATTTGGATTTACATTAGACAATGTTTTAGAGAATAGAGAAAATACAAAGATTACATCATGTTCTATTTGTGGACCATTAAGAAGAAGAGGAATTGAATTAGCAGCAAAAAAGATTGGTGTTAATACAATTGCCACGGGACACAATCTTGATGATATGTTACAAACTTTTATGATAAATCTCTTAAGTGGGGATGTTTATAGAATTAAACAATCAAAACCATATTCTGTACCAAAAGAAGGTTTTAAATTTAAAAAGATAAAACCATTTATGGAAATTTATGAGAATGAGATCGCATTTTATAGTTTTCAGAATGAGTTACCTTTTCAATCAATAGATTGTCCTCATATGAATGAGAATATTAGAAATGAATTAAGAGATATTGTAAATAATCTTGAAAATAATCATCCGGGAATTAAATTTAATTTAATGAAATCTATAGAAGATATTACCGAAAATATAGAATTAGAACCAAAGAAATTAGTCACATGTTTAATGTGTGGTAATAGTGCATCTAGTAATCCATGTAGTGTGTGTAAAACAATTAATCTGTCTGAAAAATTAACAAAATCTAACACATAATTACTAAAATATATGACTAGGTAACAATTTGTTACTAACTTTTATAGTGAGAGTTTTATACGAGAAATTTCTAACTAAAGTAAATGAGTTATGAAAACCAAGAAATAGGTGAATTATTAGATCTTTTAGGTAATGACACCAGACGTAGAATATTAGAATCACTTGCAGATGAACCCAAATATTTTATACAATTATCAAAAGAGATAGGAGTTAGTCAGCAAGCAGTGTTAAAACATTTGTTTTTACTTGAAAATTTTGGGCTTATTGAATCATTTAAGGCTAAAAGTAATTTAGCAGCGCCAGATAGAAAATATTTTCAATTAAATAGATCTGTATATTTGAGTATTGGTATAACTGGAAATTCTATGGAAATTAAAATGGAAAATATTAAAGGTCCAAATAAATCGAAGGTAAAGAATAATATTGCAATTGAGAATAAAAGAAAATATTTTCAAAGTGATAAAGAAATTACTAATATTCTGAAAAATACTAAACATAAGCTTGAAAATATTGAAAAAAGGATGCAAGAATTAGAAGGTGAGAAAATGGATTTGTTGAAAGAGAAACAACAAATATTACAAATTGCTCATCAAGTAATTAGAGAATCTCTAGAAGAAGATTTAGCTAGACGAATTTTATACTCAAATCTAAATTCAAGAGATATAACAGATATTGAAGAATTATCAGAAATATTGAATACTAGAGAAAAAGAAATTAAGATAATTGTAAAAAGATTAGAAGATAGATTTTCAGTAGATTTGATTTAGTTTATTGATCAATTGGAGATACAACAATAGAAGTGTATCCAGGAAGCTTTGAGGATGCGGTTTTTAATGCACGTTTAGCCTCTGGAATATGTTTTTCATAGGTACGAATTTCATAGATTATAGAACCGATATTAACACGGGCAGCATGGCCAACAGGTTTTCCATAAGCACGTCTCATACCTTCCTGTAGTCGATCTGCACCAGCTGCAGCAATCATTTTATTTTCGCTAATGATAGTATGAGGATATAATTTAACAGATAATTGATAGTTAGTTTCAGGGATAACTTTATTCATTTTTTTATTTGCACCAACTCTTGCGGCTTCAAGTGCATTATCACGAATTTGGCATTTTTCTTTTGCAACTAATTGTATTTTGACTTCATAATCAGAATTACGTGCTCCAGTTTGAAAACGTGCAATTCTAACATCAGGAGCGCCAGGAGCGTATTTTTTACTCAAAGGCATGCCATTTGGGACTCGATAATTTCGGCCGTTCATTATAAGATATTCAAGATTAAGGATATAATTAAGTGTGTTTAAACAATTGTGAATATACAATATGGAGAGATTTTTAGTAATTCTAGTGAATGGACTTCTTTCTCAAGCAGAATTAATGATCATATTATCAAAGTCAATGATTGAATTTAAAATAATTGAGAATAATGAGACATTTGTCATTTTGGAAGTTGAGGATGAAAGTAAGTTATTGGAATTAGGGGGCATATACAAAGTGGGTAAAATTATTTGTATAAATGAATCATTTGAGAAGATGTTTGAAGAGATTGAACAAGATGGTACACTAATTAATTTAGATGATAAACAACAATGGAATATTAGTTATTATTCGGATGAAAAGATTAACACAGATCTATATGATGAGATCCAGAATAATTTAGCAGGTTTAATAAAAAAGAATTCGACGAAAACGAAATTTATAAGAAATAATATGAAATCAGATTATTTTATAGAACTATCAGTGGATAAAGAAAAGAAGAATGCAATGAATATATTACTAGGAAATACCAATAATAGATTTTATATTGCAGAAAATAAAAAGAGTATAAAATCCTCAAAGTTCATTAAAAGAGACTTAAATAGACCGTATCAAGATTCAAAAATTAGTTTATCACCAAGAACTGCTAGAATTTTGGTTAATATGTTAGGATTAGAAAATGGAAAAACAATATTAGATCCGTTTTGTGGAACAGGAACGTTCCTAATTGAAGCAATAATTCAAGGATATAAAGTGGCAGGAGTTGACAATAGAAAAGAATGTGTATTTGGTACAAAAAAGAATTTATTCTGGATAATGAAAGAATATAATCTAAAAAATAGAATAAGATATGTGGAACAAGATAATGCTGAGAAGCTTTCTTGTGTAGAAACATCGACAATTGATGGAATAGTTACAGAACCAATTTTATTACCAAATTTTAAGAATATTCCAAATTATGAGTTAGCAGAAGATGTATTAAAGCAATCAAAGAAAATATATGAAAAATCATTGAAAACAATGTATAGAGTTTTAAAAAAGAATGGAAATATTTCAATAGTTACGCCTAGAATAAAAACGAGGAATAATAATTTCATTACATTTAGTTTTAGAAAGATGATAAAGAATGCAGGATTTGTTATAGATAAGAGACTAAATGAACAACCATTTATTATGAAAGCATCAGGTGATCAGAAGGTTTTAAGAGAGATATGGCTATTAAAAAAGAATTAGAATTTTTTTTCAAGATGTAATTTGATTTTTTGAGCTAGTCCTAACAATATACTATTTTCTCTTGGAGAAGGTTTTGAACGTTTGAGAATATTAAAAAAACTAGTTTGAACTAAATTATTTTTGTGAGATGGTAATCCTAATGTTTTGACAATATCAGAATATGCTTCTACTGTTCTATTTACTTCATGTTTCTTTGCAATATCACGTTCGATAAGTTCATAATTTGTTAATTCATATAGAACGATAGATAATGCATGACTGATATTTAATGTTGGGTAATCAGGATTTGTAGGAATATGAATAATAAAATCTATCAATTGCATTTCCGAATTAGTAAGTCCTGTTGTGTCACGTCCAAAAATAATACAAATTTTTTTACCCATATTTTTAATTGATGATTGAATATTGGAAACTGGAAGACTTTGACGAGGACTTAAACCTCTCTGGCTAGTTATTGCAGTAGTAGCGATTAATGTATCAAAATTATTTAGATCGTCAAAGTTAATGTGTTTAATATTTTCTAGAAGGTCAACAGCATGAGAGGCAAAAGGCCGCGCTTCCTCAATATTGACTTTAGAATTAACTACAAGTAAATTATGAAAACCAAAATTTTTCATGATTCTTGCAATATAACCGAGGTTAATAGGGTATTGGGGTTCAATAAGACAAATAGAGATTTCTTCGTCATAATTAGTCATGTTATCGTGAGTTCACAATTAATAATTAATAAGCAAATAATTATTCATTATGCATAACTTCAATAATGTATAATTCTTCGAAAAATAATTTCTTTTTTGAGATTATATTGACTTTAGTAGATTTAGATAGAAAATCGAGATACTCATGGATTGGAGTAAGTGTAGATTGAAGAAATAGAATTTTACCTGATTTTTTTATCAAAGTTAATGAAAGCTGAATCCAAGTATTGGTTATTTCAAGTCCATTATTACCACCGTCAGTAGTTAGATCAGTATAATCATCATGGGGAAGATATGGTGGATTAAAAACTATTAAATCAAAAGTTTCAGGAGCAAACATCGAAGGACCATCACCCAATATTAAATTCAAATTATTACTAAAAATGATGTTTTGTAAAGATGAAGTAACCGATGATAGTGATTCGGGATTAATATCAACTCCGACGACGTAATTATTATTAGTATAAAGAGATTCAAATATTATTCCAGATCCAATCCCTATTTCCAATACAATTTGGTTTTTAAAATTATCAATTGCTTTAAGTAATAAATCACTGTCTTCTGATGGTTTGTAAATAGTCAAGATCGTGAATCACTAATCAGATGTCGAACAAGAGACACAATAATATCAGGAGAAAATTCATAAATTCGTTTAGAGAGATCCATATTATCACTATAATACGATAAAAGACCTTCTGAACTATTTAATATATTAAGAATTGAACCAAGTTGTTTACGTCGAAATGAAAATAATTTTTTAATCATTAGAATTTCATTTTTATTGAGTATATTTTTTGGTTTAATAATAGCAAGGGTAGAAGAAACTTTAGGACGAGGTTGAAAATTTGATGGTGGAAGTATTTCGATAGGATCTATATCAAAACAATATTGTGTTATAACGCTGATTGATCTATAACTACCAAGATTAGTAATTGATAATAATTTATCAGTAAATTCTTTTTGTAGGATTACAACAGCATGTTTGAATTGTTGATTAATAAGCCAATAAATAAAACGTTCAGATTCAGAATAGGGTAAACTAGAAACAAATATATCGAATTTTCCAGTGTATGTTAATCCGTCAATATTTAATATTTCTAGATTATTGTATTCAGAAAATTTATTGAGAGATAAATTATACAAATAAGGGTCAATTTCAGAAGAAACTACATACTTTGCTTGTTTGCAAAGAGATTTAGTAAGGATTCCATTTCCAGTTCCAATTTCATATACAGAATCAAGAGAAGTTATTTTAGCTTGTTCAATAAATTTTTTAACAGTATCATCATTAATTAAAAAATTCTGACCATAACGATTATTTGATTTCATAAATATGCAGTAAATTAGTTACGAACAAAGAGATTTAATTTTGCATTTCCTGATATTTCTTCCATTAAACGTTTTGCAATTAATAATTCGGGTTCTTTAAGATTAATACGTTCACTAATATCCGAGAATGAAGTAAATGGAGATTTTTCGCGTTCTTTTAGAATTTGACTAAGAAAAGTCTTACCAATACCAGGTATCATTTCTAATGAATGAAGTCTAGGAGTAACGGCATGGGCATTATTAAAATAATTTATATAATAACTTTCATTATCGTTAACAATTAACTCAAGTATATCACTGACCGAAGTAACTGATTCAGTAGTTAGTTTATCATAAGATAATTTACCGAGAACACTGAGTATTTTTGATCTACCTTCTTTTCCAATACTAAGTTTTTCAGTTATCGAAAATGTTTCGTCTTCATTTCCAAGTAACTCAAGTAGTGTAAGGCGCTCCATACCAATGGCTTGAATGATTGTCCCATCTCGTCCTTTGATAATTGAAGAACGACTATTTGTTCTATAATCTAAAACATATGCAAATTCTTCATATTTTTTATTGTGTGTTTGTGGCATAAAATTTACCTCATAAAAGTTTTAATTTTTTAGTTATAGAATGTCAGAAAATGGTAATAGAAAACTAGAAGTTAAGAAGTGGTTCATTCGTATTACTAGTATATACTCACTTTGGCTTTAAACTTTGTTGATAAATTCTCAAGTATTATGCATAAGCATCTTGAGTAACTGAAAGTATTTTCTCAAGTTCTTCGGTAGGAATGAGTTTTTTCCATGCACTAGTAAAAACGCGCAATTCGGGAATAGTTTGTGGATTAACATTAAGAATTTCGTATGCTTGTTCGAGAGTTACGTAATCTGAAGAAGCTAATTCTTTAGCAGCTTTATCAATTTTTTTATAATCACAGTCAGGGAAATTCTTGACATAGTCAAAAGTTCTTTTCTGGATTTGGTCAGCGTCATCTAAGTCAAGTTTAGAAAGAATATCCTTAACTTGAGCAATACTGATTATTGTAGTATTTTTTTTATTCATGATAATTATGCACCTTTTTGTAATTTAATATGTTCAAAACGAGTAATAAGTTTTTTAGTTTTATTACCGACTTGAACATCAAGTTCAATAGATCGTCTATTAACAGTTTTAACTATACCAACATAACCTTGAAATCGACGATGAGGCATTCCTTTGACTTGTGCAGGATTTATATTAATAATTACCCTATCTTCAGGTTGATAATTAATCATAAGATAACTTAATCCAGAAGGTCGTTTATGGCTTAATACTGAACGTGATTTTCTTCTAAAACCTGCATGTCTCATAATATTAACACATTCTATATTTAATCTTCATTAATAATTTTTGCTGTAGCGGATGCAATTAAACCACCAATTATAGGAGCAATCCAATACAAATGATGACTTTGCAAAGCACCTGAAACTCCATAAAGATATGAAATTATAGCAGGGCCAAATGAACGTGCTGGATTCATTGATGCGCCAGTAATAGGACCGCCTGCAAGAATATCAATTGTAATAATCATTCCAATAGCAAAGCCATGCCAACCGGCAGGAGCTTTTTTGTTTACAGCAGTATTAAAAATTACAAGCACTAAGAAGAAAGTTAAGATAATTTCTACAATTAAAACTGTAGCGTCAGATATTCCTGCTCCAGGTAGATTTGAACCTAGATTGTTTGATGTAATACTGCTAGGAAGAATAAGTGAATGAGCAATAGCGGCGACAACACCTGCAGCAAGTTGGCTAAAGATGTATGCAATGCCATTTTGTGTATCAATTTTTTTTCTATAGATCATAGGTATGGTTACAGCAGGGTTTAAATGGGCGCCAGAAACGTGACCAAATGAATACACCATTACTGCAATAACTAAACCATGAGCAAAGGCAATTTGAAGAAGAGCTCCATTAGCATATGCTATTGCAAGACTTCCAAAGAATACTAATGCAAAAGTACCAATGAATTCAGCAAGACATGCACGAGAATTAATAGCCATAAATAATCAAATCAATTAGAAACTGGATAGACTATTTCTCCACCAGCAGGTGAAGGAAAAGCTTGTCTTTTTGTTTCGGAGCCTTTAGTTGCCCAAAAGATTTCAGCGATTTTTCGGACAGATTCAAGAAGTTCTTCAGCAGCATCTAGACTAACTTGTTGTCTAGTTTTTGATGCATTTTTCATTGCTTGCCAGAATAAATCGTGTAAATCAGGATATTTTTCAAGATGCTCTGGTTTAAAATAATCAGCCCATATTATTCTAAGTTCATTTTTACAACTTTCTGCATGAGTTTCTTTAACAGACATGTATCGACCCAATTTGTTTTGGCTTTCTGCATCATTGCCTAAATCAGCAATTAGTTGATTCATTCTAACGACAGTCAATGCATCTAATTGTGCCGTATGTGGATCATAAATTCCACAAGGTATATCACAATGAGCAAATGCATATTTTCTTGAATAAACAATATCAAGGAATTTACTTTTCATGGCAGACATATTCATGATAAATTATTCGACTTACATACTTTAAAATCTAACTATATGAATGAATGAATAATGGGAATAACTATTGCCAGCAGTATTAATAGGTTTAACGACGAAATTGGATTGGATAATCAATAGGATTTTTTTGCCTATTTATTATATTACAGCAGAGAGATTCACCGTAATAGGGCAAAGTATGGAACCAATAATTAAAGAAGGAGAAAGAGTATTCATAACAAAAACATATTATAAATGGAATAAAATAAAACGAAATGATATTATTGGATTGTATAATAATCAAAAAATTGAGATAAAGAGAATAATAGGAATTCCAAATGATCAATTGACAATAAATCAATCATCAATAACTCTGAATGGAAAAAAAATAATCAATGTAGATAATATTCAATATAAGATTCAGGATAAAAAGATAAGATTAAAGAATGAAGAATATTTTGTAGTGGGAGAAAATTATAATAAAAGCGTGGATTCCAGGAACTATGGGCCAATAACAAAAAATCAGATAATAGGAAAAGTAATGAGTAGATAGAATTGGAAATAAATTTAATACATGCAAAAAATACGTCTAATAAATATACGATAAAAATACCATCATTAGGACTTGGTGTATGGGGGATACCAAAAAATAAAACAGAGAAAATTGTTACAAAAGCAATAAATAATGGCTATAAACACATTGATACAGCACAGATTTATGGTAATGAAAGAGAAGTAGGAAAAGCAATAAAAGATAAAAAAGGGATTTTTATTACTACAAAAGTTTGGGAAAATAATTTTGGATATGAAAAGACAATAAAATCATGTGAGGAAAGTTTATCAAAGCTGAATAAAATTGATTTACTTTTAATGCATTCTCCACATGGTCCAGAAATTCGAAAAGAAACATGGGAAGCAATGCAGTATTTGTTGAAGAATAGATATGTAAAAGCTATTGGAGTTTCAAATTTTGGAATACATCATATTAAAGAGATATTATCATGGGCAGAGATTGGACCGTGTATAAATCAAATTGAATTATCGCCTTTTCTTCAAAGAAGAGAATTAGTTAATTTTTGTAGAAAAAACGATATAGCAACAACAGCATATAGTCCGTTAACACATGGAATAAGAATAAAGGATAAACAATTAATAGAAATTGGAAAAGTTTATAGAAAATCTTCAGTGCAAATATTAATTAAATGGAGTTTACAGAAAGAAAACATAGTTATACCAAAATCGACAAATAATGAAAGAATAAAAGAAAATATAGATGTATTTGATTTTACAATTGAACAGAAACATATGGAAATTTTAGATGGATTAGAAGAAGAGTTTATAACATGTTGGGATCCAACTGTTGATCCTTAATTTAGAAATGAGAAGTTCTCCAGCACATTTAATATTGTTCTATTTACAATGAATTTTATGCGGGGGTCGCCCAGCCCGGTCAACGGCGTTAGGTTGAGGGCCTAATCTCTCAGGAGTTCATGGGTTCAAATCCCATCTCCCGCATTATACATAGAGATAACACAAATAACAGAAGATTTATTTCAGTATCTACATATTCAGGGCATATTGAAAATAGGAGATATAGTAGGTTATTCAACTCGAGCTATTAAAGAAAGGTATCTAAGATCAGGGCTTACAATTCTAATGGTATTATTAGGAGCAATGTTATTGACTGGATTAAATGGTCTCGGAGAAGGATTCAATTACAACATTCAAAAAGAATTTGAAGCATTAGCTCCAGATGTAATAACATTAACTCCATCTCCGATTGTAAGTGGGCCAGGAGATGATCCAGATGAACCAGATCCTGCACCGCCAGTAGAATTGAATTTACAAACTTTGAAGAGTGTAGAAAGGCTAGACGGGGTAGAAGAAGCAATACCGAGTTTTAGATCAGGTTTACAAATAGAATACAATGGAAAATCGCAAACTACTTCATTTATTGGAATTAATCCACAAAAGTTAATCTTTGTTTTACCAGGAATGGAATTTATAGCAGGAGACAATACAGATCCAAGTGATGCGACCGGAATATTATTAGGATTTACTGTAGCATATCCTGGAGGTTTGGATGCAGAACCATTCGCTGAAGTAGGTAATCTAGTATGTGCAAAAACAGGTAAACAAGAAATTGTAGGCGGAGTAGAACAAGTAGTAATTGAAAAGAAATGTTTTGTAGTGCGAGGTATTCTTGATGAAACAGGAACTGTATTCTATGATCAATCCATATCTGTGCCATTAGCTTCAGCAAATAATTTCTTAGATAAGAAAAATATATATGATCAGATTTTCGTAGTTGTGAATCCAGAAATTGGAAATGATGTAGTAACTGAACAAATAAGGGAAGTGTATGGAGAAGGAATTGGTATAACAACGCCGGCACAAATTCAGGAAACAATTCAAGGATTTGTAGGTAGCTTTAATATATTTCTAAGTAGTATTGGATTTATTTCATTAATCGTAGGTGGTGTAGGAATTATCACTACCCTATATACATCAGTAACGGAAAGAACAAAAGAACTTGGGACGTTAAAGGCATTAGGAGCAACTAATTCAAATATTGTATTATTAATTCTATTTGAGGCAGTAGTAATAGGTGTAGTTGGAGCGTCGGCAGGTCTAACGGCAGGATATGGACTAGGTTGGGTATTAACACAATATGGATTCGGTGCTCAATTTGGAGATTTGGTTCCTATATTTTTGGTTCCTGCATTGGTAAATGTATGGCTAACTGCAGTAATCTTAAGTATACTTGCAGGATCTTATCCAGCTTGGAGAGCGTCAAAGATGACTCCTATGGCTGCACTAAGAAGAGATTAATTCTTTAATGATTTCTTTAAATTCTTATAATTTTTCTTAGCTGCTTTATTTAGAGTTGGAGATTTAGAAACAAATGCCACAGAGATGAGAATGATTAACAATAATACAATAAGAATTGTTGTTGAAGAGATTAATACTTTAAGCGTTTCATCAGAAGAAGAATCATCAAGTACATTGCCAGAATAAACTTTTGATAAACCGAAATTTGAAACTTGAAGATTGTATTCACCTCCTGGAATTAAATTAAAATTAACTTTACCGTTATCATCAGTTTGTTTTAAGGCTTTAAGACCATTAGGCATAGTAAGTAAGACATCTGCATTAGAAACAGAAAATCCAATCTGATCTTCAACATTAAATGTTAAATCATATAATGATAATGGAACAATCCAAGATTTGCCAGCTTCTGTATTAAAATTACGAGAAGAGACTGGAGAAAAAGACAATCCTTGATAATCGATATTTTTGATAGTATAGATGCCATCAGATAACCAAAGATTAGAGTATGATGTAAGTGATGAAACAGTGCCGTCAGGATTTATTATTTCTATATTAGAAGGAAGGTCGTTAAGAATTGTATTTTGTGAAGCATCTGTAAATAATAAAGAGATTAAGAGTTCGTGAATATAATTAATTTCGAAAACAGTTGGGTCGTCAACTGGATTAATTATTGTATCTTTGCTAGTCCATTTTTCACCAGATTGGCCCATAATTTGTTGTTCTATATTAATAGAAGTGACAGAATCAATCCAATTAGACCAAATAGAAGATGAAGTAACAGTAAAAGTTTGTCCTTGGGAAGTATATGTTATAGTAGTTGGGTATTGGGGACTTAATCCATGTGTGATAATAGTGGGTTTGACCTGTTCTTTATAATTAATTTCTATAGGAGAAGGTGAATTTACAGGAATGGAATTAGAATCTAAAATCCACCGGTGTAGTGGTTTAGACGATATTATTGAAGGTATAAAAATATCAGAATCGTCATCAATCCATAAGTTCAATTTATCATTTATATTGTGATTTTCTAGATTTCCAAAGGAGGTGAAGGTAATAGGGACATTTGTATTAGTATTTTGACTTAATGATATCAACCATTGATGTGTATAATCAACAAGATGATCAATAGGTTGATCTACTTTAAGTACAACATTATCGTTGGTAATATAACGTTCAGTGGGGCTTGTTTCTAAAACACGAGGAAGAACTAAAGAACGACCTTCGTCGACCCAACCACTCCAAGAATCTTGAATTTCAGTTTGAGTTACTTTACCGCCACTAGTAAAAGAGAAATCAAAAGGTGAATCTAATCCAAATATATTAATATTGGAATGAAATTGGCGAAAATATTTTACTTCGTATACTGCGTATTGCACAACGGTCCATTGAGTTTCTGTTATTGCGTGAAAACGTTCTGATGAATCGATAAAAACAGTTTCTTCTAATTCAAAAGTACTACTATCATCAGCCCACATAAACCATACATCAGATGTTTCTTCTGTATATGAATTACCAAGGAAATCCCAAGTTACAGTTGCTGGATATGATTCATCTAATCCTTCAATAGAAAGGTCCATGAAATGAGTTGTACCAAGATAATTTAGTGGAATATTTGATTCAATATTATAACTGGTTTGAGCTGCAGACAGGACATCAAAAGCCATAACTGATATTGTATATATGCCAGGAGGGACATTCGAAAAAGATACTACAATTGAATTGGAGTACCAGTAGTTTCTGCCAGAAGCAACAGGTTGAAAGTCGCTTTCTGGATCATAAATTTCAGATATATCATTTTCATAAAGAAGTAAACCCATATCATCCACCTGCTGTGGATGAGAGAAAAGAATTTCCATGGATTGATTAATTTGAGTAATTTCTATAGTATACCAGTCAGCTTGCCAGGTTTGTATTGGACGAGAGACAATAGGACCCATTTGTCCAAAAGCTGGAGAAGCTAATGGAATTAATAATAATATTACAGTAAAAACCAATGCAAAAACGATTAAATTCTTCATTATTGATTATTGTATAAATTATTATTACATATAACTAATATCTAGAAAAATAATATAATTTTATAGATTACACGCCACGTAATGATTTTTCTTGATTTTATTTAGTTTAGGATGTTTTTGCCGACACCTATGTGAAATTTGGTTTATGTGATAATCAATGACGCTATTAGATTTTTTATCATAGTAAGTACATTGAGGATGAAAATTATCTCGAGGAATGACTTTTCTAATCTTAAAAAGATTTTTAGGATTAAGATTAGGAATTGCTTCAATAAGTGAACGAGTGTAAGGATGTAATGGATGATTTACAATATCATTAGATTTACCTAATTCTACAATACGACCAAAGAACATTACGGCAATACGATCAGAAAATTGTCGTGCAGTAGCTATATCATGAGTAATATACAAAAAACTAAGATTTTTTGTTTTTTGAAGAGAATTCAATAAACCAAGAATTTCTAATCTACTAGATGCATCGATCATTGAAACAGGTTCATCTGCTACAATAAACTTAGAATCTAATATCAATGCTCGTGCAATACCGATACGTTGTCTTTGACCGCCAGATAACATATGGGGATATTTATTTAGATAATTTTCGGGCGGAGTAAGATTAACATCGTTTAAAACTTTTGATATTTTTTCGTAATGAAGATTTTTGTCGATTTTATGAATAATTAATGGTTCTTCAAGAATTTGATAAATAGTCATAAATGAATTAATTGACGAATATGGATCTTGGAAAATAGCTTGAGCTTGTTTTCTAAATAAGAAATCATCAGTATTTTCATTTATAATAGAACCTTGGAATTTGATTTTACCATGAACAGGTTTGATAAGATTTAATGCAACTCGTCCAAGAGTAGTTTTACCACTACCAGACTCTCCAACCAAAGCAAGGGTTTCTCCATAATTAAGCTTGAGAGACACACCGGAAACTGCAGTAAAAGGTTCGGATGACAATAATCCTTTTCTTATTATGAAATCAACCTGAATATTCTTTAAATCAAGGATCTCTTTATTCGTTGAAGAAAGTTTTTTATTTTGAAGTCGAGATGATAATGATGGAACGCTTTGAATTAATTGTTTAGTGAAATTATGTTTTGGATTATTAATAACGTGATCTATAGAACCATGTTCTATAAATTTACCATCTTTCATAACAGCAATGTTATCACATAAATCACTGGTAAGTGCAATATCATGTGTAATAAAAATCATTGAGATTCCTCGAGTTTTAAGAGATTTAAGAAGATTCATGATTTGTGCTTGAACACTAACATCTAGTGCAGATGTAGGTTCATCTAAAATTATTAAACCAGGATTGTGAACCATAGACATAGCAATAATAACACGTTGTTTCATACCACCACTAAGTTCGTGGGGATATTTTGAATAAATATCTTCAGATAAGCCAACAAGATCTAATAATTTAAGAGCTGTTTCTTTAGCAATTGATTTCTTTTCGCCAGAATTTACAAGAGGTTCAATTACTTGATCGCCAATTCTAAGAACAGGATTAAGAGAATTCATAGCTCCTTGAAAAACCATAGAAATTTCTTTCCATTTTATTGTCTTTCGGAATTTTTCGTCCGAAATGGTATTAAGTTTTTTTCCATTAAGTTGGATTGTGCCATTAAATTTTGAGATGTTATTTGGTAATAAACGGATTAATGATAATGCTATTGTTGTTTTACCACAACCTGATTCTCCAACGATTCCTAATGCTTCACCAGGTTTAATTTGAAAAGATACATTATTTACAGCTTTTACATTACCTTTAGTTATTTTATAATTTACATTAAGATTTTTTACTACAAGACTTGGATTTTTTGATTTATTTTGTTTGGATGTCATAATAATCACATTTTTTTAAGTTTAGGATTTACAACAGGTTCAAGAGCAAGAGCGATAAAGACAAAAATCATTGCAGTAATCACAATTAATAATCCTGGAGGCATTATCCACCACCAATAACCAATATATACACCACCTGTACGAAATCCATTTTCTAGAATTTGGCCCCAAGTTGGGATAGAAGGATCACCTAAACCAAGAAAACTTAATGATGCTTCTGCAAGAATTGCTGCAGGAGTAAAGAATACCAATTGGGCAAATATGAATGGAGCAAGTTGAGGAAAAATATGTCGATACATTATTCTCCATTTTGATGCTCCTAGAGACTTTGCTGCTTCAATAGATTGACTAGAATTAATTTGTAAAACCATAGACCGAACGATAATAGCCAATCCGGGCCATCCAAATAATACAAGAATTGTCATTACTAACCATAGTTGTGGCCCGAATATGAAAATAAGAAATAGTAAAATGGGTAATAATGGAATATTTGAAAGTGTATCAGAGAATCGTTGAATTATGGTATCTGTTCTACCGCCAGTATAACCACTGATTATTCCCATAGTAGTTCCAATCATAGTAGTAATAGTAGATGTAGTGAGTCCAATTAACAATGCAATAGGAAATCCAAATAATAGTCCTACAGATAGATTACGTCCTAATGAGTCAGTTCCTAGCAAACCATATGATGAACCACCTAAAACAAATCGAATTTTAGAAATAGAGTCATTTTCGTTATTGGTAACAAATTTGATTATAATTGTGTATTCTCCTGAAAGAATTTGTTCAGATTCAATAGAATCAAAATTAGAAAAGATAATTTTTTCATTGGATCCAATTATATCATTAACAGATATTTCTGCGTCGGATTTATCTTGTGCAAATTTAATTAAATTTGAAGAAACAGATTTATCTCCACTCAAATTTATTCGAAATGGAGAATCGGAATATCTTACAAAGGGGCCTTCTTCATTCGGACGTGGAGGAGAAATAATTTCACGATATATTAGAATTTCTTGATTATCAGGTCTCAATATTGATAATGTAATAGTAGGAGGACGATCGTGATAGATAACGTCGTACATTGATAAGGACAGAAATGTAGGAGATAGGTTTGAATCGTAAGTAAATCTATGAGTATAAAGTCGCTCTTGTTGATTAGATGTAAAAACAGTGTCGACAGGAGAAGTAAAATCAATAATTTGATGTTCAACATTATCATTACCAAATATACTAGTCCATGTTGGAGGTGCAGATTTAGGATAATCAGACCAATATGCAGGATTACTCCAGACAGTATTACCAAAATTAAGAGGATAAGTAAAAACAACGAAAATAGAAATCAGTATAAAAATAACTAACATAATTGAACCTAGCTTTCCAGAAGTACTAGAAAAGAATTCCTTTAAGTTTTCACGAGAATTATTACTCATTTGTACCTCACCCGTGGATCAAGAACAACGTATAAGATTTCTAGAATAAAACGTGCCGTAACATAAAGAAGTGTAAACATAAAAGTCAAAGCTACAATTACAGATTCGTCAGCTGCGAGAATTGCTTCGTAATATAATCTACCCATACCAGGCCAACCAAATACTGTCTCTGTAAGAATTGCACCGCCTAAAGAACCGGTTAGACCGAAAATTAAACTAGTTACAATTGGTGGTGCAGCTACACGAACAATGTGACGTCGCATAACTAGATTCTCAGGAAGTCCTTTTGCACGAGCTACATTGACAAAATCTTCTTGAGAGATGTTTAGTACCATAGTTCGTACAGCATAAGACCAAGATCCAACAGAAACAATAACTAATGTAAATATTGGTAATATTGCGTGAACAAGTTTATCAAGAAATCGAGGAATGGTTTCTGTTGGCGGCGGTACACTATACATTCCAGAAGAAGGTAAAATTCTCAATTGGAAAGCAAATAAAATAATAAAAATTATTCCAAGCCACCATGCAGGAAGAGCATAAGAAATTGCAGAAAAATAAGAGACAGAACGTTCTAAACGAGAACCAACTTGTGTTGCAATTTTAACACCTACATAAAGGCCAATTATAGAAGTTATAATTGTTGCAGAAGTAATGAGAAGAATTGTATTGGGTAAACGTTCTAGAACTATATCACTAACGCTATTACTTCCTGTGAAACTACGCAATGTACGAGCTTCACCAAGATCCAATGTGAGTATACGAAATAGCATATCAGGTAATCGATAGTACCACGGCCGATCTAAACCATAGAATTCTATTAATTGTTCACGTCTATCCTCGATAACGCGCTCAAGTTCACTTGGATCACGAATATTTTGTGATAGAGATTGTCTTAATCCGCGTAGTTCTTCACTAACCGTAGCAGTAAGTAATCGATCAGAATAACCAGTTGCTCCAAGTACTATAACAGCAAGAAAAAGAACTGTAATTAAGACAACAAGTAATGATAAACCACGAAAGATTAATGTTTGAAGAAGAGACATAGACGTTGTTATAGTTTTTAATTCTAAGTTTTATTTGTCTTTCTTTTTGTGTTAGTAGTGGATTTCTTCGTGGATTTCTTAGCGGCGGGTTTCTTAGCGGCGGGTTTCTTAGCGGCGGGTTTCTTAGCGGCGGGTTTTGTTGAACGTGACTTTTGATTCCTTGTGAATCCGATTCCAAGAACAATAATTAATAGTGCAACAACAATTGGAATGAATAAATTCGAGGATGATTCAGATTCATCAGAATTATTAATAGAAATAGATTCATTATTTGACATTTCAGACTTCGGTTGTTCTTCAATAACAGGAGAATCACCTGATGGTTCAACAGAAACAGGTTTATCAGTAACTGCTTCAAGTATGATAATTCTTTCATTAATAGATGAAAGACTATCACTATAACCTACAAGATACAATTTGTATAATCCTAATTGAAGAGTTGAAGTAATAGAGCTATCAAAAGTTATTATAAATTTGTTATTATCTTTTGAAGCTGTGCCCTTGGATAAGATTTCATTAGTAATTTCATCTTTCAATGCAAATCTTAAATCAAGATTGCCTTCACCAGCCAAAGTAACAGTAATTTCATTATTGGAACCAATTTCAATAACATTGGAATCAACGTCAATAATATCAACCAAATTAGCTTCTCCAAAAAAGAACTGTCCAGGTTTGAACGGATATGTTTCGTCCCTGAATGCAGCTAATTCAGCATATTGTGCGGGAGGATCATAGATTTTCAACATAAATGGTCCATTAGATATAACTAACATTCCATGTTCGTTAAACCAAGATAAAGCAGAATTATATCGACTTGTGGCTTCTGAATTAGAAACGAGTTGAAGACCTTGTACATTAAAGACATTATCAGGAACATTATTTGCAGAATTATGATCTCGAATAACATTACGAACTAATCGTGCGTCTCTATCCATAACAAGACTAATCCAAGGAACATTAAATCGTTGGGCAGCTGTGTCACTGTATGCTGCTTTTCTTTGATCAAATACCAATGTATCCATTGAATAAAGAACTTCCCAAGGCATAGTGATACTGGTTATACTTGCATAATCAGCAATGTAATCAGGAGCAAAATGCCAAAAGTCAACATAAACTTCAAGTTTATTATCATCAACTATTCGGAAACCTTTGAAGCTATCGAGATATGGTTTTGAGACAGTTGCAATAGCAAATTCCATTGATGCTTTATCTTCATTATAAGTTAAATCAAAAGTTTGATAGATTGAATATATTACATCGGCCATATTAATTTCTTCACCATGATGCCATTTAGAATCAAAATATTTTGAATAGTCAAAGACAACTTTACTAGTAGCAGTAGATCCAGAAGGAACACTAGACCAAGAATTTGTTTCAGAATTCCACATAAATGAATCAGAAGGAAGATCAATATTTCCATTTGGTCCTGAAGTTGTTACGTCGTAATTAGCTCTATATGATAGAGGTAATCCGGTAAAGGGATGACGAGTTATAGGAGGATCGTACATATTTCTCCATATATCAGTTCCATAAACATCACCAAAACCACCAACAGGATTCCAAGTGGTACGTTCAGTCCATACCCAAACATTTCCAATAGTGAGATCAGTTTTACCTGGAATGTAAGCATCTCTTTGTGTCCATAAACTTTTTGGACCAGCAATTATATCTGAACTAATTCCTTCAATAGAATCGTTAGCAGGGAGATTAGTAACAATATTAGCAATCCAAATTCTTACAGATTCATCAAGACATAATTTAGAAGCATCTGCATAAATTGAATTACGTTCTTCTTCATTCTGGAAATCTCCACTAAAGATTTTTTGTCCTAACATATCCAAATCTTCATTTTCATATTGCCAGAAACCTAATTCTTGCCAACCAGGCATATTTCCAAGCCATGGAGAACACATTTGGTTTAATGTACCAGAATCATATCTATCTGCTGCGCCTTTTCCCCAACCTTCAGTATACATATGCCAAGATCCACCAGTGCCTACTAAATTAGGATCTGAACTATAAACAGTGTATATAGCAGGTCCAAATTGTTGATATGTAGGTTGGACTATAAAGCCAAGACTTTCAACTTCTGACCTAATTAAATCACCGACATCTCGTCGTTCATCTTCAACACGAATAATAAAATCAATACGAATGGGTTTACCTTCATAATTCCATTTACCTTCAATTAATTCTGCACCTGCATTTGTCATTGCATCATTTACAATAAGTTTTGCATAATCGGGATCATAATTAATAGATGATTCAAGAATCATATCGTATAAAGTAAGATAATCATGATCATATGAACTAACTTGAGTTAACATTGGAACTGCCATACCTTGATAAATTTCTTGAACTACAAAATCGCGATTAACAATTAGTTGAATAGCTTGTCTTACTTCTTTAATAGAAAAAGGATTGAGTTGACCTTCAGGTCCAGGAGCAGGATTAAGTAACAATGAAATTGTGGAAGTAGGAGCTTCATGTACTTTAATTCCAGGTGAGCCACGTATATCTTTTGCAGCGGCTACTTTTAGACCAAAATAATACATATCCATTTGATTTGCAAGGATTTCTTTAGGAGCAATATCTACATGAAATGAACGAAATCTCAGTATATCTGCAGCAGGACCAGGTTTATCATGAGGTGGTTGATAGTTACTTTGACTATATACAATAGTCGGAACAACCGAGATTAACAATAAAATACTTAATAAAATAGTAATAAATTTTGTATACGAATTAATTATCATAACAATCATCTATGAACTATTCATGAGTTTACGAATTTTTTTCATATCGATGCCATTTTCACGAGAAATAGAAATAAACACTACTACAACAATTGCGAGAATCATTGCAAGTAAAGTATAGATGAGAGTTTCAAAAGTATTGGTTTTGTTGGATATATCAGAAACGTCACTTTGAAGTTGATTTATTTGAACAGGGAGATTAGATAACTCATCGAGTTCAGAGGCAATATTATTAGAAGGAACTGGTGGTGGAACAGGACTGTTTGAATTAGGTTGTGTTTGTAACATATCAAAAATAGATTCAGATATATCGGATAATCTATTTTCAAGTTGATCGAGATTATTAAAACCAAAGTCCATAAAGAAGGATGCAGCAGCAACATTTCCAGAAGCTTCTATCGCTAGAATTGTATGTGCGCCTTCTCCAGCAATTGGAATAAATATATCAGTATTGAATAGTCCATCGTCGTTAGTTCGAGTTGAGGAAATAATTACACCACTTACAGAAATATAGATCTCCTGATCGGGTTGGAAATCAAAACCAGAAATACGAACATCTCTACCTCCAGGACCAGAAGGTGGACTTATGAATATTGAAGGAGTAGGCATCGGTTTAGTTCGTGCAAAAGCAATTTTCTGATTCATACCAGTCATTTCACCTAATCTACCATCAGTCCAAATCATATAGACATCATCGGCAACTGCTTTAATATCATTATAATCACCAATGAATGCACCTCTAGGGAAAGCTTTGTTAGGATTTGTAGGGTAGTCAGTAATTCGAGAGTTAGTTAACCATGTATCACCATTATCATCAGAACGAGTGTAATACATATGGTAAGTTATTTCACTTGCACTGTCACGGAAATCTCCAAAGAATGCATGAATACTTCCATCAGGACCAATATCTAATGCTGGAAAGAATTGAAAAGCAGACTTAGTATCATCATTAATACGTTTAGGACTTGACCAAGATTCTCCTTGATTAGTAGACCGTACAAAATATACATCGCCGTCGTCAGTAGGTTTATCAGAAGGTCGACCACCGAAAACAAGGCTAATGGATCCATCTATATCAGAAACCGCACCACGAGGCATTGCACTAGCCCATGACCGAAATGGAGCGTTTCGAGAACGATAAAATGGTTCATTAAATGTTGCTGAACGTTCGCTGTCAGCAATTGAATCACCGCCATCGTCAGAACGGGCAACATGAATTTCACCTAGTCCTTCGAAAGGTCCGTCATCAGTGGAATCATGATAGGCAATATAAACTGTGCCGTCGTCATGTGTGAATACATGTGGGAATTGAACAACTCTATCGGTTTCTTCTGCAAATTGGTTTTCACCACCACCGCCGCCAGATCCTGCA
>sequence02
GATGTAACTGCATTAAAGAGATTTTTAAAAGAGAATGAGGTTTTAGTTAGAACATGACAAAATTTTCTATAGATGATGTTAATTTTGAAAAGAGTCAGGGATTAGTCCCGGTGATAGTGCAAGATAGTAAATCAAAAGATATACTAATGTTGGCTTATGCAAATCGATTAGCAATAGAAGAAACTGTTAGAACAGGGTATGGTCATTATTGGAGTAGGTCTAGGAACAAACTTTGGAAAAAAGGTGAAGAATCTGGAAATGTACAAAAAGTACTCGAAATAAGGATAGATTGTGATGAAGATACGTTAATTTACCTAGTGGAACAATCTGGTAATGCTTGTCACAAAAACACAAAAACATGTTTTCAAAGAGATTTAATTTAGCTAAGATGTAATTTTAGTACCTACAGATTTACCAGAAATTACAGATTTAATTTGTCGACTATCGCATTTAATTACAACAGTAGAAATTTTAGATCGTTCAATAATTTTTAGGGAAAGTAAATCCATTAAATCGTAAGTTCCAGCGCTCATCTTATCATCGACAACTTTACCAAGTAAATTTTTTGTAGTAATTGATTTAATCAGTTTTGCATTTTTATTTTTTCTTGGGTCGGAAGTAAAAACACCGTCAACATCAGTAGCATTTATAAACAGTTTAGCTTTAGTTCTTTCAGCAATTAAAGCAGCAGTTGCATTTGTACTTTGACCAGGTGATAAACCACCAGTAAAAACAATTTTTGAAGAAGTGAGGCAACGAACTACTTCATCTAAAGTTTTTGGTACATCTTGACAAGAATTAGTAGTACAAGTTGTAAGTATTTTTGCATGGATACGAGAAACATCTATTCCAAGTTGATCAAGAAATGCTTCATCTGCATGAAAGTTTCTAGCTGCATTCTGCATAGTCCGAGCAGCTGTTCCACCACCTGCTATTGCAACGACTTTATATCCATTACGACTAATTTCGTCTAGGGTTTTTGTTATTTTCTTGACTTGGGAATAGTCTTTGTCGAATGAGAATAAACTTCCACTTAATTTAATTACTACGGTTTTCATTTAACCACTTATGTCTACGAGTAATTGTCTTATTAATTTTCATTCATTAATAAATATAATATAACATTAAACGACATCGTAGAACAATCATAAGGTGAATTTTTGCCAAGCAATATAGATTCAGTAGCATTATATAAAACAAGGAAAATACTGAGAGAACTCTCTACTAAAACGGGAAAAGGTACTGAACTTATTTCATTATATATTCCACCTAAAAAAGCATTACATGAGGTTTTGAATAATTTACGAGAAGAATATGGAACGGCAACAAATATAAAATCAGATTCTACTAGAAATCACGTACAGGATGCCTTAACTAAAACTCAACAACGATTGAAACTTTTCAAAAGAACTCCAGATAATGGAATAGTGTTATTTGTTGGATCTTTAATGACAAATGGTCCGGGTAGTGAACAAGTATTTGTTAATGAAATAATTCCACCAAGACCGGTACAAACGTATCTATACAGATGTGATGATCATTTTCATTTAGAACATCTTATGGATATGATAAAAGAAGTTGATTTAATTGGAGTAATTTCAATTGATTCGACAGAAGCAGGATTTGGAATTTTAACAGGTGCAAAATTAGTAGTTGATGAAGTGATTACATCAGGAGTTGGAGGAAAAACAAGAGCAGGAGGTCAATCTGCAAGAAGATATGAGAGATTAAGAGAAATGAATCTTTCTGGATATTATAATAGAGTTGCGGAACATGCCAAAAAAACCTTTCTTGAACAAAACATAATAAAGGGTTTGATAATAAGTGGACCAGGTCCTACAAAGGAATCTTTTTTGAAAAGTGGATATTTAGATTATAGATTAAAGGAAAAGATTCTAACGGAAATTGATGGAGCTTATTCCGGAGCAGAAGGAGTACGTGAAGCAATAGATAAATCATCAGAAGTTCTAAAAGATATGCGGGTTGTAGAAGAAAAGAAATTGATTCAAAGGTTTTTATCAGAAATACATAAAGAAAAAAGTCTTGCAGCATATGGAATAAAAGAGGTAATGGATGCAACAACAAAAGGAGCAGTTGAAATTATTATTGCATCAGAAGATTTGAACATGTTAGATATAGCGTTAAAATGTAATCGTTGTTCAACAGTTTCTAATAAGATTCTAAATAGAACTACATATGTTCAGGAAAAACAACAGCTATTGAGTGAGTCGTGTAAGTCATGTAATGCATCAGACTTTTCAGTAACGGAAACTGATTTAATTGAAATTTTAGAGGATAGTGCTTCGGAATCAGGAACAAGAATCGAAGTTTTAGGAAGTGGTTCAGAGGAAGGAAGAATGTTGATGAGTTTTGGTGGATTAGGAGCAATATTAAGGTACAGAATTCAATAAATTGGTGATGGATTAGTTGGAACCAAAAATTAAAGAGAATCGTTGGAATGTAGAAATTGAAAAAAGTATTGCAGAGTTGTGGAATAATGAATCATTATATGAATTTGACATAAATGATAAAAGAGAAGTATTTACTATTGACACTCCGCCTCCATATCCATCTGGAAGGCCTTGGCATATTGGAGCAGCAGCACATTATTCACAAATAGATATGATTGCAAGAACTGCTAGAATGATGAATTATAATGTGTTGTTTCCAATAGGAATTGATAGAAATGGATTACCTGTAGAAATCTATACTGAAAAGAAATTTAAAGTTAGTATGATATCTACGCCTAGGGAAGAATTTACAGGTCTGTGTAAGATTGCATTAGATGATCTAGAGGCAGAGATGATTTCTACAATGAAATTAATGGGATTATCAGGACTATTTAGTGAATATTATAGAACTGATTCAGATGAATATAGAGCACTTACGCAATCTACATTCATTGAGTTATGGAATAAAGATAAAATTTACCAATCGTCAAGACCAAATAACTATTGTTCTAAATGCCGTACCACTATAGCAGATGCAGAAATTTTTTATCAAGAATTACCATCAAAATTAGTTTATCTTAAGTTTTACATTAAAGAAGAAGAAGATTATGTAATAATAGCAACAACAAGACCGGAATTATTATCAAGTTGTCAAGTAATACTAGTAAATCCGGAGGATAATAGATTTGAAAGTCTTGTAAACAAAGAGGTTAAAGTTCCTGTATTTGAGAATTATGTAAAAATAATCCAACATCCTAGTGCAAAGATGGAATTTGGTTCTGGTGCGGTAATGATTTGTAGTTATGGTGATTATACAGATGTATTATTATTTAGAGAATTAAAATTACAAGAAAAGATCAGTATTGATACGGCTGGGCGTATGACTGAAAATGCTGGGAAATATCAGGGTTTGAAAGTTAATGTAGCGAGAGATAAGATAATTAAAGATTTACAAGAAATGGATTTAGTAGAACGAATTGAGGATATAAAGCATAGAACTCCTTGTTGTGAAAGAAGTAAGAACCCCATGGAAATTATTCCAATGGAAGAATATTATGTTAAACAGATAGAATACAAAGAAGAGTTATTAGATATTGCTAGAACATTAAATTTCCATCCAGAGGAACACCGAAGAAGATTAATTGATTGGATTGAAGCAATTTCACTAGATTGGCCCATATCAAGAAGACGATACAATGCAACAGAAGTTCCTGTATGGTATTGTAAATCTTGTAATGAAGCAAATTTACCTAAACCTGGTAAATATGTTAGACCTTGGAAAGAAAATCCACCGTTTGATAGTTGTAAAAAATGTGGAAAAAATGAATTTGTAGGAGATGAAAGAACGTTTGATACTTGGATGGATTCAAGTATATCGCCTTTATTTATTACAAAATATAATAAAGACCAAGAATTTTTCAAAAAGACTTATCCAACAAGTTTAAGACCTCAGTCTAAAGATATTATCAGAACGTGGTTACATTATACAATATTAAGATGTAATCAATTAACAAATAAAGCTCCATTCTCACATGCATGGATTATGGGATATGGAGTTGATGAACGCGGAGAGAAAATGAGTAAGAGTAAAGGTAATGCAATAGATCCTATACCTATATTAGAAAAAAATGGAGCGGATATGTTTAGATTATGGGCAGCGTCTGAAGTAAATCTTGGATCTGATTTTCGAGTATCGGAAGTTAAAATAACTGGAGTCGGTAAATTTTTATCAAAATTATGGAATACTGCTAGATTTATTTCTAATTTTCCGGTTGTTGAAGAAGAGCCTTTAGAGACAGATAAATGGATATTAGATGAATTATCAAAAGTTATAAAAGAATCTTTGGAAGGATATCAAGATTATAATTTCTTTATTCCTGCAAATAGAGTTAGAGAATTTATTTGGAATATTTTTGCGCCACATTATATAGAATTAGTGAAACAAAGATCATATGGAATTGATTTTGACGAGAAATCTATGCGTGCAGCATGGTCGACTCTACATATTTGTATGAAAAATTTATTGTTACTTCTTGCTCCAATAACTCCTTTTATTACTGATAAAATTTGGAGAGAATTATATTCGAAGGAAAGTATACATAAAGAGATTTTTCCAGAACCAGACAAGAATTATCAATTATCCGAATTTACAACAAATATAATTGAATTTAATTCGTTAGTATGGAATAAGAAGAAAGAACAAGGATTATCATTAAAGAATGAAATAACTATGGAAATTCCAGAAAATTTGACAATATTTGAAGCGGATTTAAGATCAATGCACAAATTACAAGAATAATTTTCTAATATAATATATCAGAATGAGAATTGCAAGAATTGGGACTAAAGGATAAAACCAAATTGATGGAGCAGAATTAGAATCTATATTAGATAAATTAGTATTAGAATTAACAATGTATTCTATTCCACCAAATTCAAAATTATCGTCGGAAGAAACTATTGCAGTAATCCAATAAGTTCCAGGTGATAATCTTAGAATTATCTCTTCGTTAAAGGAAAAAATTTGTTCTGTAACTTCCGCATTATCAGTATTATATATGCGTAACATACCTTGATCATATTTTTCAATTCCTAAAAGGCGAACGATATGAGATTCAGAAGTATTTTCAATATCAAGAGAAATTGTATTGAAGTAAGTAGATATAGGTACAGTAAAAATATTGTTAGAATAATTAGTTTTTATTAAAAGTCTAAACTCATCGACATAAGATTTTTCAATTGATTGGAGGAGATTATTATTTAATTCAATAACAATTGATTCTTTTCCATTTAATACAAAAGTACTTGAATTGAGAATTATTTCGATGTCATTATTTTGAAGATTGTTGTCAATAGATATTTCAAGAGAATCAGATACAAGAGATTCAAGAGTGAGTAATTGGACATTATTAGATTGCTGATTAGCTAGATTAAATGATAATTGTGGTTGATGAATAGAAATAGGAGATTCTAATGCATGATTAATATTAAGACTACCTGAACCTTGTAGATTAGATGGAAGATACAAACTATATGAATTAGTCAACGGAGTAGCAGATGGACCAAGTATACCAAGTATTTGATCTTTATTTAGATCTCCATGAAGTTCTAATAATAATGCAACAGTACCCGTAACGTGCGGAGCAGAAAAACTTGTTCCGTTCTGAAATCGATACGAGTTATTTAACCAAGTAGAATTAACTTGTTCCCCAAATGAAACTAGATCAGGTTTTGTATAAAATGATGATACAGGTCCACGAGAACTAAATAATGAAACAAAATTTGTGAGACTAGCATTACGAAATGAGAGAGTGACTGGATCGTTAGATTTTTCTATATATTCAAGAAGTTTTTCTCCATCTTCCTGTGTAATTAACATAGTTGGAATACTTGGTTTATAATCAATTGCCATACCGGGATGAAGTAATCTTCCTTTAATTATTCCGGGCATAGTATTAATTATGATAAGTCCAATGGCACCTTGGTTCGCTACATTAGATTCTTTTTGTGAGAAATAAACAACTTCACTGGGTTCTGCGCCACGTCTTTTTGCAATTGCAATTTTACCTGTCAAGTCAATTCCAACAAGATCTTTATTACGTGCATAGTTAACAAATGTAAGTTCAGCATTTAGACTATTAGTTAAAGGAACTGAATCAATCATAGGTAAACCAATTAATTCTTCTTCAAGACTATCAATGTTGATTATTGCTAATGTTGAATTGACGTCATTAGTATATTGAGAACCAACAGATATTACGTCTTCATATTTTGCAGGATCTCCAATACTGGCAAAAACTGGGCCACTATTACCAACAGCAGTGATAACAATTATACCTGAATCAGTAATTTGTTTAATTGATTTTCGAAGTTCGTTGGATTCGGACATACTACCTAAACTTAGATTGATTATGTCAGCTCCGTCAGAAATAGCTAAATTCATTGCTTGAATTACATCACTTGATTTAACCAAGCCATTATAATCTACAACTCGATACGCTAACAATTTAGAATTAGGTGCGATGTTTAACACTATACCAGCAATATGAGTTCCATGGCCAAGTTCGTCCATTGGATCAGAATCATTATCAATAAAGTCATAACCGCCAATGACTGTCTTTCCCTCACCAAAACCCCCTCCTAAATCAGGATGATTATAATCAATTCCAGTATCAATAATTGCAATAATTATTCCATTTCCTGTGACATTAGAATTAGAAGAGATTTGTGGAAGAAAGACTGGGTTTAAAATCAATAATATTATAATAAATATTGCAGAAATTTTACTCATTATGGTATTTATTCAATTCTAAGAATTAAGGTTTTAAAAATACAATAAAAAATAGCACTATTTAGAGTTAAGTAATTTAAAAGTCATTATTTATTAGATGAATAATTCAGAATTGAAAAAAGCTATAGGAGTAGAAAAATATTCCCTAGTAATTTGTGAGAAATCAGAAGCTGCTAAGAAAATTTCAGAAGCATTATCAGATAATAAATTTAAAACAATTAAGATTTTCAATACGAATGTATTCTTGGTTACATTTAAAAAGAGGAATTATCTAATATGTTCTGCAATAGGACATCTTTATACATTAAGTTTATTAAAAAAACGTCAAAAATTACCTGTTTATGATTATGCATGGATACCAATTAGTCAATCAGTTAAAAATAGATCAAGAATTGTAAATGCTAGAATAAAAGTTATTAAAAAATTATCAGAGAATGCAAGTGAATTTATTCTTGCTTGTGATTTGGATCAAGAAGGTGAAACAATCGGATATAATATTTTAAAATATGCATGTGATGAAAAACAAAATATTGCTAAACGTGTAAAATTTTCTACATTAATGAAAGATGATATAAAAAATGCGTTTGTGAATATTCAAGATAGTATTAATGTGAATATAGCTTATGCGGGATTAACACGGCATACTATAGATTTTCTATATGGAATGAATATTTCAAGAGCGCTTTCACGGGCTTTTATGACAAGCAGCAAAAAATATAGAACGTTAAGTATTGGACGTGTTCAAGGACCTACTATAGCTTATATTGTAGAAAATGAGTTGGCAAAAGATTCACATGTTCCATTACCATTTTGGTCAATAAACACATATATTGATTCGGAAAAAAATCATAATGGTAAATGGATTAAAATTCAATATATTGAACAAAAAATATTACAACATAAAGTTGCAAAAAAAATTCTTGAGGAATGTAAGGGGAAAAAAGTAATAGTAAATAAAATTGAAAAATCTAAATTTAAAATCAATCCGCCATTTCCATTTAATCTAAGTGGTTTGCAAAAAGAAGCTTTTAGACTCTATAAGTTAAGTCCTTATCAAACACTAAATATTGCAGAAAAATTATATCTAAATGCATTAATTTCATATCCACGAACAAATAGTCAAAGATTACCATATAATTTGGATTGTCGAAGAATTATTATGGATTTGAGTAATTTATCAGAATTTAGAGATGTAGCAAATAAGCTGTTGAAAAAACAGAACGTCAATCCAACACAAGGTAAAGAATTAGATAATGCGCATCCGAGTATTTATCCTACTGGGAAAACTTCAATAAACAACCTATCAGATGTAGAAAAAAAAGTATTCAAACTAATTGTAAAGAGATTTCTTGATTTATTTGGTGAATCGTTAATGGGGCAAAAAATAGAAATATTTTTCAAAATTGCAAAATATGATTTTTATACGGTATTTAAGAGAATGCCAAATCAAGATTTGAATAAGTCTGTAGAAAAAGAAGAGATTATTGAATTATCTATAGGCGATAAACTAGGAATCAAAAGAATGAATATAAGTGAAAATTTTGAAGAACCAGTCAAGTCATATAATCAAATGACACTTGTACAAAAAATGGAAAAAGAAGAAATTGGAACTAAATCTACAAGAGCAAACATCATTCGTACAATAATTGATAGAATGTATGTAAATGGTAACATGCTAATACCTACAGATTTAGCTAAGGCGTTAGTGAGTACATTAAATGAATATTCTCCAGAAATATTATCTTCAAAAATGACTAAGAAAATGGAAAAAAGTCTAAGAGAGATAGAACAAAATAAGATAACATCTGAACAAGTTATAGAAAATACCAAAAAAGATCTAAATCTAGTAATTAAATCAATACAAGAAAACAATAAAGATATTGGAAAGATATTAAGTGTTGCAAGTAATAAATTAGATAATAAAACGATAAATAATAAGCCGCTTGGAAAATGTACGATTTGTTTAGAAGGTGATTTAATTATTACTTCAAATTTGAAAAATCGTGCATTGATATGCTCAAAAAGTATAAAAAACAAGTGTGAAATGAAATCTTCTTTGCCGAAATTTGGATATATAAGAATACAGAAAAAGGGTTGTGTTAAATGTTCTTGGCCAAAGATAAGAACGTCGTATAAAGGAAAACCATGGAATTTTTGTTCCAATCCACAATGTTATAATGAGAAGAGGAAAAAATGAAGATTTGTAGATTATGTGAAAATTTAATAGAAAACGATGATAAATTTTGTAAATATCATAAAAATGCTAAGGAAAATCTGAACTCAGGTTATGAGATTTGGAAAAAAAGAGTAGAATATATAGAAAGAGAAGAATATCTGAAAACCTTATTAGAAATATCAACGACAGGAACATTAGTAAAACAAGTAATAATGGATGAATTAGGTAAGGAAAAAAAGAATGGTAATAAAACAAAAGATTGATAGTTTAACAAATAATTTATGGTTAAAATTTAGTCGTATATCTATTGTAAGAACAACATTAAAGACTTTATCAGTAGTATTTCAAACACGTGCTTTGAAAGTTACATACTTAGCTTTGTTTGTTCTATTCACTACTGGAATTGTTAATTCTTTAGTAGAAGGTCCTTCTTATGCTGCAAGAGGAACACCGATAATAGTTGGTTTTCAGGCTCAGACATTAGCAGAAACTATTATTTTTAGTTCAGCAATATTATGTGGAACAGTTGGATTTATTTTTATTACAAGAGCTACAAAACAAGTTGCAAAAGGAAGAACTACAGCAGCTTATATTCTTTCTGGACTTGGATTATCATTTATTGGTTTAATAATTGGTTTCTTTTTGGTTACACTAAAAGGCGGCGGTTAATTTTTTAATTTTACAGATTTTTCTATTGTAAGATTATTATTATAAATATGAAGATTTGTTGTATTGTTTATAGAATTTATATAAATTATATTATCACTAATTTTATTAAGAACTTTCATACTAGTAAATTTATTATTGGATTTAGAAAAAGTTTTGTAAAGGGAAAAATTTAGCAATATCATTTTTGCATTAGCAGTGTGAACAAAATTTTTTAATGAAGATAAGTAATAAAATAACAACTCACTTGCGTGATTAGGGTCTTTTTTACTAAGTAATTGATAGAAAGAAGGAATAGAATCAACAATTAAAAATTGAAATTTTGGATTTGTCCAGGATAAAATAGAAATAAGTGAATCCTCAAGATTAGTGTGATTTGGTTTATATAATAAAATACGTGAATTGTCCTGTGAAATACTTAGATAACTTCGAAACCAAGCGTCAAAATCAAGATAAATAAGTAATTCGGAATTAGATGTAGATGGTAAAAATAAAGGAATTACTTTCTTTCTACTGTTAGAATTTTCCATATAAATTGTAGAAACTTGAGCGTTGAAGAGGTTTAAAAATTGAGTATTATTTATTGTAGGAAAGTGTTGATTGTCACGATTTATTGGTATTTTCATATATTTATTATAAATGTTAAATTGAATATTTAAGAAAGTAAAAATAACAATAATTGTTGTTGGAAACTATAGAACAAACACGTAGAACGAACGTCAAAATAGCAATTATTACACTCGATAGTAAAGCATATTATAAAATTACAAAAATATTAAAGGAACATAATTTTTCATTTTTGAGTTTGACGCCAAATGAAAAAATACCTGAATTTATTAATTTAGTAATTACAACAGAATTAGAAAAACATCTAGCAACAAAAATAAATTATATTACATTAGAAGAACTATCACGTGTAAAGATTCAACGATATATTATTTTAAGTAAATTAGGAGATTTAACTTGTAAAAATATAACAATAGGAATTGATCCTGGACATAGAACTGGTTTAATTATATATAATGATGATAGAGAAATTTATACAAATGTATGTAGATCAATTAATCAAATTAAAAAAATAATTAAAGAAATTTTAGAATATTTTACTCATAGTGAAATCACGATAAAAATTGGAAAGGGAGATAAACATAATTCTAACTATATTGCTAAAACGATAAAGAATATTGCAAATGAAGAAATAAGAATAGAAATAGTAGATGAATTTGGTACGTCAAATCAAAAAACTAAACCAAATAAAAGGGTATCTAGGGATATTCGTGCTGCAAAGATTATTGCATATAGACAAGGAAAGGTTTATCGTTAGGAATAATTTAACGTTCTTTATTATCTTTAGTGCAAAATATAGGACTTAAAGGGCCACAAGATAGACAAACAAAATCGATATGATCACTTACAGGTACTTTATCCATAGGTTTACTACAAACTGAACAATTTTTGCTTTCCATATGATTTTATTAATATTGGTGTAACTTAAATTTATGGTATTAATTGGAATCTATCAATCCAGAAAATATGAAAAGATTAGAAGATATGGCAGAACAAATTGGAATATCAAAATTAATTTTAATGGAAAATGCAGGATCTAGATTAGCTAAAATAATTAAAAAACGATATCTAGATAATAAATCAAAAAAGATTATGATAATTTGTGGGAGTGGAAATAATGGTGGAGATGGATTAGTATGTGCTAGACATTTACTTGGATTTTCAGATGAGATAACTGTTTGTTTATTGAATACTAATGGAAAATTAAAAACTTATGAGATAGAAACAAATTGGAAAATAATTAATAATATTAAACAGATAAAAAAGATTGAATTTTTTCAAAATAAAAGGTTCGTAGATGACTTTGGGCAGGAAATCAATAGATGTGATATAATTATAGATGCTCTATTTGGAACTGGATTACATGGAAATTTAAAGAATCATTTTGAATATGTAATTAATCAAATTAATAAAAGTAATAAATCAATTATTTCAGTAGATGTTCCTTCAGGTCTAAATCCTTCTGATGGAAGTTTTATTGACAATGTAGTAAAATCAGAATTAACTGTAACATTTCACAAGGTTAAAAGTGGATTACTTGGTAAAAATGACATAACTGGAGAAATTGTTATAGCAGATATCGGTATACCACCAGAATTGGAAAATAACCTATAGTATATATTCGTCAATTGATAATGTACGGTAGGAACTGTAAAAGATATATGGAGTTTATGCAAATTATCGTTGGAAATATGAAGAATTTTACTTATATTGTTGGCGATAGCAAAACTAGAAATGGATTTATTATTGATCCATCTTATGATATTGATAAAGTAATAACCGCAGTACGAAAATTAGATCTTAATATAAAGTATATTTTTAATACACACAGTCATTGGGATCATACAATTGGAAATAAAGAGGCTGTACAGAGAACAGGTGGAATAATTTGTGCACATCAAAGTGCGCCAACAAATAAAGATAGAGGATTAAAGGATAAAGAAGTAATAAAATTAGATGCATTAACTATCAGAGTAATGCATACTCCAGGGCATACACCAGATGGAATATGTTATTTATTATCTGATAAAACTGATACTAAAAAGAACTATCTATTTACAGGAGATACATTATTTGTAGGTGGATGTGGAAGAACTGATCTTCCAGGTGGAAAAGAAGATGATTTGTTTAGAAGTTTTCAGAAGATTATGAAGTTAGATGATCATGTGAAGATTTGTCCAGGACATGATTATGGTTCTAGATTGATTTCAAGTATTAGGTATGAAAAACGACATAATGGATTTCTTCAATTTGAGAATAAGCAAGAATTTATAACAGTAATGAAAACAGCTAATCGTTAGAGATTATATACTATTTTTAGGCCATGATGCAATGGCGTCGTGTGAATGAATTGATTCTAAGCTTTGTGCATGAATGTATTTAGCATTAGGAAATCTCTTTAAACAATCGCGTACTACGTCTTCTACAAATTTTGAGTTATCTTGAGCGTCAATAATTTTATTTGCTTCTTCTGCACGATTAAGAAATTCTTTCAAACTTGCAGAGAAACATTCATTAAGATTTAATGCAACTTCTTCGAAATTAATTAGTTCAGTTTGATGTAACTTTAGAGTAAGTATAGTTCGTTGCATATGTCCAACTCCGGATATCGCTTTACTACAAGGACAAGATGTAATGCCAGTAAGTTTAAATTTATAATCAAATTTTTTGTTAGGATTTAAGGTAATAGATGTATCTAGAAATTGATCATGAACAGGGTATTGAAACTTTACATTTACAACACAATCAGGTTGTGTTTGAGTTACCTCATCATGAATTTTTATTAGAGAATCTTCAATATATCTACCAGTAGTGTGTTTTAAGGTTGATTTTATTAAACGACTCATGTGAACTCCACGAGTGTGTTGAGTAGAAACACTAACTGAGAAATTAACAAATAGAGGTCCCACTTCACTCTGATATAGTGTGTGAAAATTAGATATGCCTGCAGAAACATCTACAGAAGAGCTCTGATTTTGGATATCAGGTAAAACGTCAGTAGATGAGAATTTCTTTTGTTTAGATTTGTCTAGCAAATTATCAACTCAAGTATTTACTACCGGTAAATCCATATAATATAAAATTATTTGAAAATAAGATTTCTAGTGCTAAGTATGAATTAATGGATCGTGAATTCCTAAAGCGGAAAAGCTTTCTAGTCGTAATATACAAGATCTACATGATTTACAGGGAATATTTTCTTGTTTTTCGCAGGACCAAGTCATATCAAGTGGAACATTTAGACGTAAAGCTTCTTTAATGACTTCTTGTTTATTGAGTTCACTTAATGGCATAATTATATTGTATAAAATTTTTTGAGATCCATATGTAGAATTATTAACTATTGTATTCAATTGTTGAAAGAATTTCTTGTCAGAATCAGGAAATAAATTAATATCATTTTTATTATGTCCTCCAACAATAGTTTCAATACCAATGGTTTCTGCCCACCAAAATGCAATGGAATAAAAAATTAAATTTCTGGAAGGAATATAATTTGGTGGAATATTTTCTTTATGATTAAATAATGGACTTGATTCACTATAGTTTTCATCTTCGAATTCAGAAAGAAAATTAAGATTAACAATTTTATGTGAAAGTGCACCAGATATATCAGAGAGTTTAGAACAACATTCAGTTTCTTTTTTGAATCGTTTATTATAATCAAAAGTAATTGTGTAAATATTATATTTCATTTCTTTCATTTTCCATAGAGCAACTGCAGAGTCAATTCCGCCAGAAAGTAATATCAATGCAGATGGATTCAATAGTTGTATATCCTACTCGGTAACAATAAATGCTGAATTATTTTCATGTTCCCAGATTTGGACTTTATGAACCCAAACACGAGAATTGGTTGAAGTTTTAATCCATTTATCAACATAATCATAAACAAATTTACAAGAAGCTTCTATTCCAGGTCCCCAGCCTTGCTCAATATCCATTACATTAAGATTACAACCACCATTATCATGAAGTTTTTTAAAGTCAGACATTAATGGGTCGTCGCTAGCGATAAGTAAGCGATGGTCCCATTGTTCATTTAACCAAATTTTTATGTCTTTCAAGCCACCAAAATTCATAACCCATTGTTTATCGTCTAAACTATTACATGCAAAAGTAATTTCTACATATCGAGCATAGCCATGCACGTATTTACAATGTCCAGAATCACGCCATTGTCTATGACCAGTAGTTATAGGTCCAAATTTTTTTAAAGAATAATATTTCAATGACTTTCATTAGTTTAAAATAAATTATAACTATTTATTTTATTCAATAATATCAAGATCATTAGGCATTAATGTATTAGGAAAAATTGAATGAATTTCATCTATTAATTCTTGATTAAAATCTGGTCGATGAATTAGAATTAGATTCTTAACATTAGATCTTTTTGCAATTTCTGCGGCTTGAATAGGAGTAGTATGAGCAGAGTCGTGTGCTTTATCTGAATCAAGTTCACCAGCCTCATGTATTAAATAATCGGCATTTTTAGCAAATAATGATAAATTGACAGGTCTAGTATCACCTGTATATACAATTTTTGTATTATCAAGTTCAATTTTGTATATATAATCTAACACTGAATGATCACCCTTAATATATTGTAATGGAAATGGATACTTGGAAGTAAGAGATTTAAATTTGAAATATTTTGTTATGTTAATATCTCCAAAATATTCTGTATAAACATTTTGAATTTGTTTTTTTAAACCTGAAGGTCCACTGATATTTATATAACCCGATTCACGATGTTTAAGATTTAATAAAAAGAAAGGAAGACCACCAGAGTGATCTCCATGTAGATGTGAAATAAATATATAATCAATTTGATTAGGGGAAATATTTAGTTTTCTTAAAGATTGTATTGCTTGGGGTGAACAATCTAATAGAATTTTATAACTTCCATCAATTAATATAGATGTACTAGCACGTCCGTTAGAAGCAAATGCATTACCTGTACCTAAAGTAATTATCTTCATATGATATCAGTTATAGATTTATTTTAAGGATATATCAAAACTTTGTGTCGAAGAAGATTGTTCATCATAGTCTAGTTCACAAACATGACAATTATCGACGTCAAGTGAGGGTTCTAATTTTTTATGAATATCACAAAGCATTCTATTACCTCGAATTATACTGCAAGCTTCATTGAATTTTGAGATAATATCACTTAATTCATGTTTTTCAATCATCATTGTTGTAATTTCAGCAACAATGTTTTGAATACGTTCATCATCTCCTAATGAAGTTAGATTACCTCTAGTACCACGAAGATAGTTACTAATTGCAGCTTGTGTTACGCCAATTAATTTTGCTGTATCTTTTTGACTAAAATTATATTCGTTGATTAATCGTTTTGCAACAAGAGCTCTAAGTGCAGGAACAGATGTCTTAGTTTCAATTTCAGCAGGTAATAACATCTTAAGTATAATATTAGTGATTATTGTACTTAAGGATAATGTGATAAAATTTAATTATAAGAATTGTTGATAATAGTTTTTCTCAATATTGGCAATTTCATCTGAAGTATTAGCCTGTGTATAATCTTGGAGGATTTTTGAATTCAGTTCGAAAAAAGTATGACCCCATTTGAATTTTGAAAGTACTAATTCGGATTCGTCGTATTTACCAGCAATATATAATGTAGCAGCAAGTGCTTCAGCTGATGAAAGAGTAAATAGTTTACTATAGTTAGTTGGATTTCCTGCTTGTAATAAAGGAAGTCGTTTATTAATACCAGGAAATTGTTTTTTAAATACGTCAGAACCTTTTTTCCATGAACAATCAATTACAACTAGACCTGAGTTTAAATATTTTTGATCAGTTCTGCATATAATATCATCAGACATTGGATTTAATAAAATAGCATTCCTAGATACTTGTTTTAAAGAAATTTTTTTCATTAAGCCGAGTCTGACTAATTTTAATGCAGTGCATTTTTTTGGATCGTCTTGTTTCATATGATAAACAAATAGATTTGTGGTACTCAATTCTACAATTAATAGTCAAGTTATAATCTTTAATATTTTTAGAAAAAGAGTAGGTTTGTATGATATAATGAAAATTGCTATTGATTTAGACGGTGTTTTAGCAGATGCATCAAGAATATGGATGAGGTTATTGAATGAAAGATTTGATATATCGGTGAATAAAACGGATGTAAGTCAATGGGATTTCTGGAAGAAAATAGGTATTTCAAAGCAGGAATTTGAAGATGTATTTGATGATGCATGGAAGGAATGGCAATTAATAGAAGAAACAGAAAGTGGATTACAACAAAAGATTAAGAAAATAAAAGAATTTGGAAAAACCGATTTGGTAACAGCTAGAAATAAAAAAACAATGGATGACGTTATGAGATGGTTAGAAATGAGTAAGATTGTATTTGATGATATAGTTGTTGTTGATGAACAATATTTGAAGGGGTATTTAGATTATGATATATTTGTTGATGATTCTCCTATACAAATAACTGAGATTGCTAATTTAGATAAGGTTGCTTTAGTATATGATCAACCTTGGAATAATCATATAATTGGGCGAAACAATTTAATTCGTGTGAAAAATTTTTCAGATGTAATTACAGTAATTAAAGATTCAAAATTTATAATATGAGAATAAAATGTTATAAAATCAACCCGTAAACTAAATTAATAAGATAATGTTAATCAGAAGTATGGTTAATGTAGACACAACATCAGCATTAGAGAGTTTTAGACGGTTTCTTATTAATAGTACTTGTGCATCGTATATACCTGAAAGTTATTTGTATGATCCTGAGGTTTTTCCAGAAAAAGATGGAGAAACGGGTTCAATTTATATTGAAGCAGCAGATAAAGTTACATTAAAAAAAGAAAGAGATATTACTTTTATCAATGTACGCGATGTTTTAGGAATTATCTATAAATCAAAGAGTGGTAGTACACACCTCAAATGGCGACAAATACGTGGTAGAGGTGGAAAAGTAACAGGAGAAGCATCTACAAATTCACTAGTAAATTTAATCACTGCAAAAGTAATTGATCAAGAATATGCAGTGGAACTAGCTAATGTAGAAAATACAAATAATGAAATAGAAGAAATAGAGAGTAATTAGATTAAATACCTAATTCATTTTTAGTTTCTTTATGAAGTAATCTGCCTAGAGTTACACGTTGAATATCATTAGTTCCCTCATAAATTTTAGTAATTTGACTATCACGAAGAAATCTTTCCATAGGATATTCAGTGGCAACACCTGCTGAACCACACAATTTTATTGCGGTTAGAGATGCTCGCTCAGCAGCTTCAGTTGCATACATTTTTGCAATTGCTGCAGAAGATACATAATCTTTACCTTGATCACGAAGTGATGCAGCCCAATATGTCAATAAACGAGAAGCTTGTAATTCAGCAGTAGCTTCAGCTAACATAAATTGTGGACCTTGAAAGTCCATGATTGTTTGTCCAAATGCTTTTCGTTGTGTAATATATTTCGATGCAGATTCTATAGCTGCTTGTCCAATGCCTACACCTTGAGCAGCAATTTCAATTCTTCCATGATCGTAACAATCCATAGCAACATAGAAGCCTTTACCTTCATCTCCAAGAATATTAGAATGAGGAATTTTTACATCTTCAAGAATTAATTCAACAGATTTTGAACCACGTATACCAGTTTTTGGAAGAGGATTACCAACTGTAAATCCAGAAGTTTCACGTTCTATAATAAAGGCGCTTATTCCCAAGTGGCGTTTTTGTTCATCAGAAGTACGTGCAAAAATTAAAAATGTATCTGCTATATCTCCATTAGTACACCAAGCTTTTGTACCATTAATAATCCAATCATCTCCATCTTTAGTGGCTTTTGTAGATATTCCAGCAGGATCAGAGCCAGCTCCAGGTTCAGTCATGGCATGTGCACCAATTTTTTCTCCTTTAGCAAGAGGAATAAGAAATTTTTGTTTTTGGTCTTCAGTGCCAAAACTAGTAAGAGGCATAGCAATCAGAGTATGAGCAACAGGAATAACAGAAACGGCGCAACTTGCACGAGCTAGTTCCTCTATAACAATTGCCATAGAAAGATAATCCATACCTATACCGCCGTATTCAGTAGGATATGGGACTCCAAGAAAACCTAATTCTGACATTTTTTGTATTAATGAATCAGGTATATGATCCTCTTGGTCTATTTTATTAGCAATTGGACTGATTTCATTATTTGCAAAGTCGCGTGCTAATTCTTGAATATCTTTATGTTCGTCCTTTAAGGAAATTGAGAAATCGTCAATTGTTGGATTTAGAAATTTAGTCAATTAAATTAACTTAAAATAAAAATGTATTATAAATGTTTATTGTGGAAATTTTTTCAAAACTTTAGAGATATAAATAATGTAAGTTGATTATTTTATATGGTTAAAGTCCGAGTTCATAAGATTAGTAGTGTATCTGATCCTGAGACTGCACAACCTGGTAAACAAATAGAACTTGTAGAAGTTCGTGAAAGAACTGATTCAGGAGTTATGGGAGGAATGACAGGAACAGATGAATCAAAGATGGTTAAAGGAATAATTTCACAATTTCAATCCATTGGGGTTTTCCCTGTTAATTCAAGAGAAATGGTATTGCCAAAAATGACTTTATTTCTTTCAGAAGCTGAATATGATTTATTAGCTGTACGTTTTGAAGTTAATGATGTCTTTGAATTAATTCTGAAAGATGGTGCGTTTATGTTAAAACGCGCAACTGAAGGAATTTAAATACATAAATTAACTTTCAGATTCTTCATTTTCATATTTATTGTCCAGAACACGTGATATATATGAATCTGCATTATTGGAATTAGGACTGGTGACGTCAAAGACCTTAATATCAGTTAACTTCCAATTCCATCCAAGCTTTTCTTTAGGTAGAATATTTTCTATCCATTTTGTTTGTTCTTGGTTATCCAAATGACAATTAGTTTCATCGCATTCATGAATAAGAGTAATATTAGTAATTTTCTTAATCATGATATAAAAGATACAGTTATCATTATTTAGTGTAAACAATTAATTTAGCAAATACTTATTACAATAGTATCCGATATTGTTAGAAATGAAAACTCGAGAAGAAATGGTAGATGAGTTAATTAAAATAAAGATACCTATAGGATTAATTAATTATATTGCAAAGAAAGAAAGGTCTGTATTAGGATCAGGAATGATGAATAGTTTGGGAAAAATGAATGATCAAGCAATTAGATCATTGTATTCTGCAATTGTAGAAGATAAAATAGAAAGAGAAGATTACTTATTGATTAGAACGACAATGTGGGTGGTAAATGAATTTCAATCATCGAAAATTAATATCGATCATAATGTACCAAATATTGGCGAGTTTAAAATAGTTGGTTTAAATGAAGATGATGAGATTCTTGTGGTTGTTGATTGTAAGATGAATCAATATGAATGGAATCAGATAAGTGAATTTGTTGAAAAACTTCGAATATTAAAAGAAAGAGAGGTAAAATTAACTAATGCATTTATTATATCTAGAAATGCTGATTTAACTGAAATTTTGAATAAATTAAAAGATGTGCAAGGAATGGGTAGTGATGGTGTTTTTGTGACTAAGGAAAAGAGGGGAATTGGTGGATTAGTTGGAGGTAAACCAAATAAAATTAATTTTTCAATGTTACTGGAAAAATCAAAGGAAAATCATGAAAAAGTTTTTCCGTGAATTAATTGAAAGAATTAATACCGATAAAAAGAGAATTTTATAACAGAGATACAATTAAAGTAGCTAAAGATATTCTTGGGAAAGTAATAGTAAGAAAAACTAAACAAGGAAATATGGCAGGAAGAATTGTCGAGGTTGAAGCATACAAATCTGGGGAATATGATAAAGCAAGTCATGCAAGTAAGGGTTGTACATTAAGTAATCAAGTTATGTTTGGAGAAAATGGATTTGCATATGTATATTTTACTTACGGAATGTATTTTATGTTGAATATAGTAGCAAAAAAGAAAACTGATCATGCAGGTGCTGTATTAATTCGTGGATTAGAACCGATTAATGGAGTAAATCATATGATTAAAAATAGAAAAGGAAAAAAAGAGATAAATTTGACAAATGGGCCAGGAAAACTTTCACAAGCATTACAAATTAATAAAAAATTTAACAATTATGATTTGACAAAGAAAGGAGAATTATATATTATTGATTCAGAAAAACGAGTAGAAAAAATACTATCGTCAGGAAGAATAGGAATTTCTAAGGATGTAGAAAAGGAATGGAGATTTTATTTAGATAATAACGCCTATGTATCAAAATATAAGTTTAACAGGAAATGATTCATATAGAATTTTGTGAGTCGGTGTGTAGGTATCGGTAATACTGAGGAAACTCCTCTCTCCTATCAGGAATATGATGTTGAGAAACATATCTAGAGATAGATGGCAACGGAGCAGAA
>sequence03
ATCAGAAGAAGTTGCTGAATCAGAAGAAGTTGCTGAATCAGAAGAAGTTGCTGAATCAGAAGAAGTTGCTGAATCCGATTTATCTAAAGACGAAAATGCCGCATTAATGGAAATTAGTGCTTTACCAGGAGTTGGTCCTGTTACAACTAAGAAACTTAATGATGTTGGAATTTATACAATACTTGATATTACTGTTAGAGGTCCTACTGATGTTGCCGAAGCAACTGGTTTTGAAACAGACAAAGCTGTAGAATTGTGTAATAAATCTAGATTAAAACTAGTTGAAATCGGTAAATTCGATAAAGATTTTGTTACTGCTACAGAAATTTATGCTCGTAGACAACAAATTGAAAGGATATCTACTGGTAGTTCTAATCTTGATGAATTATTAATTGGCGGTGTAGAAACTCAAGCTGTTACTGAATTTTATGGAGAGTACGGATCAGGAAAGACACAAATCTGTCACACTTTATGTCTTAATGTACAATTGCCTGTTGAAGAAGGAGGACTTAATGGTGGAGCTATTTACATTGATACTGAAAATACATTCAGACCTGAAAGACTTCGTGATATTGCCGAACAAAGAGGTATGGATCCAGACGAAGCACTTAACAAAATAATTGTTGCAAAAGCATTTACTAGTTCTCACCAAGAATTACTTGTTGGAGAATTAGGCAAAGTTATTGAAAGTTCTAATGCCCGACTTGTTATTGTTGATTCTTTAATGGGTCATTATAGATCTGAATTCTTAGGCAGAGGTACGCTTGCTACTCGCCAACATAGATTAAATCGATTTATGCATCTGTTGACTAGAACTGCCGAAACACGTAATGTGGCCATTGTAATGACTAATCAAGTTATGTCTGCACCTGACGCTTTCTTTGGCGATCCCACCCGTGCGGTAGGAGGTCATGTAGTTGCCCATACTAGCACTTATCGCCTATATCTTCGAAAATCTGGTAAAAATCGTATTGCTAAAATGAAAGATAGTCCGTATCATCCTGAACACGAGGCGGTATTTACTCTAAATGAACGTGGTGTAGACGATCCTGTTGACGCAAAAAGTAAAAAGAAATAAATAAGAAATCACAAAAGATTATCTAGTATTAGAAAGGGATAGATGTAGTAAATGAATAAATTATTGTTACCGCTGATGTTATTGCTATTGCTTACTCCAGCTATCTCATTTCCAAATATTACTGCTTCTACTAATTATCAAGAACATCTATCAATTTCAACTTCTGGCGATAGTGCATATTGGTCTATAAAATTGTCTGATGTTAATGTTACTGAAGTTATTACTTCACAATCTAGTTCCTTATCTGGTATTGATTCCTTTGAAATATTTCATTATAATCATCAAGGTTCTTTTGATCCACGATTTGATCTATTTACAACTAATGGTTATGGATTAATTGATTCTGTTCTGCCTCGAAGTGGCGCTCTTCTTACCGTAACAGCAAATAGCCAATCCAACGCCGATAAATTTGCATTATCTATATCAAATGACCTTCATTTGGGTTTTATTAATTACAATCCAAATACATTTTCACAAAATAATATCTACACTTATTATTCTTATGCCGATTCAGATATTGTTGTGGATATTTTTTGGGACATTTTTTCTAATAATGACGCTGGTTTTAATCAACTGATAAGCAAACAATTCTATAATTCTATTAAAGATCAAGTTATTATATTTTCCGGACATAAACAACAAAATAATATAGTGTATTCAATTGAATTTGGCGGTGCAAATTCTGCAATTATTGATAAGACTCCTGGTGATTTCAGTGTTCAAGGCTCAGAAATTGATCTCAATACATTATTTGGTATTAATTCAATTAATTCATCTTCTCTTTCTACAAAATCAACTATTAACATTCAAACATTTGGTTCTATGATTAATTCAAGAGAAATTAATTCTATAAACATCTCTGATGTTTCTCTAAATCTTAATCATGATATCGATAATATCCAATCAGAATTAATTATCGATTTATCGCGCGGTAGTTCTTTTAATTCAACACTTCATTCTATACCTTTAGACTATTATCCGCCTGTTCTTTCTGTTGTTCGAGTAATTGATAAAACCTCAGGCTCTGACGGCGATACTATTGAATCCCGTATCACATTTACTAATTTATCACCTTTTATTGGTGGTCATTCAATTGAAGAAGTTATATTTGTTGACGATTGGTGGACTGATGATTTTGCCCTTCTTGAACCTGGAGAAAATGATACTATTAAACATTTAACACCTGGTGAATCAAGAACTTTGTCCAAATTACTTCAAGTTGATACTTCAGAATCCACTATTGTAGAAACTAGTCCGGAAGATATTAAATTTGAATATAAATTCAAGATGGGAGAAGATCAATTCTCAAAAATCACATCATCAAATGATCTCTTTATACAATTGAATGATGTTAGACCTGCACTTATTGTAAACTCTTTATACAATAACTCATATGTTTCAATGCACGATGATTTTATATCTAAATTAGAAATTAAAAACCTTGGTTCTAGATCTGCATATGATGTTTCTATTGAACTTAATAACGAATTATTTGAAACTTTTGATTCTATTGCACCTAATTCATTTGAAATTTTAGAACTTAATGTTTCTAGACATGATTATTTGTTTAATACAAATACATATGAATGGACAATTACTTGGTCAGACGGAGTAGAATTGTATACCGTATCTTCTAATCCTGTGTATCTAATCAACGATTATAATTTATATGTACAGCCTCTCTTTAATTCTCCAGAGATTGTAGTCGATAAAACCTCTGAAATTCCAATTGATGGTATTTGGGAAGATGAATTAAAAGTTGTTCTTCGAATTACTAATAATGGCCTCGAAAATGTAACTGATTTACATGTTATTGATCTTATTCCTTCTTCTGTTATACTTTCTAGTGGCGCTGATAATATGACAAAATTAGGTAATCGTTTAGAAGCTAATATTCCATTATTACAGCCTCAAAATTCTTCTACTTTTGTATATTATATAAAGAACGATTTATCTAATAATATCTTATTAACTCCTGCATCTATAAATCTCAATTACTATGAAAAAGATTATACAATATTCTCCGATTCAATAGTTCTACCAACTGCAATTTATATTGATAAAAATATTAATACCAATTCAGCACTTGTTGGTTATAACTTTACTATATCTGTTGATTTCAAAAATAATGATGGCGATATATTCTTATTTGACGTTCAAGTTAATGGAAACGATCCTGAATATGTCGTTATCGATGGAAATCAATGGAACGAAAGATCAAGTTTAGAACCTGATGGCGCTATGAATTATGAATATTTGATTAGTAGTCGCAATGAAGTAAATCGTAATCTATTACAGGCATGGGGTGAATTCACTCTTGGCGGTAAATCTATGAGAATCTTTACTTCACAAATTCCAGTTAACATCACTAATACTCCTATAATTACTATCTCAACTATTCCTGAACAAATTCTCGATAATCAAGAAATTGATTTAATACTTACTATTGATAATCCGTCAACAACAACAACCTTGAAATCAATATCCATTGAACGAGGAATAGCTGAAAATATAGAATTATTGGACGAATCAATCTTTACAGAAATTTCTCAATTGAATCCAGAAGATTCTGTTGAATTAAAAATAAAAGCTAAAAGTCTTACACCTGGTAAACAATTGATATTCCAACCTCAAATATCTCATCAATTTATGGGACAATCAATTTCTGTTGATTTCGAACAATACTCTTCATCTGTCTCTGAAGAACTTCTTAATAGATATTTACCATCATTAATCATCTCCATCTTATTTATTACCTTTACCGTATATTTGACTAATTCACTTGTTAAACGAAAAAACTAGTGTGAATTAGTTTTCTATTCTGACTGAATCTCCAACAGTAGCTTTTATTGCATTGAAACCCATTTCTGAAATTTCACTATAAATTTCATCAATATAATCACTATTTGTATTAATAAAAATTGAAGGTCCTGTTTGCATAGAATAATATATTGGTATATTTTCTTTTTGTTTTTGTTTTACAAAATTAATTATATTAATTGTTTCAGGACGAATTAAAATTACTCTATCTTTTCCAGTCATAGTAAGTGCATGTAATTCCAATGAATCTTCTTCAACTAATCTTCCTAGATTATCTAATTTTCCATTCTTTATAGATTCTTGAATCTTGTTCAATCTAATATTAGCACTTTTAATTCTTGCATCAAAAAAACTTGATGTTAATACTTCTTTATGAGCTGATTCTGTTGAATATTCTGAAGGAAATGGTATTGCAATCATTCTAAGATCTAAATTACTTTTAGTTGCTATTTTTTCTGCATATGATGTTTCATCATCATTGCCTGCATACCATCTTGAATATTCTCCTGCTACACTTCTACATGCTGATCCTGCTAATAGTCTTGCAATTCTTGAAATTATTTTAATATTCCAACCATGTGTTGATTCAAGACCTGATGCTTTGAATGCCGCTCCTGCTAATGCTGCACCTGCTGAAGATGAAAAACCTAATCCTTTTACTTCTCCAAATTTAATACTATTTTCTGATGTGATTTTTACTTTCTCATTAATATCTGATAATGATCTAATTTTATCAATTATTGTTAGAGCTCGATTCAGAACTGTACCTTTTTGCATTTCATTATTTATAATTAATCCATCCTCTTCAAAATTACCAAATTCTACTGTTGTCTTTGTAAATAATGCATCAAGACAAACTGAAATACTATCGTGATAGGGTATTCTTAATTCACTATCTTTCATTCCATGATATTTCAATAAACCTTGCATTGCGTTTGCTTTAGCAGTAGCTTTATTCGTCATTGTTATTCAGTTTCTCCTATTATTATTCTAAACAGTCCTTTTACATTAGGATTTCTTAATTTACTAATCATTTCTCTTGGAACATCAATAGCCGCATTTTCCGCATTTATACCTATTGTTCTTGTACATGTAAACGCACTTTTTCTTAATACAATGTCTTTCTTATGTTTTAATGATAATTTAGAACTTCCCATTGCCTTTGTTTTAAATTTCATATTATCTACTATTAATTCTATTGTAATTTTATTATTATCTTTCTGAATTTCTTCTTTAATATTATAATTTAATGTATTACAAGCTACTTTAGCATTCACTCCAATTATGCAATCTCCTTTCTCAGTAAGATGTTTTTCAGTAGTAATTTCCATTGTTGTTTTATGTTCTGCTCTTACTTCCGGATGACCATTAAATTCAATTTCCTCCACTAACATATTACTCACTATTTACTTTGAATCTAAAAACTTTAAATGTTAACTAACACAAATTATCATTGATAATTATGTTTCCAGGAGCACAAGGTTATGATAGAGCTATTACAGTTTTTTCCCCAGATGGTCGTTTGTATCAAGTTGAATATGCTATGGAAACCGTACGTCGTGGAAGTTTAGCATTAGGTATTAAACATAAAGAGGGAACCGTATTAGCGGTCGATGAAAAATTATCAAAATTACAAACACCTGGCGTAACTCAAAAGATTTTCCAAGTTGATGATCATATTGGTGTTGCTGCAGCTGGTTATATTCCAGACGCTCGTATTCAAGTTGATCAAGCACGTGTAATTGCTCAAAGTAATAGATTAATCTACGATCAACCTGTTGATCTAGAAACTCTTGCCAGAAAACTTGCCGACGCTTCACAACAATATACTCAATTTGCTGGAGTTCGACCATTCGGTGTTTCATTAATTATATGTGGAGTTGATAGATCTGGATCACATTTATGGAAAACTGATCCTAGTGGAAATTATGTTGCATATAATGCTACTGCAATTGGCGCCGGTAGTGAACAAGTGATTGAATTATTTGAGAAAAAATACGACGAAAAAATATCTTTTGAGGATGCAATACTTTTAGCAATAGAATCTATTATTAGTATTAATGAAGAAGACGACAAGCTTTCAAGTATAAAAATATCTATAGTCGATACTGAAACTCAAACTCTTAGATATCTTAATTCTGAAGAAATTAAAAAGTATTATGATAAATTAAACGTCAGTAAAGCAAATTAATTTAATTTTCCATGTTCTATTTTTATACATTTATTCGTGATAATATTCAATTTATTCTCTTTTGAAATCTTATCTGCCTCGTCATAAAATATACCTAATTGCATCCATACTGTGTGTATTTTACCATATTTTTTATTAATTTCAATAGCTTCTTCAATTATCCCTTCTACAAATTCTGATTTTCTGAATACATTGACTAGTTCAATATTCATCATAATTTCTTCTGGAATATTCATTAAATTTTCATAAGATTTAACTCCCATTATAGAATCTGCAGTTGGATTTATTGGAATTATATTGTATCCGGAATCTCTCATATGCATAGATACCTGATAACTATCCTTTAATTCATTTTTTGATAAACCAATTACTGCAATATTAGTCGTATTCTCTAATATCTGTCTAATGTCCATATTTTATCTCATTTGGTATTACATTTATTTTTTTTTACATGATTTATTAAAAAAAAATCAATTCTACAATAAAAGACAAAGATTATAAGGAGGCATTTTCCAATTTGTCTATATCTGTTGTCATTAATTATCTCTAATTTTTATACATTGGTGGGTATGTAGTTGCCTGTAAAAGATTCAAAAAAAGTTACTTCAAAAAAGGAACCAAAAAAAGTTGTTCCAAAGGAAGAATCTCAAGAGTACGATGCTACTCTTCATGTTTTATCTCCTCAACACGAAAAACTTTCTGAAGATGATGTTGGTACACTTCTTAAAAATTTTAATGTTGAATATGCTAAACTTCCAAAAATTTCTATTTCTGATCCCGCAATTGATAATCTCGAAGTTAAATTAGGTGATGTGATTAAAATAACACGACCTAGTCCAACAAGTGGTACTACTGTGTATTACAGAATGGTGATTGAACAATAATGAGTTCTTCTATTCCAAATGAAAATTGGGCAATCATTGAAAATATGATTAAAAAAGAAGGTATTGCTAGTCATCATCTCAATTCATACAATGAATTTCTTGATCATGGAATTCAAGATATTATTGATGAAGTTGGAGGTATTGATGTTGAAACAACAGGTACTCCTTATCGTGTATCTTTTGGTAAAATCTATATAGGCGAACCAAGATCTGTTGAATTAGATGGTTCAACAAGTAGAATTCTTCCTCTTGAAACACGATTACGTGATCTTGCATATTCTGCACCTATTCATCTTGAAATGACTGTTGAAGAAAATGGTGTAGCTCGAGAAGTACAAAAGCATCATATTGGAGATATACCTATTATGATTAGATCTGCCAAATGTGAAACAAGTAAAATGGCTGAAAAACAAATGATTGAAAAAGGCGAAGATCCATTCGATCCTGGTGGTTATTTTATTGTAAACGGTTCTGAACGTATTATTGTTGGTTTGGAGGATTTATCTCCAAATAAAATTATTGTCGAAAAAGATAAAGTTGGTGGAAATTTAGTTTATCGTTCAAAAATTTATTCTTCTATTGTTGGCTATCGTGCTAAACTTGAATTAACTCTTAAATCTGACGGTGCAATAATGGTAAAACTCCCAAGTTCTCCTGTAGATTTACCAGTAGTAACTTTGATACGTGCTCTTGGAATAGAAAACGATAGAGAAATTGCCTCCTTAATTTCTGACCAAACCCACATTCACAATCTTCTCGAAATTACTTTTGAAAAAGCTGTTCTTGATAGGGATACAGCATGTAATATTTGTAAAGTCTGTGGACTTAGACTATTAGAAAAAGCTGAAGATCAAACTCAAGAAGAATTTGATAAAGAAAACCCTGAATTCGAAAATTGCGGTCATAATGAAGTATGTGGAAAAACAGGAGATTGTAGTCATAAAGCTCTTATGTATATAGGAAATCGTGTTGCTCATGGAATGTTAGACGAATTCCGTATAAGAAAGGCCGAATCTATCCTTGATTGGGGTCTTTTACCACATTTGGGTAAGAATCTTGAAAATCGATATGATAAGGCTATATTTATCGGTGAAGCTGTCAATAAACTTCTAGAACTTCGTATGGGTTGGATCACTGACGATGATAAGGATCATTATGGAAATAAAATTGTAAAATTCGCGGGTCCAATGATTGCAGATTTATTCCGAACTGCTTTTCGTAATCTGATTCGTGATATGAAATATCAATTAGAACGTACATCTCATAGAAAAGGCTCTAATATAGTTGGTGCATCTATTCGACCCGGTATTATTACTGATAAACTTGCTAATGCTGTTGCTACTGGTAATTGGGGTAGAGGTAAAGTTGGCGTTACTCAATTACTAGATCGAACTAATTATTTATCTTTAGTAAGTCATCTTCGTCGTATTCAGTCTCCATTAAGTCGTACACAACCAAATTTTGAAGCACGCGATTTACACTCTACTCATTATGGAAGAATTTGTCCAAGTGAAACTCCTGAAGGTGCCAATTGTGGTTTAGTCAAAAATATTGCTCTTTCCTCTGTTATTTCTGTTTCATCTTCTTTTGATGATATTCTTGAAAAGTTAACTCAAATCGGTATTGTTCCATCTCGAGATATTTCTATGGAAGATAGAAGTAAATTCTGTAAAATATTTGTTGATGGTCGTCTTATCGGTTATACTAAAGATGAAAATAAGCTTGTTAATTCATTTCGAAACATGAGAAGACAAGGACAAATTCATTCTCATGCAAGTATAAACCTACAAAAATATCCAAATAAAAATGCATCTACACGTATACATATCTCATTAAGTTCTGGACGAGTTTTAAGACCTCTTATTGTTGTTTCTAATGGAAAACCCCTTGTTAATCATGACGTAGTTTCACGAACTCAAAATGGAGAACTTAGCTGGCAAGATTTAATCCAAATGGGAGTTGTTGATCTTATTGATGCTAACGAAGAAGAAAATGCTTTAGTAGCAATCGACGGTACTACTGAATTTAATTCTGAACATACTCATGTAGAATTATTTTCATCTTCTATTTTAGGTGCTGCTGCATCATTAATTCCTTATGCTGAACATAATCAATCCCCAAGAAATACATATCAATCTGCTATGTCTAAACAATCATTGGGATTTCCTACTCCTAATTATAATTACAATACCACTGTTAGAGAACATCTTCTTGTTTATCCACAAAATCAATTAGTTAAAACACGTGCTACATCTCTTCTAAATATTGATAAACGGCCTACTGGCCAAAATTGTGTAGTTGCTGTTATGTCTTATGAAGGATATAACATAGAAGACGCTATTGTTATGAATAAATCATCTGTTCAAAGAGGCCTTGCCCGCTCATTCTTTTATCGTCTATATGATGCCGAAGCAAAACAATATTTGGGAGGTATGAAAGATAATTTTGAAATTCCTACTGCAGATGATAATACTCGTGGTTATAGAGGCGAAAAATATTATCGCTTACTTGAAAGTGACGGAATAATTATGCACGAGTCTGTAGTTTCTGGAGGAGATGTTATTATTGGAAGGACTAGTCCTCCCAGGTTTATGGAAGAATACAAATCATTTGATATGCAAGGACCATATAGACGTGATACATCTATCGCAGTAAGACCTTCTGAATTTGGTGTTATTGATTCAGTATTTATGACTCAAAATGAAGACGGAGAAAAATTATATAAAATTCGTGTTAGAGATATGCGTATTCCAGAAATTGGAGATAAATTCGCATCTCGTCATGGTCAAAAAGGAATTGTTGGTTTATTAGTTAATCAAGAAGATATGCCTTATAGTGAAACCGGAATCGTTCCAGATATTATTATTAATCCCCATGCATTCCCATCTAGGATGACAGTTGGTCAGTTTATCGAATCCATTGGCGGAAAAGCTGCATCATTTCGTGGCTCTCCAGTTGATGGTTCTACATTTGCTGGTGAAAATGCCGAAGAATTAGGCAAAGAATTAGAAAAATATGGTTTCCAATCTAGCGGTTCTGAAATTATGTACGATGGAAAAACCGGTAAGAAACTTAAAGTTGAAATATTTATTGGTGTAGTTTATTATCAAAAACTTCATCATATGGTTGCTGATAAAATGCATGCCCGTGCACGCGGTCAAGTTCAAATGCTTACTAAGCAACCCACTGAAGGACGAGCTCGTGGAGGCGGTCTACGATTTGGTGAAATGGAACGTGATTGTCTTATTGCATATGGTGCTTCTATGGTGCTTAAAGACCGATTATTAGATGAATCTGATAAAACCAATGTAAATGTTTGTGATCACTGTGGTCTTCTTGCTTATTATGATGGTCAACAAAGAAAATATACATGTAAAATTGATGGCGATGATGCGCAAATTTCCAGTGTTACTATTGCATATGCATTTAAATTATTGTTACAAGAAATGATGAGTCTTAACATTGCTCCAAGATTACTCTTGGTGGATAAAGTGTAAAATACTATGACTCCTGAAAATCTTAAAGAAATTGGCGGAATAGGTTTTTCCATCTTATCACCTAGTGAAGTAAGAAAATACTCAGTTACTGAAATCACTGCCCCAGAAACTTATGACGAAGATGGTATGCCCGTTCAAGGAGGTTTAATGGATAATCGATTAGGCACTCTTGAGCCTGGTCAAAAATGTGCAACATGTGGTAATACTGCTTTACGATGTCCTGGCCATTTTGGACATATTGAACTTGCCGAACCAGTTTTACATATTGCATTTGCTGAAGAAGTTAACAAATTATTACATTCCTTCTGTCGTGTTTGCGGCAGATTTAAAATGCTGACTGAAGAAGTTGAAAATTTTAAAACAAAAATTGAAGAGGAATCCAAATTTAATCCTAAGGTTCGTGATAAAATTGCTAAACAATTATTTGCAAAGACTAAAAAAATAATGTTATGTCCACATTGTGGTACTGAACAATATAAAATTGAATTTTTAAAACCTACAATATTTCATGAAATTACTGAATCTGGTGGCGCTACTAGACTTCTCCCTAATGCCATTCGTGAAAGACTTGAACGTATTACCGACGATGATATGCAGTTAATTAATTATAATCCTAAATCAGTTAGACCTGAATGGTTTGTTTTACAAGTTTTAGGTGTCCCTCCTGTTGTTGTAAGACCTTCAATAACTCTAGAAACTGGAATTCGTTCTGAAGATGATTTAACTCATAAAATTGTTGATATTCTTCGTGTTAATCAACGAGTACGTGAAAGTAAAGAATCTGGAACTCCTCCTCTAATTGTTCAAGATTTAGTTGATTTATTACAATATCATGTTACTACATTCTTCGACAATGAAGTTTCTGGCATTCCTCAATCTCATCATCGTTCTGGTAGACCATTAAAAACTATTAGCCAACGATTAAAAGGTAAAGAAGGTAGATTTAGAGGTAGTTTATCTGGTAAACGAGTAGATTTTTCTGCTCGAACTGTTATTGCACCTGATCCTTCTTTAGATATCTCTGAAGTTGGCGTTCCCGTTGAAGTTGCAAAACGCCTTTCTATACCTGAAAAATATTCTAAACTGAACGCTGAATTCCTTAATGAATTGGTATTGAATGGTTCTGAAAATCACCCTGGTGCAAATTATGTTATTCGACCTGATGGTGTAAAAATTAGATTGGATTATGTTGAAGATAAACAAGCATTGGTTGATAGCTTAGAAGATGGATTCGTTATTGAACGTCATTTAATTGATGGCGATATCGTTATCTTTAATCGCCAGCCATCATTACATCGTATGTCTGTTATGGGACATTCAATTCGTGTTCTTCCATATAGAACATTTCGATTACATCCTGCAGTTTGCCCTCCATATAATGCTGATTTTGACGGCGATGAAATGAATTTACATGTTCCTCAAAGTGCAGAAGCACGTGCAGAAGCATTAACTCTAATGATGGTTCATAATCAAATAGTTTCACCAAGATACGGAGGTCCAATTATTGGCGGAACTCGTGATTATATTTCTGCGGGTTATTTATTAACTCATGAAGATACTTTTCTTGAAGCTGATGAATTTTCTGATTTAGCATTAACTGGTGGTTATATTGGTCCTTTACCTAAACCTGCAAAATCTAATCCTACAATGTATACTGGAAAACAATTATTCTCTTTATTCCTACCTAAAGACTTCAATTATCAACTATCTTCTAAATGGGGTAGGGCAAAAAATCAATCTAATGATGTTCTAATAAAAGATGGACAATTAGTTTCTGGAATTATTGATAGAGCTGCTATTGGTTCAGAAGAACCTGACTCAATTCTTCATCGAATTAGTAAAGACTATGGATCAGAAGATGCTAGAATATTCCTTAATTCTGTATTAACAGTTTTACGTTCATATATTAGTAATCATGGTTTCTCCTTAAGTTATCAAGAATTAACTCTTGATAAAACTGCTGAGAAAAAAGTTTATAAAAATATTAGTGATTCATATTCCAATGTAGATTCATTAATCGTTAAATCTCAAAACGGTGAATTAATTAGCACTCGAGGTATGTCTGACGCTGAAAATTTAGAAGCACATATCGTTCATGAATTATCTAAAGCGCGAGATAAAGCAGGACGAGTCTCAGATAGTGATCTTAAAGATGATAATTCTGGCGTAATTATGGCAAGGACTGGCGCAAGAGGCTCTAGTCTTAATCTCGGACAAATGACTGCAGCATTAGGTCAACAATCAGTTCGAGGAAAACGTATACAAAATGGTTTTAATCAAAGAGCTTTAAGTCATTTTGAAAAAGGCGACATGTCTCCTGACGCTAAAGGCTTTGTAAAATCTAATTATCGTACAGGACTTACTCCAACTGAATTCTTTTTCCATGCAATGGGTGGACGTGAAGGTCTTGTCGATACTGCTGTACGAACGCAACAAAGTGGCTATATGCAACGTCGATTAATTAACGCTTTGGAACATATTCGCGTTGAATATGATAGAACTGTTAGAGATCCACATGGTAATATTATTCAATTTTTATACGGCGAAGATGGAATTGATCCTGCAAAAAGTGATCATGGCGACGCTGTTAATATTTTACGTCAGGTTGATATTTCCATGATAGATAATAAATCAAAAACTAATCCTGATACTAAAATGATTGATTCAATCTTAAAATCTTATAAATCTAAACTTAATGAAAAAGTAATTAATGACTTGAGTAGTTCGTTTTCTAATAATTCTATAACTGAATCTGGTATGAAAAACGTTACAAAGAAAACATTAGAATTAACTAATAAAGCACTTGTAGAACCAGGAGAAGCTAGTGGAATAGTCGCTGCTCAATCAATTGGAGAACCTGGTACTCAGATGACACTTAGAACATTTCACTTTGCTGGCGTTCAAGAAAAAGATGTAACTCTTGGCTTGCCTCGTTTGATTGAATTAGTTGATGCTCGAAAAGTTCCATCAAAACCTTCTATGGACATATATCTTACTAAATCACATCGTACTACTCAACAAAAGGCATTAGAAATAGGTAAAAAGATTCTTTATACTACTGTTAAGGATCTAGTTTCACAAACTGAAGTTGACTATATTGAAGGCATAAAACTAAAATTTGAATCTGACACACTAAGTGATTTTGGTATTACTTTAGAACAACTTGCAGAAATTATTGAAGCTTCTAAACGTGAAGTAAAAATTAATCATAAAACTTCCTCTGTAATGGTTATCATAGAAGATACTGATGCATCAACATTATTCTCATTGAGAAATAAATTACTTGACCTTCGCGTTGCTGGAATTAAAGATATTAAAAATCTTACTATTGTCAAGAAAGATTCTGAATGGATTATACAAACATCGGGATCTAATCTTGGAAAAGTCTTTAAAATTTCTGGCGTTGATACGACACGTACAACTACAAATAATATCTGGGAAATTGCTAGTGTTATTGGTATTGAGGCTGCACGATCAACACTAATCAATGAAATTACTCATACATTAGATGAACAAGGTCTCGAAGTTGACATTCGACATATTGTTCTAGTTGCTGATTTAATGACATCTACTGGTGTTTTGAAATCTATAGGAAGACATGGAATTGCAGGTACTAAAGAAAGTGTATTGGCTCGCGCCGCATTCGAAATCACCGTTCCAACTATTGCAAAAGCATCAGTTACAGGTGAAGTTGAAGAACTTAAAGGCGTTACTGAAAATGTTATTGTTGGTTTACCTGTTCCAGTTGGAACTGGTATGATTGAATTATACATGAAAAGGTAATTATCATGACAAGTCTCAAACCATTTGAAAAAACATTAAAAAATATACGAAAAACAGGTAAAGTCGCATATGGATTCAAGGAAAGTCTTTCAACCTCGGATAATTCTAAACTAATTATATGCTCATCAACCGTATCTGATGATGATCGTGATATTATCGCCGAAAAATGTAAACAAAATTCAATTCCATTTATTACTACTGACCAAAATTCAATTTTATTAAGTAAAACTCTTGGTTTAAATTATAGAATCTCAGTTTTTTCAATTCTAGAAGCTGACGAATCAGACTTAAATTTAATTTTAAGTAAATTGTGATTCTTTTTTTGTTTATCGACAACATTAAAATATCATTATTATTAAAAATGAGATAATAATTTGCAAAAAAATAAACCAGAAACTATAAAAATTACGTCCGAAGCATTTAACCTAATGGCATTATTTCAAAAAGTTACCGGTGCCATGGCTCGTGATTGTATAATTGATAATAAAGTAGGTCGAGTGATATTTCTCGTTAATAACGGAGAAATGGGTCTGGCAATAGGTAAGAATGGCCAATCAATAAAAAGTATCCAAAAATCTATTGGAAAGACAATTGAATTAGTTGAATATTCTGATGATCCTAAACAATTAATTCTCAATGCCTTGGATTCAAAATATGTTAATGATGTTAAAATAAATGAAAAATCTAATGGTAGAATGACTGCAACTATTAAAGTCGATACAGCAAAAACTGGAGCAATTGTAGGTAGAGCTGGAAGAAATGCTGAAAAGGCACGATTAATAGCTAAGCGATATTTCGAAATCAATAATATAAAAATTACCAATGAATGAAGGTTATGTTTAATAATTACATTATACTTTAATTAAAAAATATGTCAAAGAACAATGATAAACGGATGTACTGATTATGGGAAATAAATCACCTGTTGGAGAATTTGCAGCAAGAAAGCAACATAATAAACGAAAGTACATGAAATGGTCTGATGGCCATTATAAAAGGCGTGTTCTTAAATTAGATAAAAAATCCGATCCATTATCAGGCGCCCCACAAGCTCGTGGAATTGTTTTAGAAAAAGTTGGCATTGAATCAAAACAACCTAATTCTGCTATAAGAAAATGTGTACGCATTCAGCTTATTAAAAATGGTAAACAAGTAACTGCTTTTCTTCCTGGCGATGGCGCATTAAATTTTGTCGATGAACATGACGAAGTCAATGTTGAAGGAATTGGCGGTTCAACTGGTGGTGCTATGGGTGATTTACCTGGTGTTCGTTGGCAAGTCTATAAAGTTAATGATGTCTCCTTAAATGAACTTGTTTATGGTAGAAAAGAAAAACCAAGAAGGTAAATTGTTTGAGTAGTCTTTTATTATTTAGAAAATGGAATTTCTCTGATGTTGAAATCCAAGATCCTGGTCTTAAGGAAGTTATATGTTTAGAACCTACATTGATGCCTACATCTTTTGGAAGACACGAACATAAACGTTTTGCTAAATCTCGAGTTAATATTGTCGAACGATTGTGTAATAATTTAATGCATTTTGGTAGAAAGAAAGCTAAAAACGCTGGCCGAATGGCAGGTAAAAAATATAAATCAATTAATTTAGTAAAAACTGCTTTTGAGATAATCTATTTACAAACCGGTTCTAATCCAATTGAACAACTAATTCGTGCAATTGAAAATACATCACCAAATGAAGATACTACTACTATTGCTTACGGTGGTGTTAGATATCATGTGTCTGTTGATATATCTCCTCAACGTCGTGTAGATCTTGCATTACGATTCATATCTTTAGCAGTTCGTGAAACATCCTTTTCAACTAAAAAAAGTGCAGAAGAAGTACTTGCTAATGAAATTATTATGGCTGCCCGTAACGACTCTAATAGTTTTTCAATTAAAAAGAAATTCGAACAAGAAAGAATGGCGATGTCTGCAAGGTAGATGGTGAATTAGATGGCAAAAACGAGAGGAAGAGGACGTGGTAAGGTTAAAGACAAATGGAAAGAGAAACGTTGGGTTACTGTTATTGCGCCTACTGAATTTGAAAGTAAACCTATAGCATATATCCCAATTACATCTGAGAAAAATGCTCTTAGTAGGAAAGTTGAGACTACTATGTTTGATATCTATAAAAAAGACCCTCAACAATATTCGATAAACCTTCAGTTTCAAATCACTAATGTTAGTGCCAATAGCGCTTCTACAATTCTTAAAGGTCACGAATATTCTCGTGAATATTTACGTAGTTTAGTTCGACGTGGTTCCTCAACATTAAGTTTTATCAGTGATTACACTACTAAAGATAATTATTCACTTCGAATATATTTCATTGCATTTGCACAAGGTAAACTTAATTCCTCAAAGAAACATGATATACGTCTAGTTGCACATAACCTATTTCTTGAAAAAGCTAAATCTATGACTTATTCTGAATTGGCCCAGTCAATAGTTGAAGAAAAACTCGCATCTGAAATATTCAATTCTACAAAGAAAATTAAATATTTACGTAAAGTAGCAATTAGAAAAACTAAATTAACTAAACTTCCTGAAGACTTCAAACCTCCAATTGCTAAACCAATTGAAGAACCAACTGTTGAAGAACCAACTGTTGAAGAACCAACTGTTGAAGAACCAACTGTTGAAGAACCAACTGTTGAAGAA
>sequence04
CCTAAAGAATCAATTTTCTCAAAATATCTATATGCTTTTTCTTCTAATTCATTTGTTAGATGTTCTAAGTAATATGAACCTCCTAGTGGATCTACTGATTGAATAACTCCAGTTTCTTCTGCAATTATTTGTTGTGTTCTAAGTGCTACTTTTACAGCTTCTTCAGTTGGAAGTGCCCAAGCTTCATCATATGAATTTGTATGCAATGATTGTGTTCCACCTAAAACTCCTGCTAAAGCCTCTATAGCAGTTCTTACAATATTATTCATTGGTTGTTGCCAAGTTAACGATGCTCCAGATGTTTGAGTATGGAATCTTAAGGATAAAGCAGGGCCTTTTTCTATTCCATATTTCTCTCTCAATACTGTTGCCCATATTCTTCTTGCAGCCCTGAATTTTGCTATTTCTTCAAAGAAATTCATCGTACAATTGAAAAAGAACGATAATCTTGGCGCAAATTCTTCTACATTTAGTCCTGCTTTTTTACCTAATTCTAAATATGTAAATCCATTTGCTAATGTAAATGCTAATTCTTGTACTGCATTCGATCCTGCTTCTCTTATGTGATAACCACTTATACTAACATAATTCCATTTAGACATCTCTTTAGTACAATATTCCATCATGTCTCTGACAATACGCATATGGTCTTTTGGTGGATACGCCCATTCTTTTTGTGCTATGTATTCTTTTAGAATATCTGTTTGAACTGTTCCTCGTAATTCATTTAGAGATATATTATTCTTTAATGCAACTGACGCATACATTGCAGTTAGTATAGATGCAGGAGCATTGATTGTCATTGATGTACTTACTTTGTTTAATGGAATGTCTTTTAGTAAAATTTCCATGTCTTCTAATGAAGAAATATTACATCCACATTTTCCAACTTCACCTTTTGATCTATCATTATCTGCATCATATCCGTATAATGTAGGCATGTCAAACGCTATACTTAGTCCTGTTTGACCATTTTTTATTAAATATTTCAATCTATTGTTTGTATCTTCTGGCGTTCCAAATCCAGAAAACATTCTCATAGTCCATTTCTTTCCTCTATACATATTTGGATAAGGGCCTCTTGTATATGGAAATTCTCCAGGCATTGAATTATCTTGATTTCCTTGAATGTCAGATTGTGAATATGACGTTTTTACATCAATTTCTGAAGTTGTGAAAAACTCATTCTTGTTATTTGTTTTTTTATTCCATGGTTCTAAAACTTCTTTTTCCCATTTTTCTATATTACTATTTTTTTTACTACTCTTATTTTTAATAATCTCATTGATTTTATGTTTCCAGTAGTTTTCTGTTTCTAACATTATGATTAACCTTATAATCAACAATAAAAAAATACTGCTTTAATTCGTTTCGGTATTTTCAAATAAAAATTCGTCAAATGGCAAAGTTATCAAATTATATATCTAGCACAAAGTAAAATATTATTCAATGACCGGTGATTTTGTAGATTCTATTTTATCTGGCGATAGACGCGCTATAGCCAAAGCAATTTCAATGATTGAAGACGAAGATCCAAAAATTAATGATATAATTTCTAAACTTTATCCTAAAACTGGAAATGCTTTTGTGATTGGTATTACTGGTCCTCCTGGTACTGGAAAAAGTACATTGATTAATAGATTAATTGAAAATTATCGTAAACTTGATAAAAAAATTGGTGTTCTTGCAATAGATCCTTCTAGTCCAATTACTGGTGGCTCATTACTTGGTGATAGATTACGTATGAGTAACCATAACATGGATCCCAGTGTATACATTCGCAGTATGTCTTCTGGCGATAAATCCGGTGGTTTATCTCGTTATACACGTCGAAGTTTATCAATTCTTGATGCTTCAGGTCTCGATTTAATAATTGTTGAGAGTGTTGGAGCAGGACAATCTGAAGTTGACATCTTAAAAATTACTGATGCAGTAGTAATTGTTTTAATGCCTGAATTAGGAGATGATATACAAATCTATAAAGCTGGCCTTATGGAAATTGGAGATATTTTTGTTATAAATAAATCTGATCTTGATGGTTCAGATCAAATGTATACAAAATTACTTACTGCGTCTAAAATAAAAAATGACAATTGGATGCCACAAGTAATTAAAACTGCATCTATAGAAGGTTTAGGAATTGATAATCTTATAAATTCTATTTCTGAAAGAGAGCAATTTCTTAATGAATCATCTATACAATCATTAAATAAAATGGATAAAATAAAAAATGAAATTTTAAGTGTTATGCTTTATGATCTTTCTAAATCATTTAGTCAAAAAATCGAAAACCATTCTGATTTTCATAACGTAATTGAACAAGTTTTATTGAAAAAAATAGATCCAGAACAAGCAGCTAATATAATGAAGAAAAAACTCAATCTTGAGTAAGATTCTTACTCTCCCCTATCTATTATTCTTGAAATAGACGCAATCACTTCTACTATTCCTTCATTATCTACTGTCGATGTTGGAATTAATTCATCTATTATATTTGATTCTATTACACTTTCTGCCATTCTACTTGTAAGATCATAAATTTCTCCTCCTTCATTCAAATCATCTAACAATTCAGCAAAATCGTCTGCCCACCTCAAAATTCTTTCTTGATCATCTTTAATTAGATCTTTTTTTGTTAATATTGATATTTGTGGTATTTCTAATCTTAATTTTATTGAACTTGCTAATAATGCAATTGAAAGAAAATTTGATGGATCAGACACTAATGTAGCATCAAACAAAAATAAATTCACATTGGCCTCAGTGTTGATATTCTTAATAAAATAAGGACCGCTCTTTCTATATGCAAATAATTCAATTTGACCTGGCGTATCTATAAAAACATAATCTGGATTATATTCATCAATTTCTTCTTCAATTTGTTCTAATTTTGTAGCAATTAAATCTGACGCTAAAATTAATGATCCATTTGGCCCTAAATTATATTTGTCCATTATATCTTTCAAATTAATATAATTTCTTATGTCGACATCAATTCCGTATGGAACATCACTCACTCCCGGATCAAGATTTACAGTAATTACATCCTTTCCTTCTTGTTGATACCAATTTGATAAAATTCCTGTCATGTTGCTTTTTCCAGAACCTGCTGTCCCTGTTAAGAATATACTCTTCATCGGTAACAATTATTCTTGTTACTATTTAGTTTTTTACGCAATAGTTAAGCGTAATAATCTCTAAATGTGTATTTATGAAGTTTGAAATTATTTCTATTGGTAATGAACTTCTTTCTGGTAGAACCTTGAACACTAATTTACAAACAATTTGTAAAAATCTATCAGATATTGGTTGTTCTGTTTCTCGTTCCTACGTTATAAGAGACGATCCTGAAGAGATTTCTAATACACTCAAATTGTCACTTAATGGCGACTCACAATGGATCATAATTTCAGGCGGACTTGGACCTACTTATGATGATATGACTCTTTCTTGTATTGCATCTACTCTTAATTTAGGCTTAGAACTCAATGAAATTGCCTTGAAAATGATTATTGAAAGATATAATGATTTAGTTCGTCAAAATGTTATTGAATCTTTTTCTCTTACAGCCAGTAGAAAAAAGATGGCTATGCTACCTCAGAAATCGACCCCATTAAATAATGATGTGGGTACCGCACCTGGAGTTTTAATTAAATTCAAAAATAAAAACATTGTTTGTCTGCCTGGAGTTCCTAAAGAAATGGAAAGTATATTGATTCATGAAGTATTTCCCATTATAGATACTAATAAACTCAATAAAATTATTTCCAAAGTCCTTTATATTGCTGGAATTACAGAATCTGAACTTGCTCCTATTATTAATAATTTTGTATCAAATCATCCTGATTTATACATTAAATCACATCCAAAAGGAATTACTAACGGTATATATAATATAGAATTAGTGATATCATTTCAATCAAATCAATTCTCTCAAATATTAATTGATTCAATTTTAAATGATATAATTTCTTCTATTAAGATTAGAGATGTTATTACAGTAAAAGAATAATATTATTTCTTTTTTTTATCTGACAACCACCATTGAAGATAATCATTTCCTCTTTGTGAGTTGTCACTTTCATCATATCGTTTATCTCTAATTTTATCTCTAATATTAACTAATTCATCTCTACTCAAAAATAACCCACAATTTTTACATCCCATTTTTCTAGTTGAATAATCAAAATTCATTGATCCATCACATTCAGGGCATTTAGTTGTAGCCATTAATTAATTGCTCATTATCCTTCTATTTAAGATTGTTTACTTCTAAATTCTCCATTACTCGAATTTATAATATCTATGTAGATTATACTATTTTACAAATTGCTATTTAATTATATAAATACTGATTATTTGTATAGTAAAATTGATAATAATTGAACAAACGTAAGGTTAATATAGCAATGATTGAATAAATATAATTCATGGATGCTGGAAGTATCGCCTGGCTATTAACTGCCTCGGCATTAGTACTGCTCATGACACCTGGACTTGCTTTTTTTTATGGCGGTTTAGTACGAGCAAAAAACGTTCTTAATTTAATGATGCAATGTTTCATGATTATGGGACTTATTAGCGTCACCTGGGTTCTCTGGGGATATACATTAGCGTTCGGTCCATCGATCGGCGGTTTTGTAGGAGGACTTGATCATCTTGGTTTAGCTGGAATCAATGGAGCTGAAGCTCAAAGCTTTGCAATGTTCCAAATGATGTTTGCTATAATTACACCTGCACTGATTATTGGTGCAGTTGCAGATAGGTTCAAATTTACAACATTGATTGTATTTGTTGCTTTATGGTCAACCCTAGTTTATTCACCTATTGCTCATTGGGTATGGGCTTCAGGAGGATGGCTATTTGAAATGGGTGCACTTGACTTTGCAGGAGGAACTGTAGTTCACATTTCTTCTGGATTTTCTGCTTTAGTTGCCGCAATTGTTGTTGGAAAACGTACTGGCAAGCTTGAAAATTTCAAACCACATAATATTCCATATGTTCTTTTAGGAACCGGTTTACTTTGGTTTGGTTGGTTTGGTTTTAATGCAGGAAGCTCACTCGCTGCAGATGGCATTGCTGTTAATGCATTTCTTGTAACTAATACTTCTGCTGCTGCAGGCGCATTGATGATGATGTTCTTAAGCATGCGTTCAACAGGAAAACCCAGTGCTGTAATGACTGCTACAGGTGCAGTAGCTGGATTAGTTGCTATAACTCCTGCTTCAGGATTTGTAGGACCTATTGCTGCAATTCTTATTGGCGCTGGTGTTGGTCTTGTCTCTTGGTTTGCTATTCAATTTAAGAATAACAAAGGATGGGATGATTCTCTAGACGTTTGGGCTGTCCATGGAATGGGCGGTGTTTGGGGAGCTATTGCAACAGGTTTGTTTGCCTCAGCCTCATATGGAGTTGGAGTAGATGGAATCTTTAGCGGTGGTGACATCTCAGTACTAACTACACAAATTATTGCAGTTGTTGCATCTGTTGCATATGCTGCAGTTGTAACACTAATACTATTGAGAGTTCTTGATAGTACACTTGGTTTACGTGTAGATAGTAAAGAAGAAGAAGCAGGAATGGATATTTCCGTTCATGCAGAAGAAGCATATAATTAATCATAACTTGAATCAATCGAATATATTGTTCGATTGATTCTTTTCTTTTTTTAAGTTAAACTAATTAACAATACTTTCGCACTCAATTGTGATTATGTTGTCTGAATGGATTGTTATGTCCGGACCTTCCTCTATAGATCTTTCTACTTCAATTTCCGATTCTCTTGGTATTGAATTATTTGAGGTAGAGAATAAATCATTTCCAGATGGAGAACATAAAGTTCGTATTCATAATGAAGTTCAAGATAAAAATATTATTCTTGTACAATCTTTGTATCCTTTAGTAGATCATCATTTTATGCAATTTCTTTTTACTGCATACAAACTTAGTCAAATGGGTTCTAAAGTTTACGCATGTGTTCCGTATCTTGCATATGCACGTCAAGATCTTGAATTTCAACGTGGAGAAGTAGCTAGTCTTGCAGTAGTGTCTCGATTATTTCGTTCTATTGGTGTTCATTCTCTATTAACTGTCGATATTCATAGTACTCATGGCCTAGGATATTTTTCGTTTCCTACTTATAGTGTTTCTGCAATGCCCTTACTAGCTAAATACGTAGAACAGAATCTAGATTTAAATTCTCCTTTGGCAGTATCTCCTGATTTTGGTGGCTCATCCCGCGTTGAAGCATTTTCTAAATTACTCGATATAGAATTCATCTCATTAAAGAAATCACGTAGTCGAACTACTGGCGAAGTTATCATGGAGGAAAGTAATGTAGAGGTTGCTGGACGAGATATATTACTAGTAGATGATATGATTAGTACTGGCACTAGTATAGTTCGTGCCGCAAATTATCTCAAAAAATTAGGTTCAAAACGTATTATTACATTATGTACTCATGCATTATTAGTCAATGACGCTGTAAATTCTATTAAAAATGCTGGTGTTGATGAAATTATAGCTACTAATACAATTCCTACTGATGTGAGTAAAATAGATGTTACTGAAATCATCGTCGACCACTACAAATCCTTACGATAATTCATTCATTAGTGTATTTGTTCTATCGGGTGATTTTCCCCAAATTGGTAGAAGTGAATTACTTTCTATTCTAGAATCAAATAATATTGATTATAATATTATTGACGAGACTTCTAGAATAATACTTGTTTCATTTACTAGATATAATAATTCTTATGATAAAATGTTTCAACGTATTGCTTATTGTACATATTTCGGAATACTATTATTTAGTTATAATTTTGATTCAGATAACTTTTATCCTAATAAACAGAGTTTTAAATATCTTAAAAAATTTCAAACATTCTCCGTTAGAAAAATTAATATCTCAAATAGACTTGACAATAAATACGAAAGGATTCTTGGAAGTTTAATTCAAAATTTATTCCCTCATTTGAACGTTAATCTATCATTACCTGAAGTAACTCTTTCTGTATGTCAATTTAATGATCAATTATTGATATTTTCAAATCAATCATTATATGACGAACCTCGCTGGCTGAATCGACGTCCTCGTGCAAGACCTTTTTTTCTTCCATTTGCAATTCATCCCAAATTATCTCGAGCTCTAATTAATTTATGTAGACTTAATCCAGGACAGAGATTATTGGATCCCTTTTGTGGAACAGGAAGTATTGGCATAGAATCTTGTATTTTGGATATTGATTTTACAGGTATTGATATTTCTAAAAAAATCTGTTATGGCGCTCAGAGAAATCTAAATTATTTCAATCTTGATAATTTTAATATTATCAATGCTGATTCATTAAAATTACCAATTTCTTTTGTCGATGGCATTGTTACTGATTTTCCATATGGAAGAAGTAGCATCAAAAAATTCTCTGATACTGTGAAATTTATGGAAGAATTCTTTAATCTTACATCCAAATTATTGACTTCAGGTTCATATATTGTATATATGTCTCCTAAAGATTGGCCTGAATATACCTCTCATAATTATTGTCTTGTTGACAAACATGAATTATATATTCATAGTAATCTCACTCGTGTAATTCGTGTGATTCGTAAACTCTGAACGTTTATTATCCATTTTAATTTATATAGAATAATTGGTATGCCTGATTTGAAAATTATTCTCCTTGGTACATCTGGAGCAGTTCCAACTAGTCATAGAAATCTTATCTCTAATGTAATTATTCGAGATAATGAATTATTTATCTTTGATACAGGTGAAGCAATTCAACAATCTATGATGAAAAATAGAGTTGGTATGAACCGACCTACTCATATATTTATTTCTCATATGCATGGCGATCATATTCTTGGGTTACTTGGATTGATTCAAACTATGTCATTATTGTTACGTGATAAACCTTTATTTGTTTATGGCCCATCTGGAATATCGCGTTTTATAAAATCTAATATGAATATTTTTAATATTAAATTAAATTTTAAATTAATTGTTAAAGAAATTTCTTCAGGATTGATTGTTAAAACCTCTGATTATAAAATATATGCTAAAAAGGCAAATCATTCTATTACAAATTATTCATACGTCTTTGTTGAATCTGATCGTCCTGGCAAATTTTATGTTTCGAAGATCAAGAAATTAGGTGTACCTGAAGGAACTCTGTGGTCTAAACTCCAAAGTGGTCATTCAATTCGTTATAAAGGAAAATCTATTCATCCATTTGATGTAATGGGAAAACCACGTCCTGGAAGAAAAATTGGTATTTCTGGAGATACCCGTCCTTCTAAATCTCTTATTAATTTCTTTTCTTCTTGCGATGTCTTAATACATGAATCTACTTTTTCTTCTGATGAAAAACAACTTGCAATAGAACGTTATCATAGTACGTCTGCTGAAGCTGCTTTAGTAGCTAAGAAATCATCTTCTAACGTTCTTCTTCTTACTCATTTTAGTTCTCGCTATAAAGATACTAAATTACTTGAAAAAGAAGCGTGTAAAATACACCGTAATAGCATTGCTGGGCGTGATTCTATGTCATTTTATGTTCCATATAGTGATGAAAGGCGATTAACTAAGTCGTATGTTTTGGAACAAACCAATCGATAAATTCCTCAATATCTGTTGTATCGATCTCCATAATAATTGGCCCTAATGGCGATTCGTTCATTTTATCACATATTACAATTGAATTTACTGCCGCAGCTTGTTTATTAAAAAGAATTTGTGAGGTATTTTCTTGTAAATTTTTTAATAATACTTTTCTTGCTATGTGAGTTGTTTGTTTATTTCTAAATACTTCATATAAATTCTTCAATTCTCTATAATTATCTGTAGTACCAATAATTTCCATATCTGTAGTTATATATTTTATTTTTACTATATTTTCTACTGCATTAGTTATTTTTTCTATATTTTCTGTTTTATTTATAGACGTTTTTACTTTTATGTTTATTTTATTCCCAAACTCTTCCATATCATTTACAATAAATTACTTAGTATTAATTCTGTTCTTTTAGTAAATTCTTCTTTAGTTAAATCTATATTTTCTATTACTATTTCTGCTCTTTTCATAACTTCTTTTAATCCTATTTCTAATTCTTTTTCATCTCTTTTATTAAATTCTTTTTCATTAATTGGCGCATCACTTCTTTTTCTTTCTTGTAAAAATTTTATTCTTTGTTCCGATGTATTCTTTATTAAAATTATTTTTACATTTCCTATTTGTGAAAATAATTCTATTTCTTCAATATTTCTAATTCCGTCAATTATTATATTTTTATTTGTTGATTTGTTTATTTCTTCTTCACACATATTTGCTATTGCATTTTTTCCTCTTTTTTCTCTTAATTCAATCATTAATTTGGATAATGATTTAGTATCATTATTTAAACCTCTTTTCTTAGCCTCTTTTCTAACTTGATCTCCCATTATAATTATTTCATAATTTAGTCTATTTCCAATTTCACAGAATAATGATTTTCCTGCTCCTGGTAGACCAGTAACACAGATTAGATTCTTTCTTTCTGTCATAACGTACATAATTAATAAGCCAGTTTCTGTTAATATGTTTGAGTAGTTAATTGGACATTAATTCAATAAAAAAATCAGTCTTAGATAAACAAAAACCGTCACTATCCTATAGTAAAAAACTGATTAAATTTGCTAATGATCTAATTTACGAACTTTGGTGTAATAATTATTTGGACGGAAAACACTCTCCTCGTTTTCCAGTATCTGACATAGTATTGGGAGGTTCAATAGCAAAAGGCACTTGGCTAAAAAACTCTGCTGATATTGACATATTCATTAAACTTGATTCTACTTCTAACAGAAAAATTTTAGAAAGTTCATTAGAAATTGGTAAAGCTACTCTTGATTCTCTCAACTACTTTTGGGAATTACGTTATTCTGAACATCCCTATATAGAAGCTCAAGCCTCATTTTCTGGTAAAATAATTAAAATAAATATTGTTTCTTGTTTTGATGTTAATCCAAAGAATTGTATAAGTGCTGCTGATAGGTCTCCACACCATACTGACTATGTTCTTAATAATTTTTCTTCAAAGATGAAAAATGAAGTTAGAATATTGAAACAATTTCTTATTTCACAGAAAATTTATGGCGCAGAAATTAAAACTCAAGGATTTAGTGGGTATTTCTGTGAGTTATTGATCCTAAAATACAAAACTTTTCAAAATGTTTTAAAACAAATGAGTAATTTTACTCCAGGAAATAGTATTTATTTTGACGATTCACATTCAAAATTTACTAAATTACATGAAAATTCTTCAATAATTATGCTTGATCCTGTTGATCCAAAACGAAATTTAGGTACTGCTATATCATTTCATAATTTAAATAAATTTATTTATTTATCTTCTAAATTCTTGGATAATCCTTCCGTTGGTTTCTTTACTAAACATAAAATCATAATAAATAATTCACTTTTAGATAATCTGTTTGTTATATATTTTAATCATAATCCAAAAACCATTGATACATTGTGGGGTCAATTAAGACGTTCTTTTAATCATACTTCGAACTATCTAACTAAAAATGGCTTTAATATTGTTAGATCAACAATTTCTAGTAATGATAAAGATCAAAGTGCTTTCTTATTCTTAGTTGAAGATCTAACTATTTCTAATACTAAACTTCATTTGGGACCTTTATCACATATGAAAAATGAATCATTTGCGTTTGTTAAAAAGAATAAAAGAAAATCATTAATATTCTGGATTGATTCCGACGGCCACATTAATTCACTCCAACTCCGTAAATACCCTATAATCAAAGATTTACTTGTTAATTCGATTAATTCAGATAATATATTAGGAATCGCACCAGGACTTAAAAATTCATTTAACTCTACATCTAAAACCTATACTGGAAAATCAATACTTTCTTTATCAAAAAATAAATCTTGGTTAGCTGAATCATTAGGTGATGTTATTGGAACTGACTCCAAATTATATTGATATTAATAATTCTTTAAATAACGACACTTTAAAGTATCTTCTTTGTTATCCTGATCCTGACAGTAATTCATTCAAATTGCGATTAAACGAATTAAAGAAGCTTGGAATTAAAATTCTTGAACTTTCTGGCCCTACAATTCTTAATGGTAATCCAATTCTTGGAAAAGGAACTCGAGGAATTGCAGTAAAAGCTTTTTCACAAGATTATGAATATGCATTAAAAATTAGAAGATTAGATTCTCCACGTCGTAATTTATTAAATGAAGTAAAAATTCAATCATATGTTAATTCTTTTGGCATTGGTCCTAAAATTGTTAATTATTCAAATAATTTCATAGTTATGGAATTAATTCAAGGTAAACTATTATCTGATTTGTATCTTATGAAGTCACTTAATACTAACATACTTCGAACTATTATCAAATCATTACTTTATCAATGCTATCGTCTCGATCTCAATGGCGTTGATCATGGGGAACTTAGTGATCTTCGCAAACATGTTATAATTAATAACCGTGTTAATATTATTGATTTTGATTCTGCAAGCATTAATCGAAAAACATCAAATCTAACTTCATGTATTCAATATTTATTTATTGGTGGTCCAAATTCAAAGTTATTTAGTAAATTATTTGATATCGACTTGGATAAACTAATTCTATTATTACGTAAATATAAATTAAATAAAGATTTTCTTACTTTTTTACATCTACTCAAATTTGTAAATATGTATTAAATACTTCAATAATTCTATTTCTTGTAAGGGGCCGTTGTCTAGTTATTTAGAATTATTCTATTTAGGAAAACTTGGTCTAAGATGCCAGAATAACTAATGGCAAACCTGGGGACCTTGTTTGAATGCTGGTGATCGCGTGTTCAAATCACGCCGGCCCCATTTAATATCCAAAACTAATAATCATAATGAATGAAATAGACGTACTTAATATTACAATAATGTCTCGATTTATTAATTGAAGCGAGTATAAAGATGTTGGTTTTTTACTTATTCCATAACCTCTTGATTCCATTGCTTCTGCAAGTTCTCCACTTCTAATTACTTCATTTATTATTAATGGAACTAATATTGGAACAAATTTCTTAATTCTTATTATTGGATTCCCTTTCTCTAATTCTAACCCTCTAGATTTCTGCGCATCAATTATTTGTAAAGTGTCCATTAATATTACTGGAACAAATCTCACTGACGTTACAAATGCAAACACTAAATCTCTTGGTAATTTAAACCATCTTAATACATATTCTAATTCATCTGGTGAAGTTACTAAGAAAAATAATGATGTTGAACATACAATTGCAATAAATCTTAATGCAATTTGAATTGAATATAATAAACTATAACCTGCAAAATAATTTATTATTAATATAAGCACTGAGAATCCAGTTGCAAATATCATCGTTCGTAGTAACCTCTTCGTTATCTTCCCTAAAACTGAAAATATCGATATTGCACCAAATATTATTGCAAGATTGTATAAATCTGATACCAGCAATGCAAGTGTAAATAATTGTATAGAAATTAGTAATTTCACTCTTGGATCTAATTTATGTATGATTGAATTACTCTTTCTATAAATAAATCCATTGGCGATGAAATACATTATTCATTACTCCAATTTTTAATCATTTTAGCCGCATCATTTAGATTAATTGGAATGTCATTTACAATTCCTAATCCATTAAATATTCTGACGATTTGTGGTGCAATTAATCCTACTTGATCGATTAATTCTTTATTTGTAAATATTTTCTCTGTATTATTAATCTCAATAATTCTTCCATCCGACATTGTTACTATTTTTGGCTGTAATCTCCATAAAAATTCTATATCATGCGATATGATAATTATTGTTTTATCATTTTTGTGCAACGAATTAATGAAATCTAATAATATACTTTTCTGTAATTCATCTTGTCCTACTGTTGGTTCATCTAGAATCAGTATATCTGGATTCCATGCAAGTACAGATGCTAAACACACCTTCTTTTTTTCTCCTCCACTTAATTTTAATGGAGAAATTTCTTCATATTTTTTCAAATCAAATAAATCTGTTACAAATTCATACCTCTCCTTTATGTATAGTTCATCAAATCCAAAATTATGTAATCCAAATAATATCTCATTTTTCACTGTATCTGCAAATAATTGATGATTTGAATTTTGAAAAACCATTCCTATATTTCTTGATAATTCTGCTACTGATAATTTCTTAGTATCATTGTTTTGTATAATTACTTTTCCAGTTGTTGGTTTTAATAATCCATTTATGTGTTTCACTAATGTAGTTTTTCCTGCTCCATTGTTACCTACAATCGCTGTAATAGAGTTTTTTTGAATTTTTAAATTAATATCATTTAATGCATTAGTTCCATCTGGATGATTATAACTAACTTGATTAAACTCTATCATTTCTTTCTTATCTCATCTATCATGTTCTCGACATCTATTACTGCTTTAGAAAATTTCATATCTGACTCTGCTAATTTTCTGTATAACTTTGTAGAAAATGGAATACTAATTTCAGGTATTATTTTATTTTTATATTTAAATACATTTCTTGGTGAATCATTTGAAACAATCCTACCTTTTGATAAAATAACTAATCTATTTGCATATTTCATAACTAAATCCAACCTATGTTCAACAATAATTATGGATATTCCTTTTTCTTTACATAATCTATTCATTAATTCCATAAATTCGGATGCTGTTTTTGGATCTAATAACGAAGTTGGCTCATCGAGAATTAATATTTTTGGTTCCATAGCTAAAACCCCTGCTAAAGCAGTTCTTTGTTTCTGACCATCTGATAATTCATGTGGTGCTTTTTCTGCTAAATGTGATATGTTTAATGTTTCCATCATTTTACTAACTTTTTCTTTTATTCTACTTTGTTCAATTCCTAAATTCTCTAATCCAAATGCGATATCTCTTTCTACTGAAAACATAAAAATTTGATTTTCTGGATTCTGAAATACAAATCCTACTCTTTTTGCTATATCTTTTATTTCTGCATCTTTAATTATTATTCCATCAACTGTTACTTCCCCTACATATTCTCCATCATACATATTTGGAATTAATCCTACAATCGATCTCAATAAAGTGGATTTTCCACATCCTGTTGGTCCTGCTAATACAGTTATTTCATTTGATTTAATATTGAGATTAATATTTTCTAATATGTTATTATTTGAAGAACTATATTTGAACGAAAAATCCTTAAATTTAATTATATCTTTTGCAGACATTATTTCTGATAAATTCTAATTACATAATAATATTCTTATTGTGCATTAGTACCAGTTGTACTTCTTTTCATTGATTCATCAAGTTTTGCTTGTACTTCTTTAATATTTTCCTTTAATCTCTCTTCTTGTTTATTTAATACTGATAATTTTGTATTTGCAAGATCCTTTGATCCTGTTAAATCCTTTATTACATCCGTTTTATTACTTGAAACCATTACTGTACCTGCAGATTTGTATACTTTTACATCATCTGCTGATTTTTCTAATTCAGCTAATGCCTTATCAATTTCTATTATTTCTAGATCAATTTGTTGTTTTTGTACTAAAACTGATTGTAAATTTTGTTGTAATTGTTCATATCTCTCTAACTGTTCTCTTAACCATGGCGGTACATCTTGATTACTCATACTGTATCGATTTGATTTTTACTCTAAATAAAGCTTTATTCAGATAAAATATCATAAGAAACTTTTGCCGCACGAATATGAGATGATATCTTTGCTCGTAATTCTGATATCTCTTTTGCTTTAATCTCCATGATTAATTTATTATTTTTTGCAAATACTAAATCAGTTTCTTCAATATCTTGTTTTATAGACTCAACTACTAGTTTCGATGATTTTTTATCAGATTTTATTTTAATTGTTGATGATATTTTATACTGTGGTTGTTTCATATGCCGCATCAGCTACTTTGAATCCACATTTATCACATGCCCATATACCTATTGCAACTCTTTTAAATTTAATTGAATTACATTCTGGACAATTTCGTTTTTGACGAAGATTAGTTGTTACTTTAGTATGTTTCTTTCTAACGGAAGAACCAAATTTTGCCCCAAATTCTGTTGTTGTTTTTGTTTTACGCGCCATTATTTACTGCCTCTTTGATTTTTTTCCTTATTTCTTCACCTTTATCTTTTGAAATTATAGATATCTCTTTTAATTCATCAAAAGTGAATCCTCCAGGTTTTCCTTTTTGGGCCGATACATATTTTCCATTTTCATCAGTTACAAGTGTTATTCTTGCATCAGCTATCTCTTGTTCATCTGCATTAGGATCTAGTATTATTTTATCTCCTATCTTTGCAAATGTTGTTGATACAGGTAGTGATTTTATTGGTAATGGTTGTCTTTCATCAAGCATTTTCACCTCATCGTCTTCAATTTTAAATTTGGACATATCTGCCATTAATAATGCTGCAGTTCCTGCATATGAAACTGCATCAAACAAATTTCCATCTTCATTAATTACTGCAACATCGATATAAACAGAATATACAAGTTCTCCTTCTTTAATACATAATTCTGCTACATCAATCATTCCTGATTCTCTAATTCCTCTGTCTGATACTCTTGATAATTCTATTGTATCTTCATTTGGTGGTCCAGGTTCAACGTATTGCGAACTAATTGGTAACATTTCTGCATTACATGTCATTACTCCTTCTGCGGGCGTATCAGGAAATGGTTGTGCCGTTTCAACCTTTACTCCTGCCCATACTTCTGTATTTCCTAATATTACTTTTGCAGAGCCATTTGTTTTGTCTTTCAGTATGTTTATTTCTATCTCTAAATTCCTATAATCTAGTAATCCTCTATTATCTGTTCTAGTAGAATTTGAAAGATTTGTTATTATACTTTCTTTTGTAATTGAATCTACAATTCTATGTTTTTTCACTGCTGGCACTTTCTATTCACCTTTATCTCCATTTTTATCATTGAAATATTTCTCTGATAATGCATCTCGTTGTAATTTATATAATTTATCACAACCTGTTTTTGCTAATTCTAATGCTTTATCAAATTCTTCTTTTGATAAGTTTCCATCTAATTGAAATAAGGTAATTAATCCCATATTTGGTAATAATGCTATTGGCATATCAGCTTCTCCTGTCTTATCTTCATTATCATCCACATCTAGTACTACTTGCCCATTAGCTTTTCCTGCAGCACATGCTGTTACTAAATCTCTCATATTGATTCCTGCATCGGCTAATGCAGTTGAAGCCGCGTTTATTGCAGCACATCTAGAACCACCGTCTGATTGAAGAATTTCGATATATATTTCAATTGCAGTTCTCGGATAATCTTCCATTAAAATTGCTGGCTGTACTGCTTCTCTTATTACTTTTGATATTTCGATTTCTCTTCTCGATATATTTGGCCTTTTTCTTGTATCCGTAGAAAATGGCATCATGTGATACCTACATTTTATAACTGCTTTGTTTGATGACATCATGTGTTTTGGATGTACTTCTTTAGGTCCAAATACTGCTGCTATGATTTTATTCTTTCCAAA
>sequence05
AATGTCGAACGCAACAGCCTTCACATCTTCAGTTGTAACGGTATCGTTTCCTCGAATGATTGCGGCATGTCCTCTTGATGCATTAAGAAGAGAAACAGCTGCAGTAGGACTAGCACCTAACATAACACGAGCATTATTACGTGTTGAACTACATAGATTTGAAATAAAACTTAGAACGTCGTCAGGTACGCTAACTTGATCTTGAATTAATTTTCTTGCAGAAATAACAGAAGATGAGTCAAGAACTTGTTCAACTTCTACAGTTTCACCACGTTGATTTTTCTTTTCTAAAATATCTATCCAGGCTTCTTTAGAAGGATAATTCATAATTAGACGAGCCATAAATCTATCTAATTGAGCTGGTGGTAATGGAAATGTACCAGCAAACTCAATTGGATTTTTAGTTGCAATTATCATAAATGGTTGTTCAAGAGCAGTAGTATTTCCATCAATGGTAACTTGACCTTCTTGCATAACTTCAAGTAAAGCAGATTGAGTTTTTGGAGGTGCACGATTAATTTCGTCAACAAGAACAATATTAGAAAAAATTGGCCCTTGATGAAAATCAAATTCAAGAGTTTTTACATTAAAAATATGCGAACCAGTGATATCAGATGGCATTAAATCAGGTGTAGATTGAATTCTTCGAAAAGACAGATTGATTGTGTCAGAGAAAATTTTAGCAAGATAGGTTTTAGCAGTACCAGGAACTCCCTCAATAAGGATATGACCGCCAGTAAATGCTCCAATAGCTAAGAATTTAATTACATTAGGCCAACCAACGACATATTTAGATATCTCATTTTCGAGTTCATCAGCAGCTTTTCGAATTTCAGATAAATCTTTAATCTCAGTTATCATATTCTTGCCCTCGCTAAACTAGAAGTTTTTTGATTAGACATCCATTTTGAGATCAGATTATAACCAGATTTATCTATTTGTGTACTGCCGTAAGCATATCCTTCCATTGAAGATAAAATAGTATGAAGAGTATCTGTGTCAGATGGATTTTTAGATATTAAAAATTCAACTAATTCACGAATGGTATATGAATCACGTTGAGCTAATCCAGATGTAAAAGCAGAAATTTTGAGAGTTTTATATAGTTTAAGAAACTTCTCATCATACTTTTTTGTAAATTCAATTTTTTGTTTAGTTATTTTCTGTCTAACAATATTATTACGGAATAAAAGAAATTCTGAGAGTAAAACAATGAATAGACCGGCGGCTAAAACGGTATTAAATGGTCTCAATATTACAATAAGTTCAGTAAATGGATCACTCATCGACGCCCATCTCCGTATAAGAAATAGTAAGAACTACTTCAGGGTTATTTTTAGCTATAGACCAAGGAATAGTAATTCCTGCAGGAATACGAAACTTATCCGACCAGCTACTAAATGGAAACAAAGTTACATCTAAATCACAATTACTACCGGCGGCATATAGATCATCAATATCACCTTCACCTTCAACTGGGAAACCTTGACCTTCATCAGTAGTTATACATTCAGCAAAATCTAATGCAAGACCGGACATTTTTATTGAATCTAAATTAACTTCGAATTCAAAATTACTAGTATAAGTAACAGAAACTATATCATCAGCAGTAACTTGCCATTCAGCAGATAAAGCATCAATACTAAGTGAATCAGGAATAAGTTCTATACTAAAATGATTGGCAACAATGGTGATATTTTCAAAGATATCTAAGGTTTCAGTAGTCCATTCGCCAATTTTAAGATCGTATGTTCCTTCTTCTACAAGGACAGTAACTTGACCAGTTCCATTAGTAGTACCAGTTACTGCAATAGTGTCAGTAGCGCCAACATCATTCCAGAAATAAAAAACAACACTTACACTAGGAGTAGCAGTAGTAACGAATCGTTCTTCAATATTTTTATCGTGAGTAAAAGTTTCAATAGTTACTGCATGCATAGGTAATAATTCAGGATCTGGAGGTTTAGGTTCAGGGTAATTTATTACAACAAAAGAACTAGTAATAATAGCAATAGTGATAAGGACTACTTGTAACACTATAGAATTTATAGATGAACTCATACATCTCCCCTTTGAATAATTTAAGGTTACTAGGTATTAAGCCTTTGACAAAGTAAATTATTGTTGGTCCGGAATAATTTGAGAATAAGTAAAATATAAGAGAATAATTGAAATTAAGAAGATTTATTTACTCTAATTGATTTATATAACATAATCCAATTTTTTTGGTGAATATTCTATTGTTTAAAGAAAGCGAAATAAAAAATCAAGTTCATGGTACAACCACCGTAGGTTTAGTATGTAGTGACGGAATTGTTTTAACAACAGATACACGAGCGTCAATGGGATACTATATTGCTAGTAGAACAGTAAATAAAATTGCAGTAATTGATAATCATTGTGCTGTAACAATTGCAGGAGGAGTAGCAGATGCACAATATGCAATAGATCAACTCAAATATCATGCAAAAATCTATAAGCTAGAAAAAAATGAAGGTCTTCCAATATCTTCTATAGCAAGGCTAACTTCAAATCTATTTTATTCAACACTTCATCAAAAATTCTCTTTATTATATGCAGATATCTTAGTAGGAGGCATAGACCATGAAGGACCTCAATTATACAATATCGACATGTTTGGAACTTTAACGAAAGAAGAATATTATTCAACAGGAAGTGGTTCGCCCGTTGCATATGGAATACTTGAAAGTGAATTCAAACAATCACTAACAGTTGATGAAGCAATGCCAATTGCAGTAAAAGCAGTGTATGGAGCAATTTTAAGAAACTCTGGAACAGGAGATGGATTAAATATTGTGACAATCAGGGAGAATAATCTAAAAGAGTATTCTTTTGAAGAGAAACAAAAAATTATCAAAGAACTTTCTGGTAGACAATAAAATGGCAGTGATGAACAAATCACAAGAATTAATGACGACTATATTAAAATCACTACCAGCTGAAGCAGAAATAACACGTATTGAATATGAAGGGCCTAGAATCGCAATATATACAAAAAATTATGAATTTTTAACCACGAATAATTATATTATTTCAGATATTGTAAACACGGTAAAAAGGAGATTAGTAATTAGAACTGATAAATCAATTAGAAAAACAGAGAATGAGGCAACAGAAATATTAAAAAAATCAATAGATGAAGAAATAGGATTAGGGAATATATATTATGATGATGCGTTGGGAGAAGTAATAGTAGAAGTATTAGAGCCTCAAAAATTAACAAATAATTCTGAGATTAATTTACATAAATTGTCTGCGAATATTGGTTGGAAAATTATAGTAAGAAAAGGATCAGACTTACAGTCAACAAGTATTAAAACAATATATTATGTTAAGCAGGCTGAATCAGAAGCAAGAAGTATATTTTACAGACAAATTGGAGAAGAAATATTCAGACCAAAATTATCACAAGCATCAAATATTACTTTGAAAAGTTTAGGAGGATTCAATCAAGTAGGAAGATCATGCATGTTACTTACAACACCAGAAAGTAAAATTATACTAGATTGTGGAATACTTCCTAATGCCAGAAATACATGGGATTCATATCCAAGATTAGATTGGGCTGATTTTGACATGGATGATTTAGATGCAGTAGTAATATCACATGCTCATTTAGATCATTCAGGTTATCTGCCAGTATTATTCAAATATGGATATAGAGGACCAGTATATTGTACAGAACCAACTCTATCATTAATGTCATTACTTCATAATGATTATGTAAAAATCAATTCCCATGAAGGATCACAAGTATTGTATGAAGGAAGAGATGTAAGAAAAATGATTCAGCATACAATTACATTGCCATATGGATTAGTTACAGACATATCCCCAGATATCAAACTAGTACTTAACAATGCAGGTCATATTCTAGGTTCTGCAACTTCACATTTACACATTGGAGAAGGATTACATAATATTCTATATACAGGAGATTTTAAATTTGCAAAAACAAAACTATTTGATGAAACTATTTGGAACTATCCAAGAGTAGAAACGCTGATTATGGAAAGTACGTATGGGGGAAAAGCAGATATGATGCCTACAAGAGAACAAATGGAATCAAATTTAGTGAATTCAATAAATTCAACATTAGAAAAAGGAGGAAAAGTGTTGATTCCAAGTCCAGCGGTAGGTCGTGCACAAGAAATAATGTTAGTATTGGATCAACAAATGCGTGAAAAGAAATTAATTGAATGTCCAATTTATTTAGAAGGAATGATTTCAGAGGCAACTGCAATTCATGTAGCGTCAACAGAATTTTTAAGTCGTGATTTGAGAAATAGTATTTCAAGAGGACAAGGAAATCCATTTCAAAGTGAATATTTCACAGTAATTGATCATCATAGTAAAAGAGAAGAAGTGTTAAGAGATGAACCATCAATTATTATGGCTACATCAGGAATGTTAGAAGGTGGACCAGTAATGAGATATTTCGAAGAACTGGTGCCAATAGAGAAAAACAAATTAATTTTTGTATCATATCAAATTGCAGGAACATTAGGAAGAAGAATCATGGATGGTGCAAATCAAGCTAGCATAGTAGATCAAGATGGTAAAATCAAGATTGTAGATATAAAATGTCCAAAAGAGAAAATTGATGGATTTAGTGGACATTCCGATTATAATCAACTAATTAGATTTGTAGGTAAATTAAGGCCAAAATTAAGAAATGTAATAATTAATCATGGAGAACATACAAAAGTTGAGAATTTAGCTAATTCAATATCAAGAATTTATAGAATTAGAACGCACAGACCAGAAGTTCAAGAAGCAATTAAATTAGTTTAAGAAATACCTCGCCAGATTTTTACACCAGGAGGAGTAAGTACTACCCTCTCATCTCCAAGTCTGACTATATCTCCGCCAATAGAAGATACGTATGAATAAAGTTCTTCAATAGCTTTCTTTAACTCTTTTACATTTTTTTGTGCAATAGGTGTAATTCTCAATATTACAATCATGTTTTGAGAAACTTCATCTTTAATTTTTGAAATCTGATCAAGATCTTTCAATGCTATGGCTTTAAGATACATTTGTTGATCTTTATCAAGTGATTTTTTGTCAATTTTTAGGGAAGACAATAAAACTAGTATGAATTCATCGTTTATTAATTTAATAAAACAAAAAGAAATTAGGCAATAGAAAGATCAAGATCCTTACAAGAATTCCAGACATAATCTCCTACATAATGAAGATTTTCAATTACCATTCCTTTGTCAAGAGTGAGTAATTCTTCAGAAGAATGTAGGGTTTTACCAATAGCAAGATTTTTACTATGAATTTCCTCGGAAATAACAACTATAGAATCTTTTAAGAAAGAATCATTGATTTGTTTAATTCCAGGTCTCATAATATTTGCGCCCTTACAAACAAAAGGAATAGCTCCTTTATCAACAACTATTTCAGGAAGTGAAGTTAACGTTTTAGAATCTTGAAGAAATGGGAATAATTTACCCTGATTTCTAACAAGAATAAAGGTTGCCGAGGAAAATATTTCAGTGTCTGAATTTAATTCAAATGATTTAATTTGTTTAATTTTTGGAATATCAAAGATTAAAGATGCATTAATTATTTCCTCAACTAATGAATTAATCTCACGTTTTGATAAAAATTTAATTTTCATTTTAATCATTTGATTTATTTATATAATTAAAGTAATCATGCAATGATTTAATTTGTTTATTTTCAATTGAACCTGGACGTTTCTTTCTCACTTCATTTACAGATTCATCAACAGACATTCCAGAATTAATTAAAAATGCGGCAAGAACAGTACCAGTTCTACCAATACCAGCTCTACAATGAACTACAACAGATTTATTATTCATCATACATTCGTTTATGAACTGAATTGCATCAACAAGATGATCAATAGATGGTAATGAATGATCTTCAATAGTAGAAATATGTTTGAAAGTAACTGATTTATTTGATATAACTTCGTCATTCAAAGAGCTAGTAGTAAGTGTTAAAACTGCAGAAATATTGTGATTTATTAAGAAATCTAATTCTGTTTTTGTATTAATAAATCCAGAACCTGCAATTTTATTATCAATAAGCCATTTGAAATTTGATGGTTTAGAAAATATTAATCCATACAGTTTCCTGTATATATCGCCGATAAGCATACTAGAATCTAATAATTAGACAGATACGGATTTTCCACAAGCGCAAGTAGATGTTACATTAGGATTACTAATCTTAAATCCAGAAGATTCTATAGATTCAAGATAATCAATCGTAGATCCATTAAGATATTTAGCGCTGAATGGATCAATGAAGATTTTTAATCCTGCAGTTTCAATAATGATATCTTCATCTGTACTTTTTTCTTCTAAAGCCATGCCATAAGTTAGACCTGCACAGCCGCCACCGGCAACATAAACTCGTAGACCAGGACTAGATTTTTCTTCAACCTTAGAGAATTCTTTAACTTTATCAATTGCTTTCTGACTAATACTAACTAATTCTGTTTGACTCATATTATTTAGTAAGAATAGACACAATATAAATTTTTTATTATCAAATAAGAAATTTGTTAAGTTTAACAATAGTATCTTTATTTGTCTTTATTACAAAACTTGCATTAGGATTTCCAAAGATAATTGACACCTTTTTTTCATATTCCTCTTTTAAACCTGTTCCAGATGGACAAACACCTAGACTCTTAATTTCAAAATCACCTGTCTTGATGAAATTCATATAAGAATTAAATGATTTAGAATCATTCCATTCAATGTTTTTGTCATTGCATAAAGCAATCCATACATCAATAATACTATTGTAAAGAAGTTTTTCAGTTAATTTATCAAGACTCATGTTTATCGCAACACAAACCTATCTGGCTATGATTACTAAGGCAAAAATTCGATATATGAATAGCACTCAAACCACTTCAACTGATCCGTCGTCATTAGCACGTAGAAATGTATCGATTTTCATAGAAAATATGCCGTTAGCAATTATACCAGGAATATTAAGTAATTTTTGTTCGAGCTTCAATGGATCAGTAATTTGATTAAAATGTGCGTCAATTACTAAGTTTCCATTTTGAGTAAAAAATGGATAGCCTTTATTTAATGTACGAATCACAGGATTGCCTCCAAGAGCTTTAATTTTTTCTTCAACAAAGAATCTAGAAAACTCAGATATTTCTAAAGGAACTGGCCAAGTAATAACATCAACATATTTTGAAGAATCAGCAACTATAATTGATTTATCAGCAGCTTCAATCATAATTTTTTCTCTATAATGTGCTCCGCCTCCACCTTTTATCATAATCTGATTTTTATCAATTTCATCTGCGCCATCAACTACGATATCAATTTCAGGAATAAGAGATGGTGATTCAAGAATTATTCCGTTTTTTTGTGCGATGATTTCAACTTGCATTGATGTAGGAATGCCACGAACTTCTAGATTTTCGTTAATAATTCTTTGACCTAATGCATTTACAAATGCGGCAACAGCAGAACCACTACCAAGCCCAACTAATTGTCCATTAGATATTTGTTGAGCGGCATTTTCGCCCATTTTCTTTACAGCTTCTTCTTTACTCATTGAATATCATCTTTTGAATTTTGCTTCAATTTTATAAGAAGATATTCGATTCAAGTATGGAATATTTTCTTTATTAACTATTGTTTTTAGTTTCTTTTGTTCTTTGAATGAAAGAATTGATTTTATTTTACGTGAATTTTTAGAATTTGAATTTATTTCTATGTTCTCAATATCAATTATTTTCAAATCATTGAATATTTTATCTATTGATTTTGTATTCATTCTTCCACATCCATTTGTTCTAATCGATTCAATGCTTCCAATACCTCGTCTCTGATTTCATTGACTTTATCGTCAGCTAATGGGGTGTCTTTTGGTTTCTTAGGTGTAGATTTTTTTATTACAGGTTCAGATTCCGTCTTAGATTTATCATCTATAATTTGTTCAGTATTATCTCCCTTATTTGATATAATTTGTGAATTAGATACTTTTGGAGAAATCTTAAGCTTTTTAGTAATTTGAGAATTTTCTTGAGATTTTTCAGTGTTTTTTGGAATGTCTTTTACAATTGGCTCACTAATAGGTTTGTTAAATGTTTTGACTGTTTCAAGTTTTTTAGTTAATTCATTCAATCGACGATCAATCTGATTAAGTTTTTGTGAAAAGAGATTTGTAAGTTCTTCATGTAAGTTTTCCAATTCACTAGCTTCAAGAATTAATTCAGAATCTTGTAAATTGTTATCAAGAGATTTAATTTGTTCTCTATAACGATTCGATAACATATCACGTTCTTTTTTAGTAATTCGACCATCTCCTTCAGCTTGGAATACACGTCCCAATGCATCAGTATGGAGTTCCTTTTCTAGTTTCAAAGTTTTATAACGAAGACGAGCTTGTTCTACTTCAAATTTTTTGCCTATTTCAGGAATACTTCGACTAGATTCAGATATAGAACTACTATTAGGAAAATCGGGTTTTAGATATTTGCTAATTAAGATAGAAAAAGTTGTTCCAGCAATTATCCCGCCAAAAAGCGCAATGATGATTTCTAGAGTAGACATTTCAATTTATGACTAGAATAATCCGGATATAAAGTTTTGCAATGAAAAGAAATAGACAATAATATCAAATTATCGGACATGCATCCAATTATATTGACGAAGTTTTGCAGATCCAGCTTTTCCAAAACCACAAAATGCACATTTTTTATTAGTCATATGATATGCATGTTTACCACAACGGCGACAACGAATATGGGATTTGCCTCGACCTTTCTTTCCAGCTGAAGTAGTACCTTTGACCATAATAATCACCTAGGTGGAGGAGATATAAGAATTACATTATCGCCTCGTACGATAATAGTTCCTAAATCTTTAGTATCATCCCCTTCTAAAACTTCTTGTGAATCATCAAGAGTTAGGTTCATATGTTGATCAAATCCTTGTAAAGAACCCCGAATAACCTTGTTTCCTTTAAGTTTGATAAGAACTACCTTTCCAAGGCTTTCTTCCAATACTTTAACGGACATATCAACAGACATTGTTAACCATAAAAATGATGGGGCTTGAATTATATAAGTAAATTTAAGTTTATTTTTAAATTATAAAATCATATAATTTCTATTGAAAATATATACGAAAAAGGGAGATAAAGGAAAAACAAATTTATTCGGTACAGATAAGCGAATAAGTAAATCTTCAAAGAGAGTGAAGTCATATGGAGAAATAGATGAATTAAACTCATTTATTGGGCTAGCATTATCAGGAGATGAACCTGAGGAATTCAGTAGTATAATAAAAGAATTAAACAAAATTCAAAATGATTTATTTATAATAGGATCAGAATTAGCCACAATTTCAAGTGATAAGAAAATAATTAAGAGAATTAAAAAGACAGATGTAACAAGATTAGAAAAGATTATTGATTCGTGTTCAAATGAATTAGAACCGCTAGAGAATTTTATTCTACCAGGAGGATCAATGGCAGCGGCAATATTTCATATATGTAGAACAGTATGCAGACGTGCAGAAAGAAACATCGTAGAATTAAGTGAAGTAGAAGATATTAATGAAGAAATTATTACTTATTTGAATAGATTATCGGATTTGTTTTTTATTCTTGCAAGATTTTCAAATAAAATTTTAGATGTCGAAGATATTAAGTGGAAGTAAGACGTCGTTCCAATATTACAAGACTTGTTGATTGCTTAAACCCCATATCTTTCAATATTTGCAGTTGTGAAGAATTAATTTTTGGAATACAAAATATTTTTCTATTTGTAATAGAAGGATCTAGATTTTTTATAAATGATAAAGCAGAATTAAGAATAATGTCAGACATTTCAGAAAAGAATATTTGGTAATCATCTTTATACCCAAAATTTTTAGAACGTTGTATGACAATGAACGATGAATAATTAGATTCCGGTAAAAGAATAAATGAATTTTTAGATAATTCAGAAAGAGTTGGATGAGTTGGTTCCCACCACCTCCACCATAATGGAATAAGAGAGTCATTTATTCGAGAATTTACTAGTAAAGAGTAGATTTTTTGAGAATCATCAACTAGAGAGAATTCGACGGAAACATCGTCAGATGAAATATTTTCAAATTCAATAGAACAATATTGTGAGTTAAGGACTTCAACGAAATTATTATTTGTGAATAAATTTATGGATGCAATATTTTTTACAGAAGTTACTAAACGAATATTGTGTATAGTTAACTTTTGCATTCTTTTGATATAATCTGAAACTAGATATTGTGCAATTCCTTGCCTTCGATATTTTTCATCAACTCTTAACGTTTCTAACCATGAATCTGAACCAAGAATACAATGATGATATACTCCAATGATTTTGTTATCTAATTCTGCAACATAGAAAGAATCAGCGTCCTTAGAGATCCAGTTTATCCATACGTCAGGAAGAAAATCGTGTCCGTTCCAAATATTTTTACAAAGTTCAGAGATTTGTTCAAAGTCGGAAATTAAACCTGAACGAATTTTTAACTTATTTATTATAGACATTAATTTAAATAATTACTTAATTAATTTTATAGATATTCATTTATTGTTTCTTCGAAGATTTCTTGTGTAACTGCGCCGATAATAGAATTCATTATTTGTCCATTTTTGATAATAAGAAATGTTGGAATAGAACTGATTCCATATTTTGAGGGAGTAACTGGATTTTTATCAACATTTAATTTAGCAAATACAATTTTATTTTCATAAATCGAAGATAATTCTTCAATAATTGGATTCATTGCCCGACATGGTCCACACCATTCAGCCCAAAAATCAACTACAACGATAGGATTGGTCTTTATAATCTGATCAAAATTTTCGTCCGAGATAACTATAGGAGCAATTGATTGCATATATTAGGGAAGGCAAATTGATATATAAAATTCCGGTATGGCTTTTATAGGGAGAACGAAAATTACAAAATCCTTTTTATGTATTTAGTTGAATTCAGGTATTACATGCCGAGGTGGCAGAGTGGTCTTCAATAGAACACAATAATGCGCGGATCATTTAATATGAGCGTACGCCTTGAGAGCCTGTGTCCTTCGGGACTCGTGGGTTCGAATCCTACCCTCGGCGTCAATTATTTACTAGAAAGATTTACTTCAATGAATACGTCTTCAGGAACTTTGAGTCGCATGAGCTGTCTCATGGTTCGGTCGTCGGCATCTAGGTCAATTAGCCGTCTGTGGATACGAAGTTGCCATCTATCAAAAGTACTAGTGCCGTTTCCAGATGGGGCTTTTCTAGTAGTAATTTTGAGTTTTTTTGTAGGAAGTGGCTGTGGACCTCGTGCTTTGATGCCTGTACGGTCAGTTATGTCCTTAATTTCCTTGCAAACTACTTGTAAGTTAGGAAGATTACTGCTCGTTAACTTGATTCTTGCGGATTGACCCATATTTCTTTATTATATTGTGTATTCGGGTATTTGAGTTTTACATTTTGGCGTAAAGAACAAATATGATTGAAAAAATCTATAGCTCAATGTTAAAAGCGATTTTATTTGATTTGGATGGAACAATAATAGATTCCAATAATGCAATATTCGAGACATATACACAAGTAGCAAAAAGACTAGGAGTTGAACCTCCAGACATTGAAGTTCTCAGAGGATTACTAGGACAGCCTTCACATTTGAATCTGCCCTTGTTATTCGGAGATAATAAAGATGCAAGGCCAATCTATAATGAAGTAGTGGTAAAGACTCATGAAAATTTACCGACATTACCACATGTTAAAGAAACATTGGAAAAAATCGATTTGCCTATGGGAATTGTAACATCAAAAAGAAAAGCTAATGCAATTGAAGTATTAGGAGAATTATATGACTATTTTACAGTATTAATAACTCCAGAGCAGACAGTAAAGCAGAAACCTGATCCAGAACCAATGCATTTAGCATGTAAAATGTTATCAGTAAAAGCAGAAGAATGTGTTTACATCGGAGATACAGTAAGAGATTATAAAACTGCAATGAATTCAGGAACTGAATTTATTGCATTAATTGATAAAGGGTCTACAGAAGAACAATTCAATGAACTAGGTGCAAAGAATCAAGTAAAGTCATTTGATATGATTCCGGATATGATAAAAAAGTTTTATTAGTAAATTTAGTCTAAGATAGTATAATTGACTTTTGAAGTAATGTGTGATAATTGTGGACATATGATATATCAAGGAATGGAATTAAGATATGTCAATGATGTAATAAAATCAAATAGTGGAAAATGTAGAAGTTGTAATAATACATTTTCAAAAAGAGAATTCAAGACTGAAATTAGTAAGAAATAAACTAATGAAATTTAGAGATTAGAATTAGACAGACCTTTAATGAAGATACATTCATCAAAACCTACTGAGAAAGTTTGTTCAGTTTCGTCATTATTAGAGAGGATAAAATTACTATCGCGTATAATTACTATAGGAATAGATTCATCACATTCACCCATAAGCAATTGAGCGGCAGAACTTAGATCGTCGGCAATAGCCTTTTGAGTGACACGAATAGAGTTTCCAAAAAGATCAGTTTTTCCCCTCTCATCTTCAATTGGCTTGACGCCAGCTGAAGCAATAGCAACTCCAGTAGTTCCAATTCTAGTAGGCATTAATCTACTATCAGTAATAATTATTGCAGTATCGGTGTCGAATAACTTTTTTATTTCAGACTTTAGAATTTTTGCAGATTTAAATGAATCGTCAGGATATAATATTGCATAACCTAGCATTATGTTAGAGGTATCTATTCCAGCATTAGGGACAAGAATTCCATCTTTAAAAGTTAAAACAAATCCATCAAACCCATAAAAAATTTTATCAGATTCTTGAATTATTAATTCGGATAATTTAGGATCAATGTTGTATTTTTGTGATATTTCATTTGCACGATTACTTACTTTAACTTCAGAAAGTTTTACATATCGACCTTCAGATAAAGCAACAAATTTACTCGATATACATAAGATATCTCCATCTTTTAATTTAACAGAATTATCTTCTAAGGATTTGGAGATTAGATCAACAAGATTGAATTTTGTATCTTGTCTTGGAACTTTAATGGGTAGTAATTTGATTTGATTCAATGTAATAACATTTTATTTGACTTGGAATATAACATCTAATTCTACAGAAGAATTCATTGGAAGAGAATTACTACCAATTGCTATGCGAGTATGTTGACCGGATTCACCAAATAATTCACCAAATAAATCAGAAGCTCCATTGATTACTTTAGGGTGATCTACGAAAGTGTCAATGCAATTAACATATCCTGAGACTTTAACAATTCTTTTAATATTATCTAACGAACCAATTTCAGCTTTGATGACAGCTAATGCATTTAATGCACATATTTTTGCTCTCTCAGATCCTTCTTCTAAAGTTATGTCAGAACCTACTTTGCCAGTAAGTAGTTTTCCATCCATAAACGGAACCTGACCAGAAATGAAAACCAAGTCATTAATTCTAAGAGAAGGAATATATGAACCTGCAGGTTTAGGGACTCCAGGTAGAATAAGACCAAGTGAATCTAGTTTTTCTTCAATCATGTGAGATGTATGATTTTATAGAATTATAAGTCTTAACATGTGGCTATTACCCGAAACATTATATTCTAGTAGGAAAGAATATGTGTGAAATAAAAATTTGGTAGACTTTGTTAGTTTAACATTATTAGTTGTTTTAGTTATTTTGTCAGCAATTTCATCTGGAAGTGAAACTGCGTTAGTTTCATTAAACAAAATAAAAGTAAAAACACTATATGAACAAAAAAAGAAAGGTTCTGAGTCATTATTAAAATTAAAAAAAGAACCAAAAAAACTCATAACAACTATATTAATTTGGAATAATTTAGTAAATATTAGTGCTGCATCTTTAGCAACTAGTATAGCAATAGAAGAATTTGGGTCAACTGGATTAGGTATAGCAACAGGATTTATGACGTTAACAATATTAATTTTTGGAGAAATAATACCCAAGTCGTATGCAACAGTAAATAATGAAAGATTTGCATTAATTATATCTAGACCATTAGAGATAATTATGAGGTTATTTTCTCCATTCACAATACCATTAATGAAATTGTCAGATTTTGTACTAGGTGATGCAAGTAAAAATATCAACCCTACATTAACAGAAGATGAAATAAAAACTATATTGGATGTAGGAGAACAAGAAAATATTATTGAGAAACATGAGAAAGAATACATACAAGGTGTCTTAAAATCAGGAGATACTACTGCAAGAGAAGTAATGGTTCCTAGAAAGAAAATGTTTGTTGTAGATGCAAAAATGGATATTAATCAATCAATAATAAAAATGGTGAACAGTGGATATACAAGAGCGCCTTTGATAGATCAATCAAAAGATAATGTTGTCGGAATAGTACATTTGAAACAATTACTCATTGAACAGAAAAATGGTAAAGGAGAAGAAGGAGTAATACAAATATCTAAAAAACCGATATTTGTATCTCAAAGAGAAATAGTAGGAGATTTACTCAGAGAACTACAATCAAAGAGGGTTCACATGGCAATAGTATTGGATGAATTCGAAGGTGTTGAGGGATTGTTAACTCTAGAAGACTTGGTTGAAGAGATTGTCGGTGAAATAATAGATGAAAGTGAGAATGTGTTTCCTACGATAAAACGTGCAGATCACAATACAATAATAGCGACTGGCGAAACGAAGATTGAGGAAATAGAGAAATATTTCAAGATGGATTTCAAGAAAAGTGGAAAATATGACTTTTCAAATGTGAATGGAATACTTCATGATTTCTTAAAAGATATTCCAAAAAAAGGAGACAAGATAGAAACAAGCGGGTTGTTATTTGTTGTGGATGAAATTGAGAATAATACTGCGAATAAAGTAAGTATCACTAAAATCTAGAAATAAATCATATAACAGATATATTCAATGCAGAGTAAATTAATAGTACAAAACCATGGATTTATTTGCTATTTTTATAGAAAATTTATCTGGATTAGGATATCTTGGAGCTTTATTAGCAGGATTTCTGGGATCTAGTTCACTATTCTTTTCGATATTTCCATCGTTCATAACAATTCCAATAATTGGATCACAATTAAATCCCTTATTAGTTGGAATAATGGCAGGACTTGGTGCAGGAGTTGGACAGTTTCTTCATTATTATATCGGAGTAGGAGGAAGAAAATTATTTTCAAATAATTTTTTGACTAGAAGAAAAATGTCTCTAGGAAAATTTAAATTTCCAAAATTTTACAAACGAAATAGAAAACCAATAGATTGGGAAGAAAAAATAAGGAAGTACGGAGTAGGACTAATTTTTATTTTTGCAGCTACGCCATTGACGCCAGATGACATTCTTTGGATACCACTAGGAATAATGGGATATCCAAAATTGAGAGCGTTAATTGCTGCAATATTAGGAAAAATTACATTAAATTTGTTATATGCATATACTGGATTTTTTGGAATGGAATTATTTATGTGAATGCCGGGAGTGGGTCTTTCGTATTAATTTCGAACCCACGACCTCCAGATTATGAGTAACGCCCTTGTACTATGGAGGCTGGCGCTCTAACCAGGCTGAGCTTTCGAGTAAACAAACCCCGGCTTCTTGCCCCGGCACACAATACAAAAAATTTCTCGTGCTTAATAAACGAATGTAGCGTGAACAATAACAATTGTTCATAATTAATACACAATAAATTTAGTAGATTTCAATAAATTAATTGATTAGTAAAATATAATAAAATTATAAAAATAGAGTCATATGTTCAATATAATCAAAATATTCTAATACGTATATACAATAAAATAATGAATAATTAAACAATCGTAATTCCAAACGAAATTTATAACCAATTAAGGCATAACATCTATATGGCAAATAACTCAGGT
>sequence06
ACAGTAACAGAGGGACCTGTAGATTACAAAGGTAAAGATATTCAAGGATTTCTTTATGGATCAGTACCTGGTGAGAGGCAGAATTCCACATTATTTGCAATTGACGTTAATGATATGAGCATTGATTGGACATTTGAAATACCAAATAGATATCAGAGTTCAGGAGTAATGGTTAGTGGAGGTGTAGTTTACCTAGTAGATAGGGCAAGTGTAATGTATGCAGTAGACGTAGAAACAGGAAAAGAACTACGTAGAATTCAATGGGGAGGATTAGGAGCTGGTACTGTTACATTAGGTGCTACAGCGAGAGGAGATATGATGTTATTTGTTCCTTCAGGAGGAGGTCAAGTAGCTGCAAATACACCAGGAATAATTGCTGCTTTCAAGCTTCCTGATGATGTATCTGGACAAACAAGCATAGTAGGAGATCTGCAAGAGAATATATTCATATTGATTGCAATAGCAGCTGTAGGTATAGCAATTTACTCAGTATACAATAATAAAAAGAGATAATAAAATGTATAATAATTTCACCAGAAGTTATAATGATGCGCGTTTTTTGAGTACGAAAATAACTCCATTTGTGATTTCAGCGATTTTATTATTTTTATTATTAAATATTGTACAAAGTGCAGGTCTTTCACAATCGCAAATCGGAGCTAACGAAGAACAAGTCGGTAATGATAATGTTCCGTCAGGTTTTGGAGATGAGAATTTGTATACACTAGAAGTAAATATAATTTTAAAAGAAGAAATTCAACCATATTTACGACCAGTGAATGACCAATTGGTAGAAATATTTTGGGATATGAGGGATATAGAAACACAAGAAATGAAGGAATTTACTTTAACAGCAAATACAGATAGTGATGGAAGGGCAGTATTCGATTTATTCCCTGGTCTATATACTTTGAGAATTGATTATAATGGAATTTCAAGAAATGAAACAATTGCAATAGATCCATCTACTGAGAACAATATAGATTGGGTAATATCAAAATATTCAATAAGTAAATATAATTTAGAATTTAGGGACAGAAATGGAGGAATAATATATCCAGAAGAAACAATTAGAATGATATATAGAGGGCCACCACAACTTAGTGATCCATCGTCTATCCAATTATCTTCTGAATTGGGCGATATTAATCTAGTATTTAATGTTGAAGAAGTTATGAATAGAGCTGAGATATCAATAATAGAACTTAGACCAAGAGAGAGTTTCGTAGTTGGAATTTTTTCGACAGATAATCCTCCGAAAGCATTAATCTATTCAATAGACGTAGATAAATCAACGAGGCAATAAATATGGAAATTATTTCAAGTTCAACATTGATTCAATTATTAATTTCAATTGCGATAGCACTAGGAGTAGTAATTGTTTGGGGATTATATTTTCCTCAATTTAGAATAAGTGCAAATCAGAGAAAACCAAACATAAAGGCAGAATTTGGAAGTAATGAGATGTTTGAACAACTCAATTACTTCAATAATAGGGGAAACTTTAATGAAGGAATAGTATTCGCTTATAACCTATTGAGAAATAATCTATCTACTATGGATAAATATCCAAATGATGAATCGTTAACTGAATATGAGGCGATAAAAAAGACCGTAAAGGAGATTCCTGAACTATCAAATATTTCTGGTTTATTGTTATCAGCGTATGAACAGTATGAATTAGCAAGGTTTAGAACGAGAACTGACGCAATAAATCTAGAGAACATGAACAAGATATTAAGAAATATAACAGAAAGCAATAATTTCATCGTACAAAGAGGTTCTCAATAATGGATATTTCGATAATATTAACATTATCTTTAGCAATTGCGGCTGTAGCTTATTCATTTGTTAAGAGAAGGGAAATTGATTCTATGACTAGACACAATCAAAATAGTTTTACTTACGACGCAGTTTTAGATATAAACAGTCAGAAACCAAATTACTACAGATTAACACAAGTACTTGTTGGAGATTTAGATAATGTGAATTTACGACAAGCAAGTATAAATAAAAATGATTTACGAGTAATATCCGATTCAAAAAAAATGGTAGAAAATGGATTTGTTGATGAAAGAATGTTTACAAAAATTAGATTTTTACATTCAATGTATACGAGGAATTAGGATATGTCTGAAATGTTAGCAAGGGAAGTTTATAAGAAAATTAATAATGAGATAGAAGGAAAAATTATAGGAAAGAGTTTTGAAACTAAATTATTAACAATTGCATTATTAGCCCAAGGTCATGCAATAATAGAAGGCGTGCCAGGAATAGCAAAGACTCTATTAGCAAAATCATTTGCAAGTATTTTGGATTTGGAATTTAAACGTGTACAATTAACATCAGATATGCTTCCTTCTGATATAACGGGAACTTTTGTATTTAATGTGAAAGATCAAGAGTTTTTCTTCAGAAAAGGTCCTGTTTTTGGAAATATAGTTTTAGCAGATGAGATAAACAGAGGTATTCCAAAAACACAATCTGCATTATTAGAAGCAATGCAAGAATATCAAGTAACTGTAGAAGGTCAAACAGAAAAACTTTCACAGCCATTCATGGTAATTGCAACTCAGAATCCATTAGAGATGAGAGGTACATATCCTCTACCTGAAGCTCAATTAGATAGATTCATGTTTAGAATAATATCTGGGCTACCAAATAATGAAGAAGAATTACAAGTGTTAGACAAATATGAAAAAGATTCTAAAAGAGATCTGGAATTTAATAGTATTAATGCCGATATAATTGCTGCCAGAGAAGAAATTAAAACACAGATAACAATGTCTAAAGAAATTAAAGAATATATAATATCAATAATGAATGCTACGAGAAATGAAATAGAGGAAATTAATTTGGGTGCAAGTCCACGATCTTCATTGCATTTAATGCGTGCATGTAAAGTAAATGCAGCGTTAGATGGACGCGATTATGTAACACCTGATGATGTTAAACTACTACTGTTTCCTGTATTGAATCACAGGATAATAGTGAATCCGGATTACTTACTTAGAAAGACTAAGCCATCAGAAGTGTTCAATTATTCCGCTATTGAAGAGATAATAGACAAAGCAGCAAACAGTGTAAAACCTCCAAGATGAGAGAATTGATAACAAGAAGAGGATATTCCGTTCTCAGTTCACTCTTCGTGTTTATTTCGATTTCAGTGATTTCAAGTGAGTTTATATTTCTTACAATTTCTATGTTCATATTTTCGTTATTTTTAGTTGAATTACTGATATTCGTATTTTCTGTGAGAGAATTATCAAAATTAAAAATAGAGAGAAAGATTTCAAAAAGAAGATTATTTGTAGGAGATACAATATCGTCATCAATTGTGATGCAGAATGACGGTTTTAGAACAATCGGATTAGTAAAATTATCACAAGATATTCCAATAGAGTTCAAGAGTTTGGGAAAAAGTAAATCATATGCAATTAATCTAGCTCCTGGAGAGAAAATAAAATTTGAATATGAATTAGAAGCTATACAAATGGGAAGAATTAATTTTGGAAACCTTGAATTAAATTTATTTGATAAATTTGGTTTATTTTTTAGGACTAGAGAAATTAACAATGAAGAGTTTGTGTCAGTGTTACCAGATTTAAGACTTGGAAGAGGAATAATAGATGCAAATGTACAATTGGGTTCACTGTCCTCGACTACAAGATCGGACCCATTAGGTTCCGATTTTGCAGGTGTGAGAGAGTATAACCCAGGAGATGATTATAGAAGAATAGCTTGGAAATATATGGCAAAATCCTCAAAACAAGAACCTAGAATCAAACAATTTGATTTAGATCAGAGAATTGATGTAAATTTAGTAATTCTAAATAGTAATACTATGAATGATGGGCCAATTGGAGAAAGAAAATTAGATTCAGTAGTCCAAGCAGCTATATCGATATCATCAATAGTTGACAATGCGGGAGGAAGTTTTAAAGTAATATTTTCTGAGAACAACATACCAAAAACAATCATTGGTAATCAATATGAATTATGCAATAATCTGTACCAAATCAAGGCAGAAAGTTCCTTAAATCGACAGGGATTAATTAATTATGCCATAACTTATTCAGATCCTGCCTCAATATTTTTATTCGTACTAGATAGTCCATTTCCAGAAGAGATAGGAATTGATGATTTCAAGAGTTTATATAATAAGAACTTGGTAAATTTATTTTTCCTGGACACTGCATCATACATACCAACAGACAATAATTCTAAACTACAACGAGATGTTGTTGAGTTATTTGAAAATGAAAAAAAGCATTTACAAAAACAATTAGATATTGGAAAACAAAGGAAATTTAGAGTTGATGTATGTACAAAAGACAACATAACAAAGAATATTTTAGAGAGTTTTAGTAGAATACAAATTCTAATGGAGTGATTGAAATGGACATAAGATATAAAGTGTTAATTTTATTTGGGATTTCTCTCCCTTATATAATTCAATTTTATTATGTAGGTTATTATAATATTTTATTGGCTTTAATAAGCAGTGTATTTGGATTAAGTCTATATTCGTTTTCTACATTAATGGCTCTATTAACAATTTTTACACTAAGTTATCGAATTGTAAGAGGTCCAGGTTCATTACAAGATTCATTAATTATTACTACACTAACTACTCCAGTAGTTTTTCCATCATTAATTATGTTAATATTAATAATTACTTCAACAGGAGACTTGCCAAGTAGATACTTTGCCGCAGCTGCAAATCTATACTTAGTAGGAATAGCAGCAATGGTAATAATTTTACCATTATTAGGAATAATAGTTCAATGGTCTGGAATGATTAAGTCGAGAGGATCTCCATTTTCACATATACTTTTTACAATGATCATATTCAGTTTGCTAAATTTTGTGGCATTCAGTAGTGTAATAAGTGAAAATATAAATGAACAATTGATTTCTCATGGAACAAATATTTTACTTAATGGAATATTTGTTGTCAGAGTGATAATAGCAAACATACTTCAAACTGAATTACCCATGGCACCAAGAAGCCTAAATATTATTCAATCATTCGTTTGGGCAGTTCCAGTTAATACAATATTTGCATTATCATCGGCACTATATCTATATCTAAGATTGTTTGGCCGACATACAATTGATAAAGTAAACACAGATGGATCGAATACAGAAACATTTTTGAATATAAATAATCTAGGTAGAATAAGTATAACATTAATTTTTGCGATATTATTGAATTTTATTTTAATTTTTGGAATGTCGACAATTATTGAGTCGGTAGGAACAGTAATAAAAACTGTAAATCTTATGATTGTGTCGTCGTTTGTGATGATTATTGGATATTATACTTATCAATGGAGGAATGAAGTGTAGTGAGAATTTTTGTAATATTTTTAACGTTATTGTTGATTATTCCGTTGGCATCGTCTCAAGTAGATAGTTCAACGAGTTTTAGAATAGGTTATTCGCCAGAAAAATTATTCAACAGTGATTTAGGGATACCTTCATACTTACGTGGTGAAACAATTTGGTTACATCTTTCTGGTTCTCACGAAGTTGTATTACAAGATACAAATCAGAATACAGTTGTAGGAATAAGAATTGGTGGAAATCCAAATTCAATATATACATTTGATAGTTTAGACGCTCTGGGAACTTGGAGATTAATTATTGATGGACGAATTTATGAATTAGAAGTAGCAAATCAGATTTTAGAAGTAGATGAAAACAAGGTAGAATTTGAACTAATTAATAATTCATTAATTGTTAAAGGTGAAATTACGCCTAAATTTAAAGACATACCACTAGAATCAGAGATAATTATTGCAAAAAAGAAAGAATCAGGAATTACTACTGTGCAAACTAATTTGTTGATTGAACAGGCAAATACAAATATCGACATAAGATACAGTATTGAGGGCAAAGAAACAAAATTATTCATACAGCCGTATATAGATAATGTTAGAAGTCAAGGAGAATATTCAGAAATAGGTCTTCATAATATCTATGCGTGGGCAGAGTTAACATCAGAAATTGCACTAGTAAAAAAAACTGACAATTCGAGATTCACCACTTATTTAAATCAACCAATAGTGGATACTGATAGAATTTATTTTGAGATATCAAATGCAGCAAGAAATGGAATAAACATGACAGTTCCAGTTCCAGGATTGACTGATAGTCCATGGACTGTTCCACTCAAATATGGAAGAGCTTTGTTATCTGTATATTTAGAATTTGAAGGAGAGATTTTTGTAAATAGAATACCTGTAATAATACTTGAAGACAAAATAATAATTAATCCTGAAGTGATCATATCGGTTAATTCATTTGATGATAAAATAATCTATAATGAAGTAATAAGTATTGAAGAGAATATGGAATTGGAATTTCTTTTAATAAGTAAAATTAATGGTATTGATAGAATCTTTTATGATACAAACAAACCTGAATTAACTAAAATTAATGTCATAAGTAGAACAAATAATGAAAAGTTAGAGAATTATAATTTAATATTTGTAGAGAATATTAATTCAATAAAAATTAACGAAACAACATATATTCTTGGAAAGATAGATGGTATGAAAAAGAACTACATCGTCGATCTATTCATAAATTCATTTAGAATAATTAATCCAATAATTGATACTAAAATTAATGACAATGGAATGATTGAAATAATCGCTGAAGTGGGAACAGCAAGAATACAGATAGTTGATTCAACCGGGTCGATATCAGCAGATGGAGAATTAATAATAAGAAGATTAGGTACAGATAGTGATGAGATTTTGGTTAGGAATTGGAACGGAAGTGATGTAAGTGTTATGTTACCAAATGGAAGATATTTAGCAATATTGGAGAGTGATAGTATACAAGGAGAGATCGAATTTGAGATGTTTGGGGATGAAAAGGATGTGATAATAGTAGTAGATTCAATGTATGGTATGTCAACGAGCCTATGGATTTTTACTTTAGCGACTATAATTACAATTGAAATAGTAGTAATATACTCGATTTGGAAAAAGAATATAAAAGGAATTTAATTATCTAGTATCCAAATCAACGTAATTTCGGGCTGAATAACCGACATATTCTGCTCTAGGTCGTATCAATCGATTGTCTTCTAATTGTTCTAAGATTTGTGCACACCATCCTGATACACGTGAACATGCGAATAAAGGAGTGAATAAAGTTGAATCGATACCAAGCATAGAATAAACAGAAGCTGCATAAAAATCAACATTTGGTTTAAGATTTTTTTGTTCTAGAAGAGTTTGCTCGATGTTATAAGATAAATCATAAAGATTACCACCAAAATGAGATTGAAGATCTTTTGACATTTCTCTAAGAACAGTAGCACGCGGATCTATAGTAAGATAAACACGATGGCCAAATCCCATAATTTTTTCTTTTCGTGCGAGTTTGTCGGAGATATAACCAGAGATATTTTCTACATCTTTTATTTCATTAAGCATTCTAAGAACTGCTTCATTTGCGCCACCATGTAGTGGACCTTTCAGAGTTCCGATTGCAGATGTGACTGCAGAATGTACGTCAGATAATGTAGAAACAGTAACCCGTGCAGAGAATGTGGATGCATTAAATCCATGGTCAGCGTGTAAGATAAGACATTGATCCAAGCACTTCGAAGAGAGTTCGTCAGGACGATTTCCAGAAATCATATACAAGAAATTGGAAGAGAAATCAAGATTGTTATCAGGAGGAATTATTTCAAGATTATTTTTTATTCGGTAAAAGTAGGATAAGACAGTAGGCATTTGCGCAAGAAGTCTTATAGATTTATTCATATTAGCCTCAGCAGAATTATTATCAGAATCAGGATCAAAATGAGATAAATAAGATACAACAGTTCTGAGAAAGTCCATTGTATTAGAATTTGATGGAAAGTTCTTGATTAGAGAAATAATTTCATCAGAAACATTGCGATTAGAATAGATGAGATTTTCATGAGTAGATAATTCGGAACGAGTAGGAAGATCTCCATGGAATAATAAATAAGTTAGTTCTTCAAAAGTGCTATTTTTAGCTAAATCAGAGATTTCATATCCACAATGAAAAAGATTACCTAATTTCCCATCAATAGAAGTGATTTTGGTTTTTGAAACAACTACATCGGCTAAGCCCTTGGATTTAGAATCATTAGACATAGTTAACAAATATTTTTCGTCAAATATAATATTTCAGTTTAATTCTTAAATATTTAGACGAAATATTAACAATAATGGAAAAGAAAATACAGCAATTAGTTATTGATTTAGGGATGTTTGCAGTAGGTTTAGCTTTAACTATATCGGGTTCAATAATTTCGAATGGAGGATGGATAATGATTTTGATTGGGTTAGTTTTAGTAGCTATACCTATTAGAAGGTCTAAAGGATTAGGCAATTTTTCCAAAGTGAGTGGAATTAATGAAAGAAATATTGATGTAAATATTGAAAAAGAATCATGCATGGGAGTAGGAAGTTGTGTAGCTATTGCGCCTCAAGTGTTCAAAATTGATGAAGCAAGTTTAAAATCTTCATTTATGGCATATGCGCCACTCGAAGTACTGGATAAAAAAGGAGCTAGCAACCAAACAATTTTAGAAGCTGCGCAATCTTGTCCATATAAAGCCATAATCGTTGAGGACAAGGATTCAAACGAACAGATTTTTCCATAAATAGGCAAATTTCAGTACTAATATTTAATTGTTAAACCTAAGGTTTTTATTGTTACAATGTTGAGATTTAATGTGGTACAAGAAAATGTCTAGTCGCGTAGAAACTGAAAAAGTAGCAACATGGTTTGTATATGTTGCAGTAATTAATACAATTTTATCATTACTATATGTTACAGTATTTTTACTTCCAGATACAATTGGAAATGGAAATATTCCGCCTAAAGGAGATTTGTTTTCATTATCCACGGCAGTGGCAATATTTCCTGGAACTTGGTTATTGATAGCATTTCTCATACACATTTCTGTCGGAATATTAGGAATGGTAGGATGGGCAGGAACTTACTATATATCTTCCAGAGTAATGAATAAGAGAACTACTAACAAATTATTGGCACGAGGTCATTTGGTTGTAACTGCATTAGGAGTTTATGTTACAACAACTTTCTTATCATTGGCAGGTTTCATTGGAGGAAGGGCCATGCTTCCTGAAACAGCATGTGTAGTACTTGTTGATCAATGTATGGGAGCAGGTGTTGCAATTGTTCAAACTTTAATTACATTCACAGTAATTCCAACAGGTGCAGGAATGGGATTAGCACTAACTGGAACAGCAATTGGAATATTAAATATACTAATAACACTAAGACAAGAACAGTAAATTCGTATGTCCGATTTAATTGAAACAAAAGTAATATCAAAATATTTTCTAGTACTTTCACTGATAAATACAATTGCAGCAATTTGTTTTACTTTACCAATATTGGTTCCAACTTCAGGTCTTCCATTAATAATTGGTGCATTTCCTGGTACATGGTTGCTAGTAGGGTATTTTGTTTTTCTAATAGTAGGAGTTATGGGAATGCTCGGATGGAGTATTGTTTATAATTCAATGTCGACAATGTTTGATCGACAAAATACATCAAAAAGATTATCAATAATTCAAATGGTATTTATCGAACTGTCAATATATGGAGTTGCTTCAACGATTTCTTTTATAGGATGGCAAGGGGGTCAAGCTTTAAGACAAGGATTATCTATTGCTTCTGTAGGATTTTTAATTGAACCATATGTATTACCGACAGGCGTATTTGTTGCATTGGTATTATTAGGACAATTAGTAGGCGTAGTAAATATTTTTTCAACAATAAGAATGAAACGCTAAATTATTTAGTTTTACTATTGTAGACTTGGTGAATTCTTAGAATAGATATTGCGGCTTCAGTAGCAGTAATTAATATTTGACGTTTCATAAGAGCGGATTCAATGATTTTTGAATTTCTTAGATTTGCTATCTTTCTATTCTTATAATCCAGACAAATGTACTTATCATAAGATGGTTGAGAATTACGAGCAGTCACTATTAGGTCGATGTTATTAAGACCTGCATTAAGACCGAGAGAAATTGGAAGTAATTCAATAGCGTTAGAATAGGAATTAATAGCCAATTGTTGTAGGTCGTCTATAGAAAGGGAGTATGAACGAAGTTTATTGGAAAGAATTAATTCAAACCATCCAAGGCCAAAAATGGCATATGGTTTCTGGATTGATGCCTGAATTAACGACAATAATCTATTAACAATATCTTCATAAAGATCACTATAGCGTTGAGTTTCAGTACGAATTAAAACGGTGTTAGATTTATGATTAGAACCATGATCAAGGACGAACCAGTTTTTATCATACATTTGCATGGATGTGAGATTTGAACAATAACCTACTGTATTTTTAGATATTTCTCGAGTGTGGTTTACCATAACGCAACCGGTAGATTTTTCGATAAGTTCAAGAGATTTCATAGGAACGCGTTTAACAGTAAGAATTCCTGATGAGTCAAGTTTAGAGATTAATGAATCATCAATAGTTTTATGACTAAACAATACGTTAACGCCTGCAGCAGTTAATGGTTTAATATAATCATATAATATCTGTCTTTCAGTTTTTTTGAACTCTTGTAAAGTATTTGGATCGTTGATGGTAATTTCTTTCTTTATTCCGTCAGTAGATATAGATAAAGGAGATGAAAGAATTGCAATTTTTACGTCCGATATAGGCAAGTGTTCTGATTTAGATAGCGGATCTCCATCAAAAATAATTCCATCAACTAGCTTACTATCAGATATAGAAGCTCCGCCATGACTAAGAACGTTAATGTAATTAGTAGTTTTATAATCTGAAAAAGAAGGATCTATACTATAGATTGCATCTATAATGAGTTGAGAGAGTTTGTTTGATTCCATTTCTCCAAATTTAGATGATAATGAAGAATAAGCAAGTTTTTTCCATTCAGATTTATGTTTAATAGGAAATTTAATAGAATCAAGTAGTGATAAAGAATAATCTAGAGATAGAGTATAACCATCGATAATTATATTGGGATGAATTCCCTTTTCTATATTGATTCGTGCTTGTTCGAGTAAGAAGGAAGTAAGAAGAATAGCAGAAATTGAACCATCGCCGACATGTTTGACAATAGTTTCAGATACATCAAGTAAAATTTTAGCTATAGGATGGTCGAATTCAGCTTTTTCAAGAATAGATTTACCATCGCGAAGAACAAATGGATCTCCATAATTATTTACAAATAACTTTTCTAAGCCAAATGGACCAAATGTACGCATAGTTATTTGGCCAATCAATTTTGATGCGTCAAAGAGATTCTGCTGAGAGGAATTTAACTTCGAGATGGAAGGATTGTCTCTATTCATTTGTTTCCACGAATTAAAGCTATGAAGATACCAATTACTGCAATTATAAAACCAATAAAGAATGCCTGACTAAGACCACCTACATATTCTGTGACCGATATTGATCCACCTACACTATAGATATCTTCAGAAAGGAATAATCCAACAGTAGAAGCGCCAATAGCAAGACTTAGAGATTGACCAAGATGTCTCATAGTTCCTAACATACCGTTTGCTAAACTGCGATCTTCTGATTTTACAGATGAGAGATTTGCATTAGTATTAGGAGCGGCAAATAATGAAAGGCCAATACCCATAATGATTAATGAGATTTCAATAAATAATACAGAAGAAGAAACAGTAAGACGACTCATAAGGAGTAGAGAAATTGCAACTATTGCCATTCCCAAAGCGCTAAGTTCTCTAGAAGATATGAGTTTTGAATATCTGCCAACTGCGATTGAAGTTATTACAACAGTGAGGGGAAAAGCAGAAAGCATAAAGGCAGCTTCGGTCGGATCGATAAGACGTATCAGTTGTAGATAAAAAGAGATCATAACAAGTGCATTATAATGAGAAGTGTACATAAACAAAGCAGTAAGGTTAGTAGACAGGAATAATCGATTCTTACTTAGCATTCGTATATCAAGAATAGGATTTTTGGATTTATACTCAACAATAACAAAGATCAGTAAAAATGCAAGAGACAATAAAGGAAGAAGAAGTAATGGAATAGATATAGCAAGACGTGACCAGACATGAATATTTCCAAACATTGGAAGGAATATTTCTTCTATATACAGATCAATACTAGTCCAGCTTTCTTTTGGACCAAATATTATAGCAATAAGAAGGCATGATAATGAAGAAGCAAAAAAGAACGAGCCAAGCCAGTCCATAGATTTATTCAGAGATTTAGTACTTTCTTTAAGTTTAGAGGAGACAATTGGAAGTAGAACTAATCCTAATGGAACATTAAGGAAGAATACATTCCTCCAACCAATATATTCAGTGATTACGGCACCCAATGCAGGTCCAGTAGCTATTGCAAGATAAATTACAGTAACATGAATACTCATTGCCAATCTTCTTTCCTCAGGAGGAAAGGCATCAGTAATTATTGCACGACTATTAACTAATAATAAAGCAGCTCCTATAGCTTGAATAATTCTAAATATTAATAATTCAGCAATAGTTTGTGACAAGCCACTAAATAAAGAACCAAATACAAAGATTCCAAGTCCTACTACAAAATATTTTTTTCGTCCATGAATATCAGAAAATCTACCAAAACTAGTCATAAAAGTAGTGAGAACAATAAGATAGATTACAGATACCCAGATTGCAATATCAATACCAGTTTGAAAGTCTCTTGCAATGTTTGGTAAGACAAGTGCCACGATGCCAGTGTCTAAAGGAGCTAAAAATGTAGCAATATTCACAACTATAAGAGTCATCCATTTGTATTCGGAAAGATAATCAGAAAGAGATTTTGACATAGATAATTAGAATAGAATAGATTAGACTATAAATTATTCCGAAGAATGTTATAAAATATATGAATTAAGTATTTACGGATTGTTCGCGGATTTCATTTTCGGTGACAACAAGTATGTCTATTCCATCACCTGATGCAGCATCTCGATTTATTGCGGAACGAATAGACTTTATAGCTAGATCGACAGCCTCTTGTTCACTCATGTTTTTCTTATAGTCTGATTCAACAACGCCAATAGCCAATTCTGCACCAGTACCAACAGTGGCATATTCGTCAGGAATAACAGAACCCAATGGATCAAGTACGTATACAGCAGGCTTTTTGTCTTCAATTCCTGCAAGAATAATTTGAGTCATCATAGGAAACCATTTTTGTTGATACATTATAACACCCATAAGTTTGGCAATGGAATTTGGAAGAACCGGTTGATTAGTTTCTAATTGAAGAATTTTTGCATGTGCTGTAACTTCTCGCATCAATATATTCATATCAGAAATCATACCTGCAGCTACTGCTCCAACCGTATCAGTAATTTTGAAGACTTTTTTTCCAGATCGACTAACAAGGTGTGTACCGTAAGAAACACGTTTTTCCGCACCTAAAACAACTCCATTTTCAAAGGTTATACCGACTGCAGTTGCTCCCGGAATTTGATAAGGCATCGCCATATTACAGGATTAATTATTATCCTTTTTAAGGATTGATGGAAACAATATGACAAAATTTATTTTTTTTATCAATTTGATAATTCATACCAGTAATGAATTTGCATAAATCAAGGTTAGTTTGTAAATGAGAACTAACATATGATGTAGTGAATTGAGATGAAGTTTTTGAAAGTGAGAGAAATGGAATAATCATATCTGCAAGATGATGATCAACTGTGCATTGGGATATATATTCAGAAAGAAATTTTTTAGAACATTTTTGACCTAACGTAGTTGATTGTTTGATATTAGTTTCTAGAACGTCAGACCCAATGAAGCAATGTTTAGAAGTACTCGAAATACAAAGGCCAGATGAGAAAGAATCAGAATCATGAGTAGAAGTGTGTGTTGAATCCACAGTGATCTGATGCTCTTCCAAGAAAGTTTTTGCGTCTAAACATTGTTTCTCAATTTTGGTTTGAGACAGAGTATTTGAAGAATCCGAAGTTATGATTCCATCAATTGTCAGATTTGAATATTCAGGTTCGATAATAGAAATAGATTGTATCTGTTTAGGAGCTTTAATCTTAAAGATAATTTTACCATTACCTTTAGGATAGAAACCACGTTGAACAATTGATGCAGTAATTGAAAATCCAAATTTTTCTAGTATTGGGATTATAAGTCTACAAAAATAATCAGTAGATGGACTCCAGTTTACGTCAGTTCCTCCCTTAATAGTAAACATAAACGTTTTACCAGAAACACTGACTGCTTGTAGAATAGAATGAATTAAGAGAGTAATACTTCCTGCAGTTCCAATATTTATATCAAGATTTTTTGGAGTTATTTTATTAGGGTATAAAGAGACTTTAGTAGAATTTAGATTAAGACCATCCGTAGTAGAATTACTTAATTCTGCAATTGTTTTTATTGATTGAAGGTGTTGAGGTCGAAGGCCAGGTTTAGGTCGATTAGAACGTATATTATGAATCTGTATAGGTTCTCCAAGAGCTACAGCCAGAGAAACTGATGTTCGTAGAATTTGACCGCCTCCTTCTCCTTGTGAACCGTTAATTTTTATCATTAGAACAATAAATACAACGGGGATTTAAATAGAATTTCTATGACTAAAATAGGGGATATGAAAGTAGGAATACTAGTAGGAAGGTTTCAACCATTACACAAAGGACATGTAAAAGCCATACAATTTGCAAGAAACAATTCAGATAAACTGTACATTATTGTTGGAAGTGCAGAGAAAAGCAATCAAAAAAGAAATCCTTTTTCATTTGAAGAGAGAAAGAGAATGATTGAATTAGCAATAAATGAGAAAAAATTACAAGACAATATTTCGATTGTACCAATAAATGATGCAAATAATCATACAGAATGGATAGCGTCTATTAAGAATACAATAGGAGAATATAATATAATTTTCACAAATGATGAATTAACA
>sequence07
GGTCCGTGCCGTGCAATTGCCCCAGTTTTAGAGGAATTATCGGATGATTATGATGGTAAGGCCCACATAGTCAAGGTCAATGTAGACGAGAACGGAAAGCTTGCTACAGATTACCAGGTCCATGGAATTCCTTGCCTTGTGATATTCAAGGACGGAAAGGAAGTGGAACGAGTGACCGGCGCTGGAAGCAAGGAAGTCTATGCTAAGAAATTAGAACCGTTCGTTTAATTAGAATTAAATAATGATATACAGATTATATTTTGACGGTTCTTGCAAGTACAAGAACGATGGTTCTTGCGACATGGGCATGGGAACGGTTGTCTTAGATTCCAAGAATAATATTTTGTATAAACAAGGATGGAACATACCTGCATATGATCATGAAGATGACAGTGGTATTTTGTCGAATAATGTTGCCGAATATCAGGCTTTATTTCGCGGACTAGATGTGCTTTCTTTGAAACGATCTGATGGTATATCTGAATTAAAAATTTATGGCGATTCCAAATTAGTTATTGAACAAGTGCAAGGCAATTGGAAAGTTAAAGCAGCCCACTTGAAAAAATATAGAGATTCATGTGTAGCGCAAATAAAATTATACGAGAAAGAAGGATGTAAGGTATCCTTGGAATGGATTCCACGGGAAGAAAATAAACTGGCGGATAGGCTTGCGCAAAATGCAGCGGATGGAATGGAAAGATATTCAAATCAATTACATAATTGATGATAACAACGAGGTTTGTCAGAATTAAAATTAACCGATATACGACATGCTAGACTTGTCGAAGTTATCTATGACCTTGAAATTTTGGTTGTTCTCTCTTCCTGGTCCCAGGTTTCTGAGCTTGGGATAGATGGAATATAGCTCATGGCTTGATATCGTTGAGGTAATATGGCCTGGGCCGAAATGCTCCTCGCAGATCTTCTTGACGAGAGGTCTGACGACGGACTCTTCAGAATAGCCAAGAGAATGCAGGTATTCATGTGTAAGGATTGAATAAACGAACGAATTGAATTCCTCCTTTGTTGTTGTAAGTTGTTTCATTGCATTGAGTATGGTTATGTTCATGTAGATGTTATTACCGCCTTCTACGAAATACGCGCCAATATGATTAGGAATTTCTGTTAGAACTAATGAAAGACCAGCACGTCTTCTAGAAATTGTTTTTTCAACTGTGCGTTTAACAAGATTAAAGATTTTGTCATAGTCAGAAGCTTCCTTCAATTGTGAAATAAGAGGATAATCATTCATACAATCACTTTGGTTTTTTCACTTATATCTGTAATGAATTAAAAAAAATAAGTTAACCCTAGCATGCACGGGGAGTGAATGTGTTAGGGCTAAGCTTACTGGTTGAACTAGTCAATTCGAATATTCTTTTCGTCTTCGGATTTTCGTAGAGGGATTTCTAACTCCAATATTCCGTTCAAGTAATTTGCTTTGGATTTGTCCGCGTCAAGTTTCTTTCCGGTTGGAATATTTTTGTTGTACTTTCTATCTCCATTCTCTGCTGTGATGTTGACTATTCCCTGGTTTTCTGTAACTTTGATGCTATCTTTGGTTACGCCAGGTAGTTCTGCGATAATTTTTATCGAGTTGTCTTTCTTGCTGTCTAGAACATCTACTGCAGGGTCTCGGGATTCGGAGACATTTTGTGGTCTGGAATTTGCTGGTGAACCATTGAATTGATCAGCATTTCCAAATGTATTGACTATAGGTTGTCCATCTGGACCTACTTCCATGGTGTATCCATAGAAGTACGGCTTGCCAGACTCGACGTTCTTGGGGAATTCGATGTTATTGAACATGGAATTGAGACTTTGCATCTCTTGAAACATGTTCTCGAATATTCGATCTATGAAATTATTTCGTTTGTTCATACATATACCTCGTTACTAACCTTAAGTTAGTATCTACGATATATAAACGTTGTTTATGAAGTTCTTCGTCTGTAGATTACGAATGCAACAAATGCAGCTACAGCTCCAGCTGCAATTATTATGGAATTGTTGTTGGATTCATTTCCATGTAAACTGTCTATTGTAGAAGTTGTAGACATTAGAAATGGTAATTGAGAAGCTGAGAATTCTTCTCTTTCTCCTACAGCAATCCACATTGTGCCTTTGTCTTCAGATGTTCCACGTATCAAGTATCTTCCTGGTTCAAGTGATAGTCGATCTTCGGATAAGATCCAGCTGTATGTGTCCGTAAATGTTTCATGGAAAATGCACGGTGATTCTCTGGAAATTCCTCTTGCGCAAGTATCAGATGGTTTTGGAAAATTAGTTGTGTAGTTAGCATGTTCGTGAAAGCTCCAGCTTAGATGGGCCCAGTCTTCAGGATCAAAATCTATTGGTGCTCCATCTTCGTTCGCTATATGAATGTGATAAATTGTGATAGTAGGTTCATAATTTTTTAATTTATCAAGAACAGGAACTCCTAATTGTATAAACAATTTATCAGAATTTTCCGTATTGAAAAAAAGCCAGACATCTGAATCAGAAGTTTCTTGTTCAAAATACCACACTTGAGATAAGTGAATGTCTTCAATTTCGATTGGATTTCGTGCAGATGTATTTGGACCGGCGACATATGGTATATGTCCTGATGCTGTTGGCAACATCAACAATAATATAAACAAAAGAACGATTGTGCGCATTGAATTGAGATTTGTTTAGTTTATAAAAAGAATATCGAAATGGTGGTTAGCTCTATGCCAGTAGTGCTACCTTCGGGTAATGCCCATACAAGAACTGTATAGATTCCTTTACCATCTGTGTTACTTGCTTCAGCAACAAAATCGATGAGTTCAGTGAGATCCTCTTCGACTGAGAAAGTTGTAGAATCTTCTGTACGAGTAACTTCCCATTTCTGTGCTAGAAAAAGAGGTATATTCGAACCTTCGTTCAAAACATCTTCTAGAACATCTGGTTCGAGTTCTGATGCTTCAGATTTTGGAAGAACTATTCCAACAGGTAGGGAATTTTCTGAACATGCAATATGAGTACAAACATGACCAAATCCATAATTTGCTGGGCTCAACATCAAGTCCTGATCAGATAATGGTAATGGTGGTGGGTCATAGAAGATATCTATTTGTTCAATAGTAGCATTGAAATTAATTGTTCCAGTAAGCATAAATTTTTTGTTTAATGTTATAACAGGTTTTTGTGACCATTCGACATATTTGTTTTCAAACTGTTGAACAATGGCCACACAAAAATCATTCCATGCAATTCCAACATTAATATAATTGTGATCAGGATGTAGAATATTCATTGCATGTTTAAAGCTATTTAATTCGTCTCTTTCGACCATGGAATATTGATTCCAAGCAATGACTTGTTCAATAGATTCTTGAGTCCAGTATTTTTGAAGTTCGGGGGTTCCTATTACTCGAACATTTTCATTAATTGCACCTTCTCCACCTGCAATTGAATATCGCATATATGGTTTCATTCCATTGCTGCTCCAATAAGATGTTCTACAGAGATTAAGAAGTTCTTCAGCGTGTTCTTGTGCAGTAGATGATTCGCCTAATTCAACTGGCAGTGTATTGAAGTTTACTCGATCTTCATTAATCAAGTTTAAAGAATATGTTACTAATTCGTCATGATTAATTTTGGCAAGTTCTAATTCGGTGTCTTTGGGAAAATCTTCGCAGTCATAATAGAGATCAATAGATGTTTTTTCTAATGGAGATAGATAGCAGATTTGCTGTGGTGCTTGGAAGAAATCTCCGGTGATTAAAAATACGCCTGTAATTACGATGAAGATTAATGCAACTATTATGTAAATGGGTTTCAATATCAATTAATAGACTAATATGTTGTTATTAACTCCGCCTTTTGCGAATTATTGAGCCAAAGTAAGCAGCCCAGCCTAATAGAACAACGATTATACCAATTTCAGTTAGTGGAAGACCTCCAGATGAGCCAGATGAATCATCTGTTGGAGTTGCAATAGTAATATCAGCCCATTGGCTTTGTGAACTATCATCTGCTCCTACATTTAATGGGAACACACTAATTACTGCATTATCAGAACCGCTTTGATCAAAGAATATGAATCTAGCCCCGATTGTTTGTCCATAAGATGCTGCAATATCATTTGCGTCACCAGAATCTATTGGATGAGATATTTCAAAATGATTAAAATTACCTATACGACCTACCATTCCGTCAACGTCAATTTGACTGTCGTCAAGAATATCTAGACCAGGTCCAACAAAACCATCTCCAATTCGGTTACGTGCACCAATTGAGATAGTGTCTTCTCCGACAGTGAATTCTTGTCCATCGTGTCGTCCATCAAAATCTATAGTAAAAATATCGAGTGCTACATTAACAACTTCGTCAAGCGTATTGTCGGCAACTTTTGCAGCAATGAAGAGACTGCGTCGATCATTCATAACATAAATTGTTACTTCTCCTTCAGGAAGAGAGAAAGTTGTTGTTGATGCGTCTGCCCATTCGTCGTCGTTTATTACACCGTCCATTGTTGGGGCAGTACTAGTATAAGCTTCAAATTCTGTACCGTCATGAGCTTTGATTCCAGGGACAAGTAAAATAGATGCTAAAAGTAAAATTGATAGTATCAATGGTTGTGTATATTTCATAGTTTATTTCCACTCTACTGATATTAATATATTAACAAAATAAAGAATTTTATTAACGTATTTTAATGTATTTATAGGCATCAGCTAATGTTTCGAATGCATAATGAACTTTGGTGAATTGTTTTCTGAAATCGATAATATCTTTCTTGACAGTGTCAGGGTTTTCTTTTTTGACTATAATTCGATGGATAAAATTGGCAATTTCTTGCATTTCAGACTCTTTCATGCCTAAACGAGTTACCTCCGAACTGCCTAATCGTATACCTCCAGGGCGTTTGTAATCTCTACCTGCTTTAATATCACCAGGCAATAATTGTCTATTTGCAATTAAGTTGGCTTCTTCAAGTTCATGTTCGAATTTACCACCATCACCGTACTTTGAAACATCAACAGCGATTTGATGAGATGCCGTAAATCGATGTTTTTCACCGAGAACAGCAATTCCATTTGAAGATAATGCCTCTGCAAGTGCTTGTGCGTTTTTGACTGTTTGTGCAGAATATTCTTCGCCAAATTCAATCATTTCTGCAAATGCTATTGCTTTTCCTGCAACACTATGAAGATGATGGTTGCTTGTATTACCAGGGAATACTGATTTTTTAATGTCATCTGCATATTTGTCAAAAGATAAAACCATACCACCTTGTGGTCCAGGAAGTGTTTTATGTGTACTGAGTGTCATAGCTTCTGCTCCCTCACGTAATGGATCTTGAAATTGTTTACCAGCAATTAATCCTGAAACGTGTGCAGAATCATAACAAATGAAAATATCATTACTCAGAAGAAAATCTTTGAGGTCTTTCATAGGATGTGGGAAAAGAAATAAGCTGCCGCCAAACATAGCGAAACTAGGTTTTTTATTTTCCTGAATTAGTTTTTCAATTCTTTGTTTGGATTGATCTACGTCAATATTCATTTCTTCTCGATCAAATGCAAAATATTCTATGTTTAATCCATGGACAAGGCCTGCTGTTCCTGAGAATTTTTTCTGACCGTGTGATATATGTCCTCCAGAAGGAATAGGTAATGCCATCATTGTGTCATTAGGATTTGTAAATGCAGAGTAAACAGCAAGATTAGCACATACTCCAGAAATTGGCCTTACATCAGCAAATTCTGCATTAAATAATTTTTTTGCCAAATCAATTGTAATTAGTTCAACTTCGTCGATAAACTTACAACCAGCATAAACTCGTTCACCAGGCCATCCTTCTGCGTATCTATTACCAAAATCTGAAGCATAAGCTTCTCTTACTGCTGGACTAGGAATATTTTCCGATGCAATAAGTGGAATAGATTCAGAAAACCATCTATGATGTTGTTCTAATAAATCGAAAACCTGATTGTATTTTTCCCGTGACAATTGAACCTAATTTATTTGTAAATCCGAATGAAAATAAAGTTTATTGAATTAAAGATTAGGGGAGAAAATGTTAATAATCTAACTATTAACTCACCTATGGTTCATTCTGTTGAATATGCTCCCCTAATTTACTATAGGGGTATATTTCTATATAAATCGTTTAAAGATACTCAGTTAGGCGTTTTTGAAATAATACGTGATTTAGTAAATAGCTGGAATTTAGCCATTGATTCTTTTTAATATTGAGCTGTGAAAATGCATAATTTAGAGTGTCAGATAGATTATCAAAAGATTCATAATTTGTTTTTAATTGATGACGAATGCTTTCACGAACGTTCCAAACACCAACAGGTAGAATATATCCTGGATGTATCTCTCTTAGTAATATAGCACCTGCTTGTTTATGTTCTGAAAGTAGTGATTCAGCAACAGCTAATCGTGTTGAATAATAACAACCACCAACTCTTGCGTATTCTTTTCTGCCATAATATGTTTCATGATCGCCAATAAGATATGGTTCTTTTCCCCATAAATTCCAAGTTGTGTTTTTATACCAAGCTTCAATCCATTCAAATTGCCATTTAGTTGGTAAGAGAATTGTGACATAAAGATTGTCTAGATTTTTTAATACGTAAACACGAAAGTCATCAATGGTTTGATAGTCTTTGATTTTTTCAATTAGGTTTTTAGATATTGTGTCGTCTACTGCAGTAATACTCCAACGTGTAGGTACAAACTTTCTATTATTTCCTATTCCGAGATTACCTGCACTGAGTGTTTTTTGAATTCGTGAAACTAAAACACCTTTATCATACAGATCGATTATTCCGTTAGATGATTTTTGATCGCGATCATAGTAAGCTTTTTCAATTCTTTGGTCGACAGTTACATTACTTGTTGTAAAATTATCAAGAGGAGCAGAAGGACCAAATGGTTGAGAGTTCTCATTAAAAGATAAACGGTTTTGTGGTTTCTTTGTTAATTTAAGTTCTAGTTCAACTGGTTGTGATGCCATGGCGAGTTCTTGAATGTTTTCAACAAATCTTCCACCTTTACTTGCTTGTTTTATATCAATATTGGTACTTCCCCTAATCAATGAATGTCTAAAATCAACAATTTCGTCGATGGATTTACCATACCATTGCTCTGGTGTATCTAATATTTCTGTATCTCCATGAAAATTAGGTGTCATTGGGCCAATACTGACTTTTGGATATCCATGTCTACCTACAAAAACTCCTGGAGGTGTTGAACCAGTAATATTATTCGAGTCAGAAGTTGAAGAAACACGAGTCATAGATTCTGCTTTTAGAATGATTGGACATCTCGATTTACCACATAGTAATTCTGTTCCTTTACAGGTGAAACACATTTCTGGGGGTGGTTCGTCGATTACAAGGTTTGAAGTTGAATTATTAACATTAGATAATGATTTTTTTTCTATAACGTTTGCAAGACTATGGATATCTTTATGTTCCATCAATCTAATCATAGCAAATAATGAATAAAAAGACTAAACATCAAGATTTTTTCATTGTGTCAATACAATGAGAACGTTTTTTGACTAATAATTCAGTCTCAAATTCATCTTCATTGAGCCAAATATTACAGTTTAAACAATGATATTTTTTCATTATATATTATATGTATACAATATAATTAAAAGTTAGATTCGAATTTGTTATCTATTTTGAGATTATTTTTGATGAGGATTATTGTAAATAGTGCAGAAAGAATAATGACAATTAAGCCGCTTGGTGGAATGATTGATGGATGGCTAGACAAATAGTACGAAGAAGTTACTCCAGATAATGAACATAATAATGAGATTCCTATTCCGATGAATATGGTATTTCGGAAATTATTTGTGAGTTGTAATGCAATTAAGATTGGAAGTACAAGCAATGAGGAGATTAATAGTACACCAACCATACGAACTGATACTACAATTAATATTGATGTAAGGACGATTAAGAGATTGTCATAAAAATTTACATTAGTATTATTTATACGTGATAGATCTTGATCAATTGAAAGTATGAACCATTTCTTATATGAAAAAGTTGTAACTGTAATTATTGTAATGGCAACAATAAATTGATAAATTAAATCTGTATTTGTAATCCATAAGAGGCTTCCGAATAATATTTCGTTAATATTGATCATTTCTTGTGACATACTTAGTAAAACTGTCCCAATGGCCATACTGGATGAGAAAAAGACGGCTAGGACAGCGTCTGAGTTCAAAGTATTGCTTTGCATAAGTTTCAACAGTAATAATGAAGCAATTATAGAGAAAGTGATTGTTGTGAGTAATGGAAAGAAATCCAGAAATACACCGATTGCAATACCAGCAAATGCCAAATGTGATAATGTATCTCCTACAAGTGAGATTCTTCTAGAGACAACAAACATTCCTAATATTGGAGCAGTTATAGATAGTAACACACTTCCAATTAATGCTCGAACCATAAAATCTTGGGAAAAAATTTCTAACATTTTTAATCATGGCCTTGATGGGAAAGAACGTCAACGTCATATCCATAGGCTTCAGTTAGATGTTTGTTACTAAGAAAGTCTTTTGATGAACCATGATAATCGAGTTTTTTATTTATACACGCTATACGATTAGCGGAATTTGTTATAGCAAAAGTATCATGAGATGAAAACACTACAGGAATAAGATTTTTGTTAACGTTTGTAAGAATTTGGAATATTTTAGATTGACTTTTTGTGTCAATACTACTACTAGGTTCGTCTAAAATAATAATATCAGGAGAGTCGATCAATGCTCGTATAAGAAAGATAAGTTGTATTTGACCTCCAGAGAGTTGAGTTATTTTTAGATCAAGTAGATGGTCTATTGCCATTTCTTTTGCCATTGATATGACTTTCTCGTTATTATTGGTAAATGGTTTAGAATTAAAACCGGAAGAAATAATTTCCATAACAGTGGCAGGAGAATTTGGAAGAGATGGAAGGGTTTGAGGTAAATAACCAATCTTGGGTTTTTTAGAAGTATAATAAGTGACTTTGCCTGTATCAGGAATAATTAATCCAGACATAACTTTCAGAAGTGTGGTTTTACCTGATCCACTTGGTCCAAGCAATCCCAGAAAATCTGTATCGTTAATAGTAAGAGATATATTGTCAAGAATAAGATTTTTGTTACGAATTACATTTACTCCGTCAAGTTCGATCATTTTATTCATTATAATCAGCTATTAACTTTTTCAAATGTTTTATTAATATTTAATAGTTATTAACTAAGAAATGTGTATTATTACTTATGCCAATCGTAAGTATTTCGTTAACTAAGGATTTCTTGAAAGAAATGGACGAATTACAAAACTCAGAGGGTTTTTCTGGAAGATCTGAATTAATTCGAGCTGGAATTCGTGCTTTGATTAATCAGAAAGTAGATAGAGAAAATCTTGTTGGTAATATGCAAGCTATATTACTCATTACACATGAGGAAGGAGAAGAACATTCTGTTACAGACATAAAACATGAATTTGATAAAATTACTAAATCTCATTTACATTATAAATTGGGTGAGAAAAAATGTGTAGAATTATTAATTGTTGATGGTAAAGCTTCGGATATTAAGGAATTGATGCGTAGATTCCAAACATCTGGTGAAGTTGAGAATATTAAATTAATAAGAACTTAAAATTAAAATTTTATTTTCTGATTTGAAATGAATACTAAAGAGATTGCATTTATTTCAGTTTTTACAGCTATCATAGTAGCATCTAATTATGTATTAATTGCATTTCCTCAAATAAAATTAATGGATAGTCTGGTGTTTTTATCGGGTTATTTATTTGGATTTCCTGTTGCAGCAACTATTGCTGCATTATCGTGGTTAGTTTATGGTTCAATAAATCCATTGGGAGGAGCAGGATTTCCTTTGATTATTGCATTGATGTCTGGAGAAATGATATTTGCAATTTTTGGTGTCTTATGTAGACGTGTTTTTAATATTGAAAATAAATTTTTAAAGAAACCGTTTGAAACAACTTTAGTTCTTGGATCATTCGGAGTTACTGGTGCATTCATTTATGATGTTTGGACTAATTCAATAGAGGGATTATTAATTTATCAAACTTTTGATGGAATGATATTGAGAATAATTACTGGAATTCCTTTTTCGATTATTCATCAAATATCGAATTTCGCAATGTTTTCTATTCTAGTGCCAGCATTTATATACATGGTGACTAAAAATATATCTACTAAATGAGTGTAAATAAAAAATCTGTAATTTTATTACTTTCTGCGATTGCAGTTCTTGCATTTTCAGGTGCACTGTATATGTATAATGAATATAGGGTTCTTGATCAGAATTATCAAGCAATTCAGGAAAATATTGATGATGTTTCTATAAATATCGATTTTATAGTGGATTTTGGGAATGGAACCATACTATATTTCAATCAAACTCGTATTCCAGTTGGTTTTAGTATGTATGATTCTACCAAATTCATAATTGGAGAAGATAATGTTGATTCTACGTATTATAGTGATTTTGACTCATATTTTGTAAATTCGTTGTTGGGAACTGGAAATAATGCTAATTATGCATGGTCAGCGTGGCATTATCAACAAGATTGGGAATTATTGGAAGTTGGTACAAATTTATACATTCCAAAGAATGGACAGACAATAGCTTGGTATTATCAAGATGTAAATGAATTTGGTCGGGGAAATCCAAATTAGATAGAATCAAAGAATTTCTTTTTTGTAATAGTTTTTCCTGAGCTGTCATGGATTTTTCTATGAACACTATCTGTTTGTTTTTCAATTTCTCTGGCTTCGTCAGCTAATTTAGCAGCTTGTCGAATGAGTTCATGTGAAGCACTAACAGTGAGTAAACGACGTTCTCTATCTTTTTCTTTGTATGCTCCTTCAGCAGATAATCGGGCAACTAAACGTGCAATTTCATAGCTTGCCATGGCTTTTGCTTTGGAATATGGATTAGTTAATCCAGAATTAGATATTGCTGTATGTTTACCTATAACTAATTTAGGTAGGTTAATTGGTTGAGAATTTTTTAATTGTTCGATAACTTGATCAATTTCATCGATCAGAGTTTGAAAAGCTCCAGATATAGAGAGAACTTTTAGAACATCGCTGTTAAAATTTGACATTTCAATAGGATCTAAGAATTCTTTATGAATACCAATTAATGGATCACCTTGTACAAAAATAAAACCAATTTTGTCTACGAGTTCGTCTTTAATTTTTGAAGCAGGACTATCAGAAACCAATATAGTGGGTTTTATTTTTCCTAAATTTAATGCAAGGTTTTTTGGCGCATCTAAAGATGCATTTGGACTTACTACAATGTACAAGTCAGTATCTAACGAGCTGGATAATTTTTCAACTTCTTGAGTATCAGTATTAGTCATTTTTGAACCAGAAGTAATTGAACGAACAGATATGTCTTTACGAGATGCACGTTCATCTAAGAGGGCCTCAATAAGAGTAGTTACTCCAATGAATCCTGTTTTAACTACAGTTATGTTTACCGTCATTTGTTTTTTAATAAGAGATAGAACTATAAGAACATCATTATTAGATTCTATTATAGGACATGACAGTAGTAGAAGGTAAAAAAATTGCTTTAGAAATTCTAGAAAATTGTAAGCATAGAATTTCAACATTACAAAAAAATGGAATAATTCCATATATTGAGATAATTCTTGTGGGGGAAGATCAGGAATCTGAGAGATATGTAGGTATGAAACTCAAGAAAATCAAGGAAGTTGGAGCTAATGGTATAATACGAAAAATTGATGAGAAGAAATCAAACGAAGATATAATAAAAATTGTCAATGAATTGAATGTAGATGACAATGTTAACGGGATATTGATTCAGTTGCCATTGCCAGATAGGTTTGATACGAAAAAGATTCTTTCTCAAATTGCATTAGAAAAAGATATCGACGCATTGAATCCTGTTACTTTGGAAAAGATTGATAATAACGAGGAATCTTATTTTCCTGCAGGAGTTGACGCTGTATTAGAAATTTTACAGCGATATGAAATAAAAATAGAAGGGAAGAATATTACTGTAATTGGAATTTCAGATTTGTTAGGAAGGCCTTTATCGTCGATTTTAAAACATCGTGGAGGAAATGTGAAAAAAATTGATGTTGGAGATCACTTAACGTTTGAAGATTTGGTTGTATCTGATATAATTATAACAGATATTGCAAAACCAGAATGGTTGAAACCTGATATGGTAAAAAAGGGAGTCGTAATTATTGATGCTGCGAATAATTATATAGATGGTAAAGTAATTGGCGATGTTGATTTTAATCAAGTAGTTGAAAAATCATCAGTAATTACTCCAGTTCCAGGAGGAGTTGGACCAATATTAATTGCAAGTTTGATAAATAATTTAGTTAAATCGTCAGAATGATTACAAGTCAGAAAGTTCTGAGCGTGTACTGCGTAATACAAAGCCAGCTACGATAGCTACTACAATGAGGAATCCAATAATTGGAAGTCTTGATACCGGTTTGTCTTCAAATGTGACTTGGAACAGTGTGTGATCTTCATCACTAATTGATTCGTCTGTTGTAGATGTTCCATAAGCAGATATTCTTAATATTTGTTTTCCATATTTGTCTGGTTCTGATGGTAATAGAATTTTAATTGAAGCTTCTTCATTGCGAGGAATTATTATGGTTTCAGAAGTTACAGAATCATCGGTCTGTGCAACGCGATCATTAAGAAATGGTGAATTGGCAACAATGAAAACTGACAAATCATGATTTGTTGAATTATTAAGAATGTATGCTTCAAATTCGACTACCTCGCCACCGACATAAAGTGACTTGTCAGAAATTAGATATGTAAATCGAAAATCGAGTTCGGGTTCAAATTCATTTTGAGCTTTAGTTAAAGGAAGAGCAGTGATTATAAAGAATAATAATCCTACAACTATAGCAAGTTGGTTCATTAGTAATTTCTAATTTTTCATAGATTTAAATTAACCGATTTTTAACGAATCTCTTTTTAAAATATTATACATAATAAAGAGTGCCGGGGTAGCGAAGCCAGAAATAGACTATGTCAAACGCGATCGCCTCGAATTAGGATGAATATATCAGATAGCGATTGTCCTTCGGGACTCGTGGGTTCAAATCCCACCCCCGGCGTATTGAATATTAATCTGAAATAATTTGTTTAGCTGTCATTCGTCCTGAATGCATTGAACCATTTATGGAAGATGATGTGAGATAATCGCCGCACATATGAATACCGTCAATATACTGTGAGTGGGATATACTAGGAACGGACATTCTTGGTAGTGCTTGTTCTATATGATATGTATGTAATAATTTCCAGGTTTCTGTTTGATTTCCAAACCAATTTTTGAGTTCGTTGCGAATTTCAGTTTCATTATTGTTCAAGCCAATTGTTGAAACAGAAATAATCGATTTGTTATTTGGAGAATATGTTTTTGATAGATTAGTAGGAATGAAAACGTTGTTAATATTTCCATGATTGTTTCCGTTTAGTAATACAACTTTAGAACTAAATGGAGGAGAATCTGCAATAAAGTAATAACAAGAGGTCGAATTCCAGGAAATTTCTTCTAGCGAAGGAATTAGTTTTCTTGCAGAATCATGATTAGTTGCCAATATAATTGCATCTGCTGAGAGAGTTTCATTTTCCAGGAATACGTTTCTGTTGTTTAATTTAATGACATTAGTGTTGAATGATATTTTTGATTCCAATTTAGCTTCAAGTTGTTCTGGGATTGATTTCATTCCGTATTTTGGAATAGCAATAGGAGCTATTGAAAATATTTTATAAACAAAATTGAACATACGGCTGGTTGTATTAAGTTCATTATCAAGAAATGCTCCGCCAAAAAGAGGTTTGAATAATTCATTAATAATCGAGTCAGAGAATTTGTAATTTTTTATTTGTTCAAGTGAGGTGATTTCATTTTCTTGGAATATTGTGTCTAATGAACGGGATGTAGTTGATTGTCTTAGTTGGAGAAGGCGTAGTTTATCCCAGAATGTGCCTACGTTCGAGAAAGCTGCTTTTAACAGGTTGGAAGGATCCTGCATAGGGTCATAAAGTTTCTTAATTTTATTGTTATTCATGATCCAGACCTCTGAATCAAGATTACATAGTTCTAGTTTGTTGTAATCAAGAAGTCTTTTTGTTTCGGGATATCCAGTTTGTAAAACCTGAAATCCGCGATTAAGAATGTAACCGTCAATGATGTCGCTTTGAACTCTTCCACCAGGATGATTTTCTTTTTCTAACACTTGGACTTGATAACCATTATTTTCCAGTTCTATAGCGCAACTTAGACCAGATAATCCTGCACCAACAACTATAGCTGTTTTCATATTTTCAAACGAGTAATTTAATTATGCCTTTACAAAAGTCGGGTAAGTCTTGTGGTGTTCGAGATGTTACAAGATTGCCGTCAATAACAACTGGTTCATCTACAAAAGTTATTCCAGCATTAATCATATCATCTTTAATCGCCATAAAACATGTAGCAGTTTTACCTTTCAAAACATTTGCAGATATTAATAAAGAACCGGCGTGACAGATTGCTGCAACAGGTTTATTTTGTTCAAACATTTCTTTTGTAAAGTCTATTATTTTTTGGTGGCGACGAAGATTATCAGGCGCCCATCCTCCTGGAATAATTAATGCGTCAAAATCTTGTGAATTAACTTCATTGATATTTTTGTCTACTATAACAGGATAATTACCTTTTTTACCAACATATTTGTTTGAAGTTCCACTTCCTATAAGGACAACAGATGCTCCTTCTTCTATCA
>sequence08
ACTAAAGCGGCAGCGCCTGCAGCTTGTAATCGAACATCTTGATTATTATCAGCTCCAGCTAAATCAACATTGTCTTGAAGCCAGTCTTCCATTGCACCTTTCTTAGCATTAGCAAAACGAACATCCTCACCTCTAACTACTCCTTGAGCTGCACCAGAAAAGACCTTCGAAACAGGTTCATGGAACATTATACCACTCTCAGGAATAAGTGGAGAAATTGCTCTGTATGGGCGAGCGTCACTCCAAAGAATATCTTCAGGACCTGCTGAAACAGTATTAACAACTAAAGGAATTAAAACACTAGATAAAAGTACGAATAGGGCAAGATATGGAAGTAGTTTCATTTAGTAACATTCGTTATTAATATATTTAAATTGTTTATTAATTTAAGAAAATATTACCATTAGGATTATGAGATAAGACTAATTGCAGCGTCCATACGAATGATGACAGCTAAAAGAGCGTCATTCTGGAATTTTCCAATTTCAGATGTATAATTAATCGCACCACTAATATTACCTTCGACAATCCAATTAAAGAAATCTGTATCAGTAGAATTAACTCCGGGTTGTTGGTCAAGCCAATCATAATATGCGTCAATCATAGAAATAACTTTGTCAATTTTAGGACCAAGAGTTGGATCGCTAACTACTGCAATATCTTTAACTCGTTCCCAATGATTATGAGCTTCAAAGCGACTAGAAGGAATTTCTTTTCTAAGTTCGACAAGTAAGAGTTTATCATTTTCAAATTTCTCAATGGTTGTAGTTAGTGCACCTAGTCGAGAATTTAATTTTGATAATTCAGCTTCTGAGACTTCAGCGCGTTGAATAGAGTCATTAAGTTGTATTTTATTATTTTGAAGTTCGGTTTCAAGATTAGTAAGTTCAGTATTTAAAGTTGAAATTTTTTGAGATAAAGCGTCATTTTCAAAATTATTGGAATCTAATTGGGATTGTAAATCATTAACTATAATTTGCGATTGGGATAGGTCAGATTCTTTAAGTTTGAGTTCGGCAATTCGATCTTCAAGAAATATAATTTGTGATTCTAATATATCTTCATTAGTTTTTAGAGAATTAACTTGAGGTTGTATAACAACATAGCCAAGAATAGCGCCAAAAAGAAATGCTATAAGTATAGGTGCAAGAATCTTATTTTTCAATAATGTATTTGATTGAGAATTTCGCTTACGTTTTCTAGATGACATTTTAATTACTATAGGCGTAATCTAATTTATAATTTTTTAGTAATATGAAAATATTAGTCACTTAGTAGAACAGTATTATTAACAAGATTATACAAATAATCATGTGGAGATACTATTCTTTTTGTATATCCTATCAACCAGTTTCGTAGCAGGGATAATAGGGTCATTATTAGGACTTGGAGGGGGCATAATACTGGTACCTGCTTTAACAATATTATTCAACATACCAATACATGAGGCAATCGGAGTAAGTTTTATTGGAGTATTAGTAAATTCAAGTAGTTCTTCTTTAGTTTATATAAAAAATAGAATAACCGATATAGAATTAAGTTCATTTTTAGAGCTAGGTGTAGTTATTGGATCAATAACTGGTGCATATGTTGCATTATCAGTAAATAGTAACATATTGAGTATAATCTTTGGTATTGTATTAGGATATGTAGCAATTAATATGTATAAAAAAATTAGAAATAATAAAGAAAGCAATTATACAGAATTAAAATCAGAAGACAAAAGAGAATATTTTGAAGAGAGTACAAAAACAATAGTAACATACTCAATAACAAAAAAGAAAGAAGGAATAATATTAAGTTCAATAGGAGGAATATTTGCAGGATTATTAGGACTTGGTGGTGGTGCGATCTTTGTACCTATAATGAACAGAATAATGAATGTTCCAATAAAAGTGGCAATTGCAACAAGTAGTTTCATGATAGGAGTTACTTCATTAGTTGGTGCATTAATTTTTTTTAATAATGGGTTGATTAATATAGAAATTATTTCTCCAATAATTTTAGGAATATTTTTTGGGTCACAGATAGGTTCAAGAATAAATAAAGTAATTAATAAGAAATTACTAACAAATATTTTCATTGTAGTAATTATTTACATTGCATTGAGAATGATATTGAATGGATTAGAGGTTAATGTGATAAACATATGATTGTAAGAAATAATGAATTTGAAAAATTAATATTACTTGTAATAAAAACATTGTTATTCATATCAATAACCATATCGATAGTTGCAGTAATGATTGATCTGAGTTACATGAATCAATATATTAACAATACAATACTGAGTACAAAGTTACTAGGAATAAATTTTTTGCAATTTATTGTAGTTTTTACATTATTTATGATACCAATAAGTAGATTAGCAATAATGATAAGAGAATTCTCTAAATTGGATAAGTACATGAATGTAGTAACAGAATTGGTCGTACTGATTATAATATTAGTATTAGCGGCTAGAATAGTAATTTAGAGTATGTCAAGAGTGCCATATCGGCCAACATTTAACTTGACTTCTCCGCGAAAACTGTTCGTATAGCCATTACCAATTTTTAGTCGAGTACCAACCTGTACCTTTTCTATATCGTCGTTCCATAATGAGAGCGTAATTTCTGCTGTTTCATCCTTAATTTTAATATCTGCAACACGGGCTTCTGTACCAAAACGTGTATTAACGGTTCGTGTTTCGCCAACTTCAGTGACTTCAGCTTCAGGAATTTCAACATTTCTTGCGCCATCAGTTAATTCAGCAATGTTCATTTTCTAACAATATATGTATTTTCAATATTATTTTAACTTTAGTATTTTATTAGTAACGACTATACAATTGTAATAGAGGATGAATTTAGGATTATTAGAATATGGAGTAGTGATAATATCCTTCATTATTACATATATTTTAACAAAATTATTAATTTCTTTATTAATAGATTCAAAAAGAGAAGTTTTGGATTATCATAAAGAAGAAAAGAAGTATGTTGCATATCCGGGTGGACCTGCAATAATTTTAGGTCTTATATCATCTCTTCTAATAGCAATAATAATTACAAATGATACAAGAATTTTAGCAATACTTGGTGTAGTAATAATTTCTTCATTAATAGGAATATTTGATGATTTTAAATCACTTGGTGGTAGAAAAAAACCCCTGATGTTACTAATAGCTTCATTACCAATAATTATATTAGGAGCTTATGAACCAAATCTAGATTTTCTATTTTTTGGTGCTGCGAAATTATCGATAATTTATCCATTGTTAGTATTGATATCAATACCAGTTACAGCAAATACAATCAATACGATAGATGTATTAAATGGAGTATCAACAGGGTTTGTTATAATTACGTCCATTCCGTTGTTAATTTCATTGATATTAATAGGAGATAGTAACATGGTGCTAGTGACATTAATATTTATGTCAGTATGTTTGGCGTTTTTTATTTTTCATAGATATCCTTCAAAAGTATTCCCAGGTGATTCAGGTACATTAACAATAGGAGCAATGTATGGAGCAATTGCTATAGTTGGTGGAGTAGAATTAATCGGAGTGTTTGCCATATTACCAGCAATATTAAACTCATTTTTCTATTTGTCAAGTATGAAAGATTTTGTGGAACATAAGAATATCAAAGTAAGACCAACAAGAGTCCTATCAGATGGTACTATTGAAGCAGAAAGTAATGACAATGCTCCGATAACTCTAGTAAGGTTGATAGTGGCAGGAAATCCCTCAAAAGAATTATCAATAGTAAATACAATTTTTATTTTGAGTATAGTATCAGCTATACTTGCAACAGTAATGGGATTATTAACGTGGGCGATATAAATGAAGAACTTGATAGATTTAGTTTTAATAATAATCACGGCATTTCTATTGGTGTTTGTAGTATCAGCAATAATATTTACAGTAATAATACCGTTAAATAATCCATTTACATTTGAGTTTGGCGAGATATTAATTGTAATTATTAAACTAATAACAAGTTTTATTTTGTTTTTAATTTGGATTTTGATTATACAAAAAATAATTATGAGATATTTAGAAAAGAGATTAAAAGAAACAAACTAGTTCATTGAAGATATTTTAGAATCAATTTCAGTATAATCTGGTTCTTGGCCAGGATCATCAGCTATCCATTTGTATTGAATGATTCCAGATTTATCCACAATAAAGACTGATCGTTTTGCGACAGTATATCCGTCTAAACTAAAGAAATCTGAGAACTCGATATCAAATTGTTTAATTACTGTTTTATTATAATCACATAGAAGTAAGAAATTTATGTCATTTGTTGTAGAAAATTCTTTTACGCTAAATGGATAATCAACACTTATTCCAATTACTTCTGCATTCATATTAGAGAATTTAGACAAATCGTCACGAAAGTGACAAAGTTCAGTTTTACAAACTCCTGTAAATGCAGCTGGATAGAACACCAAAACGATGTTTTTACCTTTAAATTCAGATATATTGACAAATTTACCATCGGCATCAGGCAATTCAAAACTTGGTATAGTAGAACCGATATCAGTCATAATAAGTAGAGATTAAAACTAATATTTAGAACTTCCTTCCCAATCTTTCATTTTTTTATCGTATTGATCTCTAGAATAAACAATTTTTGCTGGCGAACCAACAACTACATTATTTGGTGGGATGTCCTTTGTGACTACAGAACCCATAGCGATAACACTAGATTTTCCTACAGTAATACCGGCTTTAATAACAGATCTAGCTCCAATTACGACGTTGTCTTCGATATTGACGCCAGCAAGTTTTGTACTAGGGGGATAGGGATCGTTAGTTAGTGTAGCAGAAGGTCCGATAAACACGTTATTACCAATAATACACTTAGGTGCAATGTAAACTAAACCTTCAATTTTAGAATTAGAACCAATTTTTACATCATAATCCACATGTGCAAGAGAACCAATCATTACATTATCACCAATCTCTGTATTATTACCAACATAAGCCATATTCCAAATTTTAATGTTATTACCAAGTTTTACTTTGTTTCCAATAAATGCAGTATCAGCAATAATATTATTGTCGTTACTCATGATGATTCACTATTGATTTTACCAATATTAAATGGCATGCTGTTTGATTTGATTGTATCAGGTATTTTATCAATCCATTTAGATAAAAAATTAGATTCATGAATTAGATCTCTTTGAATATCGGGAACCATAATTGGTATACCATTAATTATTGGATAATACCGAATACATTTAGTACAATAAAGAAGTCCAGATTTAATAATAAAATTATTTGTTTCGAATTCAATTAAATCGAGATTAGGAGATTTATCAGAAGGGCATATAAGAATATTTAGTAATTGTTTATTCATAATTGATCACAGATCTAGATAAATTGGAGAACCTCTTTTAGCAGATGTAATTGCAGCTTCTGCGATTTTAATAGTATTCAATCCATCTTGTCCAGTAACAACGGGTGAAGTATTAGATTCTACTGCATGAATAAAGCTTGTTAATTCATTTACTAATGGTTCTTCATATTTACGAGTAGGAATAGTAACAGAATTACCATCGTCAAGTCTGATTTCTTGTGACATATAATCACCTGATAAATTACCGTCAGTACAGGTAACCGATATTCGCCTAACCTTGTATGGAGTAACCCAATTAGCAATTATTATAGCAGTTTTTCCATTTTTAAAGCCAAGAATAATAGTAGCAAAATCCTCATATTCAGTACCAACAAAACCTGAAGCTTTAGGGTTTAAGACATTACCAGTTCGTGCGAATACGATATTAGGTTCTTCATTAAATAGCCATCTAGCGCCGTCAATATCATGAACAGAAGAATCCAAGATAACGCCAATATCCTTTGTTACACCGGCCCATCTATTTTCGCGTTGAAATTCTATTAACAGAGGATCGCCATAAGTTTGTTTTTTAAGATTTTTTTTAATATCAATAATGATAGGATTGAAACGCTCAACGAAACCGACTGTAAGAGCTGCATTATTTTCACGCGCAAGATTAACTAATTCTTCTCCTTGAGACGATGAATAAGTAAGAGGTTTTTCAACTAATGTAGATATTCCATTAGATAACGTTGTTTTAGCTATTTCAAAATGTGTAATTGTAGGAGTACAAATATTTACAATATCAACATCATGGTCATTAACGAGATCGTCAATATTAGAAAAACCCTTTATAGAGTATTTTTTTTCGTAAAATTTTCGACGTTCATCATTCATTTCAACAAATGAATCTAAATGACCTAAATCATTTAGAACACGGAGATGATGTTTTCCCCAAGATCCTGTACCGACAACTGCTGCTTTCAAGATAGATATTTCCTCTTAATAATTACCTAGTACATAATGTATTTGCGTGAATTAAAAACATATTGTCGTCTAAGTTTCTTTTGAATGATTTTAATATTTTTTCGTCGTTTTTTGAGCATATTATTAATAATTGTTTTTTATCGCTAGTAGGAAGATAATAACTTGCTTGTCCATTTTTGGTGGTGGTAAAATCGTTAATATCATTGATATTTCCAACTACATCATAAATTTTATCGATTATATTTTCGTGCATAATAGATTTATCTCCACGAATTTCAGATTTATCAATAGACCAACATAAATAAATTTCTGTTTTACTTGCTTTAAGTGAATTAGTTTTCATAAAAGATTTTAATTCATCAATAAAATATCGAGTAAAGGAATCTATACCTCGCATAATTCCAGACATCATATACAAAGATGGATCACCAGAATCTAATGATGATGTAAAACAACGTATATCAGATAAATGATTGGTAAGATCTTCGACATAGTAATTTTCGTTTATTATTAATTTACGTTTATCATAATCTTTAATTTTTTTTAATGATTCAGATTTAGCAACAATAGGTGAATATAAAGAAGAGATTTTTTCAAGATGAAATATTTCAGATAATTCTAAATCATATATTTGTGTAAATTTAATATTGGCATTTTTTGCGATATTTTGGACAATTTTTTTATTATCGAGATTATGAGTGCCAAATGTAATTGATTTAGTAGTTCTTGGTTCAAGAGGGGTGTAAGAATAAATGAAGTCACTTTGAGAATCGAGACCACTGCTACGTTCAATAATTTCAACCATTTCAGAATTTTGTCCATAACCTAATGGAATACAGTTAAAGAATATAGTGCCTTTAGAAAGTTCCGTAGAAAGTTCAGAAACAAGTGAAAAAATCTTTTTCTTATAATCATCATTTGTGCGGATTTTAGGTGCAAAGAAAATAATAGGGTTTTCACTAATTGCATTTTTTTCGGGTTGAATACTAAAAAGAGCTTCTTCTTCAATTATAGAGCTTGCAGTAGAGTATTCTGATAAGATTTGTGGGGTTATTTCAGTGGCAACATGTAATTTTTCGTCCAGAATTGTAGTAGAAATAGAGTTTGAAACAAGTGAATTAGATATCATATAACCTTCTGTACTCAGACCATAAACTAAAACAGAATTATTCGTCTCCAAGGTTATATTATACAAGGAATTTTTAGATTAATAAATTAGCAGAATGGGAGACTAACTGTAAACACGTTTAAAAAAAGTTATATCGAGGAAGTATGAAGATATACTACATTAAGACATGAGAGTTTGGATTGATATATTAACACCGAAACAAGCCTTATTTTTCGAGCCTCTAATTGAAGCTCTAAAAGAAAGAGGTGATGACGTAATAGTAACGTCACGTAGGTATAGAGAAGCTGAATTATTGTTAAGAAAAAGGCAGATAAATGCAGAATTTATTGGCAGTCATGGAGGGAAAGATTTGAGGAATAAATTAAGTGCGAGTTTAGAAAGAAGTGAACTTTTATTAGAATTATTTAAAGAAGATAAGCCAGATGCTTTAGTATCTTTTAGTTCGCCAGAAGCAGGAAGAGTTGCATTTGGATTAGGAATAATTAACATATGTGTTAGTGATTCGCCACATGCAGAAGCAGTTTCTAGATTAACAATTCCATTAGCAGATTGTTTATTAACTCCATGGATAGTTCCAGAAAAATCTTGGACTATATACGGAATCGAAAGAAGTAAGATAGAATCATATAAAGCATTAGATCCATTTGTTTGGTTGTCTAGAAGAGATTTAACAGAGAGATCTCAATTAGGACTTAATATCGATAAATCGAAGACTACAATATCATTAAGATTAGAAGAAAGTTTTGCAGCTTATATGAAAAATGAACAATACACACAAGAATTTGCATTAATTCAAAGATTAATTGAGGAATTTAGAAATCAGAATATTGTCATATTGTGTAGATATTCGGAACAAATTGATGCTGTATTAAAAAAATTCAAAGGAAGAGTAGTTGTACCAAATGATGTAGTAGATGGAATTGCACTGTTACAACAATCTGATTTATTTATTGGATTAGGAGGAACAATGACAGCTGAAGCTTCATTATTAGGTACGCCGGCAATATCATTCTTCAGTGGTAGTTATTTTGTAGAAAGGTATTTAGTTTCAAAAGGTCTTTTAACTAAACCAAGGGATATTGATGGAGTAATTAGAGTATCAAAGAATTTCTTAAGAGATCCAAAAATGAAAAAACAGATTAAAATGCGAGCAGGAAGAATTAGAGCAGGAATGGAAGACCCAATTCAAGTTATTATAAATAAATTAGATGTCCTAATGAGGGAAAAACTTAATCAAGAACTATCACGAAATTGATACTATGCCCGGTTTAGCCCGGTGGAGGATGTAAATCTATCGAGTGTAGCGGTCAAGCATATCGCCCTTTGGAGAATGAAGAAAGGCGGTGACGGCAGTTCGAATCTGCCCCGGGCTATCATTATAAGACTTCGCCGATAAGGTAGGTAGATTGCGCTTCAATAATTTTTACTTTGTAATTATTACCTAAAACAACATCAGAAGTTTTTAGAACAATAGGTCGATAAGCGAAGTTTCTACCAATCATTGTTCCGTCAATTTTACCTTTTTCATTGATAAGACAATTCCCTGTCCAATCAATCCATTTTTTATTACGTTCTAATGAGATTTCTTTGATTAGTGATGATAAGAATTTGGAACGATTATTAATTATGGAATTAGGAACTTGTTCCATTTCTATGGCCTTAGTGCCAGGGCGTGCACCATATTTGGAGAGATTAACAACATCAGGTTGAGTAGACTTTATTAGCTCAACTGTATCATCAAATTCGTCGTCGGTTTCAGTAGGATAACCAACAATTATATCAGTAGCAATTGATGATAAGGGAAATTTTTCACGAAAACTTGAACACATCTCAATATAATCTTCTCGAGAATGACCTCGGAGCATAGATTTTAGAACGCGGTTATTTCCTGATTGAACGGGAATATGTAAAAATTTATAGATTTTGTCATGTGAAAAAATATTAAATAATTTATTAAATTTCTTTTTTGTGTGCATTGGATTCATCATTCCAACACGAATAAGGAAATTATTTGGAATATCAACAATAGACTCTAACAAATCAGTAAGATCCATTGACATATCCATTCCGTAACATCCATTATCGGTAGAAGTCAACCAGACTTCCTTACATCCAGAATTAGTAGATTCTTGAATTTGTTCCACTATACTGCTAGGAGGATAACTAATCAATGTGCCTTTTGCAATTTTGACCTGACAAAATGTACAAGAACTTAAACACCCAGTTCCAATTTCTACAATATCGATTACTGGATTGATTCTAATTTTTGGAAGTAGTACTTTAGGTTTAGAGGATTTTCCTAATTCGATTAGCTGGTTTCCATTAAGAGTAGAATTAACGATATTAGTAATTTGATCAATTGAATCAGGACCCATCATACTAGCTTTTGGATTAATTTTTTGTATTTCTTTAGCCTGTGTTTTTGGCATACAACCTGCAACAACCAAAGCAGAATTAGTTTCAGAGAGTTTTTTTATCCTATGAGACATACGATTAGCAGTAGCAGTTTTTACAGTACAAGTAACAATAACATTAACATCAGAATCTTCTGGATTATCAACAATTGAATAACCGGCTTCAGATAACTGACCTGCACAGATTTCTGAATCAGAAAAGCTAGCACTACAACCGTAAGTTTCAATATATACTTTTGAGCCAGTTGACATAACTATAGTTAGTTATGTTTTGCTATTAAAGGAATAATCTTAATCATTTTTCGTGGTTCGGTAGAATTTTTCCCAGGAAATTTAGGAATTCCTAGATATTTTTGAGACATTTTATCGATATGAGTTTCAGCTTCAGAGTCGGAAAGTTCAACAACTTCACCAATAATAGAAGCCCAAATGTATGGGTCTTTATAATCAGTAATACTCAGAGAAACACGTTTATCATTTTTTACATTTTTGTATTTAAGACGAGTTGAAGTTGTATTGACAATAATAGTATCACCGTCTCTATCAATCCAAACAGGTGCAACATGAGGACTGCCATCCTTATTTAGAGTAGCAAAGTGTGCAATATTTTTATCATCAATTAATTCACATATTTTTTCCGGTAATTTAATACCCATTTATTATTCGCCAATTACAAAACTGTAAAATAATTTTATAAAGTTTCCGATAATCAATTTAATAGAACAATAAATATGGAATAAGAGAAAGAAAAACAGGTATAGGTAATCCTGGAAACATTTCAAAATGTTTGAGAAGATATATAGTTAAAATCATACCCATATGAATAAAAAATATACTAAGTAATGCAAATGGTAAACCAATTAATAAGAAGACAGATGAAGGAATCATAGAATAAAAAATCAAATCACCGGTACCTATATTAAAACGACCAAGATTAATGAATAATGGACGAAGATCGATAGAATCATCAGATGAATCAATAATAGATTTTAACGGACCACGAAATACAGCATAAATATCATAAAATGCAAATGCAATTGGAATAATTATTAGAGTAGGGGGTTTAATGAATACTGCTAGCATAGTTCCATAAAGCGAACTTAGAACGTATGAAGAGAGTAATTGAAATTTATTGGATTTTATAAGAGTGAATGAAAGAAGTGGAATTATACAAAGAAATAAAGAAAAAATTAATATGAAAATATTAGAGAATAACGAATTCAAACTAACAGTAAGAATAATGTAACTTATTGAAAAAGTTCCTATGCTTACTGCCAGCATAAGGAAAGATTTCAATAGTAGAAATAATTTACGACGTAAAAGGAATAGAATTATAGATGTGATAAAAAAGGTGGGTAAGATAAGAATGATTGAATTTAGAATTGAACCTGAAAGGGTATTTCCGGCAGGTTGATAAGATGGAAGATATTCATATAGTTCGAGAAAATTATTAGTCAGTAGTAAAGAAGTGATTTGAATAATAAATACAAAAAGAATAATTGAAAATATGTCTTTAATAGAAAAAAAATCATCATTCATGATATTAACGTACAATTAATTGTCCGCGATGAGTAGAATGACCCTCTCCACAAAATATATTACAAAAAATTTCGAATACGCCAGCTTCTGTTGCAACAAAGGATATATCAACAGTTTGCCCTGCAGGAACAAAAGTGTAAATATTATATTCAGTAATAGCAAAACCATGAGGAACATCAGTACTAACAAGTCTAATAGTAACAATTTGTCCTTGTTCAACAATTAATTGATTGGGTTCGAATTCCCATTGTTTAGTAGTCATTTCAAATATAATTTCGTCAGAATTCTGTTGATATTCGGGAAGAAACTGTATTATGATAACTAGGCCAACAAGCATAAACAATAATAATAGTTCTTTTTGATAAGAGAATTTCATTTTTATATTGAATGTAGAAGTCCGGCCATATAAATTAACACAAATCCCAACATAATGAAAAGAATGTCGTAAATATTTTTAGTTTTAATTTGATTATTATTAATATAATCAATAATAACAAATAGAAAAGCTCCAGAACTAATTGCAAAGAAAACAGAGCTAAGAATTCCTGGTAGTCCATATAGACCAAAGATTGAACCTAAAATTATTGGAAATCCACTAATCAATGTAAATAGAACTATAGAACTTAATGAGAGGAAATAGAATAAGGGGATAAGAAAGCCTTCAGCTAATTTATGTATAACGAACGATGTTGTTTGTATTCCTCTAGGTAATGAAACAGATATACCAAGATTATTAATATCATAACCAATAATTATTCCCTCAGCAAAACTGTGAAAAGAAAAACTAAGAGCTAATAATAGTACACCGTTATAAGAAAAATTTGAATTAAGTGAGGATAAAAGAAATATAAAAATAAAGCCAAAAATGAAACAAGATAATAAAGTAATAGAATAGATATTCATACCTAAATTAACACCCAACTGTGAGGAATTTACAATAAAATCAACAAATAGTGCAAGCATAATTCCAAGTGAAATGTTTTTTAAAACAGATTGTGAAGTATTGCTTTCTAATTTATATTTATTCATTAAGACACGAAAGAACATTCCAATAAAAGTTGGAATAATTCCAATTGTAATTACAATAATAACTAAACTTAAGGGATCAGTCATCAGATAATATTAGAATTTGAATATTCTTAAGGATGTCTACGCTGAAGTTTGCGTTTCAAAGGATTACCGCAATTTTCACAGATTGTATCAGTAGATTGATATACGCGATTACAGGCAGAACAAATAAGAATCCATTGCCCTGAATATTTGATTCCAGAATATAATAAAGGACTGTATAAAATTTTAAGTTTTTTAGCTACATTTTGAATTGCAAAATCATCTGTAAGAATAGTAACTGAAGAATATTGTTCAATAAAGTCTTTTGCTAATGCAAGAATCGATACATCGGCCTCAGATAATGATTTTTTATTCTCAATATTGAGAGATTGTTTTAGAATAGATTTTATAGAATCAGAACTTGGAGTAATAATCTTAAGTCTATTTGAATTGATCAGGGTTTCAATTCTATTATTAAAGAAAGGAACACGACGAAGTTCATCGCTTATACTAGGAGTAGTGTAATATTCCTCTAAGGATCTAAAGGGTAAACCTGCATAGAATGCAGTAGAATCAATAATAATTTTAGAATCCAAGACTAGTTAACTGCCTTAAAGTAGAATTAGAGAATCTAATAAATATAGTATCTGGAACTTTTGTATTAATAATAATTTTTTCCAGTGATGGAACTGTAAATTCTACTTGTCCGTCAATAATAACTTTGGTGCTACTATGTGCTTGTAGAGAAAAATTAGTAAATGGAATTGCAATAGGGGGAACTCGAGAGATTGGTGCAATAGGAGTAATCAAAAGAGCAGATAAATTTTCACTAAGCATAGATGAACCTAAAGACATAGAATGACCTGTAGAACCAGTAGGAGTTGAGATAATTAATCCGTCCATACGATTTTTAAGAACAGTAGAAGGAAGATTTATTTCATAAGTTACTGCTCGAAGTTTATCAAATCTTTCAATATAGACTTCATTAAGACTTTTAATCTCAGTGTTAGATTGTGAAGAAACAGATATACGTTTTCTTCGATCAAGAAAATAATGATTATTATTTATTTGTTTAATTAGTATTGGAAGTTCATTAGGCTTTAATTCAGTTAGAATTCCTTTACCGCCTTTATGTATACCAAGAATTGGGATTTGTTTTTTTAATAGTCGAGCAGTTTTAAGGATAGTTCCATCACCGCCTACAGAAATAAGACAATCTACGTTAAGATTTTTATCAGTAATAGAAATTGTTGGAAAAATAGAAGAAGTTAAGGGAGAAATAAGTTTGATTTTAAATCCTGCATCATAAAGGCGTTTTGCTATAGTTATAGCAGTATTTTTAGCAGTACTGCTAGAATCTTTTGAAGTGATGGCAAACGAGCTAATCTTTCTTAATTTCAACTATATCATCTATATTTTAGTGAGAATTGTTATATATCTTGTCTATTATTGAGCATGTTAGATATGAGTAAACCTGCATCTCTGAGTGACGTAAAAATTGGCTCATATATCATTATCGATGGAGAGCCTTGTAGAATAATTGAATATGATAAATCAAAACCTGGTAAACATGGTTCTGCAAAAGCCAGAGTAGTAGCTACTGGAGTATTTGATGGTTCTAAACATAGTATGGTTTCTCCTGTATCAGCAGGAATAGAGATTCCTATGATTGAAAAACGAACGGGTCAAGTAATTTCGATAAACAAAGAACAAGAAATTATTCAGCTTATGGATATGGAAACATTTGAAACTTTTGATTCGCCTCCTCCAAGTCATGATCAAGAAGTCAATAATAAACTAGCTGAAGGTGATGAAGTAGAATATTGGAAAGTATTAGGCAAAACAAAGATAATGAGAATAAGATAAACTTAGAAAAATTTTCGTTTTGAAATATTATTACCAAATTCTGTAGATAATTCTTCAATTAACTTGCGTTGTTTGGAATTTAATTTCTTTGGAACATTAACAGTAATTCGAACGAGCAAGTCGCCAGTGCCAAATCCATTGATACGAGGAAAACCCTTTCCTTTTAATTTAAAAACAGTATTATTTTGAGTGCCATTCGGAATTTTTAGTTTAGCTTTTTTATCTAGGGTGGGAACAGATATATCTCCTCCAAGTACTGCAATTGGATAATCAATATTTGTTTC
>sequence09
CGGCTGGTGCTTCGGCTGGTGCTTCGGAAGATATAGTATTGGTTGCATCTTTTGATTTATGTGTAAGATGTTTGAATTCTGGTAAATATTTTTCAGGTAATGCGATAAATACTTTGATGCCAACTAGTCCAACTTTTAATAATGATTCACAAGATGCAACATCAACAGATTGTGATGCAGTAAAACCTGCTTTAGGAACAACTCCTGATTTAAATTTTTCAAAACTTGCTCGATCACTACGCATTTTTCCAGCAACTTGTATTTCTACACCACGAGCGCCATTATTCATAATCATTCTCATTGTCCAATTAGCAGCACGTCGTATTGGTTGACCACGTTGTACAGAAGATGCAAGTCGACTAGCCATAATCTGTGCATTAAGCTCTGGAATTTTAACTTCAGTAACAGAAATTTGGGGATTTGTTATATTAAATTTTGTTTCAAGTGCTTCAGTAAGTGAACGTATACCAGAACCACGTCGTCCAATGACAAGTCCAGGTTTATTTACAAATAAATTTAAAGTTGTTCCAACAGGTGTTTTGACAATATCAACGCCAGAATAACCAGAGTCTTGTAATTGAGCCTTTAGAAAATCATTTAGTGCAGTTAAACTAGAATTCTTTGCTAATACTTTTTTTATCATAGAAGTTTGAGATTTTTCCATTCATTAATCAACCTGCAATTATTTCGATATGAACCAATTCATGCATCATTGGTGAACTACGTCCCATCGCTCGAGGTATATAACCAGGTATTGTACGAGCTCGGTGTGTAGCAGCATGTATAATACGGAGATTAGAAATATCTAGACCTTTGAAATCAGCATTAGATTCAACTTCATTTAAAATTAAAGATATATGTTTAGCAACTTTAACTGGATATCGACCTGCATGGAATTTATCAGTTGAACGTCGATGAGCAACTTCTTTTTTATGTCTACGAAAAGGAATTGATTTATTCATAACTATGACATCTTCAAGTAAATTAATAGCGTCCGACAGTTTTTTTCCTTTAATAGTATTACAAACTTCACGAGCGGCCTTAGGGCTCATATTGATCTCTCGACCAGCAGCACGTGCATGGACAACTGGATCGTATTCTTTGAAACTGTATCCAAATTTTGGCATTTTACTATCTTAAACCTCGACTATAGAATTTACAAATCTGTTAATGAAAATATAAGTTTTTGCAATTTTAAAAACCTATTTCAGTGGCACATAGAGACTTGATTTAGAAGCACCAATTCCAGGTGTTCCGTGTTGTACTTTTTTATTGGTAATAGCATATTCGCCAAGATAATGACCAATCATTGATGGTTTGACTTCAACAGGAACAAATTCTTTTCCTGTATATACGTGAATAGTTAATCCTAACATCTTTGGAAGAAGAATTAGATCACGAGAATGAGTACGTATAGGTTGATCAGAAGAGTTATTATTAATATTATCAACCTGAGATAAGATCTTCTTTTTATTATCAGATAATCCGCGAGTTAATGAACGTCTTTGACGTGATGGAACAAGTTTTAAGAATTCTTCTAATGACATACTTTGTAGTTCTTTCATTGAATGACCTCGATATTTAAATTCTTTAGCCATAACTAGACCTCCGCAATCCTTGATTTTCTTCTTGTTCGGCCAGGACCAGTTTTGCTAGCGGCAATTGAACCAACTTTACGTCCAGGTGGTGCATTTCTAGAAGTTGATGTACTTTGATGTGGACTTTGATGTCTACCACCACCAAATGGGTGGTAATGAGATCCCATAGCTACTCCACGAACTTTAGGATGTAAAATACCATAAGCTTTAGCATAATGTGCTTTGTTACCTGCTTTTAAGAATGGTTTTTCTTTAAATCCAGCAGCGGCCATTGCACCAATAGTAGCACGGCAGTTTTGTTGAATAATAATACTTTTTCCAGAACGTAAACGAACAATAGAACCTGCGGCAGTTTTACTATAAAGAAGTGCAGAAGTACCAGCACTTTTTGCAATTTTTCCGCCGTCGCCATAGAGTTTTTCAATATTACAAATAGAAGTTCCTTCAGGAATAGCACTAATTGGAAGAATATTGCCATCTTGAATTTCAGAATCGGAACCAATAGAGATTTCTTGATTAACTTTAAGACCATTAACTGCAGGAAGATAAGATGTTTTATTATTAAATACAATTTTAGCAAGAGGAACAGAGCGTCCACGTTCATGTAGTAAGTCTTTAACTATACCAGTAGTAGTATTGTTTGAATCAATAAATGGATAAGAGGCAGGTGCAATTTTACCTTTATTATGACTTCGATAACGCATTCCTCCGTCGCCACGACGTTGAACAAGAATTCTTTTACCCATATTACATGACACCTAATTTTGTAGCTAAATCCAATGCTGACTCATCATCGCCGAAAGTTACAAAGGCTTTTTTGCCTTGGATAGTTTGAGTGGTATTAATTGCTTTCACTTTGACCTCGTATAGAATACTAAGAGCTTGTTTTATAGTGTTTTTAGTAGCATCATTACTAACAAGAAATACTAATTTGTTCTCTTTTTCAATACGATCAAATGTATTTTCAGTTACATATGGTCGAAGAATTATAGAAGCAGCTTGATCAGGACGCATTAATTTCCACCGCTTTTAGGATATTACTAGAGAGATTAGAGAATGAATTTTTTGTCCATATAACAAGTCGTCCTGCGTCAGTTCCAGGAGCCAAATCTGAAACATTGAGGTTTTTTGCTTCAACTAAATCAACACCTAATAGATTTTTACAAGAATCTCCAATTCCGAGATCCTGAGAACAAACAATTAAGGGTCCTTTTTTAATTTTTCTCGAACGACCACGTAATCGAGATTTTCCTGAACGAAGACGTACTTGAGATAAACGTTCAAGTTCGTCAGAGAGACCAAGATTCGTCAAGGTAATACGAATATCCTTAGTTCTATTCATTGATTCGAGGTCGTCAACAACAACTAAGGGAAGATTAACTAAATTATCAATTTTATGACCGCGATTAATAACAAAGTCACGATTCATAGAAGCAGAAATAGCAGACATGAGAGCAGATGTCTTTTCTTTTTTGTTTAATTTGTGATAGATATTTTTTGAACTAACAGGTGGATGTGGAGTTCTTCCTCCTGTAACACCGGCAACTCCTGCGGCACTACCTGCCCTCGGACCGCTATGAGATTTAATACGTCCGATTCTAGAGATACCTCTTCCTGTGTTCCAAGATTCACTACTACTTCGTTCGCCAGCGAGAGGATCCGTACCTTTAGGAAGTCTATTATGAGATTGTATAGCAAGAACTGCTCTTTTAATTAACCTAGGGTTATATGGAGTTGAAAAAACTAAAGGAATTTGGATTTTTTCTACTTCTTTGCCATCTAAATTATAAACAGGTAACATCATTCTAATTCGCCTTTCTGAGTACTGATTTTCAGAACTTTAGGAACGTCGGATTTAGTAGTTTTTGATCGAATAGGATATCTAAGTACAACAGGACGTTTAATAGGACCTGGTAATGAACCTTTAACTATAACATAATCTTCAGGAACTAATCCAAAATGTGTGAAACCACCATTAGGATTAACACTTTGTTCTTTTTCATTTGCAATATAAAGAATTTTCTTGTTAAATTCAGTTCGTTGATGAAAACCCATTTGACCAGCACGGGGAACTGTATACATAATATTTTGAGGGCTCCAAGCACCAACAGTACCAACTTCTCGAACTGTCTTTCTAGATTTATGTTGTTTCTTTTTTATACCAAATCTTTTTACAGGTCCTTGCCATCCTTTACCTTTTGTAACTCCAAGTGCATCTACTAACATTCCTGGTTTCATGATATCAGAAACATTAATATTTTTTCCTAAATTGTCATTAAGATAATTAAATTGACTTTCTAAATCAACACCACCAATTCCTATTTCAAATAAATATGGTTTAATTTGAGACAAACCAGCCTGTTTAGGAGTCACAGAAACAATAGCAAAAACTTTATCTAATGATTCAAGGTTGTCTTTAATTTTAATGAGGTTAGAATCAGAATCAGATTTTAATTTTTGTTTTCTAGATAATTCTTTAGGAAGTTGAGTAGTATAGGATTCACTAAAAACTGAGAGGCCATCGATACTATTTTGATATGCACGTAAACCAACAATAGTCATTGGAGCGCAAGACAAAACAGTCGCATGATTAAAAATAGGTTTTCCAAATGTAGGAGATTTATCAACATTATCGATAGTTAAGACATTGATAGAACCGACTTTAAATCCCATGAAACCAAGAAGAGTAGGTTCTTCTGATTTAACATTAGGCCAGTTTCGAATTCTTGCATTTAGAGTACCATGTCTACCTCTTGGTCTAAATGCCAAGGAACCTCGTCTTGGAGCTGAATGTTTTCTACCCAAATTGAATCACGTTGATTAGAATAAAATAACCTTGAATTGATTTTTAAGCATTGTGATTTTAGATCCTATAATTTAGAATTATTAAATTAATTTCCAGATATAATGACCCGAATAACCTCCAACTCTAGTGATAAGGTTCTTTGATTCGAGATCATGTAGAAATTGATTAGCAATTGAAGCATTGATGTTTAATATTCTAGTAGTTTCGTATAAAGTAATAGCTTTAGTTCCGCCAAAGAGTTCTTTGAGTTTTGTTTCGTCGACATTAGGCATAGATAACCCATGATTAACATCTTCTATCGATCTTTCCTTTGGTTTGTTACTAGATTTAGTATCAGAAGTCGCCTTTGGTTTGTTCCAGCTTGACTTAGTATCTTTTTTTGTCTCTGACATGTACAATATATCTAAAAACATAGTAAGATAAACTTTACCACGATTAAAAAAGACTAGATTAATAATATTTAGAGTTATTGAGTAAGTGTGGATTATAACATAGTTGCACAAGCATATGAAAACATGGAAAAAACTCGGAAAAGATTAGAGCTTTTAGAGATTCTATCATCATTGTTAAAAAAGACACCTTTGAATGCATTAGAAATTGTAATATACCTAACACAAGGTAAAATAAAACCAGATTTTTACGGAATAGAATTAGGAATGTCAGATAAATTAGTAATAAAAGTATTAGAAAAGTCTACATCAATGACCAGAGATAGAATACAGGAAGAATATAAAAAAACTGGAGATTTAGGGGAAGTTACAAGAATTGCATTGTCGAATAAGGTACAAACCACATTAGTAAAGAATGAATTAACCGTAGAGCGAGTTTATAAAACATTTGAAGAAATTGCGAATACCACAGGTCATGGATCAGTTGATATGAAAATTGCACATTTATCAGGATTATTATCAGATTGTACACCACTTGAAGGAAAATATATTATAAGAACACTTACAGGATTACTAAGATTAGGAATAGCAGATTACACAGTTTTAGATGCGTTAGCTGTAACTTATACGGATAATAAAAGTAATAGAAAATATTTAGAAAGAACATATAATATTTCAAGCGATCTTGGAAGAGTAGCAAAAATAGTTGCAGAAAATGGATTGAAAGGACTAGAAGAAATCGACATAGTAGTAGGTAATCCAATTAGACCAATGCTCGCAGAGAGATTGAGTTCGTCACAAGAGATTGTAAAGAAAGTTAAAGAAAAAATGAGTTTAGAATATAAACTAGATGGAGAAAGATTACAAATTCATGTGAATAAAAAACAAGTAAGTATTTTTTCAAGAAAATTAGAGAATATAACAAATCATTATCCTGATGTATCAACAATAATAAGTGAAATTGATGTAGACAATATGATATTAGAAGCAGAAGCAGTAGCAATTGATAAAGAAAATGGATCATATTTACCGTTTCAAGAACTTATGCATAGAAGAAGAAAACATAAAATTGAAGAGGCAGTTAAAAATTATCCAATATCAATTAATCTATTTGATATAATATTTTTGAATAACAAAGATTTGACAAATTTGAGTTATGAACATAGAAGAAAAATTTTAAACGAAATAGTAGATAAGAATACGAAATTAATGATTGTAAAGAATAAAATAACACAATATGCTGAAGAAATAGATGACTTTCTTGAACTTGCGATAGAAGAAGGTTGCGAAGGATTAGTTATCAAAGATCTACAAGGAGTTTATAGAGCAGGAGCGAGAGAATATCTATGGATTAAATTAAAAAGAGAATATAAATCGGAGATGTCCGATACTTTAGATCTAGTAGTTATTGGGGCAATATATGGAAAAGGAAAAAGAGCAAATAAATATGGAGCTTTACTATTAGCGGTTTATGACAAAAATCAAGATATGTTTAGAAGTTTTTGTAAAGTAGGAACAGGATTTTCAGATGAACAATTGAAGATAATATATGATAAACTTCAGAGAAGTATAATAAACAATAAACATGCAATGGTTGATTCAAGGATGGATGTAGATGTATGGTTTGAGCCGAACTTAGTATTAGAAATAACGGGTTCAGAAATAACAATAAGTCCAATTCATACATCAAATATGAATGAAATAAGAAAGAATTTTGGTCTGGCATTAAGATTTCCTATATTTACAGGTAGAATAAGAGAAGATAAAAAAGCTCAAGATGTTACAACTACCAAGGAAATAATGAATGAGTACGAAAAACAGTTAAAAAAAGTAAAGAATTAGATTAAGGTTTTTTAGTTTGTATACCCTTGATAATTGGTATGTTTTCTGGGGGTTCTGAAGATAAGGCAAGAGGAAAAACTCAAGCAGTTTTACTTGATGAAACAAGAAAAGTATTAGATTCATCAAGAGAATTAGTAAATGTATTTAATGCAGTAATTCTAAATGATGAAAAGAAGATTCTGAATTCAATTAAAAAAATAGGTGAAGCAGAAGATGAAGTAGAGAGTTATAGAAGAGCATTAACAAGAGAATTAGCAGAAGTTGGAAGCTTATTAATGAATAGAGAAGATTTGTTAAAAACGGCATATGAGATCGAAGAAATAGCAGGATATACTAGTGGTGTGGCTTTTAGAATGTCAATTGTAGATAGTAAATCTTTAAAGAAATCTTCAATCAAAAAAGAATTTGAAGAATTGCTAAACATGATTATCGAGTTAGTACACAAGTTGAATGAAATGGTAAGGTCGCTTGCAGTTAATCCAGATAATGTAATTCAAATTGCAAATGAGTTACAAAAGATTGAAAGAGAAACTGATGTAAAATATAGGAATCTTGTTAAAATAATAATGAAAGAAATTAAAGAGGCAAAAGATGCAATGTTATTAAAAGATGCCGCAGAGCACATAGAAGAAATGGCAGACAGATGTTCAGCAGCTGCAGATTCAATAACAATAATTGCGATTGGATTATAAAATGCCTGATAAGTTGTTTAAGGGAGAATTAGTAGAAAATAGAATAGTAATTTGGGACATCGAAGATTCAAAAAAGATATTTGGAAATGGTTATTTTGGTAAACCATTAGGAGTACCTAAGCCTAAAGGAACAGATTTTGATGCTCCTTTAATTCTTGATTTAATTGAAGGATATCATTTGGTTGAAGAGAAAAAACTTACAATTAGAGATTCAGTCTCAGGAAAAATAATTTCGAAGAAGAAATTAATAGAAAAATGTAAGAATGAATATGTTTTATTTAAAGAGAAATTCCTTGTTTACAAGGAATTAAGATCTAGAGGATATATAGTTACACCAGGAATAAAATTTGGAAGTGATTTCGCAGTATATGAACGGGGACCAGGAATTGACCATGCTCCATATATTATTCAAGTAATGTTACCCCAATCAAATCTTACGGCAACAGGGATTGTATTAGCAGGACGTTTAGCTACAACTGTAAAAAAGAAGTTTCTAATTGCTGTTGTGAAAGACAGTAATGAAGAAGTTGAATTTTTATCTTTTGAATGGTGGAGAGCTTAGTCTTATTTTTATATTATAAGGAATATCGCAGAATACATGAAAGATAATCTTGTCGAAGAGAATGATTATGTATTATTCTATTTAACGCCAAGAAAGAAATGGCTAATTCAAGTTACACCAGAGAAACAAATACATACTCATGCAGGATTCATAGAAGCTAAAGATGTAATTGGAAAAGAATATGGACAATCTGTGATAACCAATACAAACAATGAAATATACCTATTATATCCTCGATTAAATGATTATATTTTTAAATCAAAACGTGCAACACAAATACTTTATCCAAAAGATATGGCCATAATTGCTAGTTGGACGGACTTAAGTCATGGGAAGAATGTAATAGAAGCAGGAACTGGAAGTGGTTCATTAAGTTGTGTTATTGCAAATTTGATTCGTCCTGATGGTCATTTATACACATATGATATTAGAGAAGAGTCACATGAAATTGCAAAAAAGAATATTGAAAAAGCAGGATTATCAGAATTTGTTACATTAAAAAATAAAGATGCAAAATTAGGTTTAGAAGAAAGAAACATGGATGTAGCAATATTAGATTTAGGAGATCCTTGGACTCTTGTAAAATCAATGAAAGATAGTCTCAGACCAGGAGGTACTTTGGCATCAGTATCACCAACAATCAATCAAGTTGAGAAATTAGTTATTGAATTACAGAATGAAGGGTTCATAGAGATAGAAACATTAGAAATTTTAATGAGAGAAATGGAAGTGAGAGAAGGAAAAACAAGACCGGCTATGAGAATGATTGGTCATACCACATATCTAACGTTTGCGAGGAAAAGTTTAGATACAGTTAAAGTTTCAATTGTAAGGAGAGAAGAAGATGAAAACTGATACAGTAGAAGATATTTCGTTTTTACTTTACCTAGCGCCAGTTGTATTTTATGGAGTTAATACTGTATTAGATTTGATGGTTGTTGGATTAACATTCCAAGAGAGTTTCTTATCAGTTACAAGAAATCCAATTTGGTTAATTGGATCTTTAGTAGCAATTAGTTTAGCGTTAATTTTACATCTTAGAGAGACAAATGAAAATGATAGAAATAGTATAGTAGTCATGCATTCAAAAAGAATGAGAATGATTGGCATTGTGGTTTTATTAATATCATTAGGAGAGGCAATAATGGTATCGGATGCTGAGTCAAATGCACTAGGGTTGTTTATAACGGGAAGACTTCCAATTCTATTCACTGCAGTGATGTTTTTACAATCGGCATTTATACAAATTCCTTTTTCAGCGAAACCAGATAATAAAAAATTTACAATGAGTGTTATTTCATCGATATTAATACTATCTAGTCCTGCAGTATATTATTTGACAGATTTTGTAGGATTGCCATTTGTTGTGAATTTGACGGCTTCAATAGCATTAATAATATTTGGCTCGTTATTATTTACCAGAAGCTAGAATAATTTTTTATAGAGTTCTTCTATATTTTTTATAGAGTAAGTCGGTTTATCACTATCTTGAATAGAATCTAAATTAACAAGATTATCATTAGTTGTTAAGATACTGGTAATATTTAATGAATTAGCACCTCGTATGTCAGAAGTAAGATTATCGCCAATCATAACTGCTTCGTCAGCAGTTACATTGAGATCAGATAATACTTGATTAAAAATTTCAGGATAAGGTTTTCCGATATAACGAATTGATTTGCCTGTAGCATGACTAATAGCTTGGGCAATTGCAGATTCTCCTAAGAAGTAACCAGTTTCAGAATTATGTGTTCCTTTAAAATACTGAGTAGTTCCTGAACAGATCAATTCAGCACCATTGAGGACAAGACGCATTGCATGATTTAATTCTCTATATGTCAAATTACGATTAGCGCCAACAACTACAATATTGGCATCGTTATTAGAAAGATAAATACCTGCATCTTCAAGATCTTTTTTAAGACCCCATTCGCTTATGACAAAACAATGTGGGTTGTCATAATTTTCTTTTATGATTGATGTAGTAGTAGAACCAGATGTATACAATTCATTTGGTTTGATTGTAAGATTCATAGATTGTAATTTATTAAGTACTACTGCTTTAGGATTTCTAGAAATATTTGTCACTATTGCAATTTTAATATTATTTAATTGTAATTTAGAAATAAATTCTTCGACAAGAGGAAGAGAAATTTCTTTATCTATACTTTCACAAATAACACCTTCGATATCCAGTAGAAAAGCTCGTTTATTTAACAAATCATCCATAATATATCATAAATAAACGTACAATTATCTTTTATTCGAGTGAAGACAATTCAATTCATAATATGAGTTACAAATCACTGGATGAATTGTCAAAAGATGTTTTAAAATGTAAAAAATGTGAATTATATAAAACAAGGAATAAAGCTGTTCCAGGGACAGGGAAAAAAAGTAATACAACAATTTTTATTGGCGAAGCACCTGGAGCGGAAGAAGATATGAAAGGTATTCCATTTTGCGGTAGGGGAGGAAAATTATTAAGAAATAGCATAAAAGAAATTGGTCTTAAAGAAAGTGATGTATATATAACAAATCTAGTTAAATGTAGGCCGCCAAATAATCGTAAGCCATCTAAAAATGAAATAGAATCATGTAATAAGTATTTACAAGAAGAAATTAGAATAATTAAACCAAAGATAACAGTTCTACTTGGTAAAACTGCAATAAAGAATCAACATGAAGATGTATTATTAAAAGAACAGCATGGAAAGATAATAGGCAAAGAAGGGAATAAGTATCTTTTAACATATCATCCAGCAGCAATATTAAGAAACCAGACAAAAATTAGTACTTTCATCAATGATTTAAAATCAATAATGAAATTTCATAAAAAGAAGTGATGATCAGATATGAAAACAGTTCTTCAAAAAATGAAAAAGATGGTTGAAAATAAACAAACTAAGAAATTAACTATGTTGGGTGAAATAGAAAAAGAAGGTAGTCCATTCAAGGTATTAATATCAACTATATTATCTTCTAGAACAAAGGATGATACAACATTTGGAGCATCTAATCGTTTATTTAATAAATATAAAAATCCTGAAGAACTTTCTAAAGCAAAAACAGTAGATATTAAGAGATTAATTAAACCGGTAGCATTTTATAAAACTAAATCAAAAAAGATAAAACAAGTAGCAGAAATTATTCACAAAGAATATAATGATGATGTTCCAATTGAGATGGAGGAATTATTAGACTTACCGCTAGTTGGTAGGAAAACAGCAAATTGTGTATTAGTTTATGGATTTAGAAAACCCGCAATACCTGTAGATGTACATGTTCATAGGATTTCAAATAGATTAGGAATAGTAGAAACGGAGAGTCCTGAGGAAACAGAAATTGAATTGGCCAAGATAGTAAATAGAAAATATTGGATACAAATCAATGAATACTTTGTAAGATTTGGTCAATTAATATGTAAACCAATTAATCCAAGATGTAATGAATGTGAATTTAATAATACATGTAAATATTCACAAGATATTAAGAAAAATAATTAATTATTATTGTAAATCATGTGTATTGAACCATATATCAGTGGTTTCAGGATAAATATCAGATATTAATTTCTTAATAGCGGTAGCATACTGTTGAATTTCCCATTGTGCGGTTTTTTCAGTTCTCAATTCAAGAAAGTTCATAATGGCTTGAAATGATGCAGTCCAATAAACCTCAGTATATTGATTAAGAGGAAGAATAGTACGTGCTTGTTCTTTGGCGACGCCTATTTTTAATAAGTTTTCGTAGGATTCTTCTACATTTTGCATAAAATTATCAAATATTTCTTGACACTGATTGTTAAGATTTTCAGGCATGTCTTCGCCAGAACCTTGTTTATTATCAATAGATTGTTGTCTCCAAACCAGAGGTTTGTAAAAATCTTTAACTGGAACATAACGACCACTTATTTCGTTCCATGCGTGGTCTTTAGTAGCTGAAGAGCTTGTAGTTTCTATACCAACAACATGCTTATACCATTGTCTCATAACAAATTCAGGAGCTTTAATATGAAACTGAACCACCATGTGTCTGAAAGGAGAATAGTGTTTATACTTAGCTAGAAATTGAACTAGTTTTCGATCTCCTTCCTCATAAGTGGTTTTACGTTTACCAAATGAAACACGTGCAGAATTAACAACAGTAAGATCATTACCTAAAGAGTCTATAACCTCGACAAAGCCTGAATCTAATACTTCAATCTTCATAGTATGAATTATAATAGAGTAAGTAATATAAAAAAAGACAGATTAATCAATCTTAATATATAATCTATATAGATGTGTGCTTCGGTAGCTCAGACCGGTCAGAGCGCTTGCCTTGTAAGCAAGATGTCGAGGGTTCAAATCCCTCTCGAAGCTTTCATAAAATCTCATTATAAATGTAAAAGAATTATACTAAAATTATGATAATTATATTAAGAATCATATTATCTGTATTATCAAGTGAATAAATGAAGCGGGCAGATATCTCAATTATTGGACCAGATAGGAAAGGCATTGTAGCAACCATAACAAATTTCATTTTTGAGAATCAATGTAATATAGAAGAGGTTAGCCAAAACGTTGTGAATAGTACATTCTTTATGAATATTAAAATATCAATTAATAAAAAAAAGTTCGATAAAGAAGAATTTAATAAAGGATTAGGAAAAGAATCAAAAAATCTAGGTATGAAATCAAGGGTATTTTATGATGAGCAGAAACAAAAAAAGAATATGGCAATTTTAGTAACAAAAGAAGATCATGTATTAATCGAATTATTAAAAGCAAATAAAAAAGGAAAATTAAATGTTAATATTCCAATAGTAATAGGAACAACAGAAATATTACAAAACATATGTAAAAAACATAAGATTAAATTTATTTCAATAAAGGATAGGAAACAAGGATTAAGAGAAGATAAAATTCTTAAAATATTAGATGAAAATAATGTAGATTTTATAGTATTAGCAAGATATATGAAGATACTTTCGCCTAAATTTGTATGGAATTATCCTAATAGAATAATCAACATACATCCTTCATTGTTGCCTGCATTTCCTGGAGCAATGGCATATATGCAAGCATTTGAGAAAGGAGTTAAAATTTCAGGTGCAACATCGCATTTTGTAACTGTAGATTTAGATCAAGGTCCAATTATTACACAAGAAGCATTTACATTGGATACAACAAAATCCCTTGAAGAAATTAAAAATGCAGGAAGGGATTGTGAGAACAAGGCATTGATTAGAGCAGTTACATTATTTGTTAATAATAAATTAGAATGTAGATGGGGAAAAGTCATTATAAATAAAAATTAATTTAATTGCATTTGTTTTTTTATACTTTGAGTAAGTAATTTGAGAAAGATTTCATAATCAGAATCAGAAATTTCAATTGAAGAGTATTTTTTTTGTTGTTTAGCAATTTTGTAAGCTTTAAGGTGGTAACAAGAAGAAGAATTTTGTCTAATTAATGAAAAATAGAAACCTCGGCAACTGCAATAATCTCCATGAATAAAGATTAAATGGTCGCCATAATTTCCTACAACAGTCCATAATTCCCTTCCGCTAGGTTGGAATTTATGGAGTTTTACACGACCTTCATTGATTAAAGCGTCAATAAGGTCATCAGAAGACCTTTTCTTCATGAATAATTTAATACAATTACCAATATATCAAGATTGAATTGATAAGAATATTATATCCAGAACCTGCTTTAGTTCTGAGTAATGAAAATTACAAACATATAGTCATTAGTGATTTACATATAGGGTTCGAAGAGAGATTTAACAAACAAGGCATATCAATTCAAAGTTCTACAGAAAAGATGAAAAATATACTTGAAGAATTAATAGAGAGAGAGAGTCCAGACAGTGTAATTGTTTTAGGAGATATAAAGGACAGTATATCGTCAATAACAAAATCAGAACGTATTGAAGTTCCAAAGTTTTTTCGTGAAATTTCAAAATTAAGTAATGTTGTAGTAATACCAGGTAATCATGATGGAAACATAAGTTATCTTTTACCAGAGAATGTAGAAATAGTTGATAAAAGAGGAATAATGATAGATAATACGGTTTTGTTACATGGACACACAAACATAAATGAGACATTTAAAGATGTAAAGAGAATAATCATTGGGCATTTACATCCAATATATAATCAACAAGATAGTCCATTATCAGGATATCAGATTTGGTCAATATTGAAAGCAAAAACAAATGTTTTATCGGAAAACAATAAGGAAGAGATTGAAATTATAACTGTACCTTCATTTAATAAGGAATTAACGGCAAGTGGATTCTCGATTCATCGAAAGAAGAATATTTGTCCAATAATAAGAAAAACAAGATCAGAAATTAATGATGCAGTATTTTTGACGTTAGAAGGAGATATAATAGGTGATATAAATTCTTTATCTGAAATAATATAGTGTTAAAGATAAGAATTATTAGGAGGGTTTGTACGATTTATCTAGATAGCATATGGATGATTTAATGAAGCCGTTTATTAAAGATGGAAAAAGTGCCCTTTTAGCATA
>sequence10
AATATTGTTGTTACTTCTTGTTGTTTATCATTATTTGGTTGTTCTAATTTTCCATATAATAATGCATTTACAAAACTTTCTGCTATTTCCCTGTGCCCTAATCTTATTTTAAAATTATCTATTCCAATTTTATCAAACAACGATATTGTAAATCTAAATAATTCTAATACATGATCACTTGGATTGTCGTTTGACGTAGAATAAATCTCAGCATTCCATTGGTGAAACCATCTATATCTTCCTTTTTGCGGTTCATCATATCTGAACATATCTCCAAATGTACCGACTCGAAATGGCCTTCGTAAATCCTTTTTTCCGGTTATATATCGTGTTACTCCTACGGTTAAATCAAATCTCAGACCTAGATCTCTTTGCTTTTTATCTTTAAAATGGTATATCTCTTCCTTTATTCCGGGTCCACTTTTAGCTTCTAACGTTGCAAGCATTTCTATTGGCGACGGCATGAATCTCTTAAAACCAAATATTTTACATGTATCATTAAAAGCAATTCTAACCTTCTCAATTTTAGCATATTCATCTTCTTCAATGTCTCTCATTCCTCTTGGCAATCTGAAGCTCAAATCTAATCCTTTTTCCTATTCTTCTTGTATGATATATGTCACGCTAAATAACTATTTATTGAAGAGTGTGCAAAAATTCTTATGCCACAAGATGATTCTTCTATTAAACCTACTGCAACAATTGATATGAAAGGTTTATTGTGTCCTGAACCAGTTTTCCGAACTAGACAAACTATTAAAGAAATGAATATTGACGAAGTTCTTGAAGTGCTTGCAGACGATCCAGTTGCAGAAGAAGATATAATATCTTGGGTAAAAAAGTCTGAAAATGAATTGATTTCCTTTAATAAAGACGATAAATTACTTAAATTTTTAATTCGTAAGGTTAAATAATATAGCTTTTGCAATTACCTTAGGATGCCAAAAAACGAAGTTATTCTAAGAGTCGGAGGTGCTGCAGGCGATGGTATTGCTTCTACGGGAGAATCATTTGCAAAAATCTGTTCACGAAGTGGATTACATCTTCTAGCTTACAATAGCTATCAATCAGTTATTCGGGGTGGATTCATTTATCTTCAACTACGTGCAGGTCGTGAGAAGGTATATTCACATGGAAATAAAGTTGATTTTCTCATTGCCCTAAATCCATTGGAATTCCAGCGTAATATTGTTGATGTAGTTCCTGGTGGCGCTGTATTATATAATAGTGATAAAATTAAACCTGATCCTGATAAAATACCTAAAGACATAATTCTTTGTCCGTTACCTGTTAACGAAATTCTAAAAGATATTGGAAAAAACCCTATACTTCAAAATACTGTTGCACTTAGTTCCCTTGTTCAACTTCTTAATCTTGACGTTGATGTTATGAATGGTGTTATTCGCGATTATTTCGGCAAAAAGAAACAATCCGTTATGGATATTAATCTTAAAGTCATTGAAGCCGGTTATGAATATTCTAAATCAAATCTTCCTAATTTCGACTTCGATTTACAACCTGATTATAATATAAAACGACCTGTGCTTACTGGAAATCAAGCGCTTGGATTTGGTTCTATACTTGCTGGTTGTAAATTTTATTGTGCATATCCTATGACTCCTGCTTCTTCAATTTTGCATTACCTAATTGCTCAATCTAAAAAATCTGGCATGGTTGTTAAACAAGCTGAAGATGAAATCTCTGTCATTAACATGGCAATTGGTTCTTCTTTTGCAGGTGTTCGTTCTATGGTTGGAACATCTGGTGGTGGTTTTGCATTAATGACCGAAGCTATTGGATTAGCAGGACAAACTGAAACTCCTATCGTAGTTATTAATTCTATGCGTGGTGGTCCTTCTACAGGTCTACCTACTAAAACTGAACAAGGGGATTTGTTTCAAGCTATTGGTGCTTCACAAGGTGATTTTCCCAAAGTTATAATCGCACCGTCTACTATTGAGGATTGTTATTATTCAATAATTGAATCCTTTAATCTTGCAGATCAATTCCAAATTCCTGTCATGGTTCTTTCTGATTTATTTTTGTCTGAACATATGGAATCAATCGAAGATCTTGACTTTAATTCTACTATTGAGCGTGGAGAAATAGTAACTTCAAATGATTCTGACAAACTCTATAAACGATTCAAATATACTGATACTGGCGTCTCTCCTCGTGCATTTCCTGGTACTTCTGGTACAGTATTTCAAGCTTCTAGCGACGAACATGATGATTATGGAAATATAATTAGTGATGTATTTACTGATTCTGAAACACGTATAAAAATTATGCTTAAACGTATGAGAAAAATGAAATTTATCGAGAAACAACTTCCTCCTGTAAAATTAGAAGGACCTGTAGATGCCGATCTTACACTAGTTAGCTGGGGTTCTACTTATAATGTTGTTCACGAGGCAATACAAATTCTTCAAAATAATTCTAAAAATGTCAATCATTTACATATTAAATATCTTATTCCTTTACAAAAAGGAATTAAGGAAATTCTTTCTAATAGTAAAGATACTCTTATTATCGAAGCAAATTATTCTGGTCAATTATCTAAATTAATCTCTATGGAAACAGGTTTCCAAATTAATCATACTCTTTTTAAATATGATGGCGAGCCTTTTTATCCTGAGCAAATTATAGATAAAGTTGAGGATTTGATTTAGATGGTTGTTGAACCTGTAAAAATTGAAGAATACAAATCAGAAATAACACCTACTTGGTGTCCTGGTTGTGGAGATTTTGCTGTTTTACGCGGTATACATACTGCTCTTGCTCGTTTAAAAATTAAATCAGAAAATGTTGTTATATCTTCTGGTATAGGATGTTCTTCAAATCTTCCAGGCTTTGTAAATGCTTATGGTTTCCATGGACTCCACGGTCGTTCTCTTCCTATTGCTAATGGTATTAAACTTGCTAATACTGATTTGACTGTTATTGCCACTGGCGGTGATGGTGACGGTTATGGAATTGGTTTGGGACATTTTATTCATTCTATGCGTCGAAATATCGATATTACATATATTGTTATGAATAATCAAATTTACGGCTTAACTACAGGTCAAGCATCACCTACTAGTGAACGAGGTATGCTTACTAAATCTACTCCTTCTGGTTTATTAGAAGTACCTGTTAACCCTATTGCACTTGCTCTTATTTCTGGCGCTACCTATGTATCAAGAGGTTTCTCTGGTAATGCAGATCATTTGTCTACTACAATAGAAAATGCACTTTCCCACAAAGGATTCTCGTTAGTCGACGTCCTCAGTCCTTGTGTTACATATAATAAAATCCAAACTTATCAGTGGTTTCGTGATCGTGTCTATACACTGGAAGACGAAGAACACGATACTAATGATTTAAAACAAGCTATATCAAAATCTTATGAATGGGAATCAAAGATTCCTATTGGTGTTTTCTATAAAGCTGATAAACCTACTTATGATGGTGACGAACCTGCTTTACAAGATGGCCCATTAGTAACTCAACCACTTGATACTGGTAAGAATATTGCTAAGCAATTACTCGATGAATTTACTTAGTTATTTATTACACAATCTTTTTTTCAATTTTATAATATTCAAATACCTTGGCAAAATTTTTTATTATACTTGATTTAATTAATTCTTTTGAAACTTTCTCTTTCTTCATAGAATTAATTGACGTCATAATCTGACTATCATAACCACATGGCCTTATACTCATAAATTTATCTAAATCCGTATCAATATTCAAACTAAATCCATGATATGTAATCCAATTTCTTACTGATAATCCCACTGACGCAATCTTTTTTTGTTCAATCCATACTCCTGGGCTTTTTTTCTTCCTTTTTGCATTAATGTCTAATTCTTCTAATGTTAAAATCATACTTTTATGAATCTTAGAAATAAGAGTTGGTACAGATATTCCCTTAGATTTCAAATCCATTATTATATATCCGATTAATTGACCTGGTCCATGATATGTTGCACTTCCTCCTCTATCTATCTCAACAATTGGTATTGAATTTTCCAATACATCCTCAGGTTTTGTTTGCCTCCCTAATGTTATTACATGTGGATGTTCAAGTAACAATAACGTATCTAATATTGAATTATCTAACCTTTCTTTCACTAATGTTTTTTGTATATCTAATGCTCGCTGATATTCAATTAATCCTAAATCTATAATGTTAAGACTGTTCATCCTTCATTAGACTCTCTGGATCTTCTAGACATTTTCTAATTGAATTCAAGAATCGTGCTACATCTGCACCATCTAATAATCTATGATCAAATGATAACGAAAGATAAACTCTATCTCTAGCAACTATCTCTCCTTCCCATAAAACTACTTTCTTCATGATTTTATTTATTGCAAGTATTGCTGCTTCAGGATAATTTACAATTGGTATGGAAGATATTCCTCCAATAGCTCCAATATTTGTAATAGTAAATGTTCCACCTTGTGTATCTTCTAAATTTAGTTTTCCTGATTTAGCTTCTAAAGATAATTCTTCTATCTCTTTGGCTATTTCTGTAATATCTTTATCTTGTGCTTTTTTTATTACTGGTACTACTAATCCTTGTTCCGTATCTGTAGCAATTCCAATGTTGTAATCTTTCTTTATTACAATAGCTTCTGATTCTTCATCTAATGACGCATTAATCCTTGGATTTGATTTTAATGATCTAATTACTGCTTTAACAAAAAACGGCATATATGTTAATTTTATATCTTCTGTTGATGATTTTTTTAACTTATCCTTTAACTCAGTCACTCTTGTCATATCAATTTCTTCCATAATCCATGCCTGAACTACTCTGTTTGATGCTTTTGCTAATCTTTCGGCTATTGTTTTTCTCGTTCCTCTAAATGCAATTCTTTCTTCATTGCTTTGTACTTCTAGTTTTGAATATAATTTAACATCCTTTTCAGTTATTCTTCCATCTTCTCCAGTTCCAACAACTTTATTGATATCTATTCCCATTTCTTTTGCAACACGTTTTACTGCAGGCGTTGCAATAATCTTCTTATTTTTTATTTCTTTAATTATATCTTTACTTTTTACTTCACTTACATTATCATTACTATCTTCAATTGTATCGTCTTCCTCTTTTCCATCATCAATTACTACTATTACTTCACCAACCTTTACAATCTTTCCTGCTTCTGGACCAATTTTCATTATTGTTCCATCTGCAGGTGATGGAAGTTCTACTGTTACTTTTTCTGTTATTATTTCTACTAATGGCTGATTCTCTTTTACTATATCTCCAACTTTAACATACCATTTACTAACCTCTCCTTCAACAATTCCTTCTCCAATATCTGCTAGTTTAAAATTATATACCATTATTATCACTATGAATATTCTACTGTTTGTTTAATTTTATTCGTTAGAAATTTTGCATCAGGAAGATATTCTTTTTCTAATGAATATGGAAATGGTGTATCTAATCCTGTAGCTCTTTGTATTGGCGCTTCTAAGTATTCTAAACAATTTTCAGCAATTAATGCTGATATTTCTGCACTCATTCCTAATGTTTTAGGTGCTTCATGTGCAATGACTGCTCTTCCTGTCTTCTTTACTGATTTAATTATCGTTTTTGAATCTAATGGCGATAAAGTCCTTAAATCAATCAATTCTACACTTGTTCCTTCTTTTTTGACAATTTCTGTTGCCTCTATCGAAGTTTGAATCATTGGCCCATAACTAATCAAAGTAACATCACTTCCTTCTTGAATTATTCTTGCTTCACCAATTGGAATTGTATAAGCTTCATCTGGAACATCTTCTTTTAATGCTCTATAAAATCTCTTTGGCTCAAAAAATATTACTGGATCTTCATCTCTAATTGCAGAAATTAACAATCCTTTTGTTTCATATGGAGTTGATGGAACAACAACTTTTAATCCTGACGTATGTACAAAATGTGTTTCTCCACTTTGTGAATGGTATGAAGCTCCCTTTATTCCTCCGCCATAAGGCGCTCTTATTACCATGGGACATGTATATGCTCCTCCTGTTCTGTATCTGAATTTAGATAAATCCGAAACAATTTGATCAAATGCTGGAAATATAAAATCCATAAACTGTATCTCAACAACAGGTTTTAGTCCATATAATGACATTCCTATTGCAGTACCTACAATTCCTGATTCATTTAATGGCGTATCTATAACTCGTTTGGGACCATATTTATCATATAACCCTTCAGTTGTTCTAAATACTCCTCCATTTTTTCCAATATCTTCACCAATAAGTACTATCTTATCATTTTTTTCCATTTCATTATCTAATGCACTTTTTACTGCTTGATTTAACGTCATTTCCATATATTATTTCACCAAGTTTTTTACAAAATATTCTCCAGCTTTGTATGAACTTCTAACTAACGGTCCAGAAGCAACATACTTGAATCCCATGTCTTCAGCAACATCTTTTAACTTAATAAATTCATCTGGATGAACAAATTCTTTAATACTGATATGAAAATCGGATGGCTGTAAATATTGTCCAATAGTTAAAATGTCTACTTCTACTCCTCTTAAATCTCTCATTGTTTGTATTACTTCAGAATATTTTTCTCCAAATCCAAGCATTATTGAAGATTTTGTATAAATACCAGAATCTAATTTCTTTACATTTTTTAAAACTTGTAATGATCTTTCATACGATGCTCTTCCATCTCTTATTTTAGAAGTTAATGATCTTGTAGTTTCAATATTGTGAGCAATTACAGTTGGTTTTGCATCAGTCACTATTGATAAATTCTTTTCACTCCCTGAAAAATCAGGTATTAAAACTTCAATTAATGTATTTTTATTCTTTTTGTATATCTGATTAACAGTTTCCGCAAAATGTGTTGCTCCACCATCATTTAAATCGTCACGATCCACCGATGTTAAAACTACATAATCTAATCCCAATTCTTTTACTGCATCAGCTGTATTTTCTGGTTCAAAAATATCTACAATTCCTTTTGGATTACCAGATTTTACATGACAAAATCTACATCCTCTCGTACAAATATCTCCTAATAACATGAATGTAGCTGTTCCTCCATCCCAACATTCGTAAATATTTGGACAATTGGCTTCCTGACAAACAGTATTAAGATTTAATGTCTTAGATGCTTCCTTGACTTTTTTATAATTGTCTCCTTGTACAAAATTTACTTTAATCCAGTCTGGTTTCTGTAATTTCTGTTTTATCTGATTATTACTTAATGCTCTACGAGGCAATCCTAAAATTTTCTCGTCTAACTGTTAATAAACCATTTACTTTTCTTCAATAAAACTTTGGCATTTGTCTAATTTTTTTTTAGATTATGCAATAACCATATCTTTTAATGCTGTATTCGGCACAACGAATGGAAATACGTCTTCATCAGGATTGATTGGTACATCGATTACTGTTGCTACGTCACTATTTAATGCATTTTTCAATGCTTTTTCAAATTCATTCATTGACTGTGCTCTTATACCTTGTGCACCATACGCTTCTGCTATTTTTACATAATCTGGAATTCCTTCTAGTTCTACGCCTATGTATTTTCTTTCATAGAATAATCTTTGCCATTGAGCTACCATTCCTAACATTCCATTATTGAATATTACTGTAATTACAGGTAATTTTTCTGTAACAGAAGTTGCAAGTGCTGATTCAGTCATTTGTACACTTCCATCACCTGCAATATCAATTACTGGTAAATCGGGCCTTGCAAATTTTGCACCCACTGCTGCAGGTAACCCCCAACCCATTGTACCTAAACCGGTTGAAGTGAAAAATGTTCCTGGTTCCGCAACATCAAAGTGTAAAGACGCCCACATCTGGTGTTGACCAACTTCTGTAGTTACTAAACATGAATTTGGTAAAATTTCTCTCATCTTTTTTAATAATCTTGGTCCTGTTATTTCTCTTGGTGCTGGAAGAGGTTTACTTCTCCATATATCTTTAATTTCATTTACCCTATTGATCCAAGCATATTCTGATTGTCTTTTTTGTGCCTTCTTCTCCATAGCTGATAACAATAATGAGAGTGTAGTTTTTATATCTCCAATTAATCCAATATCTGCATTTTTATTCTTTCCAATTTCAGATGGATCTATATCTGCATGAATTATTGTCATTTCATTTCCAAATTCATCCCATTTTCCTACAGATCTGTCTGAAAATCTTGCTCCTGCAGCTAATAAAACATCTGATTCAATTACTAATTTATTTGCCTCAATATGACCATGCATGCCAATTGGACCTAAAGATAAATAATGCGTTTCCGAAAATCCACCTTTCCCTTTAAATGTTGACACTACTGGTGAAACCAAAAATTCAGCCACAGCTTGTAATTCTTTAAACGCTCCAGATATAATTACTCCACCTCCTGTCATTATCATTGGCCTTTCTGCATTCAATAAAAGATCTGCAGCTTTATCTATTTCTTTTAGATCTGCAGTTTGTAATTGTTGTAACTTACGAATATTTGGTTTAGTAGGGAAATTTATTTTCATTTTTTCAGTCTGTGCATTTTTTGGTATATCAATAAGTACAGGACCAGGTCTTCCTGAAGTTGCAATATGAAATGAATTCTTTACTACTTGTGGAACTTCTGCTGATGTAAGAGGCTGATATGTATATTTAGTTACAGGTGTCGCAATTCCTATTATATCACATTCTTGAAATGCATCCTTTCCTATCATATTTGATGCTACTTGTCCTGTTATTGCAATAATGGGTGATGAATCTGCTATTGCTGTTGCAATACCTGTAATCAAATTTGTTGCACCCGGACCTGACGTCGCAAAACAAACTCCTGGTTTTCTTGAAGCCCGCGCATACCCGTCTGCCATATGCGCTGCATTTTGTTCATGTCTAACTAAAAGATGACGTATGTCACTATCATACAATGAATCATAAATTGGTAAGTTTGCACCTCCAGGTAAACCAAATATTCCTTCTACTTGTTCATTTTCTAATGCTTTGATTAACGCATCAGATCCAGTTAATTCAGATATATTTTTTAACATAATTATTCATTCCAAATTAGTATATTGCCCAATCAGACCAACATATGAGAGATCTTCATAATGCACTTTTCTATATTCATTTTAACTCTCCAATTACAATAACTACTATAATTGGATATAAATATACCGGGAACTTAGATAAAAATTAATAAAATATATGCTTCGTGAAAACTTATGACCAAAAAATGTGTATTTTGTGAAATAATCAATGGCGATCTAGATGCTCATATAGTATTTGAAAATGACTTCTTGATTTCCTTTATGGATAAATATCCTCTTAACCGCGGACATTTGTTAGTTATTCCAAAATACCATTATCAATTTATTACCGATATGGAAGATAAAGACGTTGCTAAATTATTTGAAATTGTCAATATGCTTTCTAAACATGTATGGAAAGCAATTGATGCAGACGGCATAAATATTAGTCAATCAAATGGCATTGCTGCTAGTCAAGATATATTTCATGTTCATATTCATATAATTCCTAGATTTCTTAATGATGCTGAAAATGATTCTTGGCCTGCTAGAAAAAATTTTACTAACGAAGAACTTCAAAAAATCTCTTTTCTTATTAAATCTTCAATAAATTAGTTATTTTTACACTAATATTCTTAAGTATCTAATTCTCTAATTACTTTGGATCGAGTTATCATAATATTATGACGGGCTGGTGTCATTGCCAATCGTCTAGTCTGGTAGGATACCCCCTTGGCATGGGGGAGGTCGAGGGTTCAAATCCCTTCCGGTCCACTATTTTATTTTAATTTAATACTAATGCCTAATCTTGTTGGTTAATCATGTTATGTTTTTATTAACTAGAAAATTGCTAAGTTTTATATGAAATCTGCATATCAATTTCTGTCATCCCTCTTAATGTTATTTCTATTAATTTCTAGTAGTGTCTTTGTATCATTTCCATTGGTTTATGGAGCTGGCGGCTCTTCAATAACTAATGCTGTTGAATTAACAACTGGTAAAACAAGTGCAACTTGGTCTACTGGAACTGAATATTATAAAATCAATGTACTTGCAGGTCGTACTATCTCGCTTAATGTTGATTTATTTTCTGGCACTGATATTGATTTATATCTATACGATCCTGATAGTTCTGACACTGATAAAATCCAACTTGCTTCCTCTATTAATGGTAATGGTATTGATGAAAATATTATATTTACCGCTACTAAATCAGGCTATTATTTTATCGAATTAACCGGTAATAGATGGTCTGGCCTTGGCACTTACGATTTTAATGTTTTTATTACTGATTTCGATTTTGTATTTTCAGATTGGGGCACACAAACAAATCCTGTCGAAGTAACTCCTGGTGACTTGGGTAATAATTTACAAATTGTTCTGAGAAATGGTGGAGACTTTGATGTAAATGACTTATCTGTGAAACTAGTCTTACCCGATGTACTTACAAATCGTACTGGCGGTAACATTCTATCTGCAATATCTACTACTACTACAGCTGTTAGTTCAACTACTACGTTCAATTTTCTTGTGAACATAAATGACCAAGCTTCTATTGGTACTTTATCTATTCCATTAACAATAAACTATCAAACTACTGACGATTTAACTGGCATTTCTATCTCCAAAGAAATTAATGTTCATATTAGTGGAAGAAGTTTCCTTAAACTTACTTCAAGTACTCAATTACTCTTACCTGACGAATCTAACGATGTTGAATTCATCATTATTAATGAAGGCACTGCAAATACAGGTTCTATTGATTTAACATTGACAATTCCATCTCCTCTTAATCTTCTTGGTTCCGATAATAAATGGCAATTATCTTCAATCAGTCCTACTAAACAAACTTCTATCTCTATCTCATTATTTGCTCCTATTTCAACCGCAGGTAATAATTATCAAATTACTGCAACTATGGTTTATGATAATTCTTTTGGAACTCAAATTACCGAAACCCGTACTATTTTCCTTCGTGTTTCTGAAATAACAAACAAAGGAATTGTAGTTGTTGATACTTTCTGGGGAAGTCCGAACGATCAAATATCTGTTGAACCAGGAGACAATAGTGTAAAACTAAATGTAATCATACAAAATCGTGATACAGGCCCTATCAGTGGAATTCAAGGTAAACTTCTTTCCAACAATCAATTTTCTGCATCTAATGGCGCAAATTCACTTAATGGTTTCTTTGGATCAACTGTCCCTAGTGGATCTACTTCATCTGCAGATTTTCTTATTGACGTCTCTGACACAATTCAACTTGGCGAATATATACTTCAATTAGATTTTTCATATCTTGATAAAGATTCCATTTTACAAAGTGAAATAATTGACTTCTCTGTTGTAGTCGACGGTAAAAGCGATATTGAATTATCAATTCAAAATAATATTCTTACAAGTGGTACAGAAAATGAATTAATATTGGATATATCAAATCTTGGAACTGCTCCTGCATATTCCATTTCTCTATCTATATCCTATGGCACGTCATCTGGAATACTTGGTACTTCTCTAGATGATAATACTCGAAAAATCGATCATTTACTTACTAATGAAAAATTATCTCTAACTTTCCCAACATATGTTTCACCAAATGCACAGAAAGGACTCTATCCAATTACTATTATTGTTGAATATCGTAATATCAACGGTTTACAAAAAACTATTTCACAAGAATTTGCTGTTATAGTTAAAGATTGGTCATCTCCATTTTCAATAAATATTCCTGATAATATTCTACAATCTGGACGTATTACTAGTACTTTGATTAATCTTGAAAATACTGGTAATGAAGATATTTCTGATATTTCTATTGACTTACAATTCTCTACTTCTCAATCTTCTGCACTTCCAATATTTCTAAATTCTGGAAGTAATACTTGGAAATTTAATCAACTAAATTCTGGAGACTCGCTTACTCTTAATCCCGAAATTTTCGCATCACTTAGCGCTGCAGATACATCTAGTGTCGTTCAAGTACATATTTCATATATTGATTCACATGGATTCCCTCATGATGAAATTCGTACTGTTGGTTTTACAGTTCGTGGATTAATTGATCTTACATACAAATCTGTTGAATTTGATCGTGAAATACTACCTGCTGGATTTAATGCAACAATTGTTGGTAATCTTCTCAACCAAGGCAACACCGATGCACAATTCCTTTCAATCTCTATTATCGACGGAGACGGTATTATTCTAACAAGTGATAGTACTCAATATATTGGCGAAGTTGATGCTGATAGTTTGATTCCTTTCAGCTTAAAATTCACAATTGATGAGAATGCTCGTGATGGTACTACTCCACTCGTTCTACAAGTTGTATATGAAGATACATATGGAAATAAATTCGTGCATACTAGTAGTTTTGATTTTCTAATTGGCGGTTCTCTATCTGATCTACAACCAGTTATCATTGATGAGCCTTCAGGTACTTCTGCTTTACTCTCTTCACCATTTGCAATTATTGGTGTCGGTGCATTTGTAATTCTGATTACTATTTTTATTCTTCGCCGACGTAGCTCAAAGCAACCGTTCTAGGTATATTCACCTTGTCTTCAGTAATACTGCAAACTGAATCTTTACGAAAAGTATATTCGGGCGGTGGTTTAGATACTATCGCTTTAGACGATGTAGGAATTAAAATTGACTCTGGTGAATTTATTGCAATTATGGGCCCTTCTGGCAGTGGTAAATCTACTTTGTTAAATCTTATCGGTGCACTTGATTCTCCCACATCTGGCAAAATTCAAATTGACGGTATTGAAACTACTACTCTTAATTCTGCAGGTCTGGCGCTTTTACGAAACAAAAAGATTGGATTCATATTTCAATCATTTAATCTAATTTCACGTTTCTCTGCTTTAGCTAACGTGGAACTTCCGTTATCGATTTTAGGAGTAAATGCCAGAGAAAGAAAAAAACGTGCCTATGAAATGTTAAAACTAGTTGGCCTTGAAGATAGGTGGCAAAGTAATCCTAATCAACTTAGTGGTGGGCAACAACAACGTGTTGCAATTGCTCGAGCTCTTTCCGTAGATCCTCCAATTATCCTTGGCGACGAGCCTACTGGCAACCTTGATACTAAAACTTCAAGATCTATAATTGATTTATTATCTAATCTTAATCAAGACGTTGGGAAAACTGTAATTCTTGTCACTCATGATCCTGAAGTTGCTATGCGTTGTTCTCGTGTAATTACTGTTAAAGATGGTAATATTGACGATCATGATTATGATCTTAAGAATAAAAAAACTATTTCTTGATATTTTCTTATTAATTTAAATACATACTCTTATTTCTATTAATTGTATAAATTGTCTACGTTCAACCCTATTACTACAATTTTGGCTATTAGTCTATTGATTGTTACTGCAAAAATATTTGCCCTAATTTTTAAAAGAATAAAACTACCTGAAGTAATCGGAGAAATACTTGCCGGTGTAATCTTTGGGCCTTTTGCGATTGGCGGTCTTATTGTTTTAGCAGGAGAACCTCTCTTTTCAGGTCCTGTCAATGAAAACTTTGTTCTGGAAACTTTTTTTGAAATTGGAGGCATGATACTTCTCTTTAGCGCTGGATTAGAATTTACATTTAAACAATTTAGAAAGGCAGGACTTCCTGCATTTGTTATCGGCACTGCAGGTGTAGTCATTCCTTTTATCCTTGGTTATTATGGTAGTATCTTTGTCGGTTTTTCATCTACTGAATCTCTTCTTATTGGTGCAGCTCTTACTGCTACTAGTATTGCGATTACAATAAGAACTCTTGAAGAACTCGACCAACTCAAAAATAAAGAATCTCAAATCATGGTCTACGCTGCAGTGGTAGACGACGTACTTGGTTTAACTCTTCTTGGAGTAGTTCTTGCAATTGGCAGTACGGGTATTATCCCTGAAATTGCCAGTGTCTTATCTACTACTGTATTTACTCTCTCTCTTTGGATCGCTTTATTATTAGGCTCAGTTTATTTCTTACCTAAATTTCTAGATTTCGTAACTAATCTTACTGGAGAACTTAAATTAACTGATGACTCAGAAAAACATCCTCAATCTCCATCTACTCTTGAAACACTTGCTATATTCATAATTCTTGTATGGGGTGCAATTGCATATTACATGGGTCTTTCTCCTATTGTTGGAACATTTGCTGCAGGAATGGCAGTAGCAGGTTCTCGATATAAACATCAAATTGAAATATTCAATAACCATATACGCATTATTTTTG
>sequence11
CTCTACAAGAACTAGTTCAACCTGAAGGTGAATCTAATTATGTTAATGTATTGTCTCGAATCAAAGAACTATCTTCCGACTTGAATGTCCCTATAATTGTTAAAGAAGTTGGTTCAGGCATATCTCCTTCAGTTGCTAAAAAACTATCTGCTAGTAAAGTTGACGCAATAAATATTGCTGGTATGGGTGGTACTAGTTGGGCAGGTATAGAACAAATTCGTGCTAAAAAATTCAAAAACAAACAAAAATCTGATCTTGGTTTATTATTTTGGGATTGGGGTATACCTACTGCTGCAACTATTTTCCTCACTCGTACTTCAGTAAAAACTCCTATTATTGCATCTGGTGGTTTACGAACTGGATTAGATCTTGCTAAAACTATAGCTCTTGGCGCTGACGTTGGTGGATTTGCTCGCCCTATGCTTACACCTGCATCAAAGTCATATAATAATCTGAACGATTTTATTAATCAATTAATTCTAGAACTAAAATCAACTATGTTTCTGGTGGGTGCAAAAAATATTAAAGATCTTAAATCTGTTGACTACATTACTACTGAACCACTTACTAGTTGGATCTCAAAGGTTCGTAAATAAATGACTCACAATATTAATGATATATTATCTGAACCTGAGATTCAGGCTAACAAAAAACTTATTGATGATACTATAATTAATTTTCTTCCACTCGATCATAAAATTAAAGAAATTAATTTATTATATAACATGATGCGTGATTATCCATTACGACCTGCCAAAGGAATACGTTCATCAATTTGTCTATTTACTTCTCAAGCATTTGGCGGCACCATAGATGATGCACTACTAACTGCTTCCTCATTAGAACTATTTCAAAATTGGATTCTAATTCATGATGATATTGAAGACGAATCTGAATTACGTCGTGGTCAACCTGTTTTACATCGTAAATATACTATACCTTTAGCTATTAATGCAGGTGATTCACTACATGGCCGAATGTGGTCTTTATTACATGGTAATCATTCTTTATTAGGTTCAGAACTAGCCCTTGATATCATTGATGAATTTATTCATATGCTAAATGAAACTACAGAAGGCCAACATATGGAATTATCTTGGTCTACAACTAATGACTTGAATATCTCTGAAGAAGACTATCTGGTAATGTGTACTAAAAAAACATCTTGGTATACATGTATAACTCCATTTCGTTTAGGTAATCTCGTTGCTGAAAAACATAAAATAAACGAAAATAAATTTGTAGATTTTGGAACTAATCTTGGAATTGCTTTTCAAATTCGTGATGATATTCTTAATCTTACTGCAGATAGTAAATATGGAAAAGAATATGCAGGAGATTTAATTGAAGGAAAACGCACATTAATTTTAATTCATCTCTTAGAATCATCTAATACTTCTGATCGAGAATTTATTGAATTATTTTTTAATAATAGTCGTGAATTCCGTGAAAATAATTCACAAAAATTATTAGATCTAATTTCTAAATATAAATCAATTGATTACGCCACTAATGTTTGTAATCAACTCTCTGATAAAGCATTGAGTGAATTTGATAACATTTTTTCTGATCTACCCGACACTCGAGCACGTTTATTATTAAATAATATTACTAAATACATGGTTTCAAGGAACTGGTAAATCTTGGTAAACTCTGAAATCGAGGAATTAGTCTTCAAACATAGTTTATTTAATGCATCTCAACATGCAGGTAAAGCAAATCTTGGTTCAATAATTAACAAACTTATTGCAGAAAAACCCGAATTAAAATCAGATATTAAAAACTTAATGAATGAAATTAAACCAATAATTGAAAATGTTAATTCTATGAGTCCTGAAGAACAAATTGAACTTCTTAACAAAGATTTTCCAGATATGAAATCAGAACCACAAATTACTGAGAAATTTCCTCTACCCTCTCTCCCTAATTTTGCTTCTTATAGTACTATTATTACTCGTTTTTCTCCTAATCCTAACGGATATCTTCATATTGGACATGTTAAAGCGTTTCGTTTAGATTATCGTTATACTCAAAAATATTCTGGTAAATTATTTATTAGATTTGACGATACTAATCCTGTTGCTATTGAACAAAAATACTATGATAAAATAATTGATAATTTAACTTGGATGGGAATTAAACCTGATAAAATTACTTATGCATCTGATTATCTAGATAAAATATATGAAATCGCCACAAAAATGTTTCATGATGGACATCTTTACATCTGCGAATGTAACTCTGATATAATTAAAAACAACCGATTTAAAAAACAAATTTGTGAACATAATTTATCAGATTCATCTACTCAACAACTCTCTGATTTTTTTTCTTCTAGTATTGACGCTGTAGTTCGTTTTAAAGGAAATATGGAATCTGATAATACCGCCATGCGTGATCCAATAATGTTACGGTCTGTAAATGAAAATCATCCACGTACTGGTAGTAAATATCATATCTGGCCAACTTATGATCTTGCCGCTCCAATTACTGATTGTTTAGAAGAAGTAAGTCATGCATTACGCTCCAAAGAATTTGAATTAAGGGATGAATTATACAATAAAATTACTCAAATTATATTTGATCAAGGAAAAATTAAATATCGACCCTCTCTCGTCAGTTTCTCACGATTATCTATGAAAGGTTCACCTACTTCTAAAAGTAATATTAAATCTCTAATTGATCGAGGCCAAATTAAAAATTGGCATGATGTCAGACTTGTTACACTTTCTGCCCTTCATAAACGTGGTTTTACTCCTAAAGGAATTAGTAATTTTGTTGATTCTTTAGGATTAAGTAAGAGTGAATCATCTCCCGATTTTGAATTATTATCATCATTTAACAGAAAAGCACGTGATAAATTTGATAAAAGGTATTTTTTTGTACCTAATCCTATTAAATTACAAATAAATAACATTCCAATGAAATCTGTTACTCTTAAACATCATCCTACTGAAAATCTTGGTGATCGTACTATAGAAATATCTGACGAGATATATGTCTCTCAAAATGATATTAATCCGTTACACGAAGGCGACGAAATAAGATTGATGGATTTATTCAATATCAAAATAATCAATAAAACTAATACTATAAAAGCTGATTATATAAGTACTGAACCTCTTTCTACTCTGAAAAAAATTCAATGGGTATCTAATGATGGAATTGATTTTAATTTATTAGTTCCTGATAACACAAAATATAAAATTAATTCTGATAATTCATTTGAATTCTTGACTGATAGTCTAACTACTCTTTCTGGCATCGCTGAAAGTCAATGTAAAAATCTTAGTGAAGGTGATATGATACAATTCAATCGAATAGGTTTCTGTCGTGTTATTTCTAATCAATCTGCAATTCTCTCACATAAATGATTTTTTATGACATATATCCATCAAGAATATCAAGATAAGGTTTGGAATGAAATTAATAAATCAAATTTCCAATCTTATCATAAACCACACTATAAAAAATATTCTTTAGCAAATATTGCTCCAACTATATTATCACATTTTGGAAAAAAATCAAAGAATATCATTAATGATAATCCTATACAAACGTCATTAGATGGTTGTGAATCCATTGTTCTTTTACTTATTGATGGATTAGGTTTTAATTTAATTAAAAATTCCCTTCACAACGAACTCTTAAAACAACTCTATTTCAATAACGTTGTAATACCAATAACTTCTACTTTTCCATCAACTACCTCTACTGCACTTAGTACTGTTAACACTGGTATGACTCCTCAAGAACACGGTATAATTGGTCACACTATGTATCTCCGAAAATATGGAATAATTGCTAATATGGTCAATTTTAGTCCTGAATCTGATAGAAATAGTATTAGACTTGCAAAATTCGGTTTTGATCCTGAAACCTTTCTTTCAAAAAATACTCTTTATCAGTCTCTTTCAGATATGGACATAGAAACAAAAGTTCTAACACGTTGGATATACAAAAAAAGCGCTTTATCACGAATGCTTCACAAAGGTTCTGATGTTTTACCTTATGTTAATTCTTCAGATATGTTTTTTAATATATCAAAATTAGTCAATAAAAAAACCCCATTTGTTTTTGCCTATTGGGATGCTCTTGATTCTGCATCTCATGTTTATGGTCCATTCACTCCTGCAGTACAAAGTGAATTACGAAATATCTTATATGGATTAATTACTGAATTTATTAAAAATATTAAAAGCAAATACCAAAATAAAGTTTGTATATTAATCACTGGTGATCATGGTTTAGTTCATGTGAATAAAAATGGAAGATTCTTTACAAATAGTATTCCAAAATACCTCGATAATTTAAATCGTCCTCCATCTGGAGACTCTAGAACTTCGTTTGTAAAGTTAGATAATTCAAATAATAAAAATCTAAAAACCATTTTTCGTAAATATAGAAATCAATTTGATATATTCCCTAGTGATAAATTTGTAAAAGAAGGATTCTATGGTTCAAAAATTGTAAATAAAGACATTTCTTCTGCATTAGGCGACTATACTATCCTTTCACGTAAAGGCAACGCTCTTATGCATCGCTTTAAATCTGATTTTAAAGCTTCATTATCTGGTTACCATGGTGGACTTACTGACGATGAATTATTTGTTCCTTTATTCGTGATTAAACCTGAGAATCTAAATTAATTACTTGTCGCTTGTGACAATTCTTTTGCCAAATTCTTTAATTTATCAATCATTAAATCAGTATTATTCAAATTATCTTCTATAATCTTTATGAATGCACTGCCCACAATTACTCCATCTACACCTAACTTTGTAAAATTACTTACATGTTCGGCCTTTGATATCCCAAATCCAATTGCTACAGGTATTTTTCCATTAACTTTTTTCACTATCCTTGTCGTCGCATCCGATGAATATTCTGTAAATAAATCTCTAGTTCCCGTTACTCCGAATAAACTCACCATATACAGAAAACCACTAGTTGAATCAATTATATTATCCAATCTAGTATTATTTGTTGCTGGACTAGCTAAAAATATCGTATTAATCGACTTTGATTTTGCTAATTTCACGTAATTCTCAGCTTCTTCTGGCGGTAAATCTGGTGATACTATGCCTGAAATCCCAGACTTTTCTGCATTACTTAGAAATGCTTCTATACCCATTTTCATTATCGTGTTATAATAAGTAAGTAATACTACTGGAACATTCAATTCATCTACAATTCTTTTACTCATATCTAGAATATCTTTAGTTGTTGTTCCATTTGATAACGATCTCATACTTGAAGATTGTATTGTTGGTCCATCTGCGATAGGATCCGAAAATGGAATTCCTAATTCAATAATATCTACACCACCTTGTACCATCGCCTTTGCTAATTTTGGTGTTAAGTCAATCGATGGATCTCCAGCAGTAATGAAACCAATTAATAATGATCTTTTCTGTTCTTTTCCTTCTTTAAATTTCTCTTTGATATTCATATATCATTACCTAAATGTTTTGCAATTATTGGTGTATCTTTATCACCTCTTCCTGATAAAGTTACTACAATAGATTGTGTATCTCCAACATCTTGCGCACGTTTTATTGCTTCTGCAATTGCATGTGATGTTTCTAACGCTGGAATTATTCCTTCTAATTTTGACATCTCTGTGAATGCATTAACTGCCTCTTCATCCTTGATACTAACATATTCTACTCTATCTTGTGATTTCAAGAATGAATGTTCAGGTCCCACACCTGGATAATCTAATCCTGCAGAAATACTATGCGTCTCTTGAATCTGACCATCTTCATCTTGTAATAAATAACTTCGCGCTCCATGCAAAACTCCTTCACTACCTGCTACTAATGTCGAAGAATGTTTTCCTTTATCAATTCCTAAACCGCCTGCTTCTACACCAACTAGCTTGCATTTATCATCTAAAAATGGATAAAATGTTCCAATAGCATTACTTCCTCCTCCTACACAAGCGATTAATATGTCTGGAGTCTGTTGTGATGTAATCTTTGGAAATTGCTCTTTAATTTCTTTTCCTATTACACTCTGAAAATCTCTAACAATCATTGGATAAGGATGTGGTCCTACTACTGATCCGATTAGATAATACGTTGATTCTACATTAGTAACCCAATCTCGTATAGCCTCATTTATTGCATCTTTTAATGTTTTAGATCCACTCTTGACACTGTGTACTTTTGCTCCTAATAATCTCATTCTAAAAACATTTGGACTCTGCCGTTCGACATCATTACTACCCATATATATCTCACATTTCAAATCCAATAGCGCACATGCCATTGCTGTTGCAACACCATGTTGTCCTGCTCCAGTTTCTGCAATTATACGTTTCTTACCCATTGATTTTGCTAATAATGCTTGACCAATACTATTGTTAATTTTATGTGCCCCTCCATGCAACAAATCTTCACGTTTAAAATATATTTTTCCACCATATTTTTTTGAAAGATTTTCAGCAAAGTATATTGGAGTAGCTCTTCCTGCATAATCTCGTAGTAATTCTGATAATTTATTATTAAATTCCTTATTTTCTTTTATCTCATTATATTTTTCTTCTAACTCATCTACTACTGGCATTAATGTTTCAGGAACATATTTACCACCAAATGTACCAAATTTTCCATCGTTTGGTTGTGATTTCAAGTTCATTTTTTTACACTTGTTAACTCCTTGATCTTGTTTTCAATATCATTTGATTTCATTATTGACGTTCCTACTAAAAATCCATTCACTCCTGTTTTTCCAATCATCTTGATATCTTCACTAGTCAATATGCCACTCTCACTTATTATTGGTTTATCTATGTTAAAATCTTCTCCTAAAATTCTGTTAGTTGTTTGCATATCTAATTCTAATGTATTGAGATCTCTATTATTTATTCCAAGTATATCTACATCTCTTGTCAACGCTTTATTAAATTCTTCCTGAGTGTTTACTTCTAACAGTATTTCTAAACCTACATTCTTTGCAAATGCTATCAATTGTTCCAGTTTATTCTCATCTTCTTTGAATAACGTTTCTATTAATAATATTACATCTGCACCTAATGCTAATCCTGCCTCAATTTGTTTATTATCAATAATTATATCTTTCATTAATATTGGTAAATCTGTATTCTCTCTTACAATTCTAAGATTCTCTAAAGAACCTTCAAAATACAAAGGTTGTGTTAACACTGATATTGCAGAAGATCCATTCCTCTCCATCTTAGTCAAAATTTCTTTTTGACTCGTAGAATTATTATTTATCTTACCTAATGATGGTGAAGCAAACTTAATCTCAGTTATGATTGGAAAATATTCCTTATTTGATAATAAAATATTTTTTAGACTCTTATTTTTTCTTTCAATCTTTTTTGACACATTATAATAATCTTGATCAACTAAACCTCTAATCTCATCGGCAATTACTGTTAAGAACTTATTATCAAACCGATTCGAATTGTTCAATTCTTTCCATATCTCCATCTACAAATCGAATAAATTCTTTTAATTTATCAATACTTTTTCCAGAATTTAATGTTCTTCTAGCTATTTCTACCCCTTCAGAAATTGAAGATGCTTTTCCCGCAACAATGAATCCTACTGCCGAATTTGCTATTACTGCTTCAACATTTGGATTATCTATCTTTAATCTATTTGAAAGAATCTTGTACATTATCTCTGCATTATAATCTATTCCTGTACCTGAGATATCTTGAGAGTTAATTTTCTTTAAACCGAAATCCTCTGGTTTTACAGTTATTTCCTTTCCTTCATTATCTAAATCTCCAATAAATCTCATTTTTGTTTCACCAAACGTAGCAATTTCATCTAAACCGTCTAATCCATGTACAATTATTGCTCTTTTACATCCCAGTTCAGGTAGAATTTTTGCATACTTATCGATCAACTCAACATTCGCTACTCCAACAATCATCGAATCAGCATCGGCAGGATTTGTTAATGGCCCTAAAATATTGAAGATTGTTCTCACTCCAATTTCTTTCCTGGTTCCTATCACATTTTTCATTGCAGGATGAAATACTGGCGCAAACATGAATCCTATTCCATTATTCTCAATAGATTCTTTTACTTTATTTGGTTCTGTATCTAATCTATATCCTAATCTATCAAGTACATCTGCACTTCCACATTTTCCTGTAGCTGCTCTATTGCCATGTTTTGCTATCTTAATATCTGAAGATGCTAATACAAATGCAGAAATTGTACTCAAATTAATTGTCTTAATCTTATCTCCTCCTGTTCCTACAATATCCACTAATCTATCATCATAAGATGGTTTAATTCTATTGGCAAATTCTTTCATAGTTTGTGCTAACGCAATAATTTCTTCAATTGATTCCCCTTTCATACTTAAAGATACTAAGAATGCCGACATCTGTGATGGAGTAGCAGAACCAGACATAATCTCTTTCATCGCTTGTACTGCTTCTTCACTTGACAAAGATTCTCTATTCACATTCTTTTTTATTGCATCAACTATCATTCTTTATTCCCTTCAATAAAATTCATTAATAATTTTTTTCCTGATTCAGTTAAAATGGATTCAGGATGACATTGAATTCCTTGTATATTGTATTCTTTATGTCTGAGTCCCATGATTTCATTATCATCTTCTGATCTTGCAGAAATAACTAATTCATCTGGCAATGTATCTTCATCTACTACTAAAGAATGATATCTCGTTGCTCTAAAAGGATTTGGAATATTCTTAAAGATACCTTTTCCATCATGTTTTATCATGCTAGTTTTTCCATGTTTCAATACTTTTGCACGTACAATTTCTCCACCAAAAGTATAACCTATTCCTTGATGCCCCAGACAAACTCCTAATACAGGTATTGCTTTTTGTCCAGACAATCTAATAATTTCTGAACATATACCAAAATATCTCTGATCACATGGATTACCTGGACCTGGTGAAATAACTACTCTTTGTGGTTCTATTTCATTAAATTTTTCAATAGTAATTTCATCATTTCTAAATACTATTGGTTCAATTGACAACTCTCCAAAATATTGTACCAGATTATATGTAAATGAATCATAATTATCTATCATTAATAATTTCATTCTACTTTACCCCTTCTTTCGCCATCTTCAACGCATCAATTAATGCACTAGCTTTTTGTTCTGTTTCAAACCATTCTCTTTCTGGGATTGAATCTGCAACTATGCCTGCTCCAGCTTGAATATATGCATAATTTCCTTTTACAACCAAGGTTCTAATTGTTATTGCAAAATCTGCACACATATTCTTAGAAAAATAACCCAACGCTCCTGCATAAGGCCCTCTCGATTCATTCTCTAATTCTTGAATTATTTCCATCGCGCGAATTTTTGGGGCTCCTGATACCGTCCCTGCAGGAAATATTGCCCTTATTGCATCAAAACAATCTCTGTTTCTCGTTAATTCACCAATTACTTTTGATACAATATGTTGAACATGACTAAATTGATGTACTTGCATAAATTCTGCTACTTTTACTGAACCGAATTTAGCTATTTGACCTACATCATTCCTTGCTAAATCCACAAGCATAACATGTTCTGCTCTTTCTTTTTCATCAGATAGTAATTCGTCTGTTAATTGTTTATTTCTCTCTATATTGACATGTCTTGGTCTAGTTCCTGCTATTGGGAATGTTTCAATCTGATTTTCTGTAACTCTAACGAGCATTTCTGGACTCGAGCCAATTATATTTAGATTATTACTCTTAAAATAGTACATATATGGAGAAGGATTTATTTTTCTAAGTGCTTTATAAATTGATAACAAATCTCCCGTTATCTCGAATTCATATTTCCTAGATAACACCACTTGAAATATATCTCCTGATTTAACATATTCTTTTGCCACTTCAACATTTTTTTCAAATCTTTTTTTATTTATATTCGAAGTTGGTTCTGTATATTTTATTGTTCCTATTTCTCTTTGTATAGTCAATAATTCTAATATATCTTTCATATTATTCTGCTCTGAATAATAATAATATGATTTGTTCTTTTCATGATCAAAAATTATTCCCTCATTGAATAATCCAAATTGAAAATCCGCAAATTCTAATTTCGTATAATCTTCTGATATTTTTTCCCAATTTCGTACTATATCATACGAAATATATCCCACTAATCCTCCTATTAATCTATTAAAATCATTTTTTACTTGATTTTCTTTTAATATTTCTCTTAATTTATTGAATAAATCATTTGAATTAGTCACATCTTCACTATTTTCATTCCCATCATTGACCACTTTTATGATGTTATTTTCTAAAGTAACTTTTAATGAAGGATTAAACCCAATATATGAAAATTCTGATAACTTTTCAGGTCCTAATATTGATTCCAATATGTATATATCATCAAACTTTTCTGATAGCCTAACAAATGTTTCAAACGGAGATATATCTATGTCTATTTCTATAAAGTTCACGCTGTTTAATTTATTTTCGCCAAAAACGATCGCCCATATTCACTCACAATTACATAGTCTTGTTTCTATCTATTTAAATAAATTATGGAAAATTCAATTACTTGGCAAAAATACTCAAAACATATTTTCATTTGATACCTGATTTGTTGAAGATGAAACCAAGAAGTTATATTCCAGTAAATAACGAGAAATAGATAGTATGTCTAAGCCTTATTACGTCAAAGTTGAAATTCCAAAAGAGATAGCTGAAGCAAGTTATGAAGCTCTTCGACAAGCAAAACAGACTGGTAAAATCAGAAAAGGTACCAATGAAGCTACCAAGGCTATTGAACGTGGAATTGCTAAATTAGTTGTTATTTCAGAAGATGTAGATCCGCCTGAAGTTGTTGCACATCTTCCTATTTTATGTAACGAAATGAATATTCCATTTGTTTTTGTTCCACAAAAAGAATTACTTGGTCAAGCAATTAGTATTGATATAGGCGCAGCAGTTGCTTGTATTGTTGAACCTGGTGATGCAAAAGCAACTTTGGATAAAATTATTGATTCATTAAATAATTTAAAAGGTTAGATTATAATTCATGAGCTCTAAAGAAATCCAAGAAGATAAAACACCTTGTGAAGTAATTCAAATCGTTGGACGTACTGGTGTTGCCGGTGAAATAACACAAGTTCGTGTAAAAATTTTAGATGGTAAAGATAAAGGACGTATATTAACAAGAAATGTTAAAGGTCCAGTTCGTATGAACGATGTAATTATACTTCGTGAAATTGAAAGAGAAGCTCGTAAAATAAGGTAGATGTTATTCTTTGTTATCATTAAAAAAATGTACTTTTTGCGGAAAAGAAATAGCATTTGGTAATGGTACTATGTATATTAAAAATAATGGTGATATAAGCTGGTTCTGTTCTTCTAAATGTAGAAAAAACACTCTTGATCTTAAACGTGATTATCGTAAATATAAATGGGCTAGGAAAGGAAAATCTGAAGTTTGACTACCAAAACACTTATTCTAATCAAACCTGACGGTGTAAAAAATCGACATATCGGAGATATTATAAATCGTTTTGAGGAACGTGGTTTTACTATTCTACATATTCGTATGTTAACAATGAATTCAGACCAAGCTTCTGATTTCTATTCAATCCATAAAGAAAAACCATTCTTTTCAGAACTTGTTGATTATATCACTTCAGGTCCAATTGTTCAAGTTGTATTGGAAGGTAATTCTGCAATTGAAGTCATTCGACAAATGGTTGGAGCAACAAATTCTCTTAAGGCCGAGTCTGGTACGATAAGAGGTGATTTTGGTTTGAGCCACACCCAAAATGTTATACACGCTTCTGATTCAATAGAAAGTTTTGAAAGAGAATTTAATATATTATCTAATATTTAATATAATAATTCTAAATAAAGACCCTTTACATTAGTTAATTATAGATGATCACTGATGAATTCTAAATTTAGACAACCGATTGTAGTAGTGTTGGGTCATATTGATTCTGGTAAGACATCCCTTTTAGATAAAATTCGAGGTACTGCAGTTCAATCGCGTGAAGCGGGTGGTATTACTCAACATATTGGAGCCAGTTTCTTTCCAATTGACACTTTAGAAAACCTTTGTGGTAATCTTTTGCAAAAAGTGGGAGGAAAAATTGATATTCCTGGAATTCTTGTTATCGATACCCCTGGACACGCTGTTTTTACTAATCTCAGAAATCGCGGTGGTTCTGCATCTGATATATCTATTCTTGTAATTGATGCCATGAAAGGCCTTGAAGTCCAAACACGTGAAAGTCTTGACATACTCCGAAAACGTAAAGTTCCTTTTTTAATTGCACTTAATAAACTTGATACAGTTCCTGGATGGCGACCATCTACAAGCTTAACCTCATCTCTAAAGCAATTAGATGATACTACTCGTAATAATCTTGATGGAAAAATTTACGACGTAGTTGGAGAACTATCTAGATATGGAATACAATCCGAAGCATTTTATCGATTAACAGATCCACAAAAACAAGTTGCTATAGTACCAGTTAGTGCAAAAACTGGAGAAGGAATTCCAGAATTAATATCATTATTAATTGGTTTAACTCAAAGTTACTTGAAACAAAAACTTACTGTAAGTAGTGATACTCGTGGTATAGTTCTTGAAGTTACTGAAGAGCCTGGACTTGGTGATACTGCTAATATAATTCTTACTGATGGCATTCTCAATAAACACGACGAAATAGCAGTTGCAAAAAAAGACGGTGCCGTTCTAACAAAAATCAAAGCTATATTTATGCCAAAACCACTCGATGAAATGCGCGATCCCCGTGATAAATTTACGCCTGTAGATCAAATAGTAGCTGCTACTGGAGCAAAAATTTCGACTTCTGATCTAGAAGGAGTTCTTGGAGGTTCACCAATAATTGGTATTGCTGATGGCAATATTGATTTAGTAAAAAATGAAATAGAATCAGAAATTAAATCTATTTTTGTTGAAACTGATAATGTCGGTATTATAGTAAAAGCCGATACATTAGGTTCCCTAGAAGCTGTAGTGGACACTCTCAAAGAGAATAATATAGCAATCAGTACTGCTGATACAGGAATGGTCTCTCGAAAAGATGTTATTAAAGCCCAAGTAATTACTGAGACTGACAAATATCTCGGTAGCATTCTTGCTTTTGGTGTTAAAGTTCTTGAAGATGCTAAAGACGAAGCAAATAAAAACGGCATAAGGATTTTCTCACAACCTGTTCTTTATGACTTAGTTGACGAATACCAAGATTGGGTTACTTCTGACAAAGAAAATATGCAAAGAACCGAATTAGATTCTATAATTCTGCCGTGTAAATTCCAATTACTAAAAGGAATGGTATTTCGAAGAAATGGTCCTGCAGTATGTGGTGTTGAAATTCTTGGCGGTTCACTAAAACAAAAATCTACTATAATAAACTCTGAAGGTAAAGAAGTAGGCGTTGTCAAACAAATTCAAGATAAAGGTGAAAACATTCAAAAAGCACCTAAAGGTAATCAAGTCGCTATTTCAATGAACGAACCTGTCATTGGACGTACTATTCGTGAAGGAGAAATTTTATATTCTTTGCCTAATGATATAGGCGTCAGATTATTAAAAGAAAGATATGAAGATTCATTATCTGAAGATGAAATCGATATATTAAACGAAATAATTAACTTACGTCGCCAAGTAGTCCCTTTGTATGGATTTTAACATTTCAAAAAGATTTATAGATATAAAAAAGAAGTGAAATGTTACTTTGGCAGAATTCAAAATTGTAGTTTCCGATCCCAAAACAGGTAAATCCATAACTAAAGAGATTAAAGATAAGTCTGCACAAACTTTGATGGGTATGAAAATTGGTCAAGAAATCGATGCTACCATTGTAGATATTGATGGAACTCTCAAAATAAGTGGAGGAAGTGATAAAGTTGGTTTTCCAATGCGAAGTGATGTTCATGGCAGTGGAAAAAATAATGTACTTCTAACCACCGGCGTTGGTTTTCGTTCTAAAGTTAAAGGAATGCAAAAACGAAAAATTGTTCGTGGCAGTATGATTTCTGATGAGACTTATCAGATTAATACCATATTAATAAAAGGCAATCTTATACTTGAATCACCAACTAAAGAAGCTAAAGCTGAAGAAAAGCCAACTAAAGAAGCTAAAGCTGAAGAAAAGCCAACTAAAGAAGCTAAAG
>sequence12
CAAAGCGTAAAGCAACCAAGAAGAAAGCTGCTCCAAAGCGTAAAGCAACCAAGAAGAAAGCTGCTCCAAAGCGTAAAGCTGCTCCAAAGAAGAAAGGATTATCTTCTGGTCTTGATGATACATTTCAGAATTGGGTAGATCAGCAAGTAGCCTTAATGAATAAGAAAAAACGTTAAGTTTTACAATTGAAAATAAAAGAACCATTAATATTCATTAATTTTAAAACATACCCAGAAGCTACTGGACAAAATGCTCTTCGATTAGCTGAAATTATTAATGATGTATCAAATGAATTTAAAATAACAATATTTGTTTCGCCGCAATTTACAGACATTAATCCAATAATTTCGAAATATAATATACCTATTTTTGCACAACATGTAGATTATGCCGAACCAGGTAGAAATACAGGTTATATAATTCCAGAATCGATTAAAAATGCTGGATGTTTTGGTTCATTAATTAATCATTCAGAAAAACCATTAACTTTGAACGAAATAGAATTAACAATAAATCGATGTAAAGAAACAAATTTGATATCTTGTTTATGCGCTAGTAATGCAGAAGAAACTGAAACTATAGCGAAAAAGCACCCAGATATGATGATTGTAGAGATTCCTGAGTTAATTGGAACAGGAAAAGCAATTTCTACAGTAAATCCTCAAGTAGTGCTTGATGCAATTAAGGTAATTAAAGAAATTGATAATGAGATATTTGTTATATCAGGATCAGGAATATCAACGAAAGAAGATGTAACGAAAGCTGTTGAACTAGGTATGCAAGGGGTTGGAGCTAGTAGAGCATTTTGTACGGCAGATAATCCTAAAGATGTCTTAACAGAAATGGTTTTAGCGTTAATTAAATAAAGTATTAATTTGTGGTTTCAGGAAGAATGATACTTCCTGCTAGAGCTATTGCAGCAATTGTTAAAACTAATGCGCCAAGAATAAACAGAGTTTCAGGTCGAGGTTCATTTTCTCTTATTTCTCCGTATTCATCACGGTAATTAGTAATAGCTTTTAGATTAACGACAACACCGACAAGCATTGCAAGCATACCGCCAGTACGAGTTACATCAATACCAGATTCTATTTCGCTAGGACCAGCACCTGGATCAGGACCCTGTACCATTACAGTTGTATTACTAAGTTCAATAGTAATTTGTTGGCCAAGAATACCAAGAAGAATAATAACAATACCGACGACGATTCTAATAAAAAATTTACGTTCTACTTTGGGATATTGTTTAGATGGTCCGCGATATTCTTCCATAATACGTTTGTCGTCGCTCATATTCTCCCCATAATAAAGTTTGAATAAATTGGTATTAAGTATATCTATTATGGTGTTAAACGAAAGTCTTCTTTAATTGTATTAAGTACAATTTTACTATTAGTACGTTCAACATTTGACATTGATAAGAGTTTTTTTGTGAAATCACTCATTTCATCTCGGGTTTTGAATTTAGATATAATAATTACGTCGTTTTCTCCAGTAACATCATAAACCGCACAAGTTGGAGATAATTTAGCAATTGCAGTTTCTACTTCTGTAAGTTTTCCTTTTGATACTGTGATTTCTGATATTGCTATTATTTCATATCCTAATTTATCATGATTTAAAATTACAGAATAGGAATCAATTATACCGTCACTTTCAAGTTTTTTTGTTCTTGTAAGAACTGTTCCAACGGCGAGTTGAAGTCTTTTTGCTACTTCACGATAAGATATACGGGCATCTTTAAGGTACTCAGCGATAATTTTCCTATCAGTCTCGTCAATTGAAGACATGGACTATTTATATAGTAATTGTTAAAGTTAAAGATTATCTATTTTCTAGCAAAATGTCTATAAATGAGTGCATAAAATAGGAATAAGGGGAAAGAAATTTGGAACAAAAGAATTTGTTATTGATTTTAGTAGTACTTGGTTTGGTAGTAATGATTTTAGGAATATTTGTAGTTCCACGGCAAATAAATTACGATCCGAGACCAGGATTAAAACCACAATTACTTTTAGATTTAGACCCTAATTCAAATGAAATGACACTATTTGCAGAGGGTATTACATCAAGAGATGGATTATTATATATTGCAGACAATACAGGAAAGATTTCCCGAATTGATCCACAAACTGCGAAAATGGAAGTTGTTGGTAAAGTAGAGGCTGATGGTGAAGGTATTGGTCTTTTTGGTATTAAGTTTGATCATGATGGTAATCTTTATGTTGCTACTGGACAACGTGGAGAAATTTGGAGATTATTGAAAGACGATATAAATGCTGCATCGCCAGGTAATGCAAAGTTATTCAAAGCTGGATTAAAATTTACAAATGACATAGCATTTGATGATTTTGGTAGAATGTTTGTGTCAGATAGTATTACTGGAATATTATGGGAAGTAGATATGAAAACTAAAGCACAAAAAGAATTTGCAAACCAATTAACATCTAGAGATCCTACATTTCCGTTTGGAATTAATGGACTTGCATTTGACGATGATGGAACATTATACTTTTCGAATACAGGTAATGGAGTAATTCATAAAGTTGAAACTAGAAAAGAAGATGGTGCAATAGTATCTGTAACTGTATGGAGATCTCATGAAGCATTAATCGGTGCTGATGGAATTGCTTTTGATAAAGCAGGTAATTTATGGATAGCAACAAATAGAAGAAATGCAATAATGGCAATAACTCCTGAAGGTGAGGGAGGAAGAAGAATTATTGAAGTCGCGAAAAATGACAATATGGGACCATTAGAATTTCCATCCAGTGTTGCATTTGCAGGTGAATCGTTATACATAACTAATTTTGATGTTGGAGGAATGGGTGATAATGAAGATAATTCATTAGGAATAGGTCCATCAATAGTTAGAATACAACTTGGTGTAGAAGGTTTACCAAGTCCTCCATAAGAAATAATTTATTATTACTCAGAATTGAAATTCTTTCGTACCTGGTCGTTTAAGTAATTCTTTTCGTTCAGCACCTGCAACAGAACGACGTGTGCGTATAACGGAATCAGGATTTGCACTAATACTATCAATTCCTTCTTTTACGAGTAATGCAGCAAATTCAGGGTATAAGGAAGGAGCTTGACCACAGATAGAGATTGTTATATCATTATTATGGGCTGCGTGAATTAGTATTTTAATTGCTTTTAATACTGCAGGATCACGTTCGTTGAAATAACCAAGATTGTATAATAATTCAGAATCACGGTCAACACCTAACATAAGTTGAGTTAAATCATTACTTCCAATAGAGAAACCATCACATAGCTTTGCAAAATCATCAGCTTGAATTACAAGACTAGGGGTTTCTGCCATTAACCAAACTTTGAAATCAGTAGTACGTTCTAACCCTTCTTCTTTCATAATTTTTAATGTATCTTTAACTTCAGATAGTGTTCTTGCAAATGGCAACATAACCCAAACATTTGTCATACCGCTGTCACGTAATTTTTTAATTGCTTTACATTCTAAACGAAAAGCCGGTTCATAATCAGGACTAATGTATCTTGAAATACCTCGCCAACCAATCATTGGATTTTCTTCAGGGGGTTCATATTTATCTCCGCCTTCAAGTTTACTATATTCATTTGTTTTAAAATCACTAAAACGAACAACAATAGGACGTGGAAAGATTGCACTAGCTACTTTATTAATTCCGTTAAAAAGTTCGTTAACAAATTTTTCAGATTCATTATCTTCAATTAGTTTTAATGGGTGTTTAGAAATTTTATCGGCAATAAGAAATTCAAGTCGCATTAATCCAATTCCGTCGAATGGAAGGCCTTTATACTTTTCAATAAGATCAGGAGAACCTAGATTCATATAGATTTGAGTAGCAGTTACTGGCCACGATTCACTTTCAAAGGAAGATGATGGTTCAGATTGACTTTCGATTTCAATTTTTCCATTGTAAATACACCCAGCAGAACCATCTATAGTAACTTCTTGTCCAGTTTTTAAGAGAGTGGTAACGTCTTTCACACCTACAATACAAGGAATTCCTAATTCGCGAGAAACTATAGCCGCATGGGCAGTAGCTCCACCTGATTGAGTAATAATAGCGGCGGCGCGTTTCATAATAGGTGTCCAGTCAGGAGTAGTCATTTGAGTAACAAGAATTTGATTATCTTTAAAACTGGAATTATCTTTTATGTCTAAGATAACATTTACATTACCAGAACTAATACCTGAAGAAGCTCCTATACCTTTTAAGAGAACGTCAGGGTTATCTATAGATTTTGAAGTTACTGAAGAATCAATACCATGAACAGTTTCAGGACGAGCTTGGACGATAAAGACATTATTAGAGTCTTTTTCAAGTACCCATTCTATATCCATGGGTTTATCATAATGCTTTTCAATTTGAACTGCAAAATCAGAAAGAATTTTAACTGTATTATCATCAATCGATGGTTTGTTTTGTAGATTTAATGGTACATCAATTTCTGTAGCAGAGGCTCTATCAGCTATAGCGAATTTTCCTTGAGTAACTCCACGAATTGTCATAAGTTTTTTTGTATTAATATTCTGAGACGAAATAGTTAGATCAGATTTATCAATAAGAAAAGAATCTGGATCTACTTTACCTTGTACAATTGTTTCACCAACTCCCCATGAACTTTCGATATAGATTTCATTTTTAGTTCCAGTCACTGGATTAAGAGTGAACATAACACCAGCAGATTCAGGATCTAACATTTTTTGGATAGTAATGCTAGCTAAAACAAGAAAGTGATCAAAGTTCTTTTCATGTCGATAAGATATAGCACGTGATGAAAAAACAGAGCTAAGACACTTCTTAACAGAGGTAAGAACGTTATCAATTCCTTTAATGTATAGAAAAGAATCCATTTGACCTGCAAAACTTGCAGTAGGAAGATCTTCAGCAGTGGCACTACTTCGGACTGCGACTTCTATATCGTCACCCAAAGAAGCATAAGAAGAAGAAATTGCAGATATTAAATCGTCAGGAAGAGGAATACCTTCAATTAATACTCGAATTTGCTCACTACAAGAATTTATTGAATTAAAATCATCAATGTCCATATTATTTAATATTTCATTAATTTGTGTCTTGACTTCAGTATCTATAACCATTTGTTTATATGCTAAAGTAGTTATTGCAAACCCATCAGGAACAGGAAGTCCTGCATTAAGTAATTCACCAAGATTTGCACTTTTACCACCTACCAAATCTCCATCTTTATTATGGAGCGACTTAAGAGGACGAATAAAGGTACTTGACATAGTCAAATAATTTATAACTCAAATTCTATTAAAGATTACGACATTTTAATTATCCGGAAGAAATTTTCAAATATAATAATGTTGTTATGTTTAGTACTTGCTATACCAAATTTATTTTTTGATTTTATTAAATCCATATCTGATTGTTCCAATAATTATTTTCGTTCTTAATTTATTCTTTTATTTTTTTATTGAAAAGAAAAAAGAATTACAAAGATCAATCTTATGGGGAAATTTCGCAATATTATTTGGAATAATATTTTTATTTTTATTGAGTCAATTAGAGATTCAAACATTCAGAGAAGATATAGGTATTTGGAAGAGTATTGCGTCTGTAATAGTGTGGATTGGGTCCGTTTATTCGGTAATGTTAATAATATCAGAAATTAAGTCTTTGGAGAGAAAATAACATGATTAGAATTGAAACTGTAGTAAAAAACTTTCTAAAATTATCGGTATTAAACACAATTGTTGCAATAATATTTTTATTCCCTATTTTAATTCCACAATTAGCTTTTCCAATATTAATTACTGAATGGCCAGGAATCTATATGGTGTTAGCATATTTTATATTTTTATTTTCAGCAGTAATTGGATTTATTGCATGGACATTTGTATATTATTTACTTTGGAAATTATATGAAATAAAATTTGTAAAGAAAAATTTGGTATATGGTCAGATTATACTATCTGAGATTGGTGCATTGTTAGCATGTATTTTTATGTATTGGGGAGGTTACGTAGGTTCATCTGCAGCTTATTCAGGTATGTCAGAATTTGTAGTAGGGGTAATAATGGAATTTGCAACTATACCAAGTGGATTAGGAATTGGATTAATTTTGTTTGGTAATTTATTTGGAATATTAAATATAATATTAGCATGGAATAAATAGCGGTCAGTTTCGTCGCAGTGTCCTCATAATTCAGACTAAAAGAGGATCAATATCCTGGAGCTTCATCTGAACTCAGTCTGGGGCGACTAATACTTCATCCCAAATATAGATTGTATTTAGATAATTTAATTCTTTTTATTTTTTATTGATTTTAAAGTGCCAGAGATTTGAATAATTTTAATATTGTGACTAGTTAATTGTTGTTTTATTTCATTCAATTTATCTAAATTAACTTTTAAAATTATGGTTTTGCTAAAGCTATTTCTAATAATTTTAGTATATTTAAGATTCAATAATTTAATATCTTCAATATTATCTTTGTCAGTTAATAGATATCTACGTTTTGTCTTCAAGAATATTCACTTAATAATTCCTTATACAATTTTATTGCGTTAGTTTTATTTAATTTATTTTTTGGTTTAATTTTAATTCGAACAGAATCTTCATATGAAAGTGTTAGAATATTATCAATTATATCTTGTTTATTAAAGCGTAAATATAGAGTAAATTTATCATCGAGATAATCAAGTAGATTAGTATTGAGAATGGAAAGATCATTGATATTAAGAGATAATAAAATTTTTTCAGTGATTTCGTCTACACGATTTCGAATAAAATGAGCCCGAATTAGTTCAATTTTATTACCATGGTGGCCCTCGGTTATTTTTTTATTGAAATCAGTATCAGATACATCTAATATACTGCATAAATTGGATAGAAATTTAGTAGTATTTTCAGTTTCATGAATGATAAAAGTAATCTCAACGGTTCGAAAAGCCAATTTATTGTATGTTTTTTTCAATATAGTTAGAAATATATTCATAATTGCGAGTCTTAAATGTTAACTAATGAAGTCAGGACAAATTTGTATAGGATTAGAATCGACAGCACATACATTTGGAGCGTCTATCGTAGATTCTGATGGAAGGATATTTTCTGATGTAAAAGATATCTATAAAGCTCCAAAAGGTTCAGGAATTCATCCTCGCGAAGCATCGAGGCATCATTCAAATATTGCTAATGAAGTAATACAAAAAGCAATTGACCAGGCAAAAATCAAATATACAGAACTAGATATTGTTTCATATTCTGCAGGACCTGGAATTGGACCATGTCTTCGAGTTGGTGCAACTGCTGCAAGAGCTCTATCATTAAAGTTAAAAAAACCTCTTGTTCCAGTGAATCATGCAATTGGTCATATTGAATTAGGATGTTTATTGACAAGTTCTACTGATCCTGTAAATCTTTTGGTTTCTGGAGGTCATACAATGATTTTAGGATTTAATTCAGGAAGATGGAGAGCATTTGGAGAAACTTTAGACTTAACAATTGGGCAACTTATTGATCAAATAGGTAGATATGCAGGATATAGTTCTCCAGCAGGAGCAACAATTGAAAAATTAGCAAATGAATCAGAAAATTATCTTAGATTACCATATTCAGTAAAAGGAAATGACGTTTCATTTTCTGGAATGCTAACTAGTGCAAAAAAAATGATTGATAAAGGAGAGAAAATAGAAGATGTATGTTTTTCGTTACAAGAAACATCATATGCAATGTTAGCTGAAGTTACTGAAAGAGCTTTATCTTTCTTAGAAAAAAAAGAAGTAATAATAACTGGGGGAGTAGCTGCAAGTACAAAATTAAAAGAGATGTTGGAAATTATGTGTAAAGAAAGAGGAGCAAAGTTATCTGTTATTCCTAGAAATTATGCAGGAGATTGTGGTGCACAAATTGCATGGACTGGAATATTAGAATATAATAGTGGAACACAAGTTTCAGTGGATGAAAGTTGGGTTAGACAGTCGTGGAGATTAGATAGAGTAGATGTAAAATGGCGAAAATAATCAATATAGGTGCAGAAGCTACAGTATCTATTACTGAATGGTTTGGGGAATCGGCTATTTCAAAACGTCGAGATATTAAGAAATACAGACGTCGTGAATTAGACGAATTTATAAGATCGAATAGAACTTTGAAGGAAGCAAATATAATAAATAGAATTAGAGAAAAAGTAGATGTTCCAAGTATTTATTTTGTTAATTTGAAACAATCAGAAATAATAATGGAAAATGTAGATGGAATAAAAGTAAAAGAAGTATTAATGAAGAATGAGTCAAATAAAGCAGAAATAGGTAAGAATATTGGAAAAATTGTCGCAATACTACATAAGAATAATATAATTCATGGAGATTTAACAACGTCAAATATGATAATAAGAGAAAATGGTAGCATATGTTTAATTGATTTTGGTTTATCTACTACAAGTAAAAAATTGGAAGATAAAGGAGTCGATATAAGATTGTTTAAAGGGATTTTACAAAGTGCGCATAATGATGTTTTTAATGATGTGTTTAATAATTTTAAAAAGGGTTATAAATCGATTATGAAAACTTCTTCAGAAGAAATTTTTGCAATTGTAAAAAAAATTGAAATGAGAGGTAGGTATGCAAGAGTTGACTAGTAAAAAAATTAATTTAGCAACAAAAAACATGGACAAATATGAAGAAATGAGAGACATATTAGGTAATTATAAATTAGATCTTCGAGTTGTGGATTTAAAAGGTACCGAAATACAAGCATTTAGTGTATTATCAGTTGCTGAATATTCGGCAAAAGAAATAGCAACAAAAACTGATGAAGCATTTATTGTAGAAGATTCAGGAATATATGTTAATTCATTATATGGTTTTCCAGGACCATATTCATCATTTGTGTATAAAACAATTGGATTAGGTGGAATTGTAAGATTGTTAAAAAATAGAGATGATAAAACTGCAGAATTTCATTCAGCTATAGTCTATGGAGAAAATGGAAAGGTAATAAAGAGTTTCATAGGTATTTGTGAAGGAACAATATCTACTGATTTACAAGGAGAACAAGGATTTGGATATGATCCTATTTTTATACCAAAAGGAAAAAACAAAACATTTGCAAAAATGTCGTTAAGTGAAAAAAATCAAATTTCTCATAGATCAAAAGCTGCTCGAATATTTGCTGAATGGTTAGAAAAGAATCAATAAAACGTAAGACTTATCATTAGAAACATCATATATTTGGAAGAGAACAATTGACTAGAATACACGGAAATAGTAAAGGAAAATCACAATCTATGAAACCATCTACTATGAAGTCTGATTGGGTAAAGGTTACTCCTGATGAAATTGGAAAACTTATTATTGAAATGAATAAAGAAGGACTAAATGCAAGTCAGATTGGAACTAAATTAAGAGATGAATATGCTGTTTCTTCAATAAAAGCAGTTACTGGAAAAAAAATGAAAGAATTCATGGAAGAAAATGGAGTAAAACAAGAAATACCAGAAGATCTTGAAGCGTTGGTAAAAAGAGCTGTAAGTTTACAAAATCATTTAAAGTCAAATAAAGGAGATAGAAAAAATGTACGTTCATTAGAATTATTAGAAGCTAAAGTACACAGACTTTCTAAGTATTATAAAAAGAAAGATATTATTCCTAAAAATTGGAAGTATAAATCAGTAGTTGCTCAATTAGCTTAAGTTCAAGATATTAATATCTAAAATAATAGATATGAAAAAAAATATAGAAATTGACATTAGTATAAAATTCAGAAATAAGTCTTCAGCAGTAATTATAGCCAAGTCATTAGACCCTGATAATAAAGATTTTCCAGAAGGATTGACTATGACTCAGAGTGTAAATAATAATATTTTAGAGATAAAATTCAAATCCAATAACGTATTAGAAACTTTGTTAAATACTGTAGATGAGGTTTTATCAATGATTGATATGACAAGTAAAACATTGGAAAAGGTGGAATAATTTGATTGATCCAAAATTAATGAGAACGGATCCAGATACAATTGTTAATATGTTGAAAAGTAGAAATGTAGAACTAAATATCTCAGAACTCCTTGAAGTTGATAAAAATAGAAGAGGATTAATTACTGAATTAGAAGCTTACAAGATGAAAAGAAATAAAATTTCTCAGGAAATATCAACGAAGAAACAGCAGGGAACAGACATATCAGAAACATTAACAGAAATGAAGAATATATCCATAAAAATTGAAGAATTACAGAGTAGTGTAAAGTTAATTCAAGATGACTATCATAACCGGTTAGAATCTATACCTAATTTAGTACATGATTCAGTTCCAATTGGAAAAGATGAAAAAGCAAATAAAGAAATTGAAAATTGGCAGCCTAAAACAGGATTAAATAACAATTCATTAGATCATATAGAATTAGCTAAAAAGAATGATTTGATTGATTTAGAACGAGCTAGTAAAATTTCAGGTTCACGATTTTATTTTTTGAAGAATGCATTAGTAAAAATGAATTATGCACTCATTGCATTTGCGCTTGATTATATTAATAAAAAAGGCTATGCCATGTTACAACCTCCTTATTTAATGAATAGAAAGCCAATGAGTGGAGCAGTAATATTATCGGATTTTGAAGAGGTAATTTATAAAATTGAGGATCAGGATTTATATCTAATTGGAACTTCGGAACATGCTTTAGCTGCAATGCATTCAGATGAGATATTTTTAAAAGATGAGTTGCCTAGAAAATATGCATCAGTAAGTCCGTGTTTTAGAAAAGAAGCAGGATCACATGGAAGAGATACAAAAGGAATATTTAGAGTACATCAATTTGAGAAAGTAGAAATATTTTCTATTACAGATCCAGAAAGTTCTTGGAATCAACATGAAGAGATTTTATCAGATGTAAAACAGTTTTACAAAGAATTAGAGATACCATATAGAGTCATGTTATTAAGTTCAGGAGATATGGGAAAAGTTGCTGCGAAAACTTTTGATATTGAAGCATGGTTGCCAGGACAAAAGAACTATAGAGAATTAGTTTCATGTAGTAACTGCACAGATTTTCAGTCTCGTAGACTAGGTATAAAATTTAGAAATAAACCGCATGAAGAAAGCATATTGACTCATACACTAAATAGTACATTAACGGCTACAGAACGTACTTTAATTGCAATAATAGAGAATTTTCAGAATGAGGACGGGAGTATTACAATTCCAAAAGTGTTAAGAGGTTACATGAATAACCAAAAGGAAATAACATCTACTTAGATTTAGAAAGGTTTGTAATTTCTCTAGTTAGTGTATTAATTTCTTTATCCTCTAAACCTAAACGGAGTAGAAGATTATCGCGATTGTGATATTTTGATAGAATTATAATAAAATAAGGCAGTATATCAGTTAGATTATTTGTGGATTCGTTAGTGTATTTATTTAAGGATTGTACAATTGTACGAAAGTTTCTTCCGTCATTCCATATACGAACTTGTAAAGGAAATGGATTGTGATATAAACTGAATTTAATTGGATAACGGGATAAAGTTTCAAATAATGAATAAACAAGAAGATTATTGAAGTATCTTAGTTGTCTCCATTCACGTGTTTTTAGGATACGACCTAATAGTAAGTCAATATCAGATAGTATTGAAAGGATTTTTGATAATTCATGTTTGGGAACTACTTTAGAACTTGAGACTACACTACTAAATATTGCACGTAGTATATCATTGGGATTAGAATTAGTATTAAGAAGAGAATTCATTGCTGCAGGCATGTCTTCAGAAGTAAGATATTGACGAATTCCTTCGTCAAGAGATAAGGATTGAGAAATAAATGAACGTGATTGTTCTTGAGTAGAATTATATGTTTGAAGTGCATTAATGGCATAACGTAAATCGCCATTAGAATTAGTTGAAATATTGATGATTTCGTCAAGAGTAATATCAAGGTTTTCGTTTTTTGCAATAGATTCTAATACTAAACTGATTTGACGTGCGTCAATTTTTTTAAATTTAAAAATCTGACATTTTTTAATTAATTTAGAGAGTTTTTTAGAATTAGATGAATTACAAGTAATAATAATTGGAACAGATATACTATCAATTGTGTCAATAAGGAAATCAACACCGCCATAATCTGCTCGTGAATCAAGTCCATCTACTTCTTCTATCAATATTAGAAGTTTTTCATTGAATAGAGTAGTAGATTGAAAAAGAGGTTCTAACGAAGATTGAAGGCTATTTTTTGTTCTTTTATCACTGGCATTAAGCTCAATTACATGATAATCAAGTTCGTCAGCTAAAGCATATGCAAGAGAAGTTTTTCCAATTCCAGGACTTCCTTGTAAAAGAATAGGTTTGGAAGAGTTATCCCAAGTACGAAGCCATTTATTTATTTTACCACGAAGTTCATCATTACCAGCTACTTCTCCAAGAACTTTAGGTCGATATTTTTCAGTCCACATTAATAAACACACTCACCATACAATTATACTATTTGCAAGGAAAGTAATTAAACCAAACAACATGGCATAAAGAATTAGTTTTTTAACTTTCAGTGATTCAGATTTTGAATAATTTTTAGAAAGTATGAATACGGAATACAATAATATCAAATCAGTCAGTATCAGTAATGGAATATAATAAATTTGAATTAGATTAAAGTAAACTGGAATAAATGAAACAAGAATAGAAATTATAATAAATCCACAAGCAACAAGCATAGCATTACGAGATCCAAATTGAATAGAAACGGATTTTATACCTTTAATTTTATCGCCGTCGACATCAGCAATTGTTTTAATTATTTCTCTTCCCATTCCAGAAAGAAAAGCAATTAAAGAGATTGACCAAACCAATAATGAAATATTACCAGTGATTACACCTCCAAAAATAAATGGGATTGACATTGAAGAGGCAACAATTGAATTCCCAATTATTCCCTGTTTCTTACCCCATATATTATAAAACCAAGATAAGAAAGAGAAAATTACAGTGATAATGAGATGATAATAAGAGATAATCATTGAACTAGTAAGACCGATTAATAGTAAAATAAGAGATAACGATAGTGCAAAATTAATTGAAATTATTTGCTTAGCAAGAGGACGTTCAGGTTGATTTACTTTATCAATTTCAATATCGTATATGTCATTAATTATCATAGAATAAGATGAGATAGAGAATCCAGTAATGAATCCATAAATTGATAATCGGGAAAATAACATATCAGGAGAACCAATTGCAATTCCTACTATAACAGCTAACCCAATCATAAATGAATTAATAGGACGAATTAAAGAAAGTAAAGCAATTAAATTAAAGTTCAAAACAACTCACGAAAATGAGATTTAGACAGATGGTAGTAAATAACTTCACCACGTCTTTCTACAACTGCAATAATAGGAACTTTACCCATTCTAGAAATTTGTTTAACAGAATCAGTTAAGGATTTTATATTAATTTCATTGCCTTCGTTCATTGCAAATACAATATACTTTGCGGCTTTGGATCCGAAGTTTCCTTTATCATAAACACGAAAATCAGCACCAAAACCAAATCCTTCTTTAGCTACATAACCACGAGTTCTTATATCTCTGTAAATTAAAAATTTAGTCCATGCGTTTTCATCTCTTAGTAAAGCGGTATGTAGAACATCATTAAAACTTAATTTTTTTTTGTCTTTTATTACGTTGAGTTTAGAAGAATAAATCAAATATAGTGCTTCATAGTCTCGTAACAATAATCCATGTTTTTTCCCCTCGCCAAAACCACGAATCTTTAATTCTTGACGAGAATCATTATCTTTAATCATAAATCCCTTATTGCTCTCAATGGCTTCAATAATATCAGTTGTTTCTTCCACTTTACTAATCACTTATACAAGAAAATCTATGAACTTATAGTGAATATCCTTTTCTCATTAATTTGTACTTTTATATTAAATTACTTCAATAATGTTGGGCCCGTAGCCCAGCCCGGATAGGGCGTTGGTCTTCGGATAATTAGGAGATAACCAAAAGTCGTGGGTTCAAATCCCTCCGG
>sequence13
GACCATTCTTTAAAATGTGTAGACCAAATTGCTTTTCCTGCAGTAGCACCACGCATTTTTTCAGATAAATCAAAGGTTTCTGCAGCAGGAATTTCGCCATGTATTACTGATAAATGAGCCTTTTGAGTGATTTCGCCTACTTTGCCACGTTTTGAAGAGATAACTCCAGCTATTTCACCAATTAAATCGGAAGGTGCTTTTACTTCAATCGCTTGAATAGGTTCAAGTAAAGTAGGAGTTGCAGATAATAAAGAACCAAGTAAAGCACGACGAGTAGCAGGCATTAATTGTGCATAACTACGATGCGCAACATCTTCGTGAGGTACATAATGATGGAATGTAGCTTTTACACCTCGAACATTCTCATATGCTATAGGTCCATTACTCATTACATCATAAAATCCTGCACGAATAGAATCCATTGATTCTTGGACATATTGAACACCTTTAGTAGCATCTACAAATATATTACCACCTGTATCAATAGTAACAACGCGTTTTGCTTCGTCACGTTCCCATCCTTCATTTCGTAAGATTTCAGCAAGTTCTTTCTTGTCTGTATTATCATTAATTTTACCTGAACGAATTAGGTCGATTACTTTTTCGGATAATGGTTCAACTCTTAAGAATAATTTATTATGTCTATTTGGGGATTTTGCCATAATAGGTCCAGCTTGACCAGAAATGGTTTCACGATAATTAATCAGCGGAGGGGAAGTAATGATTTCAATTTCTTGTTCTTTTAACAGATTAGTAGCTACATCAAGATGAAGTACGCCCATTCCTGCAATCAACATTTCACCACTTTCTTCATTAATTTTTACAATAAGACTTGGATCTTCAATATTGAGTTTTCGTAAAGCTTCGACCAATTTTGGTAGTTCCTTAGGATGTTTAGATTCAACGGCAATAGTGACAACGGGTTCAGATACATATGCAATAGATTCAAATTGTGCAAAGCCTTTTGTAGAACTGAGAGTTTCTCCTGCACGAGCATGTTCTAGACCTAACAATGCAGGAATATTACCTGCAGTAAATTTACCAACCAATTCACGTTGATTACCCATGAACATATTTACAGATTGAATTCTTCCATTTCGTTTAGCGCCCAAAAGTTCTACTGTATCTCCGTCCTTTAATGTTCCAGAAAATAATCTTCCAGTAGCAACACTGCCTGCATGAGGATCAATATTGATGTTAACAATCATCATAACCGCAGGGCCATTTTCATCACAATTAATTAGTGCTTTTCCAATTTCGCTATCTAAATCACCTTTCCAGATTTTTGGAATACGATATTTTTGGGCTACATGAGGAGCAGGATGATGTTGAATAACCATTCCAAGAATAGCTTCGTGTAATGGTGATTGTTCAACAAGTTCGTCGACTTTATCATTATTATATGCGTCAAAAATAGTTTTGAAATTAACACCAGTCTTTTTCGATGTTGCAGCGCTGAAAGCCCATTTATCTTTTGCAGATCCAAATGCGATGCTGTTATCTTGAATACTGACTTTCCATTTATCTTTTAGTTCAGGTTCAGCATATAGATCAATTAACCTATTAAATTCGCTTATTACACCCATAAGATGTTCTTGCATTTTATCAGGAGTTAGTCGTAATTCTTTTACTAATCGATCGATTTTATTAATATAAAGAACTGGTCGAACACGTTCTTCCAATGCCTGCCTTGTTACAGTTTCGGTTTGAGTCATAACACCTTCGACAGCATCAGATACAACAACTGCCCCGTCAATTGCACGAAGACTTCTTGAGACTCGCGTATTAAAATCTACATGGCCAGGAGTGTCTATCATGTTAAAGACATATGGCATTCCTTCTTGTTCATGGTATAAAGTAATATTAGTGGAATTAATCGTAATACCTCGTTTTTGTTCCATATCCATGGTATCTAATGCAAGAGCTTCTCCTGCAACACTAGGACTAATGATACCACAACCAGAAAGCAAACTGTCACTCATAGTTGTTTTACCATGGTCGACATGAGCAATAACACCAAAATTCCTAATTTGGTCTTTATTGCCGATAACTTTCATTATATCATTAGTGGATTTGTATTTTGGCATTCACTACACTGATATGTTAATGAAAAAGATACATTATTAAATTCTTTGGAGAAGATTGAAAATGTTTTCAATTGAATTTTGGTAGATATCAATTGAAGTAAGGAATTCGTCAATCATTATATGTTCGTCAGAAGTATGAGAAAGATGAGGATTTCCTGGTCCATAAGTTATTACAGGAATATTCATCTGATTTCCTAGAAGATTCATATCACCGGTACCAGTTTTGTTGACAAATTTAGGCTTGGAATTAAGTTTTTTAATAATAGCTCTGCTCACAGCACGACTAACAATAGATGATTTAGAACATTCAAAAGCAGGAGTAGAGTCAATAATTTCATAATTAAAAACCGGTTTTGAATTTTCTGTAATAGAATATTTTGAATTATAATTTGATATAATTTCTGATATTTTTTGAGTAATCTGATCAGGATTATAATTGAAAGGATAGCGAATGTCACATATCAAATGACAGTTTCCGGGCATAACGTTGTCTGCAATACCTCCGTCAATTTGAGTCAAACAGGAAGTAATTTGTTTATAATGATTATTGTTAGTAGTTTGTATTTCTTTTTGAATTTCATTCCATAACATAAACAACAATTCTATTGCATTATGAGACATCCAAGGTGCGCTAGCATGAACAGAAGGAGTATCACAAGTAAACTTAATAGAATATCTTCCTTTATATCCTACAGTAATTTTATCAATGCCGCTAGGTTCACCAAAAATAGCGCAATCAGGTTGAATACCGCCTTTAAGCAATTCTCTAATTCCTTGGCCAGTACCTTCTTCATCAGTTACTGCAGAAAAAAGAATTTTTCCAGAACTTAACTTATCTTTAAATGATGATGCAGCTATGAGCATTGAAATTAATGAAGATTTAGCGTCAGATGCGCCTCTGCCATAAAGTGCATTATCTTTTATTTGAACATTAATTTGACCTGGAACAGTATCCATATGTCCACAAAGGAGCAAGGTAGGAGAACCGCTACCAATTTCACCAAATACGTTATTTGCAGAATCACGATGAACATTATTAAAACCAAGAGTAGTTAATGTATCAAATAAGAAATCAGAAATATCTTTTTCTTGTCCAGAGGGAGAATAGAGTTTCAAAGCATTTTCTAATAAAGTAAGGTGATTATCACTCAATGTGATTGTGAAATTCTTAATAGCTCCTGATGAAACGAGTTTTTCTATACGAGCACGAACACTAGATTCTGATAGATTTACCTGTTGAGCAATTTCAGTATTAGGAGTTCTAGAATCCTTAGTAAGAATTTTTATTATAGTTTTATCAATATCGTCCATTTTAATCTAAGCCTTTTTTGAATTTTTGAGTAAAGTGTTTAGAATTTGTAATGCAGAATTAACTTGTGCTTCATTCAATGTTAGTGGAGGAAGAAATCTCAGGATTGTTCTTCCAGAATATAACATAATTAAACCATTATTCAAACCATCAAACAAAATATCCTTAATTGGAAATTTTGATTCTAAAGCAAGCATCAAGCCGAGTCCACGAACATCACGAATAGAATCATAATCAGATTTTAGTTCTTTAAGACCACTAAGAAAGACTTTACCTGTTTGTTCGACATTAGAAATAATATTTTCATTTAGTAAGAATTCAATAGATGCGTTGATTGCAGATGATGTAATGGGATTACCACCAAACGTAGTAGTGTGTTCTCCTAGAGAAAAGTTTGTAGAATCACTTTTTGAGATCATTGCGCCAACAGGCATGCCTCCTGCCAATCCTTTTCCTATACATAAAATATCTGGCTTTAAGCCATAATGTTCATGAGCCCACATTTTACCCGTTCTACCTAAACCAGTCTGAATTTCGTCAATAACCAACAATACATTATGCTTTTCACATTGTTCTTGTAATTGCTTGAAATAGTCAATTGATGCAAATTTGACGCCGTTTTCTCCCTGAATTACTTCAAGGAATAATGCCCCAGTATCATCATTAATTTTTGATAGGGAATCAGAATCACCAAAAGAGATGAAATCAACATCGTCAAGAAGAGGTTGAAATGATTTTTTGTATTTAGGACTCCAAGTCAGAGATAATGAACCAATTGTTTTACCATGGTAAGAACCAGACATAGAGATAATTTTATTCTTTGAATGTTTTTTGCACAACTTCAATGCAGCTTCTACTGCTTCAGCACCGCTATTACAAAGATAGATATTATCAAGATGTTTTGGAGTGATTTTATTAATATTGAGTGATGCTTGAGCTCTTTGTTCGTTGTAAAATGAACCATGGCAACTTGTTAGTTTTTTTGCTTGATCACTTATTGCCTGAACAATTTTTTCATTTGAATGTCCCAACAATGACACGCCGTAACCTGCCATTAAATCTAAATATTTTTTACCTAAAGAGTCCCAGACATAACAATCGTCTCCCTTATCAAGAATAATTGGGAATTTTTGATATACAGGAGCTAGATATTTGTCCTCAGAGTTAATTAATTCTTTATCATTCATTAGTAATCACCGTACAATTAGAATGTCTTACAGCTGAAGAAATTGGATTATCAATAAGTCCAGAAGCAATAATTCCTTCATTAACGCCATTTTCCAATGATTCAATACAAGAAATTAATTTTTGTTCCATTCCAAATCCAAGTTCAGGAAGAATTTCTTTAGATTGCGAGAGGGTAAGATTAGACAGAAGTTTGTCATTTAACGATATCCCATCAACGTCGGTTAGAAATATAACACGATCGGCGTTGAGGTGAGCGGCAATATTAGATGCAGCGCGATCGCCATTTACATTCAAAACTTCGGATTCGTCACTGAGTGCAACTGGAGATATAACAGGAAGATAACCAGATTTAATCAAATCAGTAAGTAATTCAGTATTAACATCTTGGATTTTACCTGTAAATCCACCTTCAATAGCTCTTTTTCTTTTTCTTTCATCGATAATCAAGAGTTTTTTCTTACGAATGGCCTTCAATATTTTACCGTCAATTCCTCCTAATCCTACAGCATTAACACCTAAAGATTGTAATGATACGACAATTTCTTTATTGATTTTTCCACACATAACCATCATGAAGATAGATGCAGTTTCTTTGTCAGTATATCTGCTTTTTACACCAGATGGTGAAACAATGAATTCTTGTTTCTTACCTAATTTCTCTGCAACATCAGTTACAGTTTTTCCTCCTCCATGAACAACAATAAGGGGTTCGGTTTCTGAAAAAGTCTTTATATCGTGAAAAAGATTTTCAGTTAGACCTTTACTATGTAGGCTTCCGCCAATTTTTACTACAGTTACCATTTAAATCACATTGGATGTATTCCAGGAGTCCACAAACCGGTAATTTCGTCAAATCCAGACATTAGATTCATATTTTGGATTGCAGTTCCAGCAGCACCTTTAATCAAATTGTCTGATGAAGACATTATAACAAGTCTAGATGCAGATTTATCATATGCAAATCCAATATCACAGAAATTAGACCCGACAAGAAGTTTAGGATCTGGATATTTATACAAACCTTTCTTATCTGCAATAAGTCTAACAAAAGGTGAATCAGAATAAAATTGTCTAAAGGATTTCCATATATCAACTTCAGTAATATCTGGATTAAGCGAGGCATATGACGTACATAATATTCCGCGAACAAGATTTACTGAATGAACAGAAAGAGATACATTTACTGAGTTATCAGACAGATTTGAAAGTTCTTGATCTATTTCAGAAGTATGTCTATGAGCATAAGGTTTGAATGGACGAATTACACCGTACCTATTAGCGTGATGAGAACCAATGGTAGGTTTGACACCAGCTCCAGATGAACCAACTTTTGAGTCAATAATGATATTTGTAGAATTAATTAAGTTATCATGAATTAATGGTGCCAAGGCAAGAATTGAAGTCAAGGCAGTGCACCCAGGAGTAGATGTAAATTTACTAGACTTTATTGAATCTCTATGAAGTTCAGGCAATCCAAAAGTAAATGAATTTAACAAATCAGGAAGAGGATGTTTAAATCCATACCATTTATCATACATATCTGGATTGGAAAGTCTATAGTCTGCACTCATATCAACAATTTTTACACCACTATTAACAAGATCATGCATGAATTCATACGAGCTGCCATGTGGAGCTGCAGTAAAGAGAAGATCACATTGATCAGAGACTTTTGATGAATCGAATGAGGAAAATTTCACTTCTGTGAATCCTTTCAAGTTAGGATGAACTTTATACAAGAACTGACCATCATATTGTCTTGACGTGGCAAAAGAAAGGTCTACTTCAGGATGATTAATGATTAATCTCAATAATTCTCCACCGACAAAACCAGATGCACCCATTATTCCAACTTTCACTACAAATCACCTTTTTGAAATATTATTAATATAGTCTACAATTTTGTATGCTATATTATCTTTGGTAAATTTTGAAACACCTTTAAACTCAACGTTATTATTTATTTCATGAACTAAGAATCCATCATCACTTTCCATTAGATCAACACCAAGTATACCACCGCCAACTGATGATGAGGCTTTAAGAACAATATCTTCCAATTCTTTGGTAATAGGGCAATTTTCAATTTTTGCTCCAAGTGAGAAATTAGTTCTCCAATCATCGTTAGAAGAATAACGATATTCGGCTCCAACAACTTCATTTCCTACAACAACCGTTCTAATATCCCTTGGAGGTCTTTTGACATGTTGTTGAATATAGAAAATTTTTGATAACAATCCATCGTCATTGTATCTCATCTCAATTAGAGCTTTAGCTGAATCCTTATCATTTAATTTTACAACGCCTCTTCCCCAGCTTCCAACTATAGGCTTCAATACAGAAGGAAAACCTAGTTCTTCAATAGAATCTTCGGCAGATTTATCGGAAAAACTGAACAAAGTAAGAGGAGTTTTAATGCCTGATTCTTCGAATTTCAAAGTAGATAGAAACTTATTACCGCATATTCTACTTGTGTCAGAATTATTAACAACTAAACAGTTTTTGGATTCCAAATAGTGTGCAATAAGCATTCCACGATAATGACTTATGCATCTTTGTATTACAGAATCACCAAAGGAAGACTGAATTGATTCGGTAGAGTCGTCACTACGAAGTACGAGTGTTTTTGCATCATGCTTACTAAATGGGATATTTTTTTCTTCAAAGGCATTGAAGATTTCTTTTTCTTCCCAACGTACACGATCGTAAATAAGACTAATACGTTTATTCATATTATTCTCCCCAATCTTCTCCAACTGATTCTGCAGGTGATAATGTAACATTATTTGAATCGATTTTACTAACTTCAAATTCGTTACCACAATCAGGACAACCTATAATCTCACCGACTACAACGTCATCGAGAATCTTCATTGTTGCATCACAATCTTGACATTTTTGCTCCATTAATTTCCACCTCCTGATAAATTTTTTATAGTTTTTTCAAGCAGAAGTTCAGATTTATTTAGTAAAGATTTTTGTTTCTTAATAAATTTAGAAGAATTAGCAAGGTCGACTTTTCTAATTTTAATCATTCTATTACTCTCCGAATTAGATGGTGAACCTTTTGTTGTTTTTGAATTAACATTATCAACATAATTGAAAATTGAATCAATTTCATCTATATTTATTTTAATGGTTTTACCTGTAATTTTTTTAGTAGTTTTGACAATATTAGTTTTGACCAACTCAGACAATTTTTTATTAGAATCAATAGATGATTTTGAAAGAGTTCCAACTATATGATGTGATTGTCTAAAGGAAATATTATAATTTGAAGCAAGATAATTAGCTAAATCCGCAGCAATCATAGTATCGTCTAAATTGTTACGCATAGACTCCTTGTTAAATTTACAGGTAGCGAGCATTTTAGATAACAATTGGACAGAAATCAATGATTTATTGAGAGAATTCCATAATCTAGGTGTAAGATCTTGGATATCTATACTATATCCCATAGTAAGAGATTTAATTATGCCAATTGATGCGACAAGATCGCCAATAACAATTGAAGATTTAGATCTAATTAATTCAGCAATGACGGGGTTTTTCTTTTGAGGCATTATACTACTAGTTGAACTAAATTCATCAGAGATTTCGACGTAGGAAAATTCGGATGTGCTCCATAGAACTAATTCATTGGCAATTTTTTCTATGTTTAACATCAATAATGTAAGATTTGACATTAATTCAATACAAAAATCACGAGTAGAAGTAGCGTCAATTGAATTTTCTATAATTCCATTAAAGCCAAGTAATTTAGCAACATAATCTCTATCGACATTAATGATTACGGAAGCTATAGCACCGGAACCTTGTGGAGATTTATTTACTCTATGATATGATTCTTGGAATCTTTCTACATCTCTAGACAATGAATCATAATGAGCAAGAAGGTTATGAGAGAGTGTTATGATTTGTGCATGCTGAAGATGAGTAAATGAGGGCATCAAATAAGTAGTATGTGTTTTTGCGAGATTAAGAATAACATTTTGCAAATCATGAATGCTAGTCAACATACTTAAAATAAGTGTACGAGAAGTCATTCTAATTGCAGATGCAACTTGATCATTTCTACTTTTAGCAAGATTAAGCTGACCGCCAATCTCGCTGCCAATACGACTAATTACAAATGACTCAACATTCATATGTACATCTTCAAGGCCTGGGTCTAGCTTAAATGAGTTATCAATTGATTTCAGAGTTTTAATGCATTTATTAGCAGTTTTTTTATCAAGTGCATTTTGTTTAACTAACATAATCATATGTGCCATATTGATTTTTTTAACAGAATCAAGAATCAAGAGATCATCATCTATAGAACTAATAAAAGAAGAAGCTAAATCAGAGGTTTTTGAAAGTCTATTACCTCTCAATATATCAACATTATTGGTCATTTTGTATTTCCCTCATTGAATTTAGATTGGAGTCCCCAGAGTTCAATAAAACCTTTAGAATAGGTCTGATTAAAATTAGAAGAAGAAGAATAAGAAGAGAGATTTTGGTCATAAATTGAATTCTCAGACTTTCTTCCCACTACATTGAATGAACCATTCTTTAATTTGAGTTTGACAGTGCCATTAACACGTTCCTGAGTTTTATTGATAAATGAATCAATAGCTTTCACCAATGGATCGACAAACAATCCAGAATAAATCATCCAACTCCATTTTTGTTCCAGAATGGATTTTACTTCTAATTCATTTCTAGTGAGTACTAATTTTTCAAGATCTTTATGAGCCTCAATAAGAACGGTGGCGGCAGGTGCTTCATATATTTCTCTTGATTTTATTCCCATAAGCCTGTCTTCGATATGGTCAACAACTCCGATTCCATGTTTTCCAGCAATGGTATTAAGATGATTAATCATTTTAAGAGAATCAGTAATACCATCTATTGAAATAGGAATACCTTGATTGAAATTAATCTCTATATATTTATCATCTAATTTACTATCAGTATTAATCCATTTGTAAATATCTATAGGTGGCTCGTTGAAAGAATCCTCTAAGATTCCTCCTTCTATCGATCTACCCCATAAATTTTCGTCAATACTATATTGAGATTTCTTTTCAATAGAAACATTGAGTTCTTTGGCATATTGAATTTCCTCATCTCTACTCATATTCTCATCCCTAACTGGAGCAATAATTTTAGCATCAGACATAACAGATCTCAATGTTACATCAAATCTAGCTTGATCATTTCCTTTGCCAGTACATCCATGTGAAAAGTTTTTAGTATACTCTTTATTTGCGACTTCAGCTAGTTTGTATGCAATAAGTGGCCTACCCAAAGCAGTAGCTAATGGATATTTATTTTGATATAATGCATTAGATTTTATTGCAGAAAAGATATAATCTTCGATAAATTCTTTTTTGGCATCAATAGTATAATGTTTTGATGCGCCAATTGAATAAGCCTTTTTTTCAATCGCTTCAAAGTTATCTTCTTGTCCAACATCAACTATAGCAGTAATAACATCCAGATTATGTTTTTTCTTCAGCCAACTGACTGAGATAGATGTATCAAGACCGCCAGAAAATGCTAATACTATTTTTTCAGACATTATGTGTGAAATTTGTAAAGAAACCTTTAATAGGTTTTGGTCATAATTGACCACTATTGACTATAGATGACCAGAAACAGATAAATCAATCTGTTGCAAGAATTACCAGAAATTTGATAGAATCAGACCTAAGTATACAAGATTCAATAGCTAGAGATTATGCTAATCTTAGTGGAATAGCTAGATTATTAAAACCAAAAATTGAGAAAATGGGAATTACAGAAGTTAATGAAGATGCGATAATAACGGCAATAAAAAGAATTGTTCCAAAGTATACATCAATCAATAATGAAATAACAGATGTAATAGCAAAAAGTGACATAAATGTAAGAACCGGAGTTGCAAAACTATCAGTAAAGAAGAATAATCTCAATCAAGAAAAGATACAGAATGTAATTTTAAAGAATAATGAAGAATTTATTCAGATTTCAGAAGCTACATCAGCATTAACGATAATTTATTCAGAGAGACTTAGAAATGAATTATTGAACGTATTTAATAAATCAGAAATATTAGAAGATTCAAATGATTTAGCAGCAATAATTGTTCATAGTCCGATAGAAGTAATTTCTGTACCGGGATTTGTATTTACAATATATGGCCAAGTTGCTAAAAGACAAATTAATATAGAAGATACAGTTAGTTGTTTTACTGATACAATAATTGTAGTAAAAACAAAAGATGTAGCAATAACGTTTTCGGTATTAAATGAATTATTTGATGGTAGTAGATAATTAAGAAAATTAACGTTCTCGGTTACCTGCAATGAATTCAAGAAATTCATTTTTAGCTTCTTCATATGGCATTTGAACAGGAGGGTGTTTAAAACAATAAGCAGATATACTATTTAGTGGACCTGAGATTTTCCTATCTAAAGCAACTTTAGTAGCACGTATTGCGTCAACGATGACACCGCCGCTATTATAAGCATCCATAACATGAAGTTTTAAATCCAGAGTAACAGGGATATTACCAAAATAATGACCTTTAATCCAGACATAGCAGATCTTGTCATTTTTAAGAAAATCGACGTAATCACTAGGTCCAATACGAGTAGGTATAGGATAAGGAGACATTGCTCGAACAGCAGACGTTTTACTTTCACGTTTATCCACTAATCGTGATTCTTCCAGCATATTAAGAAAATCAGCATCTCCGCCAATATTCAATTGATATGTTTCGTCAATTTTTACTCCGCGTTCAACAAATAATTTTATTAAACTTTTATGAACAACAGTAGCACCCAATTGACTCATAACATCATCTCCGGCAATAGGAAGTCCCTTATCAACAAATTTATTTTGCCATTCAGGATTAGAGGCAATGAAAACAGGCATAGAATTAATGAAACCAATATTAGAATCTAAGGCACATTGTGCATAATATTTAGTAGCATCAGTACTGCCAACAGGAAGATAATTAATGAGCATATCTGCTCCTGAACTTTTGAGGATATCTACGACATCGGAACCATTTGGATCATTAACTTCGACGATGTCTTTTAGATACTTGCCAATTCCATCTTTAACAGGTGCTCGAGATACATCAACTCCAATATTAGGTACATCAATAATTTTTGCAGTGTTATTAGGATGTGCAAAAATTGCATCAGAAAGATCAGAACCTACTTTTTTATCATTGACATCAAATGCTGCAACGAATTCAATATCATTAGGTTCTATACCTCCAATAGAATAGTCTACTAATCCAACAGTTTCTTCAGGATTTTGTCTATAATATTCTAAACCTTGAATTAATGCAGAAGCGCAATTACCGATTCCAGCAAGTGCAACTTTAACCTTTGGCATAGATATTTAAAAATAGTATTCATCATTTAAGTTTATAGGATTCTTATTACACTGAAGATATATTGGATTATTCAAGCATTATATCAAAGACACTAATTAAAGCACAAAACACGATTAAAGATAGATATTTTGAAGGAAATCATACTCAATTGGATAAAAATGCCTTTGGAGATATGCAATATGAAATTGATGTATTAGCAGAAAGAACAATCATAGAAGAAATAAAAAAGTATGTATCGGGAGCGACAATAATTTCAGAAGAAACAGGTATTATTGAAGGAGATAAAAATTTACTAGTACTTATTGATCCATTGGATGGAAGTCTAAATTCGATAAGGCAAATTCCTTTTTTTAGTTCAACTATTGCAATAGCGAAAGGAGATAAATTTTCGGACATAATTGCAGCAGGAGTAATAGACATAATTCATGGAGAGTTGTATTTAGGAAATACAAAAAAAGCAACAGCAAACAATATTCCAATCAAACCAAATACTATAGAAAAATTAAATGAAGCATTAATTGCTATTGATTTAAACATAAGATCCAACAAAGCTTCTAAAGCTTATCAAAATATGATTAAAATATTTGAAATTACTAAAGCTCAAAGGATATTAGGTTCAGCAATAATGGAAAATGTATATGTTGCAACTGGAGCAATCGATGCATTCATAGCGCCATCAAAACAGCTTAGAACATTTGATTGTCTACCTGCAATGTATATCGGTAAACAAGCAGGATTATTTATTAGATTTTTGAATGAAAAGAATGATTTTGATTTGTTATCAAAAGAAGGAGTCTCATATGTTTCAGCATGTACGGAAACATTAGGAAATAATATATTGAATGAATTAGAATATTATAATTGATATACATTGCTTGAAGAGAGATCGGCAGGAGTTATTTTATTCAATAAAACAGAAGAAATTCAATTCTTAGTATTGAAATATCCATCAGGGCACTGGGATTTTGTTAAAGGAAATATTGAAGAAGGAGAAGAAGAAGAAGAAACTGCCAAAAGAGAATTATTCGAAGAAACAGGAATAAATAATATGAATATTAAGAAAGGATTTAATCAGAAAGTTGAGTATAATTATTATAAAAAGAACAATAAAGTACACAAAATTGTTTCTTATTATTTAGCAGAAACCGAACAAAAAGAAGTTAAATTATCATTCGAACATTTAGATTATAAATGGTCAAATTATGATGATTTGATGAAATTAATTACTTTTGATAATTCCAAAGATATATTAAGAAAAGCATA
>sequence14
TATCCACCTTGGAAAATTCATTTAATAATTATAAAGGTAAAACCTCTATCGCTTATTCTCTTAAATCAAATTTTAATCCTTCTATAATTGACATTCTAAATCGTGAAGGTATTCTTTTTGATCTTACATCTATTGGCGAATTATACTTTTTTTCACATAGTGGTGGTAATATTGAGAATATACTGTATACTAGTGTAACTGAAGAAGAAAATGAATATCTATTAGCTTTACAATCTGGCATTTCTAAATTTGTAATCGGTTCATATAATGGCCTTATTAATTTAATTTCTGCATCAAAAGTATCGCAATCTTGTCCTAAAGTCTTACTCCGAATTAACCCTGAAATCAATGTAGTAGCTGATATAAGTGCATCATCTAATATGGGTAAGTTTGGTGTTCCAATTAATAATACATCAAATGACGACGCTCTTTATATTATAAAAAAAATTTACAACTCAGATTTCATTGAATTTTCTGGCTTACACTTTCATTTAGGTTCTCAAATTAGTGATCCATCATGTTTCATTAAAACTATTGATTTATTAGATTCTTTAATTGATGAATTAAAATCTAGTATTGATAATTTTTCACTTTCTATGCTTGATATTGGAGGAGGAACTCCTGTTAAATATACAAAACCTGTTCCTTCACCTGAATATATCGGAAAAATAATTACTGACAAATTGAATATTTTTGTTGAATCACTTGATTCACCTCCAACTCTTATTGTTGAAAGCGGACGATATCTCTCTGCTGAATCATCTATTCTAATCTCTCGAATTGTTAATTCTAAATCATATCCTGATGGGAAATTTCACATAGTTGATGCAGGATATAATCTTCTTTTAGATTCTGCATTAATGAAACAAGAATATCCTATTGATATCATTACTAAATCCGAACATGTACATTATGAAAATATAAAAATAGGTGGACGTTTATGTGATACTCTTGATACATTTAAAATTCCATTCGATAAACAATATCCTTCTGCTGAAATTAATGATCTGGTGATATTCAAAAATGTTGGTGCTTATTCTATAGTATTTAATATGCCTTTTCATTCTCAAACTAAACCTTCTATTCTTCTACGAAGAACTGATCATACACTTGATATAATTAGAAATAAAGAAAATATCGAAGATTTATTTAATTCCGAAGGCGGCAATTTAATATCTAAACAATAAATATTTCACCGGTTTGTAATTCAAACTCGTGAACATTTTCTTCTGTATTTATATCTAATATTACTGATATGGCTCTAATAGTATTACCATGTGAAACAATCAATATGTTTTCATTATTGTTATGTAATTTCTTTAGATCATCTACCCATTGTTTAACTCTATTTGCCGTATCTTTCAATGATTCTCCATTCTCTGGTGGAGTATCCCAACCTCTTCTAACTTTAAGAAAATTATCATCACCGATTTCATTTTTTACTTCTTCCTTGTTCTTTCCTGACCAATTCCCATAATTCCTTTCATTTAATAATTCATTTGAAATGATATTTTTAGGAGTGTTTGGATGATTTTTGATAATTATTTCTGCAGTTTCTTTTGCTCTTGATAAATTACTAGAATATATGATATCTATATTGTATTTGGATAATTTTATGGCAGTTTCAGTTGCCTGTTTTTCACCTAATTCTGATAATGATGGATCGTGCCAACCTGTAAATTTATTTTGTAAATTGTAAGTTGATTGTCCATGTCTTACAAAAAACCATGTCATAATCTTTTGGATTTAGTTCCCGATATAAATATCTTATTAATTAAACACCTATATAATGACGAAATGTTGATTAAATTTGTATTTGAAGCAACTTCGCAAAGATTATTTCTTGGACGCATATGCATTTGTGAATTCTAATACTGACTTTCATTCATTATCAATTATTGACTCTGATAAAACTGATATAGCTTGTTCATTATGTAAAATCAATACTAATTCAGATGAATTTATTGTAAAATCAACAGATACTCCAATTGAACTTGAAAAATTTAATAATTCGTCTATAAATAATTTTTCTTTAGAACAAGACAAAATGAGACATTATTATATAGCTGATTCTAGTCACAAGAATCTTAGTAAACTTTCTGTAAATAAACTTCATAAATTACTTTTAGAAGTACAAAAAGTAAATAAAGAAATGATCTCTGATAATCTTAAAAACATTCAAATTTTTACAAATTCAGGTTCATTATCCGATGGAAATTCTATACATAATGGTTTTGAATTAATTAATCTTCCAATTATTTCTCCTACATTAAAAAATGAGATTGATTTATCCAAACAATCAATTTTTGATTTAGGTATATGTCCTATTTGTAGAATCATAAATTTTGAAACTGGTGGTCCTAGACAAATACTTTCTACTGTTAGCTTTCTTGCTTTTTGTCCCTGGAGTTCATCTCATCCTTTTGAATTTTGGATATATCCTAAATCCCATCAATATTCATTCACATTAATTGATAATAATGAATTAGAAGATTTGGCACAAATTCTTCGATCTACCTTGGGAGGTTTGGACAACGTTTTAAACAACCCTTCTTATAATATCATCTTCCATAATTCACTGAACGAAATAGATTCAGAGATTCACTGGCATATCGAAATAATTCCTCAATTATCATATAGTACTGGCTTTAAAAGTGGTTTTGGCATATCTGTTAATTCTCTTATTCCAGAAAAAAGTGCAGAAATCTTGGGAAAAGCATCAAGAAAGGAATTAGCTAGTCTTGTTGGCGTTATTTAATTAATCTCTTTAAATCTATTTTTTAATAATTTTTTAATTTCATCAATATTTGGAGTAGGTGTTGGATCTATATCTTTTAAAATTGCTAAGTAAAGTGATACATAATCAAGTAAATATATTAAATCAATTATCCTACCAAGCTTTGTTTTACCTTCTGTATAGATCTCTAATGGTTTTATATCCATTTTAATTAAAATCTGACTTAATGACTCAAATCTCTCTCTTTGTTCTAAACTCTCATCATCATCTCTTAGAAAGATTGATGTAATTTTATTATCAGGATTCTTTCCCCATGACTGTATTTCATTATGACAAAGTTCAGGTAATAGTATATGTTGTGCTCTAATTTTTGAATTTTCATTTAATGATGCTTTAAATCGATACCCCGGCGCCGATAGTGTTTGTCCTGAATAAATTGTTGGCGGTGTAGCTAATTCTAATATATCACTTGCTATTTGTTTTGCAATATTTTTTTTAAACGGAACATCTTTTTTTATTTGATTATTTCTTATATTCAATAAATTCATCATATCCGTAAATTCATTTTCTGTTGAATTTATTATTCCTAGTTTTGATAAAAGGTTTATCGCTGGTAATAACGCATATAATAAACTTGCTCTTGGCGTTAATGCTAATTGCACTTTAGTATGAGGTATATTGTATTTCTTACTAATTTTCATTAAAGATCCTCCTGCTGAAATTGATACAACTAATGCATCTTTTTTCGTTTTTGCTTCAATACATGCAGAAATTGTTTCACGTGTTTCCCCTGAAATTGACGCTCCTATTACCAGTGTTTTATTATTGACATATCCTGGTAATTTGTAGTCTTTTAATACCTCAAATGGAACGGGCAATTCATCTCTCAACCAATTTTGAATAATGTCTCCAGATGTGGCTGATCCCCCCATTCCTATAAAAATGATATTCTTGATTTCACGTTCTTGTGGTATATTTGGCGCTATGTTTATTGCTTCTTTTGCATATGTTGGCCATTTTTCATATTGACCGAATAATCCTGATTTATCAATATTGTTTATCCTTTCTTCATTTAATTTTTCTTCATAAGTCAAATTTTCATATCTCCTACTTTTACTCTATTCATCTTTCTCTGTTCAATGGTATTATTATATATTTCCCGTAATAGATTTCTGTCATAATTATTCTGATTAATTCCTCTTCTTTTCATCATTCTTTCCTGAATTTTAATTGCTTTATTTATATTATATTCAACCAATATTTTTTTCTTATCTTTATTATAAAATGTAAATGCAGGTATGTCTTCGGTTACATGACCAAATAATTGTCCACAAACTCCTATTTTTATTCCGGTAAATATAAGTGAACCAATTGCTGTTTTTGTATTATCTCCAATAATGCAGCCGAATTTTACTTCTTTACTTTGTATCCTTTTATTTCCTATATTCATCTTAATTTTCCCATATGTATTTTTTAAATCTGAATTTGTTGTTCGAGCACCGAGATTTACCCAAGATCCAATTATTGAATGTCCAATATATCCTTCATGGGCTTTATTTGTATATTCATGTATTATAGAATTCTGTACTTCTCCTCCAATATTGCAATGATCTCCAATTGATGTATATGGATATATTCTTGCACCATTGATATTCGTTTCACTCCCAATATAAACCGGTCCTTTTATAAACGTAAACGGTTCAATGGTTACACCTTTATCAATAATTACAGGTCCATTACTTGAATCTAAATATATTTTATTTTTATCTATTATTTTTACATTCTTAGAAATTATTATTCTCTTGTTATCTGAAATTGTTTTTATATTTTTCATACTGTTTAATTTCTTGAATAATTTATACTGACGATTAATAGCTTCACCTGATTCTTTAATATAATCCCATGGAAATCTTATCAAAGATTCACTATCTATTTGTTTAATTGGATATTTCTTAATTGCAGCTATTTTTTTAATAAATCTAAATGTATTTTCATTATCAATATCTTTAATTATAGAAACAGGTATTCGTGCACATACTAAATTTTTTCCTGTTTTTGCTATAAATTTTTCTTTGGTTTTTAATAATTTTATCGTATCTTTATTATTCAAATTTATTAATGAATTTACTATTATTGCATCTCCTTCAAAATCTAATTTACCAATATTTATTTCCTTAAATTTATTTTTTGTTGATTTTTTTAAGTAATTACGTATAAATACGGTTATATTATCGAATTTTACATCATTTTTTAGTTGTTGATAGAAATTTGACGCTCCAAATTGTAATTCTAATGACGTTCTAGTTGAAGTAATCGGTTCTAGATTTTCTATTATTTTATCTTCTATTAATATCAGATTCTTAGTCATTATTTTTTCACTTTATTGAATTGTTTGAAAACTTTCTCGTATTCATTTTTATCTCCTAGATCTAGAATATCTCCTGTTACAGGATATCCGTATATATTCTGATTTTCTTTTTGAATACGTTTAAAAACCTGATCCATTTCGTATATTTTATTCTTTGGAATATATTTCAAAACCTTTGAATTCATTATGAAACAACCTGTGTTAATTAATCCTTTAATTACTGGTTTTTCTTTCCATTCTGCTACAGATCTATCTCTATTCAGTTCAATTATTCCATATTTTAATTTTGTTTCATAATTACTTACAATCATTGTTACTATTGGATTAGTTTTTTTATGAAATTTCACTGCATTACTAATCTTAAAATTAAATAATGAATCGCTATATATGCATAAAAATGTACCATCAAGATATTTCTGGGCAGATTTTAATTGTCCTGCAGTACCTAGTGGTTTTTTTGCTCTAACATAAGTGATCTTAACCCCATATTTTTTACCATTCCCAAAATGTTCTTCAATTATATCACTCATGTAGGACGTACAAATAATAATTTCTTTTATTTTCTGTTTCTTTATCCAATCAATTAAATGTCCTAGTATTGGTTTATCTCCTAAAGGAAGCATTGGTTTAGGTAAAAATAATGTGTATGGTCTTACTCTTTTTCCTAATCCTCCTGCAAGAATTACTGCCTTCATGTTACTTTATGTTAATCTGAACTTTATTTAATAAATACGTCTTCAAATCGTCATATTATCTCTTATTTCTGATAATAAATTATTAATTATATCTATTTTATCAATAATTTTCTGTTGATCCATTGTAATTGATAACATCTTTATTGATGATTTACCAATTCCTGATGATATGTTATTTTCAGTTATTTCACTAATTATTCTATAATTGTGTTTAGATACTTGTTTATCATTACAATATTCAGTGTAAATTTTTTCAATCACTAACAAATTTTCATATCCTAATAATACAAATGCATTGGTTATCATTTTATTTTCTATGAACCATCTGATTTTATTTTCAATTAATTTCATTCTTCTTAGAAATAATTCTTGATTCCCAATTATTCTAGTTGACAGCAATCTGTATAAATTATTTAATGCTTGTAATCTGCGCTCAACTGAAGATTTAGTTGCATTTTCTAAATCTAATAGACTATAATATTGATCAATATTATGTTCAACCTTTCTTTCTTTTAATTGATTTAATAAATGGGATGGATTTGGAATTATTTTATCCTGTACGATTGATAATTTAATTAAATTATATGTTGATAGTGAGGTCCAATATGCAGCATCATTTAAGGAGAATTTATTTATTGCGTTATTTGCTTTCTGCATATTTGTTGTTAATTCAATATCTGTTGAATTTATATAATGTTTAATTATTTGTGATTTATGTTCTTTAATATCTTCTATTTTTGTTGAAAGTGTAAAGTAATTGTCTTGTATTATTTCACTATTAATTAAATTACTTACTTCCTTATTGCTAATTCTTAAAAATTCTTCTCTTTCTATATATTCTATTTGTATAAATCCGAGTTGTTCATCATTAATTATCCTTGCTTCATCTTTTTCTCCTACTAATAAAACATTGTACTCACAGCATTCATGAAAATATTCTGTTGTTCTACACCCAATCATTAATGCTGCATTATTGTCTGTATTGACTAGTTTATTTATTCTATTTTTGATTTCTATATCCAATTAAACTTCATCTACTCTAGTAAATTCTCATTATATTGTCGTATATGAGATTTGATAATTCATCATATTCATTATTAGATTCTAATTTTTTTATTCCTATTCCTTCTCTTGTCGATGTAAAAGCAATTGCTCTTGAAATAGACCATAATATGTCGTTATTTTTCATATACATGCTGAAGAATACTCCATTTAATATATCTCCTAATCCAATTGTATCCTTCAATATACTTGATTGATTGTTTTTAATTGCATAACATTTTCCATCATTAATTAAATATGTTAATTGATTATTAATGGTCCCTATTGTTATTGGATATATTTTTGATATGTTCTTTAATCTATCTAAAAAATTCCTCGACTTATCAAGCATTAAGGATTCTTCTTCACTAATTTTTATTATTTCCGTCTGTGGAAGTTCATTTATATTTATATATTTTAAATTACAAATACCTTTTTTATTAAATTTTCTTAAATATCCTTGTGGATCAAGCATTGTTTTTTTCCCAAATGCATTAAGTATTTTTTTATTTTTTACATTTAATTCATTTACAATTGGACTAATAATAATACCTTCATAGTTATTTATTTCTGATTCTTCAAGTATAATGTTCTCACATTTATTTAATAATTTTAATTTTTTATTATTGTTATTATATTCTGTAATCTCAAAACTTGTGGTATTTGAAACTGATATTGAGTTTTTCATTATAATTCCTTTATTTTCTAACCATGTTTTATATTCTATTGGAAAATCTTTACCTACTTTTGTATAAATCTCTACATTTAATCCTTCATTAATACATGTTATACCTGTATAACAAGGAGGCCCTCCTATAGATTTCTCTTTAATCTGTTTATTGGTTATCATATCGATCGAAATATGGCCAATAATGCAGATATTTGACATTTTACTAACCTCATAATTATTCCGCTTCCATAAGATTTATGCGTAAGTAATAACTCTAATTTTTTATCATAATGACCAAAAAACGAAAAAGTGGTGGACGTGCTAAAGGTGGAAAGGGCTCCACAGGTTCCATTTCATGTAGTAATTGTGGTACTTTGGTTCCTAAAGACAAAGCCAAGAAAAAAACAGGTAGAGTTACTCTTGTTGAACCTGCTTTAGCCAAAGAATTACGTTCAGCAGGAACTTACATAGCTGCTCAAAAAACTATTAAATATTATTGCGTTTCATGCGCTGTTCATTATGGTCTTGTTAAAGTTCGAGCTAAAGATGATCGACGTCGACGTACTAAATATTAGATTACTCTACTCTTCTCATTACAGCAATAAATCTTTCCATGAATGTTATGAACGATAATATAACTATGATTATTATTGCCAATCTTATTTCACCAAAGAAACTAAACAAACACAATATCAGTATTCTTTCTGAACGTTCAGCTATTCCAACTCCTCTTAAATCCACGTTGATTGCTTCTGCTCTTGTTCGTGCATAACTCACCAACATTGATAATGTAATTGCGAAGAAAACTAATAATGGCTCAGCATATTGTCCAATTAATAATCCGCAAAAAATTATTATTTCGGTTACTCTATCAAATGTCGAATCTATAAACGCACCTCTTAAACTCGATTTTTTAGTCACTCTTGCAATGGCTCCGTCTAACATGTCACATAATCCTGTAATTAGCAAAAATATTGCCCCAAGAGCTTGATTTGAAATAATATTATTACTGTCAAATTGCATCAAATCTGAATAAAAAAATGCTGAAATTAATGAAAAAATAATAGCAAATATGCTTAGCATGATTGGCGTCATTCCTAATTTGGATAATTCATGACCAATTTTATTCGTTATTGGTTCTACTTTGCTTCTTATCTTTTCTAACAAGTAATAATGCTATGAACAAATCATTAATTATGTCTTTCTAAATCAATACCTTTAATATCAAAAAAATATTAATGAATTATATTATGGGAAAAATTAGCAAGGGTGTTGAATGTTCATTGGATGACTGTTCAAGTTCAGCTATAAGATCGATTAGTAGTAAAAATGTCGACTCAAATGAATTTTCTATCTCATCAGATTCTAACAAAGTATATTTTTGCACTGAACATTATAAATTATGGAAAAAATCCACAAAAGAATTACGAAAATCTGAAAGAGCAAGATACTAGGTGTAAATAATGCGAATTTTACTATTACATTCTAATTATATTGAATTTAAAGCACTAAAAAAAGAAATTGCTATTGCCGAAGAATCAAATACTGAATCGCATCGATACAATGACGTTGCCGTTCTTTTTACATGTTTAGAATCTCATGATGATGAAAATATTATTCAAAAGTCTCTTTCAGAAATTAAATCCTCACTTGATAATCTTAATTGTAATCGTATTGTAGTTTATCCCTATTCTCATCTAAGCGATAATCTTGCTAATGCTTCTAAAGCTGTTTCATTATTGAATACGTTTAAGATTGGCCTTACCGAAGCAGGAAATGAAGTAAATAGCAGTCCTTTTGGATGGAATAAATCCTTTACTATTAGTGTTAAAGGCCATCCTCTTGCTGAACAATTAAAAATTATTTCTTCTGATTCTGTAGAAACACACGAAAGTGAAGCACTCAAATCTGAAGAACGTTTGGAATCCAAATATGTTATTATGTCTGTCGATGGAACTACTGAACCTGCTGAAAAATTCAACTATAGTAATTTTAAAAATCTCAATTCATTACAAAAATATGAATTAAGTAAATCTCGAATTGTTACTTCACATCCTCCACATGTTGAACTTATGAAAAAATTATCTTTAGTTGATTACGAACCTGGATCTGATTCTGGTAATTTACGATTTTATCCTAAAGGTCGATTTATTAAATCTCTTCTTGAACGTTATGTTACATCTCAAGTAAAAAAATATGGAGCATTGGAAGTTGAAACTCCTATTATGTATGATTCAAATCATCCTAGTCTTGCTAGTTATCTTAATCGTTTTCCAGCAAGACAATATATTGTAAATTCTGATAATAAAGAATTATTTTTAAGATTTAGTGCATGCTTTGGACAATTTCTTATGCTTCATGATTCTATTATCTCTCATAAACAGTTACCTGTTAAATTGTATGAATTAACTAGATATAGTTTTCGACGTGAAAAATCTGGTGAATTAGTTGGACTTAGACGATTACGTGCTTTTACTATGCCTGATTGCCATGCATTATGTAAAAATATTGAATCATCTAAAGATGAAATACTAACGCGTTTTACACTTTCTCGTAATGTTCTTCAAGGAATTGGTTTTACTCAAGATGATTACGAGTTGGCAATAAGAACTACGCAAGATTTCTATGATGCGAATATTGATTTTATTAAACAAATTGCTAAAGATTGGAACCGACCAGTTTTTATTGAAATTTGGCCTGAGAAATTCTTTTATTTTATATTCAAATGGGAGTTCAATTTTATTGATAATTTAGGTAAGGCTTCTGCTTTAGCAACTGATCAAATTGACGTTGAAAACGCTGAAAGATATGGAATTAATTACGTAGACGAAAATGGCGAAAAGAAGATTCCAGTTATTCTTCATAATTCTCCTAGCGGTGCTATAGAAAGATGTTTGTATGCTTTATTGGAAAAAGCAGCAAAAATACAAAAAGAGGGAAAGACTCCTACTATTCCTTTTTGGCTTTGTCCAACTCAAATTCGTGTAATCCCCTTATCTCAAGACTTTCATGAGGTTTCGTTAGGCTATCTTGAAGAGTTGTCCAAATCTGGTTTTAGGATTGATTTTGATGACCGTGATCTTTCTGTCGGAAAAAAGGTTCGTGAGGCTGAGAAAGAATGGATTCCATTCATTTTAGTTGTCGGAAAAAATGAAGTTGAAAGTAATAAGTTCCAAGTAAGAGATCGTTATTCTGGAGAAATGACTTCCATGTCATTATCTGAATTGATAGCGCATTGTAAAAATTTGTCGACTCAAATGATTTCTGACGAACTTCCACTTTCCAAATTTATTTCTGATCGACCTCAGTTTAAATAAAATCAGCTTTCCGCAATACAAATTAATTCTGCAAGTAATCTGGCTGCTAATGCTGATGTAGAACCATTGTCATATGAAGGTATTAGTTCTACAATATCAAATCCAGTTAACTTAAAATTTTCTAGACAATAAATAAATTCAAGTATTTCTCTACTTGACATTCCATTTGCTTCTGGATTTCCAACTCCTGGTGCAAATGCTGGATCAATTACGTCTAAGTCAATACTTACATAAATGTCATTTGAACTTGTTAATTCATTTTTGAATTCTTTTAATCCTGATTCTAAATTGTAAATCTTTTCCATGTCAATTATTTTTATATCATCTTTGTCTACAAAATCCCATTCTGCTTTGGTTGCTGCTCTCGAACCAACATGTATCAGATTCGAAATACAACCATCTTCATATAATCTTCTAAGAAACGTTGCATGACTAAGTTTTAGTCCCTCAAATTCATTTCTAAAATCTAAATGGGCGTCGAAAACAACTAAAGTCGATTTATTTATACCTCTTACTGATCCATTCGTCAACGAATGATCTCCTCCTAATATTGCAGGAATTTTACCATTCTGAATTATTTCTTTTGTAACTTCTTCTACCATTTTATTCATTTCCTTTATATTACCTACCTTTGCTAGATTTCCTAAATCTCTGATATTTACATTTTCTAAATCTTTTTTCAGTCTCTTAGAATAGATCTCTATGTTCTGAAATGCTTCTCTTATAGTATTTGGTGCAAATCTTGAACCAATTCTATATGTTGACGTGGCATCAAATGGAACTCCAAAAATATTTACTTTGTTATCTTGATTATTCGTTAAATTTGTAATTAATGACTCATTTGACATATAAAGATCTGATTTACTCATTTCTTATCTAATCTCTCAATTAGTGCTGCTGCAATTAAAGGAAATGCTAATGTTACTTCTGACACTAAAACA
>sequence15
CGCGATGCTACATCCTGATGTGTATGCACCAATGGTTGAACGAATAGTAAACGTGAAGATACTAGTGTTTGCACCAGTTTCTTTAGCTGTTACACCGGATGATCCGACTGTAGTATCATTGATTTCCATGTATATTGTATTCAAGGTATCAACTTTCTCTGGATCGTGGTTCATATCTTAATCAGTAATTGTTACTGTTACGTCAGATGAACTTGTTAGATCGTTTGAAGATACCGACATAGTACCAGCAGTTTCTGTTATTGTGAATGTTACAGATGTTGAATTGTAACAACCAAGTTTTTGAGTAGTTCCTGTTCCTCCACATGTAGTTGAGTTATAACCCCAATAACTTCCTGTAGCGGAAGCTTGGATTGGTGTTAAAGATATCTTGAACGTATCACCGTTCTTCCATCCTGAAGTACCAGTATTATCTGATGTGAAGTTCCATATTGGACGTGAAATTCCGTCATATGGGTTTCCACCAGACTTGTTTGTATTACCAGTTTCACCAGGAACTGTAGTATTGTAATAGAATCTTTCCATTTCAAGACATGGTGATGTTGTTAAAGATGAACCAGTTGGGTTTGAACATTTGAAGATACCAGTGTTTGCACCAGTTTCTGTAAAGTTCAAGCGGAATGCTCCTGCTCCAGTACCGGCTGTATTTCCATTGTCATGGTGGTTACCTGCGCCCATATAAGACATTGTCTTGTTTAAGACGTTTTGTAACGTAGCATTAGATGAAGTTACGATTTCTGCTTTGAGTCCGTTTGTGTTATTAAATACTAAGAAACTTTCAACTTCTGTTGGATCTTGATTAAGATCATTATGGTTTAAGAACAACCTAAGGGTTGCTCCTGGGGTTACCGTGGTTTGTTTTTCCTCGGTATTATAAAGTGTGGCTTTTGTCTCCTTATAGAGCAATGTCTGCGAAACATCTTTTGCAGCACCTGTTGAATCAGATGCATCTTTGTATGTGATTGTCATTGTGTGTCCACGAGTCATATTATAACCGTGAATTATTGGTGAGGTCAAAATACTGTTGGTGGCCGATGCCATTCCAGCAGCTGTTAGGTCCAATGTAAGGTTTGAGTAAGTACGTGAAGATGGAGCACCGTTTGCTAAGTGTCCATTGTTGATGTATGCGGTAGCACATGCGCCAGTTGCTACACCGTTAGATCCCTTTGCGTGTGGTGGGAATCCTGGTGTACCAGTCATAGCTGCTTCGGCTGCTGCAAAGTTTGCAGAACCACCAGCGGCTCCTGGTGTCAATCTAGCAGAGCCTCCTGAAGATGGGCCTCGATCACTTGCAGTTACATTTAATGCAATACAAGATGAACTGTACATTACCCAAAGTGCATCAGTTGCATATGCAACCCATGTACCTCCAGTGTTCTGCGTGACGTTGACTGTGTATGTGTTTGTAGCGTTGGTCCATTCTAGGACAACACTAGGATTGTATGTGCCTCTCAATTCCTCAACTCCGATATCTGAATCAGAGATGGTCATGGAGACTGTTTGATTTCCAAAGATTTGCGAAGATGATAGTGTGAGAGTTCCAGTGTTAGCGGCCTGTACAGATGGAGCTATTGGTAAGCCCATAATGACAAGCATACTAGCAGCTAGTAACAAGGTTGCAGTTGCAGCCTTGAATTGCTTAGAGAATAGCCAATTTGTGTTTAGACTATAGTTCATACTATTATACTCCTTAAACGCATTTTGATAGTTTTAATATATAAGGATTATGGATAAATTGTCTATCAAGGCAGAAAATGAAGAGGAATTCAGGTTAGAGGGTAATTATAAACTGATTTAGTAAAAATAGTAAAAAAACATTATGGATAAAATCATCAGAGCTATATCCGGTAAAGTAATGATGAAATCTAAAAGAACCAAGCAAATAAAAGAGAAATACCAAAGATAAGATATAGAAATCCAAACAACGGAAGCATTCTGTTGTTTAAAGTTAATCCAGGAATTTTATACAAATAAGGAATCATTGATGCAAAACGGAAATATCCTGAAAAGAAGGAATATGCCGGTTGTAAAACAGATCCAAACACAATTAATGATAAACTAAAATAATCAATATGTTTTTTCTTATAAATAAAATAAATAGATAGAATTAAGGCAAAGAAAATTGACCAAGTTAGGAACTCATTGATTAAATAATTTAGACCTGTAATAGCAGGAGTATTAACTCCTCCGAATAAACGATTCTGAAAGAATGTTTGAAAAGGAATGCCAATCATACTGTGTGGAAAACCTGAATCAATTCCTGATGTGAATCTTAAGAAATGATCTAATCCAAATCTGTAGATAAGATGTAGGCCATGTACGGAAATAGTAATTAAAGGAATTAGAAAATATGGAAGAAATTTTCTATCTTTTGCAAGTAAAAAGAAAGGAAATGAAAAAATAACAAAATCAGGTCGAGCTAATGAAGCAAAAGCTAAGAAAATTGCAGACATTTTAAAGTTATCTGTTCGAAAATAATACAATGCGCCGAACATAAATGTGAAAAATAAAGGTTCGTTCATACCACCATGAGTAGAAATAAGAAGTATAGGATTAAATGCGTAGAAAAGTATTGAAGAACGACGATTATCTAAAGAAGCAACTTTAGAAAACATTACAACACTAAAAGAAAATGCAGTGATGTTAATCATTTCCATAGTTAAAGCAGTAGCAAATGGATTACCTTGTGCAATTAAATAAGTTAGAAGTGGATATAGAAAGGTCGCATGACGAAAACCGCTTTCTTCGGGGGAAGAAGAAAAAGGATTTAATGCGATATTATAATATGATGTGCCGTCAGTATCTGCCTTATCAGCAAAATGATGGACGTCGTAACCTAACGCTAACCCAAAGAGAAAAAAGAATAAGTTAAAACTAAATATTAATAAAAATAATTTACGTTCGTCTTTAAGCTGATTATTCAAGTTATCAATAATTTGTAAATCCACGTCTACCGTATATAACGAAGATTTCTATAAAAACATATACAAAAGACTTTTAGAAAGATGAAATATAACAAAAGTAAAGAGAAGTGGAATGAATGGAAGATAAATTAACAGCTATTGCCCCGCATAGAATAAGCATATGTGGTGGAGGAACTGATTTTCCTTCTTTTTACAATAACCATGGGGGAGCAGTAATTAATTTTGCAATTACACGATTTTCAAAAATTAAATTAAAAAGATTAAAGAATAAATTTATAGTAATTGCAAGTGATGTAGATGAATATTTTGAAGGAACAAAAGAAGAATTATTTAAAGTAAAAAATAATTCAATGCCTTTATACACTGTACTAGAAAAAGGAATTCCATTAAAAATTTCAATAAACAGTGATGTACCACCAGGAAGTGGATTAGGTTCCTCGGGAACATTAGCAGTAAATTTAGTAAATGCATTAAATCATATAGACAACAAGAAAAAAATCAATCCATTAGAACTTTCTGAAACTGCATACAAATTAGAAGCTGACATATTCAAGAAAGCAATTGGAAAACAAGATCATATGCCTGCAGCATTTGGTGGATTTAATTTTATAGAATACAAAAAAAATAAAACAATTGTCTCTCCATTCAAAAATAAAATTACAAAAAGTGTAACAGATTATTGTTTATTATTTTATTTAGGAATGACAAGAGATGCTGATAAAATATTACGAAGGCAAGAAAAAAGAGTGCAAGGAAAATCAGAAGAAATGATAGATGTACTAAAGACTATGAATAAGTTAACAAGAAAAATGAAAAAAGATCTTGATGATGGAAACTTTAAAGATGTTGGAAGTACATTAGAAATTGCTTGGGAATTGAAAAAGAAATTTACAAAAAATGTTTCAAATAAATTTATTGATAAAGTCCATGATGTTTCAATAGAATCAGGCGCGTATGGAGCAAAAATTACTGGCGCGGGGGGAGGTGGACATTTTTTGGTTATTGCTGATAAATCACAACATAAGAAAATTATTAGGAACCTTCATAGTGTGGGATGCAAGAGAGTTTTATTTGATGTATCTGTAAAAGGAGCTGTGGTAAATTATGGAAAATGAAAAATTCTTACAGGATTCAAAAAAGTCGATAGATAGTCTAATAGAAAATAATGATAAGATTTTAGAGATGATTAATCTTTTACAAGACGTTAGAAATAATAAGAAAAATGTTTTTGTTATTGGAAATGGAGGAAGTTCTTCGACAGCTTCGCATTTTGTATGTGACTTATTAAAAACTTCAATTAACGAAAGTCAACCAAGGTTTAGAGCTCAGTGTTTAACTGACAATACACCAGTAATGACGGCTTGGTCAAATGATGTTTCATATGATGATATATTTGCAGAACAGTTAAAGAATTTTGTAGAAGAAGGAGATATTCTGATAGCAATAAGTTGTAGTGGTAATTCAACAAATATTTTAAGAGCAGTTGAAGAATCTAATAAAAAAGGAATAAAAACAATAGGATTAACTGGTCAGTCAGGTAAATTATCGGAATTATCTGATATAGTAATAGAAGTTCCGTCAGATAATATTCTTCTAATTGAAGGTGTTCACTCAGTTTTATTACATTATGTGACAGAAATATTACGAGGATGAAAGTACCAGCATTATTCATAGACAGAGACGGAACAATAATTAAACAAATAGATGGAGAATATATTTCATCAATAAATCAGATTGAGTTAATAGAAACTATTTTTCCTGCAATTTTGATGTTACAAAATGAGGGATATTTGATAATAATGGTGACGAATCAAGCAGGGATAAACAAGGGAATACTAAGTAAAGAACAAGTAGACGAAATTAATCAACACATAATTCAATCTCTGAAAAGACAGGGAATTGAGGTATCTGCAGTTTATGTATGTCCTCATAGAACAGACGAGAAATGCAAATGTAGGAAACCTGAACCTGGATTATTACTCAAAGCAGCAGAAGAACATAATATTGATTTAGGTAATAGTGTAATAATTGGAGATTCAGATAAAGATACAGAAGCCGGACTTAAAGCCGGTTTAAAGAAGGTAATTAAAATTTGAAGATAACAATAATTACACCAATTCATGGAAAACAAAAACAATATGAAATAATGATTCAGAAGATTGGAAATAAATTAAATGAACAAACAATTAAACCATTAGAATGGATTATTGTTTGTGATGAAAAATCTCAGTGGATAAAAAATTTAAAAGTTCCATCATTTAGTAAAATTTTAGTTGCAAAAAAAAATAACATCTCATTAAAAAGAAATTTAGCACTGGATAATTCAAATGGTGATTATATATTTTTATTGGATTCGGATCAGATACCTGAATCAAATGAATTATTATCAGATTGTATTAGAAAATGTAAAGAAGGATTTGATTTAATTAGAATCCCAGAAAAATTTTCAGGAACTGGAGGATATTTAAAAAGATCTTATCATCATCTAAGAGGTCTTTATTGGGAAAAAAGTGATGAAGGAATTCCAAGATTTGTAAAGAGTGAGTTAGTAAAAGAAAAAAGATTTGATCCTGAACGTTTACATTTTGAAGATGAATTATTTTTCGAAGAGTTAAGAAATAAATATACTGAGGGAAAGATTGAGAGTATAATAATTCATAATGAAGCATTTGAGTTATATCCAAATTTACGTAAAGCGAGAATTGCACAAAAACAAAGTAAAAGTCATAAGATTAGATCGTCATTTAGATTAAATATAAAGACAATAATTATAGAAACACCGGTGTTATTACTTCCAGGAGTAATTTTTATATTAGCATTAAGAACTATTGCAAAAAGGATATTACCGGTTGAATCGGGAACATCAAGATAATCATTTGGGTTAAATACAAAGATTTCTGATATTATAGTAATGAAAGGAAAAACAGTAAAAGAATCAGCAATTACTTCTTCACATTTAATGTTGATAAAAGACTCTGGAAATTTTATTTTTGAAGCTGGAAAAACGATGCCAATGGTCCATGGAGGAATACTTATGACATTAATGGATGAAATTGCAGGAATGGTTGCAACTAAACATTCAGGAACGCATGTAGCAACAGCTTGTATAGATATGCAATTTATAGCTCCTGCGTTTGCAGGAAATAGAATGATTCTAAAATCCTCTGTAAATTACACAACAAAGACTTCAATGGAGATAGGCGTAAGAATTGAAGCCGAAGATATGAAAACAGGAGTGGTAAAGCATACAAATTCATGTTATTTGGTAGCAGTAGCAATAAATGAGAAAGGAAAACCAAAGGATATACCATCAATTATACCTGAAACTAAAGATGAGCAGAGACGTTTTAATGAGGCTAAAGTAAGAAATGAAGAAAGGTTGAAAAAGAGAATCAAAAATTAGTTTTATTTATCGCTTTTTGGATTTCGTCAATATTAGATGAGACTTCAGTAGGTTTTTCTACAAATTTAGTAATTATATCAGGATCTTTAAGTCCATGACCAGTTGCTATACATACTACTTCTTCGTCACTAGAGATAGTTCCGTTACGAAGTAATTTTTTCAAAGCAGCTATCGGAGCAGCGCTAGCAGGTTCAATAAATAGACCTTCAAGTTTTGCCAAATTCATTTGACCGTCAAGTATTTCTTTATCTGAGACAGTAGTTGCAAGACCTTGAGAATCATAAATTGCTCGTAAAGCTTTTTTCCAACTTGCAGGAGCACCAATTCTTATAGCAGTAGCAAGAGTTTCAGGTTTTTGAACATTATTCACTTCCATTTTCCCCTCTGAAAATGCAGTGGAAATAGGAGCAGAACCTTCTGCTTGAACGCCAACAAGTTTAGGAAGTTTATCAATTATTCCAAGTTGATGAAATTCAGATAAACCTTTCCAAATAGCACTAACATTACCTGCATTACCAACTGGAACAATTATCCAATCTGGAATATGACCAAGTTGTTCAAATATTTCAAATATAATAGTTTTCTGTCCTTCTATTCTAAATGGATTTATTGAATTAACTAAATAGATATCTTCATACTTACTTGATAATTCCATAACTACTTCAAGACATTTATCAAAATTACTATCAATTTGTAATACATGAGCTCCACAAATCATTGCTTGAGATAATTTTCCATACGCAACTTTACCAGAAGGAATTAAAACAATTCGTTTTAAACCACCACGCGCACCGTAAGCTGCAAGTGATGCGGATGTATTTCCTGTAGAAGCACAAGTAATTATTTTAGCACCAAGTTGTTTAGCTTTAGATACAGCTACAGTCATACCTCTATCTTTAAAAGATGCAGTAGGATTATCTCCTTCATTTTTAATATGTAAGTTATCAATTCCAAAAAAGCTAGAAAGTTTTTTAGAGGAATGTAATCGAGTTCCACCTTCTCTAAGTGTAACTCTTTCTACATCTTTACCAATAGGTAAGAAATCTTCATATTTCCAAACTGACAAGGGTTTATCACGCCAATTAGAATCAAGATTATTTGAGATTTTATTCAAATCATATTGAACCTCAAGAAGATCATTACATTTAGAACAATTATGCATAATTATATCAGGATCAAAAAGTGATTCACAATTAATACATTTTAGATCGATCATTAAATAATACGAGCTCCTTTTCCAATTTTAGTAAGTATTACAGATGAATCAAAACCGGCAGACTTAAATTGTTTTTTAAAACATTTTTTAATCTTTGGAAATGATTTTTTATTATCAAGAAATGAGATGACGGAAGGACCAGCTCCACTAATAGTAACACCTAAAGCACCAAGTTCTAATAATTCAGATTTAAGTTTATAATAGTTTGGAATTGTATTAGAACGAGCAGTTTCAACAATAGTATCATTCATCGACTTTCCTATGAGATCTTTATTTCCTGTAGAGAATCCTGCAACCATCATTGCGGCATATGAAACATTAATTATAGAATCAGTAAATTTTACTTTAGTTGGGATTAATTTTCTAGCTTTACCTGTTTTTTTTGCAACAGATTTCATTTTAGGAGTTCCAATACATACATGTAGGTTCTTTGGTGGTAAAAATGAAACAATATCATCACAAGTAGACGAATTAATTACTACAAATCCACCGAATAAAGAACCAGCTACATTATCCGCATGACTAATTCCAGCAGAAGCTACTTCACCACTGGCAGCAAATCTTAGTTTTTCTTTGTCAGTTAGTTTTAGAGAGAATAATTTATCCAATCCAACAGTTACAGCTGCAGCAGTAGCTGCACTACTACCAAGTCCTTTACCTGGAGGAACTCCTTTTTCAACAGAAAGTTCTACGCCTTTTAGACTAAATTCTTTAAGAATATTAATTGCAACTATTCCACCAGTATGTTCTTCAGGTTTATTTGAGATGCCAGATTTAAGGCCATAATTTTTTATTGAAATCCCAGAGTTTTCACTTTTAGTAATTTTAACAGTATCGTATAAATTATCCAAGGCTATAGCAAAACAATCAAAACCAGAGCCCAAATTCGCACTAGATGCAGGCCCTATAGCAGTAATATTTTTAGTTTTTTTCAATATATGCTAGTAATGTTTGAATAATATAATAATATATTCATATTTTACTCACAATATAACGTGGTAATCGAGCATTTTTGAAAAAATTATTAATATGTTCGAGCAGGTAGATAAGAAGGAATAGTAGATTGAGAACTATATTAATTGGACTAGGAACGATTGGCCAGAGCTATTGTCAGTTATTGGAAAATAGAAAAGAAGACCTTTTGAAGAATTATGGAATTGATTCAAAGGTTGTTGCTGTTGCCGATTCTAGAGGGGTTGCTATAAATGAAAAAGGAATAAACATTAGTGATATACTGAAGATAAAGAAAGAGAATAAATCAGTTTCAGATCTTTCAATTGGAGATAAGAATAAAACATCAATTGATTTAGTACAAGAAATTGATGCGGAATTACTTGTAGATGCTACTCCAACTAATATACAAGATGGTGAACCATCGGCTAGTTTACTAGAAAATGCAATGAAGACAAAAAAGAACATAATTACAGCAAATAAAGGGCCATTAGCACTTGCATTTTCATCAATAATAGAAAAAGCAGATTACAATAATGTAATTCTGAAATATAGTGCGACAGTTGGTGGAGGTACACCAGTTCTAGAATTCGGAAGAAAATGTTTGGAAGCAGACAGAATACTAGAAATTCATGCAATATTAAATGGGACGACAAATTATATACTAACTGAAATGGATAGTAGAGGTCTAAGTTTTCAAGAAGCATTAAAAGAAGCACAAGAATTGGGATATGCAGAAACCGATCCAACATTAGATGTTGATGGATTTGATGCAGCTGCTAAATTAGTAATAATGGGTAATTTATTGTTGGATAAAGAATTAGTACTAAATGATTTAAAAATAGAAGGAATACGAGATATAACACAAAAAGATATTACTAAGGCAAAAGATAATGGAGATACTATAAAATTGATTGCAAGTGTAAATGATATGGCGAAAGTTGAACCAGTAACAATATCTAAAAATGATCCAATGTCTGTAACGGGAGCATTATGCTCAGTAAAATTTATTTCAGAATTTGCAGGCGAAGAAGTAATAATAGGAAAAGGAGCAGGTGGAATGGAAACAGCAAGTGCAATGATTAGAGATTTAGTTGAAATTAAACAAAAAATGAGGGTTTAGGAATGAAAATCGTATTAAAATTTGGAGGGACTTCAGTAGGAAATGGGAAGAAAATAGATAATGTTTGTAACATTATTCAAAAAGTAAAAAAAGACAATCAAGTAATTGTGGTTTCGTCGGCATTACAATCAACTACAGATGAATTATTAGAATTATCAGAGGATGCAAAGAAAGGGAAAATTAATGAGAAAATTATTAATGAAATTTCGCAAAGACATAGAGATGCAATTAAAGATATAATTAAAGATAAAGAAATTCAGAACGAAGTTTTTAAAGTAGTAGAAGAGTTAATTGAAGATTTAAAGAAAACGGTAGATGGAGTAATTATAGTAAAAGAACTTAGTGATAAAACACAAGATAAAATTGTTGCGTTTGGAGAAAGATTAGCAGTAACTATAATATCAGGTAAACTTAGAGACATGGGAATTAAATCGAAATCATTTACAGGAGGAGAAGCAGGAATTATGACAGATGATAATTTTGGAAATGCATCACCGTTAATGAAAGTCACTCAACATAATGTTAAAAATAATTTATCAGATTTAATAGAAGAAATTATTCCTGTAGTAACTGGATTTATTGGAACAACACAACAAGGAGATATATCAACATTAGGTAGAGGAGGGTCAGACTTTTCTGCATCTCTTATTGGAATGTGTTTAAATGTGGATGAGATATGGTTTATGACTGATGTAGATGGATTATTAACAGCAAATCCAAAAATATATCCTAAAGCAAAAACCATTCCTCAACTTTCTTATAATGAAGCTGTAGAAATGGCTACAATGGGTGCTAAAGGAATGCATGCAAGAGCTTTAGAACCTGCCAAGATAGCAAATATTCCTGTACGAATTAAAAATACATTTAGACCTGATGTAGAAGGTACTTTAATCAATGATCAAGTTATTGTAAAACCAGAAGAAATTACAAAAGCAGTGACTTCGTTAAATGGTTTAGCAATGATAACAATTGCAGGGATGAACATGGTAGGAAATCCAGGAACGGCAGGTGAAATATTTAGCATGTTAGGTCGAAATAAGGTCAATATAATAATGATTTCTCAAAGTATTTCTGAAGCAAATATAACTTTTCTAATTAAACATGATGATTTAAGAAAAGCAGTAAGTGTACTTCAAGTCAGTTTATTGGGAAAAAGTAGTGTAACAGATATCACATCAGATGATGAAGTTTGTGTTATATCAATTGTAGGAGCAGGAATGAAGGGTACGAGTGGGGTTGCAGCAAAATTATTTACTGCTATTTCAGGAGTGAATATTAATGTAAAAATGATAGCTCAAGGATCATCTGAACAAAATATATCATTTGTAGTTCAGGAATCTGACTCGCTATTAGCAATCGAAGCAATTCATAAAGAATTTAATATGGATTAGCGAGTGTAAAAACAATACTTTTAAATTTTTGCGTTATACTTGAGAATAAGATGTATAAAATAGCAATTTTAGGAGCTACTGGAATGGTCGGCCAACAATTTATTTCAGGTCTACAAAATCATCCATGGTTTGAGGTTACATGTTTAGCAGCATCTGAGAGGTCTGCTGGTAAGAAATACATAGACGCAATAAAGAATAGTGCTGGATCTATTCAATGGTTTGGAGAAGGAGAAATAAATGAAAATATTAAAGATATGACTGTTAAAAATGTTGAAGAGATTGATCCATTAGAATTTGATATTGCTTATTCTGCATTAGAAGCAGGAGCAGCTCAGATTGAGTCTAAATTTGCAGAACATATTCCTGTTTTTAGTACAGCGTCCGCCTATAGATACGAAGAAG
>sequence16
ATATTCATGTTTCTGACGATGAAATTATTACTGCTAAATGTGATGAATTATTAGATCGTGGAATTCTGCCCAATCAATTCATTGCTTATTATCTTGCATTAGTGCAACAATTCTATACATCTTCTGGAATTGAATTGGATAAAACTCGTTTTCGTATTCTTCCAGATGACGATCGTGCTTTTTATGCAACTCATTCATTTGATTTCGAGGTTCTTACATCTGTTGGCTGGCTTGAATTAGTAGCTTGTAATAATCGTACTGATTATGATTTAAGTAGTCATCAAAAGATTAGTGGTAAAGACCTTCAAATTCTTGATAATGACGAGAAAGTTCTTCCTCATGTTTTTGAAATATCTATGGGTGTAGATAGAAGTCTATATTCGATCGTTGAGAATTCATATAAAAAAGATGGAGAACGATTCCTTTTATCACTTAGACCTACCTTGGCTCCTTATGATGTAGCCATATTCCCTCTTTCTAATAAGAATGATCTTCCTTCTTTTTCAAGACAAATTTTCAATAGTTTAAAATTAGATTTTCAATCATTTTATGATTCCTCGGGTTCTATTGGAAGACGTTATAGAAGACAAGATGAAATTGGTACTCCTATTTGTATTACAATTGATTTTGATTCGATTGAAAATAATGATGTAACTATTCGATATCGAGATTCTATGGAACAAATTCGTGTTCCTGTTTCTGAGATTAAAACTAAATTATTAGAATATTATAATAATTAGTATTGATAATACTGATCCTATTGTAGTAGATAATAAATTCACTATATTATTATCAATAAATGAATATCCTTTTGTTAATTCATTCTTCTTTTTATGATGATATTGTAATTCCGAATATTTCTTACAATCTACACAATAATATTGCGCTTGTATAGTAGCACCTATAATACTATCAATTAAAATGCCTACGAAAGAACCTATTATTATTGCAAATATTGAATAATAATTTAATACAAATCCAATCACTAAAGATGAAATAATAATTATAATTATTCCTATTATTGATGCAAATATTCCTAGTGTTGTTATTCCTCCTGATTTTCCAGCTTCAACTTCCTTGAAATTTGTAATTAATTTCGGTTTATTTGAACTCAAAAGCCCTATTTCAGTTGCTAATGTATCTCCTGTTGCAATTGCAATTGATGCTATGAATGCAAAAAGAAATAATTCATTATTTGTATAATGATATATTGTTCCAAAAAGTGAAAAAGCAAATCCATTGGCTAGAACATTTTCCCAACTTCTTATTCCATCTTTTTCTTGCGCAAGTCCTTTCTTTCGTTTTTGTTTAAATCTAAATTTTGTACCTATGAACCCAATTATGAAAAATTCAATTACTAAAATAAATCCTCCTATTCCTGTTACTAGATATACTAAATTTCCCATAAATATCGAACTTATCGTTCCTTTAAAATTTAATATTTTTAGTTTTAATACAATTATTGATGTTATAATGATAATTGAAATAAATATCAAATATTGAATATCTTGTAGCATTATTTATTCTCAAATTTTCCTTTTATATAAGATATTACAATTTAATTAATTTCTCTTTTATCCTACTCTCATTATTTCTTGTTAATCCTAATATTATCTTATCTTTTTCTGCTAAATCTATTGCTAATTTATCAATTTTTTCTGGACCATGCAGAATTACCATTCTCGGTTTCAATTGTGATACTCTTATTGCTACTAATGGTGAACGTCCAATTCCCACCCTTGTAAATATTAAAACTCTCTCGGTTGTAGCTCCAAAAATCTTGTAAAAATCTATTCCAGATAACATGTATATTGTATTGATACTATCTACGATTGTATAACCATAAATTTTTGTATCTAAATTATCTTCTTCGTTTAATATATCAATATTTAATGATTTTTTTAGTTTCCCTGCACTGATTGGTTTTTTAAATTCTCCTATTCCTAATATTGCAGAATGATCTTCTTTTAACAGTCTATTCAATGTCTTATTGTTCGATTTATCAATGATTACTAAAGCTTCAATGTATTTTTTTATAAAGACAATTCCAGGTGAATATCTTCTTCCACTTTCATAATCACTTAATACTGATGGAGAAATTTTCATTTTATTCGCTAAAGTGATTTGTTTTATTTTTAATCTTTTTCTCCATATCTTTAACATTTCTCCAGGATTATTACTAACTACTACATTTCCTGCAATTTTTGCTATAATATCTAAATCAGCATTTTCCAATATAATACGTTAATTGGCGAAGTTTATAATATCTGTTATTCTATTATATCTTCATTCTCTTCTAGCCAAATGGCCCAAGAATTGAGTTTTTTAAGTTGTTTTTCTCTTGTTTTATTTTCTTTAATAACTTCAAAATACGTCTTTCCAATTTCATTTAATTTTATTTCAATTAATTTATTCAATATTTTTACAAAATCTTCATTATTTTCTTGTTTATTATCCGCAATTTCTATATTATCTAGTATTTCTATAATGCTTGTTTGGTTTTCTCCTCGTGTATTATATCTCATGCCCATCTTGCCCAACATGTAATAAGAAACATTCAAATATAAATGTTGTGCAAGATGCACAATAAGGATAACAATGTCTGGCACTGAGAAAATCACTGTTAAATTGAAACATGGTAGTTGGGAAGTTGAAATAACTTGTCCTGAAAATCGAGTTAAACAAACCGTTGAAAATGTAATTAGTGGTATTGATACAAAAACATCTTTAACAACTGTATCTGATAATATTAAACCTACAACTCCTATTAAATCGAATAAATCTACTGAGCATGTTATTTGTCGTGATCTTATTGAGCTTTTATGGCAAGAAAATTGGTTTACTACTGAAAGAAACCTATCTGAAGTAGACGAAGAACTATCACGACGTGGATATCATTATGATAAAACTAGTATTTCACATTCTTTGAAGGATCTAGTTCGAGAAAATATATTAACTCGTAACGGTTCTATGAGAAATTATCGATATGTCCAAAAAAGACCTCCAGTAGCATAAGTTAATATATCCTTTTTTATGAAATTATCTCATGACAGATTCTATTACAAAAATTAAATTACGAATATCTAATATTGAAGTTGAAATTGAATGTGATATTCATAATCTTGAAGAAATTATTTCAAAGATTCCAAAAATTATTGAATCTGTCAATAACACGTCTGAAATTCACACTAAGGATAATAACTTTTCTATAATTAATAATTCAGTTGAAACTGAACCTATCATTCCTCCCGATATTACAATAAATAAATCAGATTCACTAACTGATGTATTGTTGAAATTATTTACTAGTAATTGGTCTAATACTCCAAAAAAACTTAATGAAATACGTGAAATATTACAATTATATGGGTTAATGTATCCTAAACAAACTGTTGCAGTTACTCTATTAAGAATGGCAAAATCAGGTCGACTTCGAAGATTTAAGAGTAATACTGGAGAATATGTTTATACTGCTTCTAACTCGCTTATCTCCTCTACTGAAAAATTTTCTAACTCTTCTCTATGAAGATTTGATGTGATTTCATGAGTGAAATATTAATTACAATAATTCATAATGATACTACTATTGATTTCAAAGGAAGTCCTTCTGAAGTATTGTATTCTGTTAATGAATTCCTATTGAAATCTATACCCTCTATTGAACTTGCTAAAAAAATTTCGATTAATTATACTCTAGAAGATATTTCCTTAAAATTCCATAAAATCATTAAAATTACACCTGAAGGTCCACGAATCTGGATTGATTCTAATAACTTGAGTGATCGCGAAAGAATTTGTTTACAATTACTTGCTAATTATACGGGTTTTTTAGCAGGAAAATCTAATAATTCATTTACAACTATTTCCGATTTATGTAAGTTAACTGGTCTCAATCCTAAATCTATAAGTTCCAGACTCAGTGAATTACAAAAATCATGTTATGTTGATAAAGAAAATATTGATAAGAAAATTATGTTTAAAATTACCACGCAAGGGATAAATTGGTTGGACTCGATAATAGATAATAGATTGAAATAACATGAAAAAAGTTTTATTTATAATTGGTTTATTTTTCTTAATTTTCGGATATTTAGCTTTCCAAAATGCCATTGATAATCTAGTTACTCTGGAAGAATACATTGTTGATGCACAAGCAGGTATGCTCCCTGGAGCAGTACAAAATAATGAATTAGACGTAATGAGCGAAGCAGAAATGGCAGACTCCTTAAGACGTGGAGAAGCAATACTACAAGTTAGTCGTGCATTCATGTTATTTGGTTTTGTAATATTTGTCTATTCACTTGTTGATGACATTAAAAAAATTAAGAATAAATTATTATAATTAATCAATTTTTGTTACAATGATTTTTCTTTCTTGAATTATTGCATTAATTATAGATTTTCCTATGTCTGAATCTTTTGCAACTCTTATTCTATTTCTCTTTCCTACTGTTGCTGATAAAATATACTCATTATCAATATACAAATTCAATGTTTTTCCATCTAATTTTCTTTGTTTAAATAAAATATCTAATGAATTACCAGTTTCATGAATTGTATGATTAATGTTTTTTCCTAATGCATTATTATTTGGTTCAACATCAATTTTTATTCCTAATTTTTTTTCCATATTCATAATATTCTGACCATTTCTTCCAATTATTTCTGGAATATTCTTTTTATCAGTCTTAATTAAAGCTCTTCTGGATGAAATCATCTCAATATCTATTTCATCTATATATTTTCCATAATTCTCTTGTAATTTCTTTATTGCTTTGTCTTTAGTTATTCGTTCTTTTTTTTCAACTTCAATAACTGGAATTATTACTTTTTCTTCTCCATAAGTATAAATTTCATATTCTAGTGTTGAATCAATAAAATCTCTTATTTCAATTACTGGTCTTGTAAGATCTGCCTCTTGCATACCTGTTGGTACTTTCATTACTAATTCTAATTGATACGTCTTTTCAATTTTTCCATCTCTAAGAAAAATTACTGTATCAACAACATTACTTATCATACCCATTTCTATTCTTTCAACGAATCTTTGTATTGAATTCACCGGATTACTTGCATGCACTACGCCTATCATTCCAACTCCTGATAAACGTAAATCTGCAAAGATCATAAAATCTCTAGATTTTCTTACTTCATCAAAAACTGTATAATCTGGTCTTACAAGTAGTAATATTTCTGCAGTTTTTTCAAAATCTCCTTCTAATTGACCATATTGTGAAATCTCCGGATTTACTTGCAAATCTTTTGGTGATTCAATTGTTTTAACAATTTTATTTTTCGTAGAATAAAATTCAGCTAAACTTGAAGCAAATGTACTCTTTCCAGAACCAGGACTTCCTGCAACTAGTATCCCTTCTGCTGAAAGTTCAATTCTTTCCATTAGTTTTTTAGGAATCTTGTAATCACTTATTTGTAATTTCTTAATAGGTTTTATAATAGTAATTTCTGGTTTATCTGAAAATGGTGGAGTCGTTATTGTTATTCTAAATTTATCAAGTTGTATTACTTTCGCCCCATCACGACTTATTGGTTTGTCTCTTTTTTTACTTATTCTGGAAAATTCTTCTATATCTTTAATGATTTTATTAATTTCATCTTCATCAATATCTTTACCTATTGAAATTAATTCTATTTCACCCGGTAATCCTTTTTTTACTCTTATTGGAATTCCTTCTTTTATGTGAACACTAGAAATTAATTCGTCTTTAAAGAATTTATCTAGATTACTATCGTCCTCATTAATTATTTTTTGAATATAATTTACTTTGGCCCCCATTGCTTCAGCAACTATTGCTTGAACATAATCTCCTGTAAATAAAATTGCATCATTTTTTATCGATTCATCTCGAATAATTGCATCAATTCTTCCACTTCTTGATAATTTAATATCTTCTAATGAAGGTCTTGTTCCCAAATATCTGAATTTGATTTTTTTCTTTGTTGATATATCCTTGATCTTCTTTAATTCTTCTAAACCTATAAATCCAATTTCTTTATTTTTTGACGCTTGTGATTGTAATTCATCTAGTACAGCTATTGGTATAATTATTTCAGAATTTTTTATATCTCCTTTTTCAATTTTTTCTGATAATATTTGATTAATAATAATGCTTGTATCTGGTACAATTCTTACTTTATTAAATTTTTGTTTACTTTCTTTTGTCATATTAATAAAATTAATATCTCGCGATTATTATAACCTACTATTGACTAATAATTCTTTAACAAAATATGAGGACGTCCTTTATTCAATAATTAAAGAAGCACAAAAATATAATGTTGAATATGCTGAAGCAAGATTTCATTCTATAAAGGAACTTGCTGCTATTTTACAGAATGGAGAACCTAAACCTACTTTTTCTATTGAAAAACAAGGTATTGGTATTCGTATGATATATGATGGAGTTATGGTATTTGCATCAACTAATGTTTTTGATCAATCATTAAATGAATTAATCGAAAAAACTATTTTACGCGCTAAAGCATCTAAAAAGATTTCCAAATCTCCGATTAAATTTTCTAATGAAAAATCCTTAAAACGAGACTGGGCTGCTAACGAAAAAGAAAATTTAAAAAATGTTCATGTCGATGAAATGATTTCTGTTTTAAATGAAGTTGATGGATATATTACTTCATTTAATTCTGACGTATCTATAGCTAATCGAACTCTTATTTTAGATACTTCAGTTGAAGAAAAATTCTATATTAATACTGATGGTTCTCATTTATTAGGTCGTGTTCCTAGAGTTGCATTTTATAGTCAAATTGCAGCCAAGTACGATGGAAAATTATCTGCATTTAGTATTCCCGCAGGATATGCAGGACTTGGTCGTTCTGGTGGCTGGGAAATGATTAAGACTTTCAATCTTGATAATTATATTCCTCAACAATTATCTATTGCATCAAATTCAATTAAATCTAAATCTGAAAAATTTGAAAATGATATAGATGTAATTGTTGGTCCTGATATTGCAGGTTTAGTAGCTCATGAATCTTGTGGACATCCTTTTGAAGCTGATAGAATTCTTGGTCGTGAAGCTGCACAAGCTGGTGAATCATATCTTGAATTTGATTGTTATGGCACTAAAATTGGTAGTGATGAAGTTTTTGTCAGTGATGATCCGACAATTCCTGAATCTATGGGTTTTTATTTATTTGACGATGAAGGTGTTGAATCAAAGAAAAGAAAATTGATTACAGCAGGTATTATCACTGATTTATTACATAATCGAGAAACATCATCTAAAATGAATATTCAAAGTAATGGTGCATCTCGTAGTACTGAATTTGATAAAGAACCAGTTATTCGAATGTCTAATACATTTATTGAACCTGGTAACTACGAACTTGAAGAATTAATCTCAGACGTTAAATCTGGTGTTTATATTAAAAATTTCATGGAATGGAATATTGATGATAGACGAGAAAATCAAAGATATGTTGGATTTGAAGCTTATCGTATTAAAAATGGAGAATTAGATATACATGTTAATTCACCTGTCTTAGAACTTACTTCTAAAAAATTTTGGTCTTCTGTAGATGCACGTTCTAAGAATCTCGACTTTAAAGCAGCAAATTGTGGTAAAAGTGAACCAATGCAAGGCGCTCCAGTATGGACCGGCGCTCCAGATGTCAGACTCAGAAATATAAAAGTAGGAACTAGATCATGAACTTAGAACATATTCTATCTATTATTGAGAAAAAAATATCGTCATTTAATTGTGATGATTATTCATTTTTACTTTCTAAAAATCATGAAGATCTTATTCGATTTAGTAATAATACTATCAATATCTTTGATAATGTTGAAGATGTTTCTATTTCAATATATCTAGGACAAGATAAAAAAAGAGTAAGTGGCGTAATCTATAATTTAGACGAAGATTCAATTCTTACCTATTTAGATTCTTTGTTACAATATTGTAATGATTCTCCTATAAACAATGATTATACTCAACTTCCTTCTGGACCTTTTGATTATAGTTCAAAACACGCTGTGGAAATTGATCAAATTACAAATCATGAGTCAATTATTGATCACGTAGAAAATTCTATTAATTATGCATTACAAGAAGGGGCTTCACGAGTATGTGGTTCCTTTACAAGTAGAATATCAGAAATTATATTGAAAACATCTGCAGGTATTGATTTAACTGATAAATCTATTACAAATCTTCTTAATATTCGTGCATTTACTGAATCTAAATCAAGTGGCCATGGAATATCTTGTTCATCCTCAATTAACAATATTGATTCAAAACATGCAGGTATTGATGCAGGAAATTATGCAAAATCTTCAATTAATCCAAAACAATGTGATCCAGGTAAATATGATATTTTGTTTACTCCTACCGTAGCTGCTGATATATTCCAATTTGTTGGTCACGTATCTTCTGCCGATTCTGTTGATTCAGGTGATTCATTTCTTGCCGATAAAATGAATCTTCAAGTTTCATCTAATGATTTATCTATTTCTGATATAGGAAATCCAAATAATGGAATTTATAATCGTATATTTGACGACGAAGGTATTCCAACTCAATCTACTAAAATTATTGATAATGGTAAGTTGAAGAATTATCTTCATAATATTACTACTTCTAAAAAATATGATGTTAAATCAACTGGTAATGCGGGTATAATTGCTCCTCATTGTTGGAATCTTGATGTATCTCCAGGTACTTTTACTTTTGATGAACAATTAACATCAATTGAAAATGGCTTATTGATCACTAACAATTGGTATACCCGATTCCAAAATCCTGCTGCTGGTTCATATTCCACAGTTCCGAGAGATGCTTGTTTTGTTATTAAAAATGGAGAAATTAGTCATCCTATACATGGAATTCGTATTAGCGATGACATTCCTAGACAATTATCAAATATAGTTTCATTATCTAAAGCACGTAGATGGATTGAATGGTGGGAAGTTGAAACTCCTGTTTTATCTCCTTTTGTTGCGATTAAGGACGTCCCTGTTACTCGATCTACTTAATTAGCATAAAATCGTCACTAAATTATGAATAGCTGTTCTCGTTGTGGAGATGAGTTTCTTCCAACAACTGAAGCCCATTTGATTGAAAATTTATGCTATTCGTGCCTTTTTGATCCAGATAGAATTGAAGAATTAGATTGTGACATGTGAAAATTCACATAAAATATATATGCTATGTCTAACAACCATCTCGTTATATGGCACACCAAGCAAATGTAGGCGTTGCTCCTAACGGACAACCTGTAATTATCTTAAAAGAAGGCTCGAGTCAGACAAAAGGTCGTGAAGCTCAAAAAAATAATATTATGGCTGCTAAAGTAGTCTCTGAAATAATCCGAAGTTCCTTAGGTCCAAGAGGTATGGATAAAATGTTAGTTGATGGAATGGGTGATGTTACAATTACTAATGATGGCGCTACTATTCTTAAAGAAATTGACGTTCAACATCCTGCCGCAAAAATGATGGTTGAAGTATCAAAAACTGCTGATACTGAAGTAGGAGATGGTACAACCTCTGTAGTTATTCTTGCTGGTTCATTAATTGGAAAGGCTGAAGAATTAATTGATAAAGAAGTTCATCCTACGATTGTTGTTGACGGTTATAAAAAAGCCGCTACTCAAGCATTAAAAATTTTAGATGAAATTGCAATAAAAGTTACACCTGGAGATAAGAAATGGCTTATCAAAGTAGCAAAAACTAGTATGGCTTCTAAATTGATCTGGAGAGAATCTGATACATTATCTAAAATTGTAACTGATGCTGTACTTGCTGTTGCCGATAATGTAGATGGTCGTTATACTGTTGATATTGATGATATCAAAGTTGAAAAGAAAGCTGGCGAAATGCTAAAAGATACTTCTCTGATTCAAGGAATAATTCTTGATAAGGAAGTTGTACATGCAGGAATGCCAAAGAAAATCAATAATGCAAAAATTGCATTAGTTGCTGCTCCATTTGAGATTGAAAAAACAGAATTTGATGCTAAAATTAATATTACAAATCCAGATCAAATACAAGCATTCTTAGATCAAGAAAGTACTATGTTGAAAGATATGGTGGATAAAGTTGAACAATCTGGTGCTAATGTATTAATTACTCAAAAAGGAATTGACGATTCTGCACAACATTATTTATCTAAAGCAGGAATTCTTACAGTCAGACGCGTTAAACAAAGTGACATGGAAAAACTATCACGTGCAACAGGCGCTAGAATTATTACTAATCTTGAAGATTTAAGTAAAAAAGACTTGGGACATTCTCAATTAGTTGAAGAACGTAGGATTGAAGAAGATAATTGGGTATTTGTTGAAGGATGTAAAAATCCAAAATCTGTGACTATTCTGATTAGAGGTGGAACACAACGTGTTGTTGACGAAGCTGATAGATCTATTCATGATTCCCTTATGGTTGTTAAAGATGTATTAGTTAAACCATCAATTGTTGTTGGCGGCGGTGCACCTGAAGCTGAAATTTCAAGATTACTAAAGGTATATTCAAACAAATTAAGTGGTAGAGAGCAATTAGCTGTTCAAAAATTTGCTGAAGCATTGGAAATAATTCCAATTACTTTAGCTGAAAATGCGGGTCTTGATCCAATTGATACTCAAGTTCAAATTGCTGCCGCTCATGGTCAAGGAAATACATGGTACGGTGTAAATGTTGTAAAAGGTCAAGTTGATGATTGTGAAAAACTAGGAATATATGAACCAACTATTGTCAAAGAACAAATAATTAAAGCTGCTACTGAAACAGCTGGAATGTTATTAAGAATTGACGATGTTGTTGCATCCTCTAAAACTCCTGCTCCACCTCCAGGCGCCGATGGCGGTATGGGTGGCATGGGAGGTATGGGTGGTATGCCTCCTGGTATGGGTATGATGTAGAAGAAATTCTATTCTATATAATATCAGGAATATAATCCATAATTAAATCGCCCATAAATACTAAAATTATACTTCTTAATATTGCTCCTATTAATGCAAGTAATATGAATGTACTAATCTTAATTTTAGTCAATCCTGCGGCATATGCAATTGCATCGCTTGATAAAAACGGCGCCGCTCTTCCAAATACTATTATATAATTTCCCCATCTTTCAAACCAGTTTTCAAATCTTTC
>sequence17
TATCTCTACTTGCATTAGATGTTGCAGATCATGATATAAGAAGTCTTGACATGGCTTACAAAAATTTATCTGATGATTTAAAATCTAACGGAATTCCTGCTGATAAAATAAGTCTTGAAAGTAAAACAATGAAGTTTCCTACTCCTGAGTCAATGTTTGATTTTGTTAAAACATATCCGGATTTTCTTGAACGTGAAGGCGCAAAAGTACCTGAAAATTATAAACCTTGGTTGTCTTCTTCTATGGAAATTCCTCCACTTGCTGGTGGTGTTGGAAGAAAACGTGCTTTATCCAAAGCAATTTATGGTTTAAATTATCATCATCTCAAACTTGTTGATGGATATATGGATAAATTCAAAGAACATGTGTTTACATCTACTATTCAACCAATAATCTTTTTAGTTTATGGACTCGGTGGAGGTTCAGGTAGTGGCACTGCATTAGATTTTGCACGACACTTGAGAAAAAAAATTGGTAGTGGAATACCAATTATTGGATTAGCTATTCTTCCTTGTGGTGGAGACGATCCTCCTGCAAAAGGCGCTTCTTGTTATTCTTCTCTTCTTGAACATGAATATGCTATTGATCGTTCTTTAAACCATAATATTGTCAGCGCTTATGGCGAACCTTATAAAAATCCATTTACAGCTTTTCTTATGATGTCTCTTGGTCCTGCTTATAGTAGGACGGGCAGTGTACTTGATGCTCGTAAGTTGGTCGACGAAGCTATTGTTGATATTTTAATGAAATCTCTTAATTTCGATTTGGCCGATCTTTTCAGTAATATTGGCTCAAATGTCGATTTAGGCGGTAAATGGGTTAATGTAATCTCAACCTTGAAAGTTTCTTATCCTGTTGCTGAATTTATTGAACTTACTAAAATCTATCTTGATAAATTAGACCGTTTACGTGAACTGAGAAAAGAAAAATTAGAAATTTATTCAGGAAACGAACAATCTAAAGGTCTTATTGACGTAATGAATGCATCATATGATGAATTAAGAGCAATATACAAAGGAATCTCTATTGAGAAAAACACTTATGAAGAAACTCGATTTGAAGAAAATGTACAAAGTTTCCTTGGCGAAGGAGTTTCTATGGAAGCAGAATTACTTATGCATATTAAAGGTGCAGAAACCGCTACTCGAACATTAGTCAGTGATTTATCTAAATCTGTTCTATCAATTGGTTTAGACGCTGCCGATGGTACTGTCGAAGCTAGAATACGAACCTTATCTGAAGAATTAGTATCTCTTAGTAGTAATTTATCTCAAAACTATAATGCTTTACAAGATAAAGTTAAACAATTAACTGAAGATTTACGTAATACACTTCCGAGTGCTCAAAAACTTACACCTAGACAAAATCAAATTATTAATGACACTATCAATCTAGTCGAACTCATTGATCATTATCTAACTGGTTTACAATTATACCTTAATATTAGTAATTTGGGCGATAAACTCAATAAGAATCTTGACAAATCAGAAAAAACTGAATTACATAAACGAATGAAAATTGCTGTTGAACGAATCAGTAATCCCGAACTCGTGATTAATTTTGCACTTTTATCATCTTTATTATCCCCTGTTGAAACCGAAGTTAAAACTTTGGATGCTCGACTTAGTGACTGTCAAGTTATGAAAAGATTAACAACAGAAAGAGCAGAAGAACTAAAAGTTGAAGAAGAAAATCTTACAATCAAACAACGTAGTCGTCAACAAGAAAAAGGCCGAGTTGGAGGACAAGCAAAGAAAATCCGTTTCGGATTCTTAGGTCCAAAAAAGAAGTATATGCAAGGTAAAGCTAGTGATTTAGAACATGAACTTAATATTATTAATTCTCAACTCACCGCAATTACTGAAGAACGTAAAACAATTCAATCTAAACTCTCTGCATACACTAATATTGAACGTAAATTCGAAGTTGCTTCTTCATATAGAAAACTATTAACTGAAGCATCCACTCTTCAAAATTCTTACTATGAAAAAATGAATGAATCAATGAGGGATCGAGGTTATTATGATCGTGTTGCTGAACTTACTGAAAGTGAACAACTAAAAATTATGCAACGTATATTACTAGAAGACGAAGCTTCTCTTACACAAGAAAATATGTTAAATGAAATTATTGATCGAAAACATCTTAAAGAATATCTTTCTGGCGCTCTTGGTATTTTCAGAATTCCAGCTACATTAGGTCTTACTGCTGATTACCGAACTGACTATCTCTGGTTCACGGTTGTCAGTCCTCGTGGTTTATGGGATAAAGATCTTGATTCTGAAGCTAAAACTATGTTATCTGGTTATGTAAAGCAAGATGCTTCTAAGAGTATCTATATACGCGAGGTAGATTCTACTGATCCTTGGACAATGAGATTCTTAATAATTGCAGCAAAAGCTAGTGTTAATCACTTAGAAACCTTCAAAGAAATGGATATACTCTATAATCAAACTACTCAAGGTGAAAGACTATTATCTCATTCTTATCTCTTAGAACAAGGTGTTCATGTATCTTCTAATCATGAACTTAAAAGCACTACTAAAGTTGAAGATGAGAATGGTAAAACAGAAATCAATGAATTTGGAAAGGATACTAGTAACTAGCTCTAATTTCTGGAGATAAAAATTGTCTAAATTAATCAATTCATCTGTAATTGATAAAGTTGGATTCAGACCATCTTCCGATATTGATAATGCCATTGAAAGAGAACAACAATATCGTAATAATTTAAAAAAAATTCTCTTTTCTACTGCAATTTTCTTATTCACTATAATTATTTTATATACTATTCAATTATACCCAATTCCTATAGTTTTTCTCATTTCCATTCTTTCTGCTTTTATTGGTTTCAAATCTATACCATCAGGTTTTTTACTTTCCTTTATTTTGTTTATTCCTGCTTATCTATACCAAACTTCAATACCTTTTTGGTGGTTATTACTTAGTTTCTTCATTGTAGGAGTCTTTATTGCCAAATCATTGAATGATCCAAATAATATTCTCACTCTAATATTTGGTTTAACTGCAGGATCCTTATTCTTAACTCCATATTATTTCGTTTCAATCCCACTCATGCTCTTTTATACATTAATTCAAAAAACTGACAATCTTTCACACAATGTCGGATTACTATTCTCATTTCTAATCTTGTTTATTCCATTTAATGCACTTGGATTTGCTGAAAAATTATCTATTAGTGCTAATACTCGTCCTCAAGTAATTTATTCTCTTATTTCTGAATCTACTTTACCTATATTTTCCCAAATAATATATGAAAGTAATCCTAGAGCATCATCTTTTAATGAATTCAACCTTGCTGAATCTCTTTCTGGTTTATTTTCTTTACAAAACAATATTTTCAATTCTTATTTATTTGTGTTAATAGACAATCTTGTTTTGTTATTTATTCCAATTCTTCTAGTAATCTCTTTTTCTTTTATTACAATTCTTGATAAAATCTGGCCCTGGATGGAAGAACGTGGTGTCGAATTAAGTATATTACCAAATTTCTCTTATGTAATTACTTTAATTCTTGGTACATTATTCTTTATTATTCCTCTACAAACTATGCAAATTCCTTTTGATTATTCTACTGGTTTTAATTCAACTGATTCATTCAAATCGATAATTGCCGCAGGCACAATTGGCGTTGTTGTATCTTTATCATCAATTAATCTTTCTCGAAGAACTGAAGGCGCAGAACTTACTGAATCAGTTAAAGAACAATGTAATAGTTATCTTCAAACTCTTGATAATTCTGATTTACAATTAGAAGAAATACAAGAAATTTGTCCGGGTATTGATATTAATCCTGAAATAACATCTCTCAGTGAATTCAAAGAAGAACTTTCAATCACTCTTGATGGATTATATACTCTTTCATATTCTGGTCTGCGTGAAAAATCTGAAAATATTCGTATCTTATCTTCTTCACAAATCGACGATAAAGATTCTTTACATCTTAAGGTTCTCAATTTTCATAATGACCAACTCGATAAATGTAAAGATATGCTCTCTAAGTTAGAGGGTTTGGGTATTGGTAACCTTCCTACTATAAATTCTGACCATCTTTCTTATAGTGATGATTTGACATTCTCTGACGTACTTAATAATCAACGTGAATTAAATGATTATCTATTAGAAGTCTCACAAAATACTATCCGTGTTGCAGAAAGTCTTGTTCTTGTAGTTCAAAAAGAATTTGACCACACTTTGGAATTTACTTCAATTTCTATCAGTGAAAACTTTATTTCACAAGGAAAAGGTGAACAAGCATTAGATACTCTTCTTGTTACAATAGCTTCACTTCATAAACGCTATCATCAAGTAATGCAAAAGACTATAACTAGTCTAAAACGTCTAATTGAACGTTCATTAAAAATGCATGAATATAATGTTATTCCATTGAATGAATCTCTTGGTCAAACTCCGGCAGACGTTGAAACTATTGATGTTGCTAAACAAATTCAAATTAATTATGACGAACTTTCTAACTTTAATGGAATATTATATCTACCTGATGTTATGTCTATCTTACAATTTCTTGAAACTGGTACACATACAGTTATCAGTGAATTACTTCGATTGTTAAGAGAATTCGAGAAACGTAATGATACACGTGTGCCTCTTGATTTTCAATGGGGTAAAGATACTCAATTAATTTCCGAAATTGAATCCTCTCTTAGACGACTTGATGATAAATCAGGAGCCGAGTTATCTGATCGATTATCAAATATTGAATATGGTATAAAAATTATTGAAAACGAAGCTACAACTTTAAAGAAATATCTCATTATGAATGAATTTATCTTAAATTATGTCAATATAGAACCCTTGATATCTTCATTAATCAGTATTGAAGGTAAAGTTATTCCGAGGCAATTGCCTGTCAAAAGTAGATATGCTGTACAATACCTTCAACTTTTTGCCTATGGAAAATCTAAAGTTACTTTCGATTCATCTAAGAACACACTCTTGAAAAATAAATAAATTAATTCAATAAACTTACTTTCTTCAATGATTCTTTTAATAGATTTTCTAATCTATTTGTTGTTTCATCAATTAACTGTTCAATTGTGTCATTTTTCTCTCTTAATGTTTTTGTTGAATATTTTGTCTTATCAAATAATTGATCTGCAAAATGACCATTTACTATTGGAATATATCTAATAACATTTGACTCGGATAACTTCTTTTCCTCGTTCATTTTCATACTCTCAAAATAATATGATTCAAATACTGCTACTGCAAAAAGATAAAAAAATTGTAAATTCTCCCAACATGGCTTAACTTCTGATTTCATCTCTCGCCATTCTACATATGGTACTTGGACCTGTAATGATTCACCTAATGTCCTTATCATTATTCTAATTGAATTTATTATCGTTATATTGTCTCTACTTTTAATTGACGTTATAATGTTTTTTGCATCATTATTTATGTTTACTTTATTAGTTTCTAATTCTAATACAAGTTCTTTGAATTTCTCTATTCCCTGATCTACTTCATCCCAATTATCATCAATTGTTTCTTTCATAATTGTAAATAGTAAACTAATTATTGTCCATAGTTTGAATGTTACATCATAAATATACGTTGAATAATTTGCTTGATTAATCCTATCATCTATTTCATCTTGCTTTCTTTCTTCCGTATCTTGAATTGCTTTCTCTATTGTATTATTAATCATATCACAAATCTCATTTGCTTCAACCGGTGTATCTAAAATAAATTTTGCTAGAAGACTTGAATCCTCATTTGAAATTAAAATCTTTGAATAACCTTCTTTTTCAATATTTTTTATCAATTCAATCTCTGTTTGAAATTCCATCTCATATTTTTTTGATATAAGTCCGACTTTTTTTTGAAATATTAATTCATTTCCAGATATTATCAAACGACCTTTTATATTCTTGGTATCTTGTTCAAATATTACCGATTGATATTCAATATCCTTTATTTGTTTTTTCATTATATCCTATTATTAATTAATAATTTATAGGAATTATGTTTATCTGACCCAATTATTTTTATTTCTGTTATATGGTATATATTATGATGACTCGTCCTACATCTCGTAAAATTTCTTATAGTTCCTTTATTTTATGTCCTGATGGTCATAAAAATGTTCGTGGTTTAGCTGAATGTGCTACTTGTAATTTACCTTTAATCAATTTCAAAAAGGAATTATCTGTTTTAATTGATTATCTTAATTCAATCAAAGTAGCTAATCACCATAAAGTCATTAATTTTGGTATTGGCGATTTTGGTTCTCAAACTCTTCTTTCTTTTAAAGATTCTATTCATCCTGAACGATTAAATCATCTTTTAGTTAATTATTTTAATTCTGAAAATACTTCGTCTGATTTATCCGAATCAGCTTCTAATCATTCTAATTATTATCTAATTGACGACGATTATGATTCTAATATTAATACATGGAGTGAATTTGAAGATACATTTTCTGAATTTGATAAATTTGAAGATAAAATTCGTCGTGTTGGTATTAATAATAATATTGACGAACAAACTGCAATAATTACTGGTTCAATAGGCGAAACACTTGTTTCAGGTCTTACTCTTCCCCTAATTAAAAAAATTAAACGCATTAATCCTAAATCTTCCAGAATAGTTCTTACTTCTCTTCCATCAAATAACGATACTGATCAAGTTCAATTTAATGCATTTTGTGGAGTTTCTCGTTTAGTACGAAATCAAAAAACTTCTGGAGATATGCTTATTGTTTTACAAGGAAATGCACTTAACAAAATGATTGGTATTGATCGCTCAGGTAAAAAATTAGGATCTGATGTATTAGTTCCTCGAATTCTCAACTTGTTAACTAGTAATGGTCATGCAATTAATAGTCTTGGAAAAATGGCAAAATCACTAAAAGTTTTAGCTTTTTCACCAGTTTATGTTTATGGCCGAAGTTATGAAATTTACGATAATCTTAAAAATATTTTAGACGACGCTGCTTATTTTCCTCTATCTCCTTTTCAATATGAATCTACAGTCCTAAGTATTGCTGTTATTCGAATCCCTGAAAATGTTCTTAATTCTATCTCTCCTAATCGACTGGAAAATGATTATAATGCTTGGAATAGAAAGCGTTTTCCTTCCTTAAAGGAATCTTTGATACAAATTGTTCCGGTTAAAGAGAATTCTGACAGACTGGATGTATTATTGCTATTAGGCGGAACTAAACTAGAGACTATTGTTGAACCTGTTAAACCCGGATATGAGCGTTTTAAAGAATATATTCGCGAACTTGATTTATGGAATGAATTCAAAATTAATGAAGACGACTTGAAGAAACTTGAAAACACTATAACTACTTATGATCGCAATATCAATAAGTTGCTAAAATCTAATTAATTGAATCATTAATTGTTTTATTATACTTCGGTAATACTCTTGCAAATGCTTTCTCTATACCATATGCTATAACTAAAATTATTGTAAATATTATTGTTATAAAGAATATTATCATTGAATCTGAACGATAAAGATTTATGTCAATCTCTACATCTTTATCATTAATTCTTTTTGAAATTATCTCTTGTTCTCCTCTATATTCTACAATAAATTCATAATTTCCTGGAATTAATTTAGTAAAAATTCCCTCATTACTTATTTGCGTTCTATTCATGAATTCTCCTATCATAGTTATATCTGCATTTTTAATCATTTGATTTAATGGATCTCTCAACTCAAAATTCATACTATAAGAAGCAAAGTATAATGTTATCACATTTTCATTCTGCTTCTGTAAATCATCAATTATTATTGTTATTAATACCCCATCATCAATTATTTCTACAGGAGATTCTATTCCATTAATTATTGCTACAATTCGTGATGAATCTGATTCCATCTCACTAAGTATTTCCTCTGAGAATTCCAGTATAATTAACTCATCAATATCTGAATGACTCATTATTGTTATACGCATTGCGTTTAATCTATTTTGTTCTATTTGCTCAATTAATGACGACGTTGATAAAATCTCAATTTGGCTACTCTCGAAATTTACTATATTAAATTCTGTAATGATAAAATCTTCTCCTGATGGAACTAGTTTAAAGTCTGATGTAGTTTTTGAAATTAATGCAGATTTAAGTGCCCTTGTCTGTGGTTCAAAATTAATAACCCTCATTCCGTTAATTTCAAATTCTTTTCCTAATTCTCCATTAATTCTCACTGTTATATATTCTAAATCTACTCCTTCAGATAATAAAATTAATTTAATTTGCCTATTATTGTTGAGAATTACTCCTTTATCAGACCATTTATAATAACTTGATGTTCCATTTGCAATAAAATTATCATTTGAATCTCTTACTTCTATCTCCACATCTCCATCTACAAATAGAATTGATCCAAGTTTTGATGGAGATTCTAAACCTCTGTATTCATTTGATACATCTAAATTACAAATACTTATACAATCATAAATCATTGCTGATAATATTCCACCATTTTCAGGTATCATTGAATACCTTTGTCTATAAGATATTCCTTCTTCCAAATTAAATGGTCTTATTACTTCCGTTTCTATTATATTATTTATCGAATCAATTACAACCCATTGATCATCCAATTTTGCTTCAATCCATGTATTCATCAATGCACTAGGTATGTCCTTATCAGCTGAAGTGCCCATTACACCAATCACCGGTCTTACTTCGATATCTATTGATCGTAACAAACTTCCCATTAAAATTTGATAAGTTCTTGAATCTCCACTGATCTTTTCTTCAGTATTAATGCATCCAATTATACCAAATTCTTCTATCATCATTTCTGCACTCTTTGGCATATCTAACGAAGGTTCTATTTTATTCGATACAAATTGTAATATTGATTTCGCTTTTTGTAAATCTGATTCATTTTCACCAATCCTTGATTGTTCTAAAATTTCTGATGAACAAATCCTTACTTTTTCATTTGGAATCATCCATTGATCAAATTCTTGTAAATACTTTGAACTTAATGCTATTCCTATGTTAGTAATTTCTCGTTTATCCTTTACAGTGAAAATCTTAAATTTTTTCTTAACGGTGTTTTCTTGACTACCTGTTTTTTCTAACGCAATGTCTATTGAACCAACACCTGATTCAGTGTAATTCATAGTTACAGCAAATAACTTGGTTTCCCCTGGCGCTAGATATATCTCTTGTTGATCTGGTCCTAGTACTAATCCATTAATATCTGTCGACGTCTTAATTATTACGTATCCTCCTCTTAACTGTGTATTAGATAATTCTATCCATATTTGTGAACCTTCTCCTTCGAATCCATTATTAGGTATTCTTACAGATTCTATAGTTACTATTGGGAGTAAATCATATTGGATTTTAATCGTCAATGGTTCATTTACTATTATAGTTGTTGGATTGGTAGTTCTCGTTATATCGAAATTACTACCTATTATTGTCCATTGCATGAATCCATATTCATCAGCTTTCTTTGTAGTTTCCAATAATAATTCTGTTCCACTATCTACCCAAGGTTCATCGAATGTTGTTATTATATCCGCAATGAATGACGGTTCAATTATTCGTGTTATTTTATACTGTAAAATATAATCAGCATAAATCAATTTTGGACCATTAACTAATAATTCTTCCTCTCTTTGATCTGATAAAATTGATCCACTCCATTTATCAAATCTATATCTCGATTCATCTTCAATTACTACTAATATTTCATTAGTATCTAATTCAATTACTGAATTTTCTTTATGCCAACCTGAACCTTCTATATCTAATAGACCTATCATGCTTCCTACTGGTTTAGATCTAATGTTTATGTAATGTTCTTTATCAAATTCCGCAATAAATGTAGATGGTCCTTCAATTATTATTGTTCTTTCAAAACTTGTTGCTTGATCATTCCATCCTTTAAACACATATCTTGTACCTTCCTCTTCGTCAATAATATCATATGCAATTTTTAATGTTAATGTATTTCCTTCTTTCATCTTTTCAGTAAATGGTAATTGTTCTGGTTGTATTGATTTATCATTAATAATTATTGTTGATATTCTACTTCCATCAATTCTACTAGTTGAATCAACAACTACTTCAAATAGTTGTAATATTTCTAACCAGGCTGTTGTTGTAGCCTCAGATGTTAGTGATGTTCCTTTAATAACTATTGGCATTCTATCCATTGGTGTTGTCGCCGTTGTTGTTGTTACAATTAATGAAATTTGTTTTGATTCTCCACTACTCAGTGATACCGAACTCGTAGAAAATTCTAATTGAATATTTGGCATATTGTCAATACTTGTACTTAGTTGTACTGTTCCATCAAAACCTCCAATAGAAGTTAAAACCATATCTATTGTTACTATGTCTCCTTGCCATGTTGTCATTTCTTTTTGTGATTCACTAATTGCTAAAGTAAATTCTGCTTTTGGAATTTCAATTCCTATAGATACATCATGTATTATACTTCCTGATTTTCCTTTTATTATAATTGTTTTAACTCCTGATTGAACATTACCATCGACAAATATTGTAACTATTGTTGATGTTGCTCCATTTGCTTCAGGTATCATAGTTGCTTCTGAAAATGATATTGTAAAACCAACTATTACATCTACATAAGATAATTCAACCGGCGAACTGAATCCATCTGTCGATGTAATTGTTAATGTTACTGCTTTTGAATCACCTGCATTAATAGTCTCTTGCGTAGGCGTGATAGACATTACAAAGTCTCCTTTTACCGGAATCTGCGTTGTTAACTCACCCTCAACATAATTAGTTTTTACAGCCTTGACTCGAATTGATAGTGTTTCTTTTGATTTTGGAGTAAATGTAGCCGAAATTTTTCCATCA
>sequence18
AAGGCAACAAAGCGTAAAGCCGCACCAAAACGTAAGGCAACAAAGCGTAAAGCCGCACCAAAACGTAAGGCAACAAAGCGTAAAGCAAAACGTAAAACTCCTAAGAAACCTAGATACTCACTACTTATTACTCAAAGTCAAAGAAATAGTCGTGACTTTAAAGTACAGGTATTGAAAAATGGTAAAGTAACAGGAGAACCAAAAAAGATTATTGCCTCTAAAATATCTTCAACCACTGCACAAATTATCAACTATGCAAGACGTAAACGAATCAATCTATCGAAAGCTTGGGATTCAGTCGCTTAGATCCGATAAATACTTGTAATTCAAGTATGTAAGACTTAGATTCTTCTATTTTATTTACAAATTGCGCCTTCTGATGCCGAAGACACTAATTTTGCGTATTTTGATAATACTCCCCATTTGTATTTTGCTTCTTTTGATTTCCATTTTATAGTTCTTTCTTTAATATCGCTATTTGACAACTCAACTTCTAATTTTCTATTTATTGCATCTATGGTGATCTTATCTCCATTTTCTATTATTCCAATTGGTCCTCCAACCGCTGCTTCGGGTGCAACATGACCTACCATTAATCCATGTGTCGCACCTGAAAATCTTCCATCAGTTAATAATCCTACTTTTTCTCCTAATCCTTGTCCATATAATGCTGCAGTTACTCCCAACATTTCTCTCATACCTGGTCCACCTTTTGGACCTTCATAACGAATTACTAATACGTCTCCTTCTACTATCTTGTTCTTTGAAACATCTATGAATGCTTCCTCTTCACTATCGTAAACTTTTGCCGCACCTGTTATTTGTAAATTCTTAACACCTGCAATTTTTATTACTGCACCATCTGGCGCTAAATTTCCTCGTAATATAGTTAATGTTCCTGTTTTACTTATCGGTGTTTCTATTTCATAAACAACATCATTTTCAATATTTATATTGAATTCTTCTAGGTTTTCTTTCATTGTTTTACCCGTCACGGTCATGACATCCCCATTAATTAAACCCGCTTTGAATAGTTTTTTCATAACTACTGGCACCCCTCCAATCTTATCTAAATCTAACATTACGTATTTTCCTCCAGGTCTCATATCTGCTATATGAGGAACTTTTCTTCTAATTGTTTCAAATTCATCTATCGTTAAATTTACACCTGCTTCTCTTGCCATCGCTAATAAATGCAATACTCCATTTGTTGATCCTCCCATTGCTTGCAAAACAACTATTGCATTTTCAAATGCTTCAAATGTTAAAATATCTCTTGGCCGAATGTTATTTTCTAATAATTTCATTAATGACGATCCCGTTTTTTTACATACTTCGTCTCTAGTTTCATGAATTGCAGGAGGCGAAGCACTTCCAGGCAAGGCTATTCCTATTGCCTCACTTATAGAAGACATAGTATTTGCAGTATAAAGACCTCCACAAGATCCTGCCCCCGGACATGCTTTATCCTCTATTTCTTTCAATTCTTCCTTAGAAATATTTCCTGCTGCATGACTTCCTACTGCCTCGAATACATCTTGAATTGTTATATCTTTACCATTAACATTTCCAGGCATGATTGTTCCACCATATACAAATATCCCAGGTAAATTCAAACGCGCTAATGCCATTATAGAACCTGGTAAACTTTTATCACAACCTGCAATAGTTACTACTCCGTCATATCTATGCGCATGAACCATTAATTCAATTGAATCTGCAATTACTTCTCTACTTACCAAAGACGCACGCATACCTTCATGCCCCATCGCTATACCATCACTTACTGAAACTGAAATAAATTCTCTAGGCGTTCCTCCTGAAATTGACACTCCTTCAGATGCTTTGTGTGCTAATCTATCTAAATGTAAATTACATGGCGTTGCTTCATTCCATGTACTAGCAACACCGATTAATGGCTTACCTAAATCCTCGTCATTTAGACCCATTGCTTTCATCATGGCTCTTGCAGGTGCTCTTTGAGGACCCTTAGTAACATCATTACTTCGAATTTTTAATTCATCATTCATTAATAATAATGTCATTATCTTATATTTCTGCCTTTGGCATGGTAATAACCTAAATATTATCATTGAGTTAGAAATACTGTTGAAAAAAATTCGTTCTAATAAATATACAAAAGAAATTGAAGTCAAAGGACATCTTATTGACTCTATGATTCTTACACGCATATTTGATCGTATTATGGATTTACAAGGTGACTTTGAAGTTAAAGAATTCAAAATCGGACAAGGAAAAAACGATTATAGTTATGCTAAACTAGCAGTCACTGGAAAAAACGAATCACATTTATCTCAAATGTTAAATGAAATTTATTCTGCTGGAGGCATCTCTGTTGAATTACAATCCGTTCAATATTCTAAAGTTAAAAAAAATTCAGTTTTACCTGAAAACTTCTATTCAACAACTAATAATCCTACATTTATCTATTTGAATAATAAATGGATTAAAGTTAAACACCAAATGATGGACAAGGCAATAGTTATTGATCCACTAAAAAATACTGCTGTTTGTACAATGTTACGAGATATAACAAAAGGAGATTTTGTAATTGTTGGCGAGGAGGGAATAAAAATTGTACCTCCAGAAAGACCTAGAGAAGGATTAGATTCATTTCAATTTATGAGCAGTCATACTTCTACTGAAAAACCTATTCAGTCTATCTCTTCAAAATTAGCTCGCGAATTAATTTCCATCAAGAAAAATAAGGGTAAAATCGTTATCGTAGGAGGTCCTGCTATAGTTCATACTGGTGCCGTTGATTCACTTTCTCAATTAATACGAATGGGTTTTGTTCATGGAATCTTAGCTGGTAATGCATTATTAGTTCATGACGTTGAACATGGATTGTTAGGTACTTCTCTTGGAATAGATGTTAAACGTGGTTCTTCTACTCATATGGGTCATCGTCATCATATCGTTGCAGTTAATGAATTGTTTAAGGCAGGTTCCGTAAAAAAATTGGTCAAATCAGGGAAACTTAATTCAGGAATATTCTATGAATGTGAAAAAAATAACGTTCCATATGTATTAGCAGGATCAATTCGTGATGATGGACCTGCACCTGACGTAATTACTGATGTTGTTAAAGCACAGAAACAATATCAAAAGATTCTCTCTAATGCTGATTTAGTTATCATGCTTTCTACACTGTTACATTCTATTGCAGTTGGTAATATGATTCCTTCTACTGTAAAAGTTGTTGCTATAGATATTAATCCTTCTTCAGTCACTAAACTCTTGGATCGAGGTACTGGTCAAGCTATTGGAGTTGTATCTGATGTTGGTTCATTCCTTCCTATCTTAATTAATGATATCAAAAAGATATCCAAAACTAGATAAGTTGAATTAACGAAACTTTATTGTTAAAGAATGACTACAGAATCTAAAACTATTGATAATCCATATTCATGGCCGGTTATTGCATTATCTCTTGCAATTGCAAATATGACCTTTGGCTTTGGTATATTCTTCCCTTATTTACCATTATTTGCTGAAGCACTCGGAGCTAATTTAGGTCTACAAATTGCTTTACTCACTACCGGTTTTATGGCAGCTCGTACTCTTACTGCATTACCTTTTGGTTCTGTTTCCGACCAAATAGGTAGAAAGAATTCAATTGTTCTTGGTTTATTTGTTTACGGTATAATAACTATTTTGTTTTATTTTTCACAAGATTGGACACACGTTCTATTATTACGAACTATACAAGGAATTACTGCAGGTCTTATATGGCCTTCTTCTAGAGCTATGATTTATGATTTAGTTGGACCTGGAGCTCGTGGAAGGGCAATATCTGTTCTTAATGTATCTGCAGGAGCAGGTATGGCATTTGGTCCTATCTTTGGCGCATTTTTACTCTCATATTTTCAATCAAGTATGAATTTAACTCCAATTGATAGTTTTCGTATTCCGTTTATCTTTGCTGGAATATTTGGACTCTTTTCATCTATATTTGCATCTATTACTTTGTCTTCTGATTTTATTCCTTCTAAAAGAACTCGCTTTTTTAAGATGATTGATAATCTAGATCCTAAGTTCGTTAAGACTTTCTATAGTTCTTTATTAATGAATCTCTCTCATGGTTTTGCATTTGGAATGTTCCGTCCAGTTCTTGTATTATATGTTTACCAAGTATTGGGATATTCTCTTCTCGAAACTGCTAGTATTTCTGCTATATCATTTTCATTAGGTTCACTTGCAAACTCGTTATGCCAAATTATTGGTGGACGTCTTGCAGACAGTCAAAACCGAAGATATATTGTTTCCATTGGTGTAATAATTAGTCAGATTGCAACCTTTTCAATTTTATTTGTTAATGATATGATGCAATTCTATATTCTAATTGTTATTCGATTTTCAGCTATTGGTATATTTATTCCCTCTTTGGCCTCTTTAGAAGGAGATCTAATTCCTCCTAACCAACGCGGACAACTGTCCGGTTTAGTTGAAGGTTTTCGAGGTATTGGTTCTGCAATCGGTCCCTTAGCTTGTTTGGCATTATATGATTATGTTTGGACCGGCTCTCCCTTTGTTTTATCTCCTGCTATCTTTTTAATTTGTTTAATCTTGTATTATATCAACTATCGTGAACCATTCCAAAAGTAAAGGTTTAATCTAATGAAAATATATAATAACCAAATTGACCAAAAAAAAATTTGAAGATTCTTTTGTTAAAATATCTGGACTTATTGGCGGTGAAGACTATGTCAAAGTCGCTAAATCATTATTAAGTCATGAAAATACTACTGATGAAGAGATAGCTGAATCTACAGAATTAAAAATTAATATTGTCAGAAAGGCTCTTTATGATTTATTTGGAAGATCACTAATTACAGGAATTCGAGTTCGCGATACAAAACGAGGTTGGTTTGTATATCGCTGGAAGGCACAACGTGATCAAGTCGAACCATTTGTAGAAACACAGAAAAGTAAGGCAATTACTCGACTCACTCAACGTCTTAATTATGAGTCTGATAACGAATTCTATCATTGTGGTAATCCCTCATGTATGAAATATGTCTTCAATAAAGCAATTGAAGTAAGTTTTAATTGTGAGGTCTGCGGTCAAGCATTAAAATTATTAGATAATTCAAAACTCAAAGAAGCATTACAATTAAAAATTCATGAAATTCAAAACGAAGAAAGTGACTAATTTTTAAAATATTTGTTATATTTTTTAATATATTTGTAGATCTTAATAACCACCTTATCTTAATTATTATTTAGCGAGGTGGGGAAGCCAGGTTATCCCGGCGGGCTCATAACCCGCAGATCGGTGACTGTATTTGATTCTTCATTACAGCCGAATGTTCAAATCCACTCCTCGCTATCTTTTTATTATTTTTTTTATGTCATCTATATTTACATATAATATTATATTTGCCGTTGCAATTAATGAAATTCCAATTATTTCTAATCCCTTTGGAATTTCATTTAATAAAATTATTGCATATATTATTGCACTTGCTGGTTCAATATATGATATAGTTGAAGCTTTTTGTGTACTTACTCTGATTAATCCATCGATATATAGAAATTCTGCAAGTGCTGTATGTATTAATCCTAATGTTAGTAATAGCGGTAAATTATTAATTACAACTTGTTGTTCAATAAATAATGATGGGGATAAAATTATTACAGAAGCTAATAATTGCATTGTTACAATTGTAATGCTTGAATAATCTTTACTTAATCTTTTTGTTGAAATTATTACAAATGCAAATAATATTCCTGAAATTGCTCCTAACATTAATCCTCTATCATTTAATTCATCCCCTAATCCTTGATTATACATTAGAAACATTCCGAGTATTGATAATATTAAACAAATGTTCGTTTTTTTCTCTCTAACTTCTTTCAAAAGTAAAGGCGATAAAATTGCCACATAAATTGGTCCTGTGTATAATAATACTACGGTATTGGCAATTGTAGTAAGTTTGAATGCAAAGAAATGTGCCGACCAAGCTAATGTAATTGCAATACTAGATAATATTAATAATTTATAATTTTTGTTTAATTTTTCTCTATTTTTACTAAATAATATTATCATTATGGGTAGTGCAATAAGAGCTCTATACGCTACAATTGAAAATGGATCCATGTCGATATTTCTAATAACAACTCCTAGCGATCCCCAGATTAATGTCGCAAAAATTATTTCAATTATTCCAAATGTTTTAGAGTCTAGATTTATTCCTATTTTATTCCTTATGTTCAAATATTTTAAACCAAATTCCTTTTACTTTTGCACTTTTACTATGTTTTTCATTACCATATCTTTCTATTGGTTTAATTAAGTGCCTTTGTGCAGATAATACCGGAAGATATAATTTATTTTGAATTCCATGTTTAATTCTTAATTTTCTAATTCTAGTTGATTCTGAACCACATTTAATACATTTGTAACCTTGGTTCTTACCCTTCGATTTCATTGATTTATTACATTTTTTACAAAGTGGATTTCTTTTTATAATTCTATTTTCTAATTTGATTATCTTTATATATTCTACGTTTAATATTCTTCCATAATTTTTTGATTTTTTACTTATTCCTCCTCCAACTTCAATTTTATCCCCTATTTTTAAATTTCTTGCAATATTTTTTAATGTAATTGTTGGTGCATATATTGCACAATTTATCTTCTTTTTACCATTTTGTATCTTGATAAATACATGTCCTCCTCTAATTACTATTGGTTTAGTTATGACTTCTCCAATTGCATATCCAGAATCATATGTTTTCAAATTTGATAGATCTAATTCTTTAGTTATATGTTCATTTGTTCCTTGATTGGATCTGAATATGACAAATCTTTCTACATCTTCGTATAATCTCAACTCTGACATCGCTTTATACAAATTTTTAGGATTATTTCCTCTTAATGCAAATAATATTGGATCTTTTCCATGTGGCGTAATTAGTATTCTGTGATTATTGTAGTCTATATTACTAAACATTGAATATTCTTTTTTCTTGTCTATTTTCAATATTGATTCTAGACTTACTCCCCTATCTCCTATTCCATTTTTTCTATATCCAATTAATTCGTATGTATGATCTTCCTCTAGTGTATTACCTATTCCTGCCAAAGCTCCAATTAATCCTCTTTTTGTCCCTTGACCAAAATGATATATGTCCTTATTTTTCACTAATTTTTCCATTTCTTTCATTTTTATTTCTTGATTGACACATTTTTTTGAAAATTCTATTAATTCTTTTGGTATATTTTTACTACATAGCATTACTAATCCTGAATTCGCTTTGTTTCTCTTACTTTCTGAATTCTTTATCATAATCTTTTTTGCAATATTGAATATTCTTTTTGGATTATTTGTTTCTAGTCTTAAACATAATGATGCATTTCCCCTAGTTCTCCATGGAATATTTGGATTTAATCTAATTAAATTTGGATAATCTAATACCTTGATCCTTTCTTTCAGTAATTCTTCTAAAATTAATGTAATAAGATATGTAGTACACATTCCATCATCTGAATCTGTGTCATCTAATCCTAAATGAATTGTTGTCAATGTAAATCAAAAAATTATTCTATGACTGGCATAGTTTCTGTTGTCATTACATTATTATTTTGTCTTATAGTTTTTAATGCATTATTTACTTTATTTATATCTGAAGATTCTACTATTGCTACAATGTCATAAAATCCATATAAAATATGAACTTCTTTAACATTACTGATTTCTTTAATTTCTTCAAAACATGACCTTTCTTTTCCAATTTCTGCATTAATTAATACATATGCTAATGACATTTTACTATAATATATTAGTGATTATTTTATAAAACGATTACTTCTTTTCTAATGAATCTGAGTTTACTTGTAATGTAGCAATTATATTATTAATCTTACCGAATACATTCTTTTTATATTCAGACAATCTTTTTTCCATTTCTTGTTTATTTATTCTATTTAGACGATATTGTTCATATAATTGAATTGTTTGGAAAATATCTCTTTCTAGAGATTGTTCACTTTTATTCAATTCCTCGAATACCTCTTTTTGTGAAGATTTCAATTCTATAATGTCTTTACGTATTATTGCTAGTTGTCCTGCATTTCTTGTTCTAATGGTATTAATTTCATTCTTGACATTTTCTATTTGATTTTTACTAATAGTTTCTTTATCCCATTTTTCCATTCTTTCTAATATATTCTTTAATAATGAAATTTTTTCTCCATATAGTCCTGTTAATTCTCTTGTTTTTACAACTATTTCTTCTTCTCCTCCTCCTTCAATTTCTACGTCTTCTTTTCTTTCTACTCTTATCATCATACCTAGTAAAGCTATGAAGAATATTATTGATCCAATTGGAACTGATGTAGTACTTGCCCATGCTATTCCTGGAACATAGCTTATTGTGATATTATTATTCATTAATTGTTCATTTTTATCTAAATTTACTTCCAATGGCGAATTTGATGAAATTGAGTATGAATCTGATTCTACAATTACTATTCTATAGTTATCTGTTATTGTTTTCAATGTAGGTGTTGTTGGTATATTCACAATAATTGAATTTGTATCAGTCTCAATAAATTCTTTATCTAACTTGTATTCATATTTTATTACTAGTGAATTACCTGCTTCTAATGTATGCCTTACTAAACGTTCAATTTCTATTCTATTTATTGGAGGATTTTCTAATGTTAATACTCCTTTTGCCGCTATTGGAGGTTCTCTATCTGGAACTGTTGTAATATTTCTTATTCTTGGTACGTTTAATTCATCTCTTTCTGGACCAATTAAATCAAGTCTGATTTTACGCAATGCTCTTCCAGAATCTAAATTAGTAATTTCTATGGTTTCTCTAATCATTATATCTCCTCTGTCAGAAATATAAACCTCTCTTGTGAAACTGTCAATTTCTACTATGCTGAATGCTTCAATTCCAGGATTTGTCAATACATATAATCTCTCTTCTAAATAGTCATTTTTTGTTATATTTGAAAATGTAGTCTTTGCAATTTCTATATATGATTGTGTCTCTCTTCCAAATCCACCTTCTGACTTAGCTGGTGAATAATCAGATATATTATAAAATGGCGCTGAATCAGGAACTCTTAATGTTAAATCTAATCTATTAATATCAATATTTGAAGTTGTTAACATTGGTATAGTTGCAAAATACAATCCATCTCTTTCTGTTGCGTTTAATGCATCCCTAATTCGTAACTCAATATTCACATATTCTTCTTTATCTGGAGAAAGAATTATTCCATTATTATTATCAATTTTTAATACTGTATTTTTAAAATTCTTTGAAATACTTAATTCTACATCAAGAGATGAATTCATTCTATATGCATCTATTTTATTTTGATATGATAATGGTAAATATAAAACAATTCCTTTATTTATCGTCTCGCTGGTTTGACCTGAATTTTTTACCAATAAATTATAATTTAATTCTAATATTCCTAGTTCATTAATCTCAATTGTATTTTTCATATCCATAGATACATTTCCTGCTCCTTGCGCATTAGGTATGGATAGAAAACCACCTGAAATTTGGAGTCCCGCAATAAATACCAATAATGATATGATTGTAATTAGAGATTTCAACTTATAAAAAACCATGATTCTCCCTTGATTTATATTTTTACTTGATTTAATATAATCCGGTCAATTTTATTTCATAATTGGTATAAATTATCAGTTATTAACAGATATACGTCTTTTCTACCTATTACATAATAATGAAATCCGGGGAGAAACATTCTATTTTTGTAGTTGGTATTGGACATGCTGGTTGTCAAATACTATCCAAACTTGAAACCGACTCCGGTTTTAGTAATTCTGTATATGTTAGTTCAGTTTTAGAGGACTTTCCTCATTCTTCTAAAGGTTTATCATTAAATATTAATATGAAAATTGGCGGTAGTCTTTCTATTCCTATGATTCGTTCTTTATGTAAAGAACAAATTGATATTATTTCTGATTCTATTAAATCTGCAGATTGTGTTATTATTACTTGTAATCCAGGTGAAAAAATTGCCGCCGCTCTATCTCCAGTAATTACTAAACTATGTCATGATAATAACATTAAATGTATGCCTGTACTCTCGATGCCTTATGATTCAGAAACACATAGACATTTTAATGCTGGTACTACTCTTACAAAAATTAAACAATATTCAAGTAACATAATATTAATTGATAATGATGAAATTTTAGAATCTCTTCCACGTATACCTATTTCTGAAGCATTTAATTTAATTTATTCAAAAATTGCTTTATCACTTTCATCCTTATTCTCAAATAATACTCACGAAATTGAAAATATACTTGAAATAACTGAAGATGATAAGTATTCTATTTTAAGTTTTGGAGAATCTTCTCAAGAAGAAAATACTGATAATGCTGTAAAAAATGCATTACATATGTTATCTAGTACTACAAATACTTCATCTATCTCCAGAGTTTTATTATTTTTAAACGGCAATTCAAACCTTTCCACCACTGATGTTCTTTCATCGGTTAATATGATTAAAGGACAGGTTCATGAATCACAAATTTCACATAGTTATGCGACTACAAATAATTCAGATACTATGGCTGTATTACTTTCATCAGGTTTGACTAAAACTAAATTTGATGATTATGATCCATTAGCTAGTATATTCAATGGAAATAATCTTGATGACGATATTGAATATCACATCGATGAAAATCTTGATATTCCTATACTTTCTGAATAGTCTTATTCAGGTTTAGGTTCTTCAGTAACTTCAGGTTTAGGTTCTTCAGTAACTTCAGGTTTAG
>sequence19
GTGGCACAAAGAAAGTTATTCAGGCACTATCCAATATCAAAGGAATAGGTAATAATTTAGCCCATTATATGGTAAAATCATTAGAAATAGATAGAGATTTGAGAATGGGAATGTTAACTGATGAACAAATCAATGCAATAGAAGAAAATATCAAGAATATAGGCAAAAAATATCCTGAATTTAATCTAAATCGTCAAAAAGATATGCAAACTGGCGAAAATCAACATGTAATCGAGACTGATCTAATTGTATCGAAAAAACAAGATATTGACTTAGAAAGAATTCTTCAAAGTTGGAGAGGAACAAGGCATTCATTAAATTTGAAAGTAAGAGGACAAAGAACTAGATGTACAGGAAGAGCAGGAAAAGTTGTTGGAGTACGTAAATCCACATTAAAACCAGGAAAGGCGAGTTAGGTAATGGGAGATCCAAAATACTCACGAAAGAAATCTGCACGACCACGAAATCCTTGGCAACGAAATTTATTAAAAGAAGAATTAGAACTAGTTGGTAATTTTGGTTTAAGAAATAAAAAAGAACTTCATATAGCATCAACTGAATTATCAAGAATTAGAAAACAGGCTAGACAACTTTTAGCAGCAGCGACAGAAATTAGAACGTCCAGAGAACCAATATTATTATCGTCGTTAACAAGAAAAGGAATTGTTACTGAAGATGCAACATTGGATAATGTATTAGCTCTTAATGTTTCAAATTTTTTGGAGAGAAGACTACAAACTATAGTATTAAGAAAAGGATTAGCAAGAACACCTCATCAAGCACGACAATTAATCACTCATGGACATATAACAATAGGTGAAAATCGAGTAACAATACCAAGTTATACTGTCACACGAAATGAAGAGCCATTAATAAAAATGAAAGAGGGGAGTACATTTGTATTACAAGAAATACCAGTGCCTAAATTAAAGAGTGATACATATGGAAATCCAGACGAGAAAGAAGAATTAGAATCTAAAGAAAAGCCAGCTGAAGAAGCTAAAGCTGAAGAAAAGCCAGCTGAAGAAGCTAAAGCTGAAGAAAAGCCAGCTGAAGAAACTGTAAAAGAGGAATCAAAAGAAAATGAGTAGTTCAGATGTATCAAAAAAATGGGGAATAGTACATATTTTTAGTAGTTATAACAACACAATTGTTCATATAACAGATTTGAGTGGATCAGAAACAATTGCAATAAGTTCTGGTGGAAGACATGTTAAAGCTGACAGATTTCAAGCAACACCTTATGCAGCTATGAAAGCTGCACAAGCAGCAGCAGAAACTGCTAGATCAAAAGGAATTGAACATTTACATATTCGAGTACGTGCAGTTGGTGGAGTAGGTGGAAGAACACCAGGACCAGGAGCACAAGCAGTAATTAGAGCAATTGCAAGAGGAGGCTTTAGAGTAGGAAAAATTGAAGATGTAACACCAATTCCTCATGACACTACTAGAAAAGCTGGCGGTAGAAGAGGAAGAAGAGCATAGTCTTTTATCTGTTAATATAGCTTCAAGATTTTAATTATGTGTGGAATAACTGGATATATTGGAAATAAAGAAGCAGCGCCAATTCTATTAAAATCATTAAAGAGAATGGAATATAGAGGTTATGATTCTGCAGGAATTTCAACTATTAAAGAAAATAACATAGTAATAAAGAAAGATATTGGTAGAATTGATTTTATAAATGAAAAAATTGAATTAAGTAAAGCAAAAGGGAAAATTGGAATTGCGCATACAAGATGGGCCACACATGGAGGAGTAACAAGAGAAAATGCACATCCACATTCATCATGTAAGAATGAAGTAATTTTAGTACATAATGGAATAATAGAAAATTATAGAGAATTATTTGAAGAATTATCAGATAATCATGAAATTAAAAGTGAAACAGATTCTGAAATAATAGTACATTTAATTGAAGAAGAATATAATAAATCAAAAGATCCTTTAAAGACATTACAAAATATCAGTAAGAAATTAAATGGTAGTTTTGCACTAGTCGTGATTTTTAGTGATAAAACGAGTGAAATTTATGGAGTTAGGAAATATGCGCCATTAATTATTGGAATAGGAGAAAAAGAGAATTTTATTTCAAGTGACATAGTTTCGTTTATAGATTATACAGACAATGTAATATTTTTAGAAGATAAAGAAATAATAAGAGTTACATCAGAATCTATAGAAATAATAAATTTTGATGGAGACCAGATAACACGGGATAAAACACATGTAGCTTGGGAGGCTGCAGATATTTCAAAAGAGGAATTTTCACATCATACTATTAAGGAAATACATGAACAAAGTTCTACAATTCAAGATGCTTTAAATCAAGATGATAAAGAATTTAATGAGTTTATTAAGGAATTAAAGAGTGGAAAGAATATATTCATAACAGGTTCGGGATCAAGTTTTCACATAGCTTTAATGTTTAAGAAAATGCTTACAAAATTAGTAAAAAGTCAAGTACAGGCTTTTCTATCGAGTGAGCCTGACGAGTATATAGAATTAATGAATGAAAATGCAATATTAATACCGATATCTCAAAGTGGAGAAACAGCAGATTTACTCGAAGTAATTCGTAATGTAAAGGATAAAGGAGTTACTATTTTGTCAATATACAATACAGTTGGTTCGTCATTATCGAGAGTGAGTGATAATAGTCTAAATCTGAATTGTGGACCAGAAATTGGAGTTGCTGCAACGAAAAGTTTTACATCTCAATTAGTAATAGTTTTTAAGATAATATTTGAATTAGCAGATGTAAAAAATGGTAATGAAAAGATTAAAGATTTATCTAATCATGTCAAAGAAATTTTATCAAATGAAAAATCATTAAAAGATATAATTGAAGTGATAAATGAATCAAATGATGTATATTTTTTAGGTAGAGCAATACACCATCCAATTGCATTAGAAGGTGCATTAAAGCTAAAAGAATTAGCATATATTCATGCTGAAGGAATGGCTGCAGGTGAGATTAAACATGGAACATTAGCTCTTGTAGAGGAGGGAACACCGGCAATAATTATTAATCCAAAAGATGAATCGTATGAAGATACAATGAACAATGCAATAGAAATGAAATCAAGGGGAGCAAAAATAATTGGAATATCAATAGAAAATAATGAAGCTTATGATTATTGGATACAAATTCCGGAAGTAGATAATATTTTATATCCGCTGATTGAGCTTATTCCATTACAGCTTTTAGCATACTATACAGCAATAAGAAGAAAGAATAATCCTGATTATCCAAGAAATTTAGCAAAATCAGTAACGGTAAAATAAATTCTAGACTTCAGTAATTTCTTTATCTTCGTTAAAGGCCCATTCTTCGGCAGATAGACGATTACCATTTTTATCATAGCAACACAATCCATCAGTCTCATCTTTGGTTTTACTATGTGTTGCATCACAAAATGGATAGGTTTTACTAACACCACACATACAAATCTTAACTTTATCGCCAGAAGGGGTAATATGAATAAATGGTTTATCGGTAGAATGTTTAATTAATCTAGTCATGAATGAGTCATGAGAATAATTAGTAATAAACTTTGCAAGTATATTTAATGAAATAGTTAGTGGGCACGCCCGGATTTGAACCGGGGACCTTCGCCGTGTAAAGGCGACATCCTAACCATTCTAGGAGTTTAATCAACTCTGGCTAGACGACGCGCCCCCTATATAATTTTCATTAATGATAATTTTAAGTGTTCATCCTTAAATTAGATTTTATAAATAATCAAATAGAACTATGAAAAACGACATATTGGTAATTGACCCAAGCATAGCAGGAATATCAGGAGATATGCTTCTAAGTTCATTTATAGATCTTGGGGCAGATGAAAAATTAGTAATAGACAATATAAAAAATATAAAAGATTATGTTAAAAATTGCAATCAGCTTGAGATAAGTTTTAACGATGTAATTAAAAATGGTTTTCGTGCAAAAAAAGCAGACATTGTAATACAAGAAGATGATTTAGTTCATAATGTAGATGAATTATATAATGACTTGGAAAAATGTATTGAAAATATTTCGTTATCACAAGAAGCAAAATTATTTATAAAAAAGTCTTTTGAAGAATTGATTTCCGCGGAAAAGAGATTACATGGTATTTCAAAAGAAAAGATGCATTTACATGAAGCAGGTTCAATAGATACTTTTGTAGATATTATAGGAACAGGAACTGCATTAGATAATTTAGGAATTTTAAAACTAAAACAAATTGTAACGACACCAGTTTCTATTGGAGGAGGAGATATATCATTTTCACATGGAAAAATGCAGAATCCAGCACCTGCGATATTAGAAATAGCGAGAAAAAACAAAATAATAATTAAGGGAGGACCAGGAATGTATGAAACTGCAACACCGACAGGAATGTCGATGCTTGCTGCATTAGTAGAAAGTAGTCAAGAATTTTTCCCTGGAATAAAACCGGATTTGGTAGGAGTAGGAGCAGGATCATCGGATTTCAAAGAGACACCAAATATTTTAAGAACTACATTGGGAATGAAATCAACATTAGTTACTGATGAAGTTGCTATAATAGAAACAAACATAGATGACAGGACTGGAGAAGAGCTGGGTTATGCTATGCAAAGAATAATTGATCAGGGAGCATTAGATGTATCATTAATACCTACAATAGGAAAGAAAGGACGACCAAGTAATGTATTAAAAGTAATTACAAATGTAAGTAAATCAGAATTTTTCTCTGATTTGGTAATGCAAGAAACAGGTACACTAGGTGTTAGAGTATATCCAATCTCAAGATTTATACAAATGAGAGAGAATTTGAGAATAAATTTAAGAATAAACAATAATGATGAAGAGATTGATGTGAAGATTGTTAAATCGGAATCGGGTGAGATAATTCAATATAAACCTGAATTTGATCAAATGGTGAAAATAGCAGAAAAATATAAATTGAATTTAATAGTGTTAAAAGAAGATGTTTTGAAGCAAATACAAAGAGAATTATTTAGTTGATCTTTTTTGAACAATAATTGATGCAAGAACTCCTGCTGCAATACCAGAATCAATATTCACAGTTGCAATACCTAATGCACAAGATTGTAACATACTCATTAATGCAGCAGTTCCTTTGTCGCCGTAACCATATCCGATTGAAGTTGGCACGCCAATAACAGGGATGTCAACCATACCAGCAATAATAGAAGGCATAGCTCCTTCTCTACCTGCAACTGCTACTATTACATCTACATCATTCTGAATAACAGATGAAAGAGAAGAAAATAGTCTGTGTATTCCTGCAATTCCAACATCATAATATGTAGTGTTTTTACATCCAACTTCATCAAGAATTACTTTAGCCTCTTCGGCAACAGGAATATCAGCAGTCCCTGCAGTAATAATTGCAACATGTCCATGAACTTTTTGTTTCTTTTTATTTGATATGACAATGGTATTAGCAAGAACATTTTTACGAATATGTTTTTTAGAAAAAGATTTAGAAATTGCAGCAATATGAGATTTATTAGTGCGACTTATTATAACGTGGCCAGAAGTAGAGAACATGTTTTTAGCTATTTTAACAACTTGAGCTGAAGATTTTCCTTCCGCAAGAACGATTTCAGGGACGCCTTTTCTGTGTGCGCGTCCTGTGTCAATCTTTGCAATATTTGCTACTTCATTGATTGAATTTAGTTGAATTTGTTTTTTTGCAGCAGAAGGAGTGAGTTCTCCTTTAGAAACTTTCTTTAAGATTTCATCAATAGTCATTTTTATAAGATTATTTATTTAGATTGCCTGATTTATAACCTGATAGTTCCAAAGTGATGTATTTGAAACCAATGTTTTTTAATTCTTTATCAATTTTATCCATAATTAATTCGTCAAAAAGTAAGGAACGCTCGTTTCTTCCTACTTCAATACGTGCAATATTATTATGATCACGTACACGTATTATTTCAATTCCTGTAAGTTGTTTGATTAAAGCTTCAGCTCTTTCAATTTTTGATAATGTATTAAGAGTAATAGGTTGACCATATACAACTCGTGATGAAAGGCATGGTGCAGATGGTTTATCAGCAGTAGGTAATTGTAAATGTTTTGACATATTTCTAATATCATTCTTAGTAAGTTTAAGATCAACAAATGGATGAAGAATTTGGTTTTCATTTGCTGCAGTTAAACCAGGACGGAAATCAGATAAATCGTCGAGGTTGGTGCCGTCTACAATAATTTCAATATTTTTTTCTTTAGAAAGAGTAGATAGTGTTGAAAACAATTCAGATTTGCAATAATAACAACGATTAGATGGATTTTTAACATAATCTGGATTTTCCATTTCGTTTGTATTTATTACTAAATGTTCAATTCCAATTAATTGAGCGAGTGATTTTGCATTAGTTAATTCACTGCGTGGAATACTAGGTGAATCGGCTGTAACGGCAACTGCCTTTTTACCTATGCTATTAAATGCAGCTTTTGCCAATAATGTACTATCAACTCCACCTGAAAATGCAATTAAAACTGAATCATAATCTTTAAACCAGGATTCTAAATCTTGTAATTTTGAATTAATTGTACTCTGCAATTTCTATAATTTCCTAAACATTACAATAGTTAAAATGTTTTAATTTATTTGATGTAAATAGTACGATTTTCAGTAATAATTAGATCCATAGGTACGTCGTGTTTGAGGCTGTTGATAGAATCAACAATCTGGAAATCAAATGCTAAAGCAATTTTATAACTATTAGAATGAGATGAAAGAAATTTATCATAATATCCAGAACCGAAACCTAGTCGGTTTCCTGATTTATCAAAAGCAATACCAGGGATAATTGCAACGTCGATATTAGTACAAATTTCTCCGTCAATGGGTTCAGAGATTCCCAAAGTATTTTTCTTAAGATTTTCTAGCCCATCAATTATATGAAAATTCATAGTGTGAGATTTTTGATTAACTTTAGGTAAACAGACAGTTTTTCCTAGAGTAAGAGTCTGTTGTATCATATTAATAGTGTAAACTTCTTTTTCTAGTGAAGAATAGAATGCTATACAATTGCTTTTTTCGAAGATTTGAATTGAGAATAATTTATCCAATATAATATTGGAATTTTTATTTACATCATCTTTAGACTGTAAGTTGCGGATATTTTCAATCTTATTACGAATTGATTCACGAGCAGTCATAATTTTATTGATTGTTATCTTTAATCCAAGCAATTAAGGCTTTTTCATTTGAATCACTGCTGTTATCAATAACAGGAACAACAATATTTTCTTGTGGAGAATTAATAGTTGATGTAAAAGTTTCCATTTCTGCATATTCAAGATCAACCCACAAAATACCCTTATCAATAAATTGTTCAGTAAGTCGTTCATCAACTCCACCAAAAGTTAAATTAAGAACTCGGTAAACAATACCATCAATCCATTTAACATATGGTGATGTCATTGAATGAGATTGTATAGCAGTTCGGCGGGCTAAATTATCAGGGGAATTATGTTTAATCAGACTAGAAATAATATATTCTTTAACAGGTCTAGAGCTTATTTTCATCTTTCTCACTTACTGTGAGTCTAAATTTCTAATACTTAAATGAATAGTGTTACAGCGTCTGGTTCACTGGCCCAAGATAAGAAAGCTGATGCGCCAACAATATCATCGACTTCAGGAATAAGATTTTCTTCTTTAACATCCATGAATCCCATAGTAGGTGAACAAGCATGAATTTTGACACCACTATCTTTAGCCATTTTAATCATGTCATATACATTAGGCCAAAATTTTTCAATCTTACTTTTCATCATAGTAGAAGCCATTTTAGTCATACCAGGTATTACACCAACTATATTTGGCATAGGCATACCAGGATTTCCAACAGGTGCGATCTTAACAGAATTAACACCATCTTTAGTCAGTACCTTAAGACCCCAGAAAGTGAAATACATATCACAAGTCATTCCCATAGCAGGTGCAGTTGTAGCAAGAACAAGAGCAGGATAAAGCATATCAATAGTGCCTTTAGATACGACCAATATGAGTCTTTTTTTCTTAATTTCGTGTTTTTCAGGTTGAATATCGGTCAAATTTATCACTTTTTCTTGATATGAAATATGAAGGTTTTAGGAGAAGTATCCTCAGCAACACTATCGAGTAGAATATTTCCTGTTGTATGTGCCCAACCTTCAAAATCTATAGGAGCACCTGGATCAGTAGCAATAACTTTAAGAATTTGACCAGAGGAGAGTTTAGCGATTTCTTTAGCAGTATTAATAATTGGAAGTGGACAAAGTAATCCTTTTTGATCTAATGTTTGGGAGATATCGAGATCTTCAGACATAACTTTATCCAATTCCTATTAATTTGTAGATGGATCAGATACTAAACGAATGTATGGTTTTACTGTTCTCCAACCATTAGGAAATAGAGATTCTGCTTCTTCGTTTTTAACTGCTGGAACGATTATAACATCTTCTCCTTTATTCCAATTTGCAGGAGTAGCTAATTTATGGTTAACAGTTAATTGTAGTGAATCAATAATTCTCAAAAGCTCTTTGAAATTACGACCCGTAGCCATAGGATAGCTTAGATGTAGTTTTATCTTCTTATCTGGACCAATAATGAAGACTGATCGTACAGTTTGATTATCCGCTGCAGTACGTCCAACACAACTACCTTCTGTAGAAGCAGGTAACATGTCGTAAAGCTTTGCAATACGAAGTTCAGTATCCGCAATAAGTGGATAATTAGGACGGAAACCAGTAACTTCTGCTATATCGTCCAACCATGCGACATGATCTTCTACTGGATCAACACTAAGTCCAATAACTTTTGTATTTCTACTAATAAAGTCAGACTCAAGTTCAGCTAGTGCACCAAGTTCTGTAGTGCATACAGGTGTGAAATCTTTTGGATGAGAAAATAAAATAGCCCATCCTTCACCAATCCAATTATGAAATTCGATTTCTCCTTGGGTGGTATCTATTTTAAAATCAGGAGCAACATCATTTATCCTAAGAGACATATGAAATAACTCCTTTTTTGGTATTGTCTATATTTTGGTTCATTAATTATAACCCCGTTATAATTATAATGGCGTTGTATATATAAACATTATGAAAATATAATAAAAATATTCAAAGATCATAGAGATAATTTGATAAAAAATTATCTCATAGATTTAAATGAAGATTTGAAAGTTTAGATTATGAATAATAAAAATATAAATAGCAAAATTGAATTCCCAATAAGATTTCAAGTTAATGTAAGTTTAACAGAATCAAATATTTCTGGAAAGATTTTTAATGATGATTTAGAAATTCCAATTTATATTAAATATGGAGATAAAGAGATTTTTATTCCTGAAGAATTTAGAGATGTCGGAAAAAATATTAAAATAAATTTTACAACTGAAAATGAAAATACAGTAATTACAACAGGAAAAGCAGAGATAAATGATATACAATTAATTCAGATTTACGATACAGAATTATGGAATAAAATGGCAAATGACAATCCTGTAACTATGCACATAGAAACGATTTAGTAACATTAGTAAAAAGATGATATAAGAAATGAAAATATTAGTAACTGGAGCAAGCGGATTTATTGGCAAGAAACTTGTGCCATTTCTATTAGAGAAGAACTTGTCTGTACGAATAATGTCTAGAAATTTAAAGAGTTTAGACAATCTTGAACATAATAATTTAGAAAAGATTAAAGCTGATGCAACAGATTATAATCAAGTACGAAATGCACTAAAAGGAGTAGATGTTGCATATTATTTGATTCATTCAATGGAAGGAAAATCAAAAGATTGGGAGAGGTTTGCTGAGCTTGATAAAAAGATTGCAAAGAATTTTGCAGATGCTGCAACAGAATGTGGTGTAAAAAGAATAATTTATGTTGGAGGTTTAGTAAGCATTCCAGATTCTGAAATGTCTAAACATATGTCAAGTAGAAAAGAAGTAGGAGAAATTTTAAAGACTTCAGAGGCAAAAATTACGGTATTTCGTGCGTCGGTAATATTAGGTAAAGGTGGTGGAGGCTTTGAAATGATGAGATATTTAGTAGAAAGATTACCTGTAATGGTCTGTCCAAGATGGGTTTTAACTAAATTACAACCAATATACATTGACGATGTAATAATATATCTATACGAAAGTCTAAAGGTTGAAGAAACAGAAGGAAAAACGTTCGATATTGGAGGTCCAGATATATTAGAATATAGAGAAATGATGAAAGCTTATGGAAAAATGAATAATAAATCTATAATTATGATAATAATACCATTTCTAAGCCTGAGATTCACTTCTTATTGGGTAGATCTAGTTACTCCAATCAAAGCTTCTTTAGCTAGACCATTAGTAGAAGGATTAAAAAATGAATCAATAATGACTGAAAAAGCTATAAGGGAATTAATACCGATTCAGCTAAAAGGAGTAGATGAATCATTAAAGTTATCAGTTTACGAAAATAAAAAATATGAATTAACAAAGAAGGAAATGTATCTTTCATATTTGTTAGTAATTTTAGGAATCATAGGAATTGGTCATTATTTTGTTGATCAAAGATTAATGATGGTGTTGCCTATTGCAGGAGCGGCAACTTTGATTTGGTTGACAATAATTGGAGCTGGATATTATTTCATAAAAAA
>sequence20
ATATCAAGTAAAGATTTAGTAAGATTTGAGATTTCTTTTATTAAATTAGGGCGAGTAGCACCAACAATTATTCCGTCAGCATGCCAACGTTTTGCACGTTCTACAAATTCTAGATATAGTTTCTTTTTTTGGCCGTGTTTAAAAATGTCGAGGCCATAACCGTCTTTAGCACCCTTATGACTCATATAAACTAAAAATAAAACACCTTTGTTTTTAGTTTTAGATTTTGTTAATAAAGGTCCTAGACCTTCGGAATACCCTACAAAAGGATTAACTATAACAGCGTCAAAACCCATGTTCCAAAGATGTTTTATGATAACAAGATTTGTTGCAGAAATATCATTTAGTTTTAGATCTGCAATAACAAGTAAATTACGTGAATGAATAACCGAAATAAGTTTTTTTATTTCAGTTAAAGACAATGGAAGTAATAAATGATGATTAATTTTAACAGCGCAGATATCATCAGAAGTAGATTTAATTATAGAAATTGATTTCTTAAGAATTTGATTGGGAGGGCATGTTAAATCTAAAGATAGAATAATGCGACTCTGATTAGTTTCTGAAATCTTTTTTAGTTTATTAGAGAATGATAAATTATTTCACCCGTCTGTCAATAGTCTCATAAACCTCAGGTCCAGTTCCAATAAGACTAACAGAGATATTGAGTTCATTCTCTATTTTTTCAATGAATCCTTTAGCAGAAGAATCCAATTGTTCATAATTTGTCACGCCGCGAGCAGAAGGATAAAGAACGTCAAGTTTTGTAACTGCAATACTCGTAGCAGAATTTAACATAATGGCTTTTTTCGCAAGTTCAAAATCAAACGGAGCAGCTCTTCGAGTTCTACCTGTAACGGTACCTATTTCAGCCCAACCTCTACTTACTGTTTCTTCAGGTGAGAGTTCGCCTGTAAATGGTCCTTCTCCAACACGAGTAACAAATGCTTTGAATATGACGATAACATCATCTACTCTTTTTGGGCCGATGCCAACATCAGAACAGATTGCAGATGCAGTAATATCTTTAGATGTAACAAAAGGATAATTTCCAAAGTATAAAGATAAGAATGTGCCTTGTGTACCTTCTACAAGAACATCATTACCAGAATCAATTGTAGAATTGACCATTTCAGGAACATTATCAACATGATTTTGAAACACATCTATATCTTTAGCGAGTTTAGCAATTCGCATAATTCGATCTGAATTTGCAGGACCTGTTCCTGTTCCAGTACTGCCAACTTTTGAAGCTAGAAAACCAGTTTTATCTGAATCTATATGCTTTTGTTCAATAATGGCACATTGGTTATCGACAATAAGTCGATTAGTGGCATTATATTTTTTTGCTTCATCAAGAGTAACATCAGGATTTACAAGTACTCCAGGTCCAATTAATAATTTAGTAGATTTATTTACAACTGCACTTGGAAGCATTCGTAATTTTAAAACTTGTTCTCCAAAATTAACAGTATGACCTGCATTGGGACCAACACCTCCACGAACTGCGAGAGTATGAGAATCTTTAAGTGAAAGGTATGCCACAATCTTTCCTTTTCCTTCATCACCATAAAATCCACCAACTGCAACTGTTACTGTCATCTTATCATCACACTTTATTCTCCATATCTCCTATTTCTATTTTGATATGTTCTGATGGCTCGCATTAAATCAATTTTTCGGAAATCAGGCCAATAAACATCAAGAAAAACTAACTCGCTATATGCACTTTGCCATAAAAGAAACCCACTAAGTCGTTCTTCTCCGGATGTTCTAATTACTAAATCAGGTTCGGGGGATGATAAATGTGAAGTGAATAAATAATTTTCAATCATGTCATTAGTAATATCATTTATTTCAACAGAACGATCTACTACATCAGTGGCAATATTTTTTACAGCTTCGAGGATTTCATATCGTCCTCCATATGCTAAAGCTAAATTAAAAAATAAACCATCATAATCTTTTGTTTTTTGTTCAATCTCGTGAATTTTTTCTTGTATTTCCTGTGGAAGTAATGATAAATTGCCAATTCCTTTTACATGAACGCGATATTGATCAATTTTTGGTTCATTCAATAATTCGGATAATTTTTGAGAGATAATTTCATACAGTCGATCGATTTCATTTTGTGGACGAGATAGATTTTCTGCAGATAATGCATATAATGTAATAATTTTAATATCTAATTCGGCACTCCAATCTAACAAGTCGTCAACAATATCAGCTCCAGCAAAATGACCCATCCATTCTGGAATGAATTTAGATTTAGCCCATCTTCTATTTCCGTCAAGAATAAGTGCAACATGAGTGGGAGAATTGGATTTACTAATCTGGTTTTTAAGATAGTTTTCGTAGAATCTGTAGACACCTACATGACGTAATAAATTTATAAGCAAAGTTAATCTTGCCTACTTGCGTCTTGAACGTGGTAAACGTATATATCTTTGGTATAGAAAGATTACACTAATAAAAGAACCAGCAAGTCCAAAAATAAGAGATGCTATGAAAGTAAATGTATCTCCTATACCAATAAGAAGTTTAGCGAATTGTTGAATTGGTAAGAATAAAAAGATTAAAGTAAGCAATAAGATTACTCCACGAATTACACGACGTTTTCTATTAATAATCCAATTAGATAATAAATCACCTGAAATAAATAATCCAAGACCGACCCATAAAAGAAATAAGGATTCATTAGCAAAAACTCCAATTAATTCAGGAGCCGATGAGAGAAGATTAGAAGGGCTTGAGAATACCTGGTTTACAGAAATTAAATTAGATAAACTGGATGCACCTACAAAAATACCAATAATTAATACTAATGAACCTGCAACTGTAGAAAATAATCTAACATAAGATGTAAGTTCTAATTTTGGTAATGAACGAGTTAGGCGATCAAGATCAAAACCACGAATAACAAAAGCAGCTCCAAGAATAGCAAGAGTTACAGTAATAGCTTGTTCAAGAAGATTAAATAATGCCAAAAACGCCCAAGAAAGAAACAATATTCCAGGAATTCCTAAAGCAAACTTTGAATAACGTTGATCAAAGATTAACATTTTCAAATATCGGCCTAAAACAGCATAAGTTTCCTCAAGTGCGCCACTATGTTTGATTACAATGCGTTGAATAGAATTAATAGAAATTATATCTTGGACTAATGGTATGATATTTGATTCGTCGGAATCATCAGATACAAGTATAGTGTCGAGCATTTTTGTTTTATTAACAATTGTTTGAATTTCTTTACGCATTTTTTCATCGGATTTAAAACCACCTGCATGAGTACCGGTAACAATTGCAACTTCGCATTTACGACCAGAACGAGATAATTCATTATAGGTTTTAATTGCTCCAAATATTGCATTGGCATCTGCTTCTTCAGGATCGCTAATAGCAAGCTTCATACCAGCATTTTGACAATTTTTTAACCCAATAATAGGAGATTTTAAGTTAGTTTTTTCACCAAGATCGTCATCTCGATCAATACAAAGAATTAGAATGGGAGTAGTTTTTGTTGATTGTTTTTTTCTTCTAGATATAGAAGTAGATTTCTTACGCGAGATACTCATCATCATCATCATAAGCTAATCTTAATTCATCAAAGGATAGTGATTGTCCAGATTCAAGTTTTTCCTTAGCTTTAGATTTTTCTTTCTCAAGAATGACTTTCTTTTTCTTAAGAATTTCAGACTTACTAACTGATTTAATTGATTTGAATATTTCATTTCGTTGACTTTTTAATGTTTGTAACTCTTTAGTATTACTCTTAAGAGTAGTTTCTAGTTCTTTTATATCATCATTAAAGCCATTTATTTCGCTGAATAAGTTTTCTCGTTGTTGGAATTTTGTATCAAAAACAATCTTTTTTTCATTAAGTGTAGCTTTTGCAGTGTTTCTAGATTCTTCAATTGAATCTATATTAGAACCTATTTGTTTAATTTTTTTGAATAATCCAGATAATTCTTTACGTGCGCTATTAGATTTTTTCCAAATATTATATTTAATTTGTAATGATTTAATACTATCAATAAGTTGTTTTTCTTCTTGTCTAGTTAATTGTGCAGTTTGAAGTTTCCATTCAATTTCTTGTATTCTTTTAGATAAATTTTTAGAATTTTCTTTCTTATTAAAACGACGGTCATTTTTTGAAGAATGATCTTTAGTAGATGAATTGTTTAATTTCACACCGTCATTAGTATCATTAATTTGTGTCCAAACTTGTTTTTTCTCGTTAACTAATACTTGTCGTTCTTTACGAAAGTCTCCTACTTGTCTATATAGAGGTTCTAAATCTGCTTGATGTTCGGCCAATTGGGAAGTTATAGTATGGATTTCGTCTCTCATATCCAATCTTTGTTTATTTAAAGACTTTAGTTGAGTGAGAAGATTCTTCCTAGAATCAAGTATATCTTTGATTTTAGTATTGATCTCATTAGTATTGGTAGATTCTAATTCTGACAAGTAATCTTTTTGTTATAATAGACAAATAAATAATTTATGGATATTTTATATAAATTATTGAATATGAAAAGAAAATAGAGGATAATCGCATGAATTCGAAGATTTGGGGAGTTACAGGAAGAGCGGGAACAGGAAAAACCAAAGTTATCAATACCTTGCATTATAGATTATCATCAGATAATATATCTACAGGGGGAATTTTAACAAGAGATATTAAAAGTCATGGAAAAAGAACAGGTATAGAAATTCATAATATTTTGACAGATGTAAATTGTGAAATAGCAAATGTAAATAAAAAGACAGGTCCTAGATTACAAAAATTTAGAATCAATCTAAAAAACATTGATAAATTTATAATCGATGAATTAAAACAATCGTCTACAGAATCAGATCTAATAATAATTGATATGATTGGTCCAATGGAATTATTTAGTAGTGAATTTTGTGATTTAATTATGACGTTATTAAATAACAATAAAAAAATATTATGTGCTATTCAAACAAAATATAATCATCCAATAATAAAAGAAATAAAAGAATACATGAATTTAGAACTATACGATTTAAATGAATACCACAAAGTTGAAGTTATTGATAAAATATATAACGGTATAATTGAAGAATTTGAAAAATAAAATTATATCTGGACTAGACGAAGCAGGAAGAGGATCAATAATAGGTCCATTAGTAATAGCTTGTGTTTCTGCTAATAAAAAATCAATTAGAAAATTTTCAAAATTAGGTGTAAAAGATTCAAAAAAATTATCATCAAAAAATAGAGAAATTTTATCAAAAATTATTAAAGAAGAAGCTGAAGATGTATCAATTATAAAACTATCAGAAAAAAAAATAGATAAAGCGGTAATGTTAAGAAAACGTTATGTAAAAAATATTAATTCCAATATTAAAAATAAAATAATTGGATTAAATGAACTAGAAGCATATTCAATGGCAAAGATTATGAATAATTTGAATTCAGATCTAGTATATGTAGATTCATGTGATGTAAATACAGAAAGATTCAAACAAAGAATAATCAATAATATGAATATAAAAATGAAGATATATTCCAGGCATAAAGCAGATGAGAGATATTTAATTGTTGCAGCTGCGTCGATAATTGCTAAATATAATCGTGATAAAGAAATTATAAGATTAGGAAAGAAATATGGTGAAATAGGTAGTGGTTATCCTTCAGATCCAATAACCAGAAAATTCTTGTATAAATGGATAAAAATGAATAAAAAAATGCCAGAATTCACGAGAAAATCTTGGAAGACTTGGGAAGCTTTTCAACCAAAAATTGAAGATTATTTTGAATGAGATTTATTTCATTGTAGATAGTATCAATACATGATCTTTATCAAAAGGATGTAAATCAACCATTTGATTAATTTCAAAACCATTAGATTCTAATTTAGATATCTCTTGTTTATAGATTGATTGAGGTTCTTTTGTAGTATCGATACTTCGAGATTTAATAACAAGAAGTAATTGAGAATTACTAACTAGGAATTTTTTACAATTTAATATAGCAATATCAGTTTGATCAGGTTGTGATATATCACAATATACGCTATCGATGTTTCGAAAGATAGACGTATAGCTATCAGTATTACGAGCATCAGCAATAATTGGAATTATATTATTACGAAATGATACGACATTATCAATAAAATCACGGGCCACACGGGAAGATATTTCAACACAAAATAACAAACCAGTTTTTCCAACAATATCAGAAACGTGAGAGGGAGTAGTACCTGTAGAAGAACCAAGATATAAAATAGTAGAGCCGCTATTAATTGGTATATTTTTCAATCCATTAATTATCGAAGCAGCTAATTTACTTCGATATGGATCCCATATGCGGAATTCAGAATTAGAAGATCGTTGAAGATGTTCTCCATATACACTGTTGCCAGGTACATAGTTTTTGGTTGCAAGTTTTTCTTTACCAGCAACTTCAATCCAATCTACATTATCAGGAAGATCGTCGTCGTTTTTCATTCATACTTCGCCTAAGTTTTTTATGTTTCTTCTTTGTAAAGTTATTTCGATTTGCTACAGGAGAAGCATATTTTTCCTGAATTTCACGATATCGTTCGTCAAGGCTATTTTCAAAATCGATTTCTTTAGTACCACGAAATGCATCAATTCGTGCAGCAATAGCAATCTTACTTGCTAAAGAACGTGCAATTTTTCCACGTTGGTGTTTAGGACTAGAATGTACTTTATCATGTTGAAAAATTATTCCATGTTTTGGAGGTCTACTACCACTTTTAAGTGAACGGAATAAAGCTTTTTCTGCACCTAGAACTTGTATAGTACTAGAAGGTAATTTAGCAAGTTTCATCAAACCACCAGATTTTGCTATTAAACGTGCGCCAATAGTTGGGCCAGCAATAGAACTAAGATTAGGAGCAATATTATTCATTAAGTCATTAATATAATTCAACACTTTATCACGTACTTTAACTAAATTTATTATATTTTCCGATAAAATAGAAATAATTGATAAATCTTTAGAATTAATACTACCTCCTTTTGAATCTTGAGCGGCACTAAAGATAGCATCAAGTTTTTTTTCGGAAAAGCTAAAAGAACTAAGTTCTTTTTCAGTAATAGATGTTCTGTCAAGGCCTAAAGAAACAAATTTGAAGTATACATTACTATCTTTAACTAAATTTTCAAGTTCAGGGAAATGAAGGCCGTACCATTCGTTAATTCGTGCCATAAGAATATTAATGGCTTTATCAAGTTCGTCTAAAGAGTTAATGCCTTCTATGATTTGTAAATCTTCTTTTCCAGAAACATCACGAATTTGTTGTTTTGAATATTCAATTGAAAATGTATGTAAAAAAGTTCTTATTTCTTCTTCAGAAGTGAAGAAACCAGATTGAACAAATAAGGAGAAAAGATTCGAAGAATCAATTGTTTTATAGATAAAATTTGTATCGGAATATAATTTATCGAGAATTGTAATTAATGATTGATCAGTTACTTCACAAGAATCAGATAATTCTTCAGATGAGTTTTTAAAAAAGAGTTTAACATCATTAGGTAAAGTACCTCGTTTAATTTCAGAATACAAGGAGATTTCAGAACCAGGTTCAAATCTATGATTTTGAAGAACTTCATATTTATCATTAATAATAATAATGCCTGCTTCAGTGAGAATGATCTTATTGACCAAGATATTGAAAATAGTCAATAACCATTCTTAAAGTTTCTTAATAACAGTGAAAATAACATCACGTTTTTAAATGTCGAATAGCTATGGTGGTTTATGCCAACTCACGGTTCATTGACAAAAGCAGGGAAAGTTAGAGGTCAGACACCTAAAGTCGAAGGTAAAGTAAGAGTAAGTAAGAATCCTAGAATAAGAACTAAGAGATCGTTCAAAAATAGAGTAATACTTAATAGATCTATTGGTCAAAAATGGGACAAAGTAGTTCGTACAAGATAGACATTTTTCAGTAATCAAGAGAAATTATAGCGTATATTTTATTAATCTATTTTTATAATTGAAATGATGTAAAGATGAATAAACAAATTGTAGTTCTAGGATTATTAATAGCAGTAACAGGAGCGTATTTATTTTCTATGTCGTCAGTAACGGTATTATCAGAATTTGATGTAATTCCAACAACTTCTTTTATTACATATTATGCTGAAGTAGACGCAGCTCCTCTGCCTTTTGCAGATTACCGTCTTGAATTAACAAATAATAATAAAGAAGATGGACTTCCTATTGATTTGTATGTATTTGATGATGAAAATTATGATATGTTTAAGAGATGTGGAGGTAGTAGAGAGGGAGCTGATTTTTGTGGATCATGGGAAGCAATATTATCACAAATGGAATTAACAGGAACTTATAAACGAGCATTAGATCCAAATATGGAAAAAGTTACAGTAGTAGTATGGAATCATAATATGGAAGAAACATTAGATAACTCTATATCAATTAGAATGGAATCAAATTATAGTGGATTAGCAAATGTTGTTGTTATAGCTGGATTATTAGTATTTTATATCGGATTATCTAGAAAAGCGGAAAGAATTCAAAGCAAAAAAATCAAAAGTAAAGATGCAGAGGAATAATGATTAACAATTGAGTACAATTGGAAGAGGAACATGGATTGATAAATTAACAAATGATATTATAAAGAGAGAGAAAGAATTAGAAAGATCAACTGAAAAAATTATTGTGGAGAGTGGATTAGGAGCATCAGGAATTCCTCATATAGGAAGTTTAGGTGATGCAGTACGAGCTTATGGAGTAAAGATGGCATTAGAAGATAATGGATATAGATCAGAATTAATAGCATATTCAGATGATATGGATGGACTTCGGAAGATTCCAGAAGGATTTCCAGATACACTTAAAGAAGAATTAGGTAAACCTGTATCCTCAATTGAAGATCCATTTGGATGTCATTCATCTTATGGTCAACATATGAGTTCATTATTACTCAATGGATTGGATAAACTAAATATTGAATATAATTTTAAAAGTGCGACAGAAATCTATCAAGAAGGAATATTGAAAGAACAAACAAGTAAGATACTAAAGAATTCTGAAATAATTGGAAAAAAGATAGCTGAAATAACAGGGCAAACAAAATTCGAGAAATTATTACCATATTACCCAATTTGTGGAAATTGTAAGAAAATATATGTAACAATTCCAACCGAATTTAATGAAAATAATGACAGTTTGAATTATATATGTAATGATGTAGAGATAGGAGGAAATTTAATTAAAGGATGTAATTATGAAGGTGAAACGAAATTATCAGAAGGAAAAGGAAAATTAGGATGGAAGGTTGAATTTGCTGCAAGATGGTCGGCATTAGACATAAGATTTGAGGCATATGGAAAAGATATAGAAGATTCAGTAAAAATTAATGACTGGATATCAGGAAATATTCTTGATCACCCTCATCCGTTTCATATCAGATATGAAATGTTTCTAGATAAATCAGGAAAAAAGATATCTAAATCAATAGGAAATGTGTTAACACCACAAAAATGGTTAGAATATGGTACGCCAGAATCTTTGTTATTATTAATGTTTAAAAGAATTGCAGGTGCCAGAGCGTTATCAGTAGAAGATATTCCGACATATATGGATGAAGTAGATTCAGTGGAAGATGTATATTTTGATAAAGTCAAATCAGAAAATAAAGATAAAGAAATTAGAATTAAGGGTTTGTATGAATATATGAATCATTTGAATCCACCAGAAAAAGAATCAATACATCTTCCTTATAGGCTTCTAGTAGAATTGGCAGAAATAGCTCCAAAAAATAATTCGGCAGATTACATAGCAAAGAAACTAATAGAATATCAATATGTGAAGGAAATTGATGATAATATTGTAAATAAAATTAATTTAGGAATAAATTGGGCGCGAGATTTTAAATCAGAGTCGATGACAAATGTGGAGGTATCAGAAGAACACAAAAAACCATTATTAGAAATTATCACACTATTAGAAAAGAATTCAGATCCTGAAGTTATTCAAAGTGAGATATTCGAGATAGCAAAATCAAATGATATGAAACCAAGGGCATTATTTCAGTTAATTTACCAAATACTTCTAGGCAGTAATAAAGGCCCTAGGCTAGGAAAATACATAATAGATGCTGATAAATCTACAATAACTAAGAAAATTAAAGCAGCAATAGAGTAATGGTTTAATTTATGATAAAAGATAAGCAAAGTGAGTATATTGGTAAGAGCGCAAAATTCTAGTAATGCATTGAATAATAGATTATCTGCACATGCAAATTATGCAAAATTTGAAATAAATGATTGGATAATTCCAAAATTAGAAATTAATGAAAATGACCAAATATTAGATATAGCCTGTGGAAATGGAAAACAACTAATACCAATAAGTGAAATGATTAAAAAAGGATCAATTACAGGACTAGATATATCAAAAGATTTACTAGATGAAATTCAATCAAATATTAAAAGAAATAATGTATTATTAAAAAATGGAAATATGGAAGATATAGGAAATGAATTCGACAATAATCAATTTGATTTAATATTGTGTTGTTTTGGGTTATATTATTCAAAAGATTACAAAAAAACAATCAAAGATATTTACGATAAATTAAAAG
>sequence21
CAGATGGAAAATACTGTGTAGTTAGAACCAGACCAGCATCAATAGTATATGATGTAGAAAGCTTGACTGAAGTCACGAAGATAGAAATTGAGAATACCGGACATCCAGCATTTAGTCCTGACAGTACTCTTGCGTATATACCAAATCCTGGAGACAGTTCAGTTGATGTATTTGAGGTAGGATCTTTCAAGAAGGTCGACAGTCTAAAACTACCTTATTCACCATCAAAGATCGTTCCAATCAATACAAACAACTACTAAGTGGAATAGTTGTCAGAAGAAGATAATCAAAGGATGCTATTAGTTAGCGCAATAATAACAGCGCTAACAATAGGTTTTTTGATTGGAGGAACTTTTGTTTATCATTCAAATAATGAGACAGGGGTTGAACAATATCAAGCAGTTGTATTCAATACTATAGGTAAAACAGCAACCGTGATAGATAATTATCTTCTTACTAGTTTAACAAATATCAATATTGAAATTGAGTCTGGTCAATATGGAGCGCATTATAATGAAAAGAATAATAAGTTATACCTTATTCATGAGGGCAAGTCTGAATTATTAACGTTAAATCCGCAATCATTAGAAATACAATCAAAAGTTAGAGTTGGTCCAAATCTACAACATGCAGGAATATTTGATGAAAAAGGAGAGATATTTTTCGTAATAAGTCGAGATTCGAATTCTCTGGTAATGATCAATACAACTACAGATAGAATAATATCAAGAATTGAAGTGCAAAAACAACCACATCACTTAGCATTGTTAGCAGACTCTATTGCAGTTACAAATACAGAATCACAGTCAATATCAATTGTAGATATCAAAAAATTGAATGTAGTAAATAACATTAAGATTGATGCAGATCCTTTAATGATAGTATCAGATAAAGATGAAAGGATGTTTGTTGGAGCAATAAGGCCTGCGAAGTTGTTTTTCATAGATAATGAAGAAGTAAAAAACAGTATAAACTTAGAATCAGATCCACATGGAATAGCATTAACTGGAAATGGAAAAAATATTATTGTCACGTTACCTGAAGAAGATAAAATATTGATCATAAACATGAAGGGAGAGATAATTAAAGAGCTTCAAACAGGAGATTTTCCTCATAATATTGACATTGAGCCAAATGGAAATTATGGATATATCAGTAACAGTAATGACGCATCTGTATCTGTGATTGATTTAAATAAATTTGAAATTATTGCAACAATAGAAACAGGAAATGGATCTCACAATGTGCAATTTTATAATATAATGAATAGCAATACACCGTTAAATGAGTCAAATAAGGATGGAAAAATTGTTAGTGCGAATTTTAATTGTGGAGGTTAGAAGATGATAGAATATAATAATATTTTTTCGTTGATTGCAACTTTACTTATTGGTCTTGGTTTTGGAATACTTTTACAGAAAGGACGTTTTTGTTTTACAAGTGCATTAAGAGACTTTATTGCATTCAAAGATACTCGAGTATTAAATGGAGTGATTATAGGAATTGTAACAATGATGCTAGGTACGAGTTTAGCATATGTGTTAGGAGTTTCTAGTTCAAATTTTTGGGTATCAAATTATGGGCTTTCTAATATTATAGGAGGATTTATTTTTGGAATAGGAATGGTTTACGGAGGAGGGTGTGCTTCAGGTACATTATATCGAGCAGGAGAAGGATACATACATTATTGGTTAGTATTAATTTCAGCGTGTATAGGTTATATAGCATTTGCAGCACTTTTCCCATCGGTGTTTTTACCGTATTTCTTTGTGCCGTTGCAAATTTTTGATGGATATAGTGTTATTTCAAGTTTAAAGTTATTTTCTCCGATTGTACCAATATTTTTGATAATCGCTGCAGTAATTTATCTAAGAAGTAAAAATGGATTAATCATAAATCAAACTATAGAAAATCTAAAAATATCAAATATTTCTTCAAATAGTCTTAAAGCAGAATGGGATACAAAACTAGTCGGTGTTGGAATGGGAGTATTAGCAACATTGTGGTTTGTGGTTTGGGGAACATTAAGTGTAACAGGTCCACAAGCAAGATGGACAGGTTTGATTTATAGTGAAATGTTTGGAGTAGAAACTCTTCAAGAGAATATTTATTGGAATAGTGTTGTATTCCGTGATGGTATTTTTTCAATTAGCTTGGACATGATATTATTCGTTAGTTTAATTGTTGGAGCATTCATTTCAGCGTATTTGAGTGGAGATTTTAAGATAAGGACAATAAAGAGGGCTAGAATTCCGAATGCAGTAATCGGTGGATTAATTATGGGTTTTGGTTCTAGAATGGCACCAGGTTGTAATATTAGTAATACATTCAGTGGTTTAGCATTTTTATCTGTAGCAGGTTTTATAACATCATTAGGTCTGTTATTAGGAGTATATGTTGCTACTCATTGGATGTTTAGAAGATCTGGTTGTGCGATTTAGCAATAGGTGAACAAGATGGAAGAAAGAAAAGTAAATGACGAAGATTTGAAAGAAATTGAAGAAAGTGCTGTAATAATTGATATGGAAGGAGAAGTATGTCCATATCCACAAATTATTGCAAGAGAAGAGATTAAGAAGATTGATTCAGGAAAGATCGTATTAATAAAAACAGATCACGTGATGGCAACTAAAGCAGTTCCACAATCAGTAAGTAATGATATTTCAGAATATGGAATATGGAAATCGGGATCTGGACAATACAAGATAATACTATGGAAAAAATAATAATGATATTTATGAATAGAATTATTAAGAATACAAGTTAAATAGAATTATAAGTTGACTTTAAGAATAGCATATGCAGGAATAATTCAGTTAGTTGCGCAATTTGCAACTTTATTAACAGGATTGATTTTTGTCACAATTGTAACAAGAAATCTCAGTGTAAATGAATTTGGTTTATGGCAGACATTAGGAAGTTCTGTAGGATTATTATTGATTCCATTAGCGCCAATTAATTATTGGGCATTAAGATATTCAGCAAGAAATCACGATGTAGGAAAAACATCATTATTGTCAGGTATGATTACAATACCAATATTTGTATTAATTTATGTAGGTATAGCACTTACGGCTTCAGCTTCAATTGAATCAATATTAGTATATGTACTAATATACAGTGTGCAAATTCCAATGTTATGTATTTGGGAAGTTGCAAGACCAATTGCTAGATCTTATAAACCTGAATATTTAGGATATGCAACAATTGGATTAGAACTTGGAAAAGTTCTTGCAGCATATTATACAATTAGTATATTGAGAATGGGATTAACAGGTGCAATTTTATCTCTTGCATTAGGGCAATTAATACAAATAATTATTATCGTTTACATAATTAGACCGAAAATTAGAGGAAGATTTCAATTTCCAGTTATAAAAAAATGGTATAAATCAGCATGGATACCTATATCCAATGTATCGATATCAAGATTATCAATAGCAGATTCAATTGTTGTATCACTTATTCTTGGATCAACTGCAGTAGTAGGAATTTTCCAAGCAAGTAAGATATTTACGTTAATTATAAGATATAGTGAGACATTTGTACGAATTTTATATCCAAAGTTAATTCGAGATAAGATAAATTCAGATATTACATTAACAATAAAATTACAAAGTTTTTTCCTAGTTCCATTAGTAGTTGGTGCCATAACTCTATCAGAATCATTGTTAGGTGTTCTTGGACCACAATATTCGGCAACAGGAATTATACTAAGAATATTAACCATAGTAGCAATAATGGAGGGGATAGAATTCTTTGTATGGAATATATTAACAGGAATTGAACAAATTGACGAGAATATTGATAATTTAGAATTTAGAAAATTAAGAAATAGTTGGTTAGTTAGACTTCCTTTAATTGATATATCGAAAAGTGTAATATATTTTATAATTTTAGGAACGATAATGTATAGTTTTAGAGATTTAGGAAGTCAATTAACATTAGCAATTTATTGGTCAGTGATTTTGCTTTTAATTACTTTACCAGTAATGGTCTATAAAATAATTCTATTAAAAAGAACAATAACATTTGAATTTCCTACAGCAACGATAATGAAATACGTAGGATCAGGAATTGTTATGGCAGTGTTTCTTTATTCCTATCAACAGGTATTTTTTAAGACCGAAACAACCGTAATAGCATCAATCAAGTATCTAATAATACCTGGAGTAACATCAGTATTAATTTATTTAATTGTAGTATATTTGACAGATCCATTTATTAAAAAAGCCATATTAGAAGTAAAATCTACAATATTTAAAAAAAATAAGTTATAATAATACAGGCCCGGAGAGACTTGAACTCCCGATCTCCAGCTCCGCAAGCTGACGCCTTAATCCAATCTAGGCTACGGGCCTACACATACAGTTTGAACAACTAGAATATAAAATCAAATATAGATGCAAACGATTTATAGATATTGTGAGCTTGCAGAAAACAAGAGAATATGTCATAGAATTTATAGTTCAAGCTATAGGAATGCCAAATGATTTAAAATATATCTATGATGATATTCCTGAAGATATAATTAATCAGATATCAATTTCTCTAACTGGAAGAGATATAGATGCAGAAACTTTTGATCCAGATATAGCTCCTGATGTTGATGGATTTATTCAATGGGCTCAAGAAATTTATGAAGAATTATGTAAAGAAAATAATATTCCTGTAATATGGAAGAGTAGATGGCCAAATGGAAAGACATTTGCGGTTGCGTTAACTCATGATTCAGACAGTATAGATGTGACTGAAGAACATCTTCAGGAAGTGAAGGATCGTTTTAATGAAAGTGATTTGAAAGAAGCATTGGAAGGTAAAAAGAATTTATATTGGAATGTAGAAAGAATTAAAGAAATAGAGAGTAAATTTGATTTCCATTCGTCATTTTATTTTTTAACAAGTGAATATAATCTTGAACAATACAAAGATGTTTTAGATGAATTAAGTAAAGATGGTTGGGAGATTGGTTTACATGCAGGATTTGGAACTCATGAAAATGAAGGAAAGATGAACGAAGATATAAACGAATTTAAAAGGCAATTAAAACAACAGCCAATTGGTGTCCGTGAACATTATTTACAATTTGATTATCATAATACATTGAATTTTCTAGAAAAGAATCAATTTGTGTATGATAGTTCGTTAGGTTTTAGGGAACATCCAGGTTTTCTGTTAGGAACATCATTACCATTTAATCCTCCAAGAGAGAATTGGGAGAAAAGAAAGATATTGGAATTGCCATTAATCATAATGGATACAAGTTTATGGGGATATATGAATTTGAATGAAGATGATGGAATGAAATTAATAGAAGATTATATTGCAAACATCAAGAAATTTAATGGGTTACTTACCATATTATGGCATCAAGAAGCATTTTTGATGAAAAAAGGTAATATTTATCCTAAGATTTTAGAGAAATTAGCTAAAGAAGAGTGTTTTGTGTCATCTGGAATTAAAATAGCTGAATGGTGGAATTCGAGAAATGATGTAGAATTATCAGTGGTAGAAGACAGTGAAAAAGGATGGAAATGTAATATTAAAAATGTTGAAAAAGGATTATGTTTAGAAATGAAAAATTTTGATATATCAAAGGAAATTGCAATTAATGGTCAAGGAAGAATAACCCATAAATCAGAAGTAGACGGAGAAATATATTATAAGATTGAATTAGAAGGAGATTGTGAGTTATTTTATGTCTAAAAATGTATTAGTAACAGGTTCAGGAGGAATAGGAGGAGTAAATTTCGTCAATGCGTTAAGAGTTACTAAAAAAGAATATTTAATTTCAGGAACTGACTTCAATAAATATTATTTAGAATTACCAAGTCTTGATTTTAAATACATAACGCCTAGACATACGGATCCTAAATTTTTAGAGAAGATTAAAGAAATAATTGGTAAAGATAAAATTGATTTCTTACATCCAAGTCCACATGCTGAAGCAAGTGTTATTGCAAAGGAGATAAACGACATAAAAACGGCAACATATTTACCCAAATATGATGTAATAATTAGAGATAAATTACAGACACAGGAAATATTGGAAAGAAATCAGGTTCCTGTTGCGAAAACCGAGATAGTTGATTCATTACAGGATATTAAATCAACGAAAGAGAAGTTTAGAGATGAAAAGGTTTGGGTAAGAATGAAAAGCGGTGCAGGAGGAAAATTAAGTTTATTATGTGAAACTTCACAACAAATAGAAGATTGGATTAGAATATGGGTAAATAGGGGAACTGCAAAATATTCAGATTTTATGATTCAAGAATATTTACCAGGGAAAAATATTGCGTGTGATAGTCTGTGGCATAATGGAAAATTTATTGCCTCATTTACAAGGGAACGATTAGAATATCCATTCAAACATATTTCTCCATCTGGAATTACTGGAACGCCAACAGTATCAAGAATTATTGTTGATGAGAAGGTTAATGAAATTGCGAAAAAAGCAATTTTATCATCAGATTCAAAGCCACATGGAAGTTATGCTGTAGATTTGAAAGGAAACAAAGAAGATAATCCAGTTGTAACCGAAATAGATTCTGGAAAATTCCACACTACTACAGCTTTATGGGGAATAATAGCAAATAAATTGGGATTAGATGAAAGAAAGAATTTGGCTGATTATTATTGTGGAATAGGAATGAATTTAGTAGAACCAGAAGAACTCGGTACAGATATCTATCCAGATAATTTATACTTAATTCGACACATAGATACAGGAACATGGATTTGGAAAGAGGATGGAGATAAGGTAAAGATACTTTGATTGAATTAGTTATTTTTGATTTAGATGGAACATTAATTAAATTACCAGTAAGATATGATTTTCTTAGAAATGAATTAAAAAATAAGTTCAATATACAAGGAGAATTATTTCTGATACCTATGATATTAGATAAAACAAAAGAAAATGAAGAAGTGAAAAGAAATGCATTTGAGCTTATTTGTAAAGAAGAATGTAATGCAATAGATGGTTTAGAAATTCATGAAGGTGCAATCGAAGTAATAAAAGAAATTCATTCAAGAAATAAGAAAATTGCACTAGTAACATTACAATGTGAACGTGCAGCGAATAAGATTTTAGAGAGTATTGGAATAAAAAATTTATTTGTAAATATATTTACGCGTGATGATTATACAGATAGATCTGAACAAATAATCAATACAATGAAGAAATTTAATATCAATGCAGATAAGACATTGATGATTGGAGATAGAATCAATGATTTTGAATCAGCAGAAAGAGTGGGTTGTAAATCAATAATTATAAGACGAGGTGATCAAGAGGGAAATGATGGTATGAATTGGGTAAAAGACAACGTACAACTTAAAAATGAAGTAGTAAAAATTTTATAAAAATTATTTTGAATCCATTTGCCATTTTATAGTTTTAGCAAGGCCTTGATCAAGTTTAACCCTAGGTTTGAAGTCAATTATTTGCTTGGCTTTATTGATTTTTGGTAGACGACGTCTAGGGTCGTTATCAGGCATTGGTAGATATTTGACTTTGGATTTACTATTGGTTAATTTAATTATTGTATTAGCCAAGTCAATAATTCGAGTTTCTTTAGGGTTTCCAAGGTTGAATGTTTCACCTTTGGTTTTGTTAACAAGTAAAGAACTCATTAATCCATTAATCATATCAGTAATATAACAAAATGAACGCGTTTGTTTTCCATTTCCCCATATAGTAATTTTCTGATTGTTTATTGATTGCCAAATGAATCGAGAAAGAGCTCGTCCATAATTTCCGTCGCCACGAAGTCTTGGTCCATAGGTGTTAAATAATCTGACGATTCGCAAATTAATACCATAAGTTCGATAATAGGCCATGCATAAAGATTCACAAAGTCTTTTGCTTTCATCATAACACGCTCTAGGGCCAGATGGATTTACATTACCATAATAAGTTTCAGGAGTTGGAAAAACAGATGCTTCGCCATAAACTTCAGAAGTAGATGTAAATAGAAGTTTTGCATCAGTTTTTCTAGTTAGTTCAAGGATTTTTCGAGTTCCTTCAGTATTAACATCAATAGTTTTTAGTTCATTATTAAGATAATCATCAGGAGAAGGTCTACTAGCTAAATGGAATATATAATCAGGTTTTAGATTAATAGGGGTCTTGGTGATATCTTGTTTTTTAAATACAAATGATTTGTTGTTTAATAGATGTTTAATATTTTCAGCACGACCAGAAGATAGATTATCAAGGCAATACACTTTAGCATTTTTTGCTATTAGAATGTCACACAACCAGCTTCCAAGGAAACCTGCACCGCCAGTAATTAGGAATTTTTTGCCTGAAATACGGAATTTTTTATTATCAGATAGAAGAGTTGCGATGTCAGAATCAATTAAATCGTTCAATTACATCCAACCTTTAGTAGCGAGTTTTTTAGAATATTGTTGAGCATGCCAATAAGTCTCAGGAGTGCCAATATCAAGACGTGTGCAAGAATGATGATATTCATAACCTAAAACATTCATTTGAGAATCAACCATATACTGTATTGCATCAGTAATTTGTATTTCCCCTCCATAACCTGCAGGAATTTTCTTGAGAATTTTCATGACGTCAGGAGTAAATTTATTCAAGGCCATAATAGCAAGATTTGAAATCTTTTTCGATGGTTTTTCAACAGCCTGAGTGATTTTGTAGACTTTATCATTTGAAGGAAGAGAATATTTTTTTGTACGTTTGCCAACTACTACCCCATATGCACTAGGCTCAGAAATTTTCTCTAATGCAACAACACAATCAGCACGTTTAGATAATCGATCTAAATCAATAAGATGTCGATGATTTGGTTGTACGATTAAAGTATCGCCAGCGTGTAAAATAAAATCGTCTTTACCGACAAAAGATGAAGCTAATGAAACAGCATGACCGTAACCTAATTGATTAGTTTGAGTAATCCAGGTAATATTTGATTTCTCAATTCGTTTGTAAAAGGATTTCATATCTTTAAAGGAAATACTATTTTTTTTGTTTGATAAATCATCAAGAGAAGGATAATTGAGAGAAAAATGATCTTTAATAGCGCGCTTTTCTTTGCCTACAATGAAACAAAAATCACGAACGCCAAAATCAAATAATTGTTCAAAGATAAGTTGAACCATTGGTTTTAGTAATATATTACCTTTAGACGAAGAGAAAACAGGTAGCATTTCTTTGGGTTGAACTTTAGTAGTAGGAAGTAACCGAGTTCCACGACCTGCTACAGGAATAACTACTTTCTTTAACATTATTAGCCCCTATAATATTCTCATAATCCATTTATTTCAATGTATCATCAGAATATGTATGGAATA
>sequence22
GTAGAAAATGGCATCATGTGATACCTACATTTTATAACTGCTTTGTTTGATGACATCATGTGTTTTGGATGTACTTCTTTAGGTCCAAATACTGCTGCTATGATTTTATTCTTTCCAAATTCAATTAACGCAGAGCCATCTGCATTTTTAATAACTCCTGCTTTGATTGAAACATTTCGAAGCTCATCTTGAGCTCTTCCGCTAATTCTTTCTATATTATTTTTAGACAATATTAAATCACTTTGAAATTAAACTTATAACTTTATCGTTAAGATCAGATAAATGCGCATTATTTCCTATTAATTCAATTGCCTTTTTTGCTTTTTCTCTTCCTTCATCTGTCCCTTTCAATAATATTGCTCCATTTTGACCTATTGTCAGATGGCAACCTGTATTCTCTTCTATTAACTTAATCATTGCTCCTTTCTTACCTATTACTCTAGGTATTTTTGAAGATGTAATGTAAGCTATTTCACCTTCTTTTATTTTACCCAAACCAGGTCCGCTGATTGAAATTAACGGATCTCTTGTTCTATCAAATGAAAGTATCTTTGCTACAAGACATTCACCTTTATTAAATTGTGATTTCATCGAGTCTCTGGATGAAGAAAATTGCCTTCCAAACACTGCAGAACCAGTTAATATTCCGAAGAACCATGAATTAATATCAACTTCCCATGCAAAGCCATTCATATCTACAACTTTTCCTATTACTACGTCATCTGTTCTTGGGACATAAGTACCATTTAATGGTATAACTTTAACCCCATTATATCCAATTTCTGCCATTCCTACTTTTGTACTAATAATCTTATTGCCTTTTTTTATCACATTTGCAATTGGATTGTGTTCTCCTTCAATTACTAAATCCCCAGGAATAACATATTTTCTTTCTACTGAATTTGTTTTCATTATTATTCTATCGAATCTGCTATTATATTACCTTTAGTCAATGAATTTAATTTCTCAATTAGCATTATCTTTGAACCCGGAGAAAGAACTATTACTGTACTTAAAGATCCATCGTTTTGCCATTCTTCTGATTCTACCGTGCCATATTTTTTTAATATTCCAATAGATTGCGGTGCATATTGAGGTGGAATTACTATTTTTAACTTACTTATCTCTGATTTCATAGGTATTATCTTTCTTAATTCTTCAATGATCCCTTTGACTTGCTCATCTGTACCTTTAATCGGATCAATACTCACTCTTGCTTCTATTAATGCCTGTTCTATTCTTTGTGGTGGATGTGGAATCTTTGTCTTAGGATCTACATAATTACTTGCTATTATCGTTATAATTTGCTTTCGTTTTTCCTCAATTTTCTGCTTTCGTTGTTGTGTATTTAGTAATAATTCTCCTTTTTCTAAAATCATCTTTAATGCTTCTTGATTATTCTTAGTTTTTAGATATTTGTGTAATTTCTCATCAGGTATTCTTATACCCTTGTTTGCATCAGAATAAATCTCATCAAAAGCAATTGCTTTTTCGTATTCATGAATTTCACCTTTTTTAAATTTTAATGCCTGATCTGGATCAACAAATATCTCAAATTTTTCTCCCGAAATTGATAATCTAACTACTGTAAATTTTGAGTTAACATTCTTTTTTTGGAAATCCTTCATTTATATAATCTTCAGCAATTAACTTCACATATAAATCAGTTGATAAATGCGGGTCCTAGGGGATTTCCATAGGAATTCGGACCCCTGGCCACCGGATATCTTTCCTGATGTTAAAAGTCCGGTGCTCTAGGAATTTATACTACCTGGCTGAGCTAAGGACCCACAAAAAATAATAAATAATCGACTATTAGTGTCTTTACTTCTACATTTATTTCTTATTCAATATTATAAACGCCCCGGGCGGGAAATTCCGAAATTATCTCAATTTCTTTTGAACCCGCGTCTAAAGCGTGACAGGCTCCAATGCTAGGCCGAGATGTGCGATTTTTAATCTCTACACCACCGGGGCTAAATAATTCAAAACATTCTCAAACTATAACTCTTTCGAATTTATTACACTTAAAAATCTTCATATTGAATTATTCTTAGTTGAGTAATCGTATTAATCTTAGTTATGTTCAATTCAATCCTAAATTTGGAAATATAGATAGTAATCTAAAGACTGTTTCTAAATTATTATATAAAGTGAAACCTGGTGTTGTTGTACTTCCTGAATTAATGAACACTGGTTATAATTTAACCTCTAAAGATGAAGTTCGTTATCTTTCTGAAATACCTAAGACAGGAAAAACCTCATTATTGCTTACTCAAATTTCATCTGATATTAAATCTACAATAGTAGCTGGTTTTATCGAGAAATCAAAAAATAATTTCTATAATAGTGCTATGATTGTTTCTAAAGGTAAATTCTTAGGTGTATATAGAAAAACTCATTTATTTTATAATGAGAAACGTTTCTTTTCAAAGGGTAATACAGGATTTCGTGTATTCAGTATTGATAATTTCAAATTAGGTGTTATGATTTGTTCTGATTGGATTTGGCCTGAATCTGCTCGAACACTTGCAATAAAAGGCGCTGATATAATTGCTCATCCTGCAAATCTTATTCTTAAAGGACTCTGCCAGAAAACTATGCCCATTCGTTGTTTTGAAAATAGTGTTTTTGCAATTACTGCAAATAGAACTGGTATTGAAAAACGCGGTAAAGATACTTTTCATTATACTGGTCAAAGTCAAATTGTTGCACCTGATATGAAAATACTTTCTCGAGCAAGTTCAAATTATAATTCTGTTAATTCTGTTGCTGTTAATTTATTAAATGCTCGAAATAAACAACTTTATAAAAATAATAATTTACTTAAAGATCGTAGACCTCAATTCTATAAATAATTTATTTTTTATTTTTGATTTCTATATATTCTTCAGATAATAAATTATAAAATTCCCATTTTCCTCTTTTTGGATTTGCTTTTCTTCGTTTTTCAAATGTCCATGCAAGTATTGGTTCCGCTCCTACTTTTTTCGCCCATTTTGTTAAATATTTTTTTTCTATATCGTCTATATCACTTAAATATTTTGATACTTGAATAAACCAAACTAATGTTTTCTTTTTCTCTTTCTTTACAGATACTATGTCAATAGGAAAGTATTTTTTTCCATCAACTATTACCATTCCTGCTTTTGATCCTGAACCTCTAATTGCAAACCATCCGTTAGTTCTTAATTTATTCAATAAATTGTGTTCTCTACTTCTTCCTAAGACATATGAATTTGCCATAACTTAGATTATTTATTTGCGGAATATGTTAAAAACTATTAGATGAAAGCCATATATGATGAAATCTTCATATCTTTCTACTCTTATTCAACTTCTTATACTTGGAGCTAAGAATCCAATTAAATTATCAACATCTGAACTTGCTATTTCTATTAATAAAACTCAACAAACTGCTTCACAGCATTTACTATTTTTAGAGAAGTCTAATATGATCTCTCGATATAAAATTGACGGTCTTGATATGATTCAAATTACTAAGCCTGGCCTAGATTATCTTCTATCTGTAAATCAGAAAATACAATCAGCTTTTGATGAAAATAGTTCTAATTCTGTCACTGGAAAAGTTTTTTCAGGTCTTGGAGAAGGAGCTTATTACATATCCCTACCTGGTTATAAGAAACAATTCATTTCAAAACTTGGATTTGAACCTTATCCTGGTACTCTTAATCTTGAACTCGCTTCTAATCTTCATCAACAATTCATTACGAAGTTATCCGAGTTTAAAGGCATTATAATTGAGGGTTTTACTGATAAAAAACGAACTTATGGTAATGTAGTCTGTTACCCATCAATTATTAATTCAAATATTCAAGTTAGTATAATTATTATTGAACGTACTCACCATGGTAGTTCTGTTATCGAATTAATCTCTCCTATTTATCTTCGTAAAAAATTAAAAATTAAAGATGGGGATGATGTTACTGTGAAAATTAATATCTAAATTAAATTCTAAGTTTTATATTTTCTTCTTAAATTTGAACTCTTGACATGTGGTATTGGAGACTCTAATCTCTTAATTTTTATTCTCAAATTATTTAATTTTACTAATTCTCTTAATTCACTTATTTGATGTTTCTGATCATACCCTATAGTTATTATATCTGGTTTTATTTTTTTGATAATATTAAAAATATTTCCTTTACTTCCTAATAGTGAATGATCTACATATCTTATTGCAGATACTAAAATTATTCTTCTTTTTTCATTATTTATTGGTTTCTTTCCTTTAATTTTTTTAACTCTATCATCTCTCGCAATAGAAACAATTAATAAATCTCCTTCTTCTTTTGATTTTTTTAATGTATGTATATGTCCAGGATGAATTATATCATATACTCCGCCTGTGAAAACAATTTTTATATTCTTTCTACCTTTATCAGTTAGAATATAATTTGATTTTATTTGTTTAATTAATTTCATATTCTTTAAATTATTAATATATTTATCTAATTCTCTTTTTTCTATATCAAAATCTTTTTGAAGATTTCTTAATGATTTTTTTCCTTGTAGATTATTTATGACTATTTTCTTCAATATCTTCTTTTCAGTATTATTTATGCGCATTTATTACCACTCTAGTTCTATTTCTCCAAGAAAAATTAATGAATCAATAAGTCCCTCTGCATATCCAATACTTAATATCGCCAATTCAAACCTACCTTCATTTTTAAATCTCTCTGAATCATCAATATAGGCTTCTATATTCTTGAATAAATCGTTATATCTATTATTGTTCTTTGTCATTTCTTTTATCTTCTCTAATGTGTTTATCGTTTTTGGTATATATTTATCTAACATATTATTGGCATTTGATTTAATTCCTAAAGAATTATCTATAAAATCCTCTTTAATATTGAATAATTGTTTTAATGCTTCTATTTCTGTAAAATGAAGTTTACTAGGTATTATTATTGTATATGGAGGCTTATCATATTGTTTATTTAATAATTCTTTTAATGTATCACAGTATATTTCTTGTTTATTCATTCCTATTCGTGACGCGATAATCAATTTTGTTTCTTCACTAATTACTTTCTTTTTTTGTTCCTCTTCGATTTTTAATAATTGCTTTATTGCATTAATTGGATTTAGATATTCTTTTTTATCTAAATTATATTCTAATAATACTGTAGAATGTAATTCTGTTAATAAATTATTAAAAATTACATCATATACTGATAAAGGTGCAACTTCTGTATTAGTCATTAATGTTGTTATTCTTCCAAATTTATATGAATGCAAACCTGTTTCACCAGGTAATACGGTAGTAATAGAACTGTTATGTAATACTTTAGTTTCTATTCCCCTTTTTTCAGCACGCATTCTTAAATCCATATGCGTGGTTGCTATCATTGGATTTCCATATGTCAATAATATAACAGTTCCACTTTTCGATTCTTCAATAATTTTATCTCCATTCTCTATGAACTCTCTTCCAATTTGTTCAAACTGAAAATCAAATATATAATCGTTATATGGCATTGGCGGGCTTGTGTACCTCTCAAAATAGATTTTATCTGCATTTTTTACCATATTTATGATTTCCTGAGTTATTGTATTCTCATTTAGTCCTAATCCTGCAAAAACTAACATTTTGATTCAATTATATCGAAGGAAAATGTTCAATAAAAAGTACATTGCAAGCATAATATTGGGTCTGTGGCTCAGCCAGGCAGTATTTATGCCTAAAGCGGCTGGCTCTTAACCAGATATGTCTTTGACATAGGTGAATAAGTCGTGGGTTCAAATCCCACCAGACCCGTTATTATTTTAATAACTTCCTTCTGCCATAGGTCTTAAGTGTCTTTTCCATGATGTGGTATTGCATTTACTACAGTTATACAAAGACTTTCCTTTTCTCATCATTACATCTTTTTGTTTGATGATTGTATGATTTGTTTTAGTCATACATTTACTACAATGTCTTTTTTCATTAATCAATTTGCGTCATTATTTCTTAAGTCTGAAATTTCTGCTAGTAAAGCTGTTAATTGAATATCTGGGTTTGATCCAGTAATTATTCTATAATCATATTTTGCTAATATTTCAATTAATTCTTTAATTTCTTTATATTTATTTTTATTTATTGCTTCATTCATATATTTTAAAAAATCTCTCTCCGATAATCCATATATCTTTGTTAACACAGACATTTTTTCTCTTGCTGAAATGAAATCGTTATTTAATGCTAATTCTAATATTTCCTCAATTTTAATTTTAAACGAATGCCCTGTGGCTTTCTCAATATTTTTTAAATTTATATCTCCTAATGATGAACATGACTGTAATAAATTAATTCCAGACCTGAGATCTCCATTTGTTATATTAGATATTTCTATTATTGCCTGTTTTTCAAATTTAATATCTTCTTTTCCACAAATTACTTCTAAATGCTTCACTAGTTCCTTTTCGTCTATTCTTGTAAAATTAAAGGAAGCACATCTACTTTGAATTGGTTCAATTATATTTGATACATAATTTCCTATTAATATAAATCTACATGATTTTGAAGCCTCTTCCATTATTCTTCTTAATGCTGTTTGTGCATCATTTGTCATTTCATCTGCTTCATCAAGTATTATCATCTTAAAAGGAACCTTCTCTCGATTATCGGCATATCTTGCAAATGTTTTTACTCTATTTCGTATCGTATTAATTCCTCTTTCATCTGAAGCATTTAATAATATTGAATAATCTTGCCAATTTTCGCCTAGAATTGTTTTAGCAATTATTATTGCTAAAGTTGTTTTTCCTGTACCAGGAGGTCCAGTGAATAACAGATGCGGCATTCCTGATGAATTTTTCATTATTGGTTTTAATCTCTTTATAGTAGACTCTTGATTTATGAATTCAGTAATCTTTTCAGGCCTATATTTTTCAACCCACATTAATTCATTTATTTCACTCATTTTCATATCCAGCCTTAATTTTCCATAATATTCGATATTACTTATTCTTTGTCTACACTATTTGAGTTAAAGTATAATGACAGCTGTCTTAAAACCCTAAGTACGTTGTATTGATATATAGAATATGTCATTTGGCAAGGAAGATTCTATATCAAGTATGATGAATGATCTCAAAGTAGAATCTGAATTATCTCTTGTCAAAGTTATTGCTATTGATGATATTGATGAAACAGAAATTGGCGGTTTCAAACTTGAATATAAAGAGGCCGAATCTAAATTTGACGTACCACAATGGGTCGCATCTATCTTAGTAGAAAAAAATTTAGTTAAACTTGCTGATGTTGGCATTGATACAGAATTATCAACCGCTAACAACAACGAGAAGATGAAAGGTATGTTTGAATTATCAGAATTAAAACCTGAAATATATAAAAGAATTAATTTTCACTTAAAAAATCTTCGTTCACGTTCAAATAATGATCCAGTTATATTCCAAGAATCTAATAAAATCTCTACTGAATTTAATGATTTAATTAATACTAGAATTAGTAAAATGGTTTCTATTGCTTCTTTACCTGAAACTCCTGATAACATCCAAAAAATCCTTACTCCTGAAGAATATCTTTTATTTAATATTGTTAGTTCTAATATTCAAGAATGGCGTGAATCAATTTTAGGAGATGAATTGTAATGGCACAATCCACCAAAACTTATGGTGCTTCAAAAGATGATCTTGTCGATTTTATAAAAAATTATAAAGATAAATCAAAGAAATCTAAATATCATGCCGCTCTATCCAAAATGGTTTATGAAAACTCTAAATCATTAGTTATTGATTATGCTGATCTTTTATTGTATAATTCTAATTTAGCTTCTGCATTACTGGATAATCCTGATGACATTCTTAAACTCTTTAATATGGCTACATATGATTCTTTGGCTACTATAAGAAAAGATTATGCTAATTCCATTAAAGATGAGGTACAAGTTCGAATTAAATCTATTACCGATCAAGTTCCTCTACGTGATATTTCTAGCAAAAATTTACATCGTTTGATCTCAGTCGAAGGTTTGGTTGTAAGAACCTCTGAATTAAAACCTCTTGCCACCACTGCTGCATTTTCATGTACTAAATGCGGTACAACTAATTCTGTTCAACAAGTCACGCCTTTATTGGTTAAACCCTCTACATGTATTAGTGCTGATTGCAACGAAACTAAAAATTTTGTATTTAATGAAAAAGAATCTGTTTATCAGGATTATCAATTAATTCGTATTCAGGAATTGCCAGAAGAATTACCTCCTGGACAGTTACCACAATCATCTGACGTTCATTTAACTGGCGACATGGTAAACATTGCACGTCCAGGAGATCGTTTAACATTAACTGGAGTAGTAAGAATTGATCAACCTGAATCTCGAGGTAATGAAGCATCATCAATTTTTAGATCTAAGATTGAAGGAAACTATATTGACGTTGAATCTAAAGGCCCTGAAGATATTGAACTAACAAAAGATGAAGAAGACATTATTCTTGATTTCTCCAAAGATTCTGATGCATATATTAAATTAATTCAATCTGTAGCTCCTAATATTCAAGGATTAGATAAACAAAAGGAAGCAGTTTTACTTATGTTAATTGGTGCTCCAAATCAAACTACTGAAGATGGAAGTTCGATTCGTGGAGATATAAATATATTATTTGTTGGGGATCCTGGTACTGCAAAAAGTGAATTATTAAAATATGCATCTCGACTTGCACCACGTGGCCTATATGCTTCGGGTAAAGGTTCAACAGCTGCCGGTCTTACTGCCGCCGTAGTAAGAGAAAGGTCAGGTATGATGATGTTAGAAGCAGGAACTGTTGTACTTGCTGATAAAGGAATTGCATGTATAGATGAATTCGATAAGATGAGAAATGAAGATAGAACTGCATTACACGAAGCTATGGAACAACAAACTGTCAGCATTGCAAAAGGAGGAATTAATGCCACTCTTAATGCTCGAACTGCCGTTCTTGCTGCAGCCAATCCTGAATTGGGAAGATATGATAATTATAAAACTTTTAATGACCAAATAAATATTGACGCTCCATTATTAACAAGATTCGATCTTATATTTGCAATAAAAGATACGCCAAATGTTCCTAAA
>sequence23
AATGAACAAAAGACTTTACTCGCTAATGAAAGTACTACAGCTACTTCACAAGTTAGTGAAATAGATTCAACTAATGAATCAGATTAAATTTTTTGGTAATATTTGTAATCATACTCACGCAAATAATATTTCTGCAGATTTTAATAATCATTCAATTAATCAAATGTTAGATATTCTTAAATCTAAATATAATATTGATCAATCAATTTTAAAATCTAACAATTTATTGATAGCAATAAATAATGTAGAAATCTCAGTTCTTAATAATCATGACACCCTGATAAAAACTGGTGATATAATATCAATAATCTCAATCAGTCACGGCGGATAAATCTCTATAAATTATCTAAACAAGATTCTTGTTTAATTATTAATATTAATTCATCTACCTCAAAATCTTCATTAATTAAATTACGAGAAAAATTTCCAAAACTTATCATTCAATTTATTAATCCTGATTCAATTCTCAACCTAAATCATCTATTATTTGCTATAAAACAGTCTTATTATGCTAAAATTAATGATCTTATGGCCGCTCGTGAATTTGAGGTTGATCTTTTAATGCGTATCTCTATTACTGATCAAATCGAAGAAGCTTTAAAAATTTCTGGAATATCCCCAAAAAATAAATCTTATATAATTATATCTCTCGGCACTCCCTCTAAATTAAAATTACTTCAAACTTGGATATTTGATAATTTGAATTATTCAACTAATTTCAATATAAATAATTATAATAAAATTTCTAAACTTCATAAAATTAATTTAAATAAATTAAATCAATCTAATATTGAACTTGATTTATTGAGTTATTCAGCAGTAAAACTTACATCAAAATATTCTAATTAAATAAAGTTTAAAACATTAATACATCTAAAACTTTAAAATACATATGAAAAAATATCGTACTCCTTCATTAGTAATCAATTTAAAGAATTATAGTGAAATTTATTCAAATTATTCAATTGATATTGCAAAAATATCTGAATCTGTTGCTTCTGAAACATCTGTTGAAGTTATTGTTTGTCCACCTAATCCTGTTCTATCTAAATTAATTGAAAATGTTAACATCCCTATTTATGCACAACATGTTGATAATGCTAAAATTGGAAGCTCAACTGGATCTATAGTTCCAGAATTATTAAAATCAATAAATTGTTCAGGTTCATTAATTAATCACTCAGAAAAGCGTATTCCAATTGATGAAATTGAAAAATTAATTAATAGATTTCATGAAATTGAATTAACATCATTAGTTTGTGCACAGTCAATTGATGAAGTAGAAGAAATTGCAAAATTATCACCTGATATTATTGCAATTGAACCCCCAGAATTAATTGGATCTGGTAGAGCTGTATCAAAAGTTAATCCAAAAATTATTTCTGAATCTGTTGAAGTTGTAAATAAAATCAATAATAACATTGATGTATTATGTGGTGCTGGAATTATGACTGGTGAAGATGTTTCTATTGCATTAGAATTAGGTTCTAAAGGAATTCTTATTGCAAGTGGAATTATCCAATCAGATGATTGGAAAAATAAAATAACTGAACTCGCTACACCTATGACAATGCACCAAAATAATAATGATTAATTATATTTGACAAAGAAGCGAAGCTATATCACATCATACTTGATAAAAAAACAATTGTTACTAGATATATTATGTCACATTTCGGACAAAGATGGAATAATGAAAGAACTCCAGGATTTAGTGACAAAGTTAAAGAAGTAATTCGCGCCGATAAGGAACCCGTAAAACCCAAACTCGAACAAGCCGTCAGACAAATCAAAACACAGATTGTAAAACTAGATCAAACTAGTGGAAAACTAAAATCACGTGATGCCAACATCTTCAATAGTGTTGTTGCCGCATTACAGAAACACGACAAAGCTCATGCAACTGTGTATGCAAATGAATTAGCAGAAGTTCGAAAGATGAACAAAATGGTGACTCAATCAAAACTTGCATTAGAACAAATCGCATTGAGACTCAATACAGTTTCAGAATTAGGTGACGTCGTCGTTACATTAACTCCTGCAATGGGTGTTATAAAAGACATTCAATCAGGCGTTATGAATATCTTACCAGAAGCTGAACATGAAATTAGTGAAATTAATGGATTGTTGAGTGGTATCTTAGTTGATGCTGGTCAGATGGGAGGACACAATATTAACTTTGAAAATTCTAATGCCGAATCACGACAAATTATGGACGAAGCATCTGCCATCGCAGAAGAAAAGATGAAAGAGCAATTCCCTGATTTGCCAGCACCTGTAGATTCATTATTGCATAAGAAGAACAAAATAAACGAAGGTCTATTCGAGTGACAGAGTAATTCTGTCACTTTTCCTTTTTTTAGGAATGAATGATAATATGTTTGAAAGAATAAAATTAAATATAAAAAATATTCGAGATAGAAATCAGATCAATCAGTCATTAAAAATTTTACAAATTCAACAAAAAGATGTATCAACTCTTAAGATTAAATTAAATCAAAGAATCAATAAAATTCGATTATTATGTAATGATGCTTCTACAAATAATAATCATACTTTTTATTCTATTTATAAGAAAGAATACGATGATTTAGAAAAATTATTTGAAAATATTAAGATTAGTGAAATCTCAATTATTAGGGCAATTAGTCGTATGGAGACTCTTAAAGATGTACATCAGGCAACTAATTCACTCAGTCTTGCTGTAGAAATGTGTAAAGATATGGATATTAAACTTTCTAATATTATACCTGATATTAATGATCAAATTATGACATTGAATAATTCTCTTAATCAATCTTTAGACCTTCCTGAATTATCAAGTAATGAATTATCTGAATTGAATAAATCAATCGAATCGAACATTCTTAAACCTATTACAGAGAGAATTGAAAATGAGAGTGATAAATTTGAGTCAATTGTGAAAAATAATCAAATAACGTCTATAGGTAATAAAAAATTAATAAATAATACAGATAATCCAACAATGAACTTTAAAAAGTACACTCCAAAAGATTCGGATAAGAATAAACTCGAAGAAAAGATTAGTAGATATATTGATAACAATAAAGGAAATTTTGATGTAGTTGATGCAGCAAATGAACTTGGTTTATCTGTTGAAACTGTAGAAACTAAAACTATTGAATTAATGAACAGAGGAAAAATTAAAATTCAAAGGTGAATGATTTGAGTTCTGCTCCTGAAGTATTACAAAATACGGCACAAAATTATGCACGTGAAGCTATTAAATTTGATTCACAAGGTTCTCGAGGAACTGCAATTCAAATGTATCAAAAATCAATTGAAGCATTAATTAAATTAACAAAATTATATCCAAATGAATCACATACTCAATTATACATTAAACATGCGAAAAGATATCAGGACAGAATAGATCAATTACAAAATAATACAGATATTCCACAAGATAATCAAACTGAATCTCAATCTGGCGTTGTTGAAATTGTAAAATCATCATATGATGATGTAATTCTTCAAGAAAAACCTAATGTTGGTTGGGATGAAATCGTTGGTAATTCAGATGCCAAAAAAGCTTTAAGAGAATCTATTACTTTTCCATCTATGCGTCCTGATTTATTTCCATTAGGGTGGCCTAGAGGAATATTACTTTATGGACCTCCTGGAACAGGGAAAACATTATTGGCTGCAGCTGTAGCATCGGATATTGATGGACATTTTATGAATGTCGACGCATCTTCTATTATGTCTAAATGGTTAGGAGAAGCAGAACAAAATGTTTCAAAATTATTCAAATCAGCTAAACACATGATGGATGAAGAAGGAGTAGTGTCTGTTGTTATATTTATTGACGAAGTTGATTCATTATTTGGAAAGGGCGGAAATAATAGCGATACTGGCGGCGAAGCTCGCGTTAGAAATCAGTTTCTTAAAGAAATGGATAGTATTTCTGATAAGGGTAAAAATCTTCCTTTATATGTTATTGGAGCAACAAATAAGCCGTGGTCGTTAGATTGGCCATTTTTACGAAGATTCCAGAAACGAATATGCGTTAATCTCCCTATTTTAGATGCTAGAGTTGAAATGATGGAAATGTATACCTCATCGTTAAAAATTGATGACTCTATAAGATTATCAGATATTGCAAATTCACTTGAAGGTTATTCAGGAAGTGATATTCGAGACATTTGTCAATCAGTTCAATTAAAAGTCGTATCTAAATTATTTGAAATGGGATCTCCTTCTGAAGATGTACAACCTGATACGATTACATCAGAAGATTTCTATGAAATTATGGATAAAAGAAAACCAAGTGTTTCATCTGAAATGTTACATGCTTATACAACTTGGTCAGATAATTATAAAGCACTATAATTTATGGGTCTAATCGATCTTTATCTCTTGGATACAATACTGCTTCACGTATATTCTTTCTATTTGTTAAGACCATGATTAATCTATCAAATCCTAAACCTAATCCTGAATGTGGAGGCATTCCCCATTTAAATGTCTGTAAATGTGATTTAAAATTATCTAAATCTAAACCAGATTTTTTAATATTCTCTTCTAATTTATTTATTTCATGAATTCTAACTCCTCCAGAAACTAGCTCAACATTTGAAAATTGTAAATCAAAAGACATACTGAATTCTGAATTATCATAACTTGCAATGTAAAATGGTTTTATCTCATTTGGCCAATCCGTTATGAAATAAAATGATTTATGCTTTTCAGATAATACGACTAAATCATGTTCAGTAATGTCATCACCAAAGTCTTTTTTATTATCTAGACTATTCAAGTCATTTATCACATCTTCATATGTTATTCTATCAAATTTATTACGATGTACCTCTAGATTGGATTCAAGTAAGTTTAATTCTGTAGACATATCCGTATTAAGATTATTTATAACATATTTGATTAAATTCTCACATAAATCCATAGTTTCATTATTATCTTTATACGCCCATTCAAAATCTACACTAACAAATTCATTCAAATGCCTTGTTGTATTTGATTTTTCAGCTCGAAAATATTGAGAAATTTCAAATACTCTTTCAAATGCAAGCATTAATTGTTCTTTATATAATTGTGGACTTTGTGCTAAAAATCCTAATTTATCAAAATATTCAGTTTTAAATAATGTAGCACCACCTTCGGCACCTAATGATAGTATCTTTGGCGTGTTTATTTCAATAAAATTATTCTGAATGAAAAATTCTCTAATATACATTAAAGAATTATGTCTTATTTTAAATATTGATTGAATTTCAGGTTTTCTTAATGATAATGGCCTTGCATCCAATATTACATCTAATCCTGAATCAACTCTCCCTGTTGGGTCTAATGGAAGAGGATGTTCAGCTTGATTTAAAATAATTAATTCTTTAATAATTAATTCTACAATATTATTTTTTTTATTAAATACTAAATTACCACTTGCTTTTACAATACTTTGTCTTGATATGTTTCCAATTTTATTCCATAAATCTTCAGACACTTGATTTTTTTTTATAATTAATTGTAATTTCCCTGTATTATTTCTTAATGTTAAAAATATTAATGAACCAATTGACCTAGAATCTTCAATCCATCCAGATGTATCAACATCTTTTCCATAATTAGATTCATCAATCTTATCTAAATTTTCTAAATAATATTTATCCATAATCTGTTATCACCATGCACAATCTCTGAATTAAAGTTATATGTATAATTTGCATATTAATTATTACAATGGCAGGAAGTCCAATTCCGGAACCGTTAGGACAAATTGCAAAGGTCTTATTAATCATTGGTGGTCTCAACTGGGGACTTGCAATCGTTGACACTAATCTTGTAGGGATTATTGCCAATGCTACTGCTGATGTTGTAGGCACATTAGTTTACGCATTAGTTGGATTAAGCGCTATCATTAGTGTAGTAGATCTCGCAACAGGTTCGAAATAGGAATATTATATTATGAGCTGTTTAATTACAGCTCATTTTTATTTTATATAATCTCATTAAATTTTTTTAGATATATTGCTAATTCCATTAAGAATTCAGAATTCATAAATTGAAATCCAAATTTCTCATATACAATTTCTCCAGTTTTTCCCATTAGATAAGTTCCAATTATTGCTGAATCTAATGTATTCTGACCATTTGATAATTGTGTTGCAATAATTCCTGATAATATATCTCCTGTTCCTCCTTTTGTCATACAGGAATTACCTGATTTATTAAAAAATAATTTATTTCCATCAGATATATAATCGGTTTCACCTTTAACAACCATTAATAAATTTTTATTTTTAGAATATTTCAATATCTCTTCTTTAATATTTTCTTCATTATTGTTTAAACTATTATCTATTATTTTTTTAAATTCTCCTAAATGTGCAGTGATGATTATATTTTTGCCTGAAATATTATCTAATAATTTGTTATTTATTGCTCCTGCATCCAATATGATATTCACATCTCTTTTTTGTAATTCAGTAACTAGTTTAATCATTCCATTCATATTTTGATTAACTATTCCTGGACCTATTACAAATGTGTTAATTTCTTTTCTGAAATTTAATATTTTATTACATACACCAGGAGTAAATTTTGAATCAGGTAATGGATAAACAATTAAATCAGTTGAAATTGATCGAATTGGATTAACTATTATTTGAGGAACAAATAAATAAACTAAATCTGAACCTGATCTTAATGCTCCTAAAGCAGATAATGTTGGTGCACCATGATATAATCTACTTCCTCCAATAATTCCTATCACTCCATTTTCACCTTTATGCGACGATGATTTTCTGGGCATTGTCAAATTTTTTACATATTCTTCTGTAATGATCATCCTAAGTACAACTATATGCATAGAAGCAATAAAACTTTATATGCTGTTGCTTAATGATTGACTTGGGATGAGCAATAATAATATTGAAAATGACTTTAGAACTGGATATACTTTTGACGACGTATTATTAATTCCTCAAAGATCAACAATTTCATCACGAAAAGATACTAATTTACAATCAAATTTATCTAAAAACATTCGATTAAATATTCCTATTATTAGTGCAAATATGGATACTGTTACAGAATCCAGTATGGCAATAAAAATTGCTAGTCTAGGAGGTATTGGAATTATTCATCGTTTTATGACTATCGAGGAACAAATTAATGAAGTCTTAATGGTTAAACGTTCAGAAGGAATCATGATTGATCAACCTGTAACAATTGATCAGAATGGAAATGTAGGACAAGTAAAAGAATTGATGGCATTACATAAGATTGGAGGAATACTTGTAAAAGACACTTCTAATAAATTATTAGGAATTATTACTAAACGTGATTTATTCTTCGAATATGAAGATACAAAACCGGTTAAAGATGTTATGACTAAAGATTTGATTACTGCACCGGAAGGAACTAGTCTTGATGACGCAAAAACTATTTTTATAAATAATAAAATTGAAAAATTACCAATAGTTAATTCGTCTAATGAACTTGTCGGGTTAATTACTAGTAAAGATATTTACAAGAGAGATAAATTCCCTATATCTTCTAAAGATGATAAAGGAAGATTACTTGTAGGTGCAGCTATTGGTGTAAGAAATGAAGACATAGATCGAGCTATAAAACTTACTGAAGCTGGCGCTGACGCAATTGTTATAGATATTGCCCATGGTCATTCTGACCATACTATTAATATGATTTCGAAAATCAAGGATAAAATTGGAAAAGCAGACATAATTGTTGGTAATGTAGCTACTGCCGAAGGAACTAAAGATCTTATTGAAGCAGGAGCAGATTCAGTTAAAGTAGGTGTAGGTTCTGGATCAATTTGTATTACAAGAATTGTTACAGGCGCAGGAGTTCCTCAATTATCTGCAATTTTAGATTGTGTTGCAGTTGGAAATGAATATAAAATTCCAATTATAGCTGACGGCGGAATTAGAAATTCAGGCGATATTACTAAAGCACTTGCCGCAGGAGCCTCAACTGTTATGATTGGAAGTATGTTAGCAGGTACTGACGAAAGTCCAGGAGTGATAGTTTCAAGACCTAATGGCAGATATAAAATGACTCGTGGAATGGCATCATTAGGTGCTACAGTAGATCGTAGAATAAAGGAAACTAATTCAATGGACGAAGAAGAAATGTTAGAATATGTTCCAGAAGGTGTTGAAGCTTTGGTACAATATCGTGGACAAGCGAGTGAAGTTATTGGTAAATTGGTCGGTGGATTAAGATCAGGATTAAGTTATTGTAATTCAAAAAATATCGATGAATTACAAGCAAAAAGTAAATTCATTAGAATAACAGGTGCTGGAAAAGCTGAAAGCGGTGCTCACGATGTTCATATAGTGGATTGATTTGATAGATAAATTAGACAAAATAAAAGATATTGATGTTAATCAAATCGAAACATTTCCTGATTTATTACATGCAATGGGGAAAATGGGTGGATTTAATGCCAGTCTTACTAGTGACGGTTTTAAGATAATTCAAAATATGATTGATGATTCTCAATGTCTTAAATTTTTATCATTTCCTGCCGCTCTTGTTGCTACTGGAAATAGAGGTCTATTAAAAGAATTAATCAAACGGAAATATTTCGACGTTATTATTACAACTTGTGGAACTTTAGATCACGATCTTGCAAGAACATATAGAGATTATTATCAAGGAGATTTTGATTCTGAT
>sequence24
AGGAAAGCATATGCACCAATACCAATCATGGCAGGAGAAAGTAAAGCACTAATTGGAGTTGGTGATTCTGCATGTGCATATGGCAACCAAACATGAAGACCTGCAGCGGCAAGTTTCATAAGTAGACCAAAACTAATTGCAATTGCAACCCATATTCGTATTGAATTAGGTAATCCACTTTCAGCAATTTCTACAAAGTTAAAGCTTCCGCCAAAATATCCAACAGTTAGAATTCCAGCAAGTAAAGAAACTGCACCGACATGCGTCCATAAGAAATACATAACAGAAATTTTTGCTCTTTCACCATAACCAAATTCTGAGATTAAAAAGAATGATGGAATTAACATGAGTTCAAAGAAAATATAAAATTGAATTAAGTTAGTAGCGAGTACTGTACCCAACATACCTGCAGCATAGATTACATATAGGCTATAATAGAGAGCCATTTTTCGGTTTAAGGCATCTACAGAAAATCTCTTTTTAGTTTCATGAAGTTCTTCTTTAACTCGATGTTCCATGTATGGCATAGAGTAAACTGCTAAAGTAGTTGACAAAATCATTATAATTGCAGCAAACGGAAAACTTAATCCATCAAGATAAAGTCCAAAATTTCCTACAGGATTCCAGGAATATGTTTCTAGTCGGGTATTAGTAAATAATGAGCCATTATTTTCCATTCCAGAATAAAGCACTAAACCAGTACTATAAAGCATAATTAGGAATGCAAGCCAGCCAACATTTTTACCCATACGTAAACCAATGAAATAAACGACTGGAGCAAGGATTATCGGTAGAAAAACAGATTGTAGTAATAACAAACTCAAATCAACCTCGTAATTTCTTCAATTCCAGAACGTCAATGTCATTATTGAGTCTAAAAGCTTGAACAATAATTGCCAAGCCAACGGCAGCTTCAGTTGCAGCTAATGCAATAGCAAATATAGAAAAGGTTTGGCCAGTGATTAATGGAATATCATGATATCTTGCAAATGCAACAAAATTAATTATAGCTGCATTAATAATAATTTCAACTGAAAAGAGTAAACGTATAGCATTTCTTTTTGCAATTAAACCATAAATACCTACACACAACAATGCCAGTGATACAATAAAATAATTAATTAGAGGTTCCAATAAATCACCGATTTTCAAATTTTGCCATAGTAAGTGCACCGACAATTGATACAGCTAGAGCCAATCCAGTCAATTGTAGAATTATCCAATAGTCATTGATTAGTTGTGATCCAATTTCGGAAAAATTAAAAATTACTGATGGGTTAGAATATTGATCGGTAAGAGAAGTTGAAAAAGAAAAATAGGTCATTATAGAAAATAGTAAAACAGCAGCAATAATTCCGAGTATTCTTTCGTTACCTCCTTTAATACTAGTCCATTTATCTCTTCGAACAAGCATGATAACGAAAACAATTAGAATTGCAATTGAACCAACATAAACAAGAACCTGAAATATAGCAATAAAAATAGAATCAAGAAGAATGAAAAGTGCAGCAGCACCTAAAAAAGAAAGAGATAAAGCAACGGCACCGTAAACAAGTTCTCGTGCTTCAATAGCTAATATAGCAAATACAACAGTAAGTAATGATACTGTAAGAAAAACAACATCAGTCATGATGAGCTCCTCCATCATCAGGAATTAATTGTACATCTCCTTTCTTTTCAGGGAAGACAGCTAATTGGAATGGTGTGTGAACTAGTTTTCTTTTATCAGTAGCAGATAGTTCATATTCAGGAGTCATAAACAAGCAGTCGAAAGGACAAGCATCAACACAGAACCCACAAAATACACATCGACCATAATCTATTTGCGGCATAATATTTTTGGGATTGGTAGGCCAACTTCCTTCAACCTGTACCATATCAATACAATCAGCAATATTTTCACAGGCAATAGCACAAAGAGAACATCCTGTACATTTGTCAGTATAAAGAATGTGTCTGCCTTTAAATCCAGCACTGCCAGTATTGGATTTTGCGTCAAAAGTATATCCTGATTCGATATCAAGTTTCTGTTCAGGATACCTCAATGTCATACGGCGTTTGAATATATTTCTCAAACCAACAGCAAAGGCGCCCAATATACCGGTAATAAGTTTGATGTTCATTAGATTACTCCTAGTGATGATTCAATTACTGCTATAAACAGATTAATAAATGATAATGCAATTAGCCAAGCCCATCCAATTCTGATCAATTGATCAATACGTAAACGAGGAAGAACGGCTCGTGGGAAAATAATCAGTGTAATTACGAAAAATAATTTTAATAGTAACCAAGCAATTGGTGGAAGAAAAGCAGGACCATTCCAGCCTCCTAAGAATAATAATGTAAACAACAAAGCAAGAACATAAAATTTTACATAAACACCGAGTTGTAATAAACCAAAGTGCATTCCAGTATATTCAGTTAACCACCCAGAAACGATTTCAGTTTCTGCCTCGGGTAGGTCAAAAGGTATTCTTTCTAATTCGGAAAGGATTGTAATATAAAATATAATAGCTGCAAGAAATTGTGGGAAGATAAACCAGATATCTTTTTGAGCTTCAACAATTTTCATTAAATCGAAAGAACCAGTTAAGATTACAATTCCAAGTATGGAAAGAAGCATAGGAATTTCATAAGCAGCAAGTTGATGTAGTGCCCGTAATCCACCAATGAATGCAAATTTATTACTGCTAGCCCATGCAGCAATAAGAACGACCAAGGGACTGAATCCAATGATGGCAAATGGTATTAATAGACTGAATTCAGAACGTGCAATGTAAGTAGTAGGGGATAAAGGAATAACCGTTAATAATGCTGCTCCGAGTCCTAAGCTTAGAATCGGAGCTGCCCAGAAAAATGTTTTATCGGCTTTTTCAGGGACAACTAGTTCTTTACCAAGTAATTTGAACAAGTCTGCAATAGGTTGGAGAACTCCTTCGAAGCGTCCTGCATATAGTGGACCGACACGAAGTTGTGCTTTGGCCATAAGTTTACGTTCGTAAAGAATTGTAAGGGTTGCAACTAAGGCAGCAAAAGTAAATCCAGGAAAAGCAGCGACTTTAAAGAAAGTAGAAGAGGGTCCTATTCCATACTTGTCAGCAAGTTTGATAGCTTTTAGGGGATCAATTGTAGCAGTAAGAATTTCGTTAACTGTAGTTACATCAATTCCTAAAATTGGAACAACTAGGAATAATACAGGAAATATAACTAGAGGAGATAGAAGAAGGAACCAAAATAATATTGTAAGGATACGTTTAACAAACTCTTCAAATGTTTCCAATTATTTCACCTATCTGCTTCTACCGGCCAGTAATCAAGACTCCAATATATAGCAGGCATATCTGCTAGTCTTGAACCAACTAATAAATGAGTCATACCAATTAGATTTCTAAATGAAGGAACACTAATTTTTACCCGGTATGGATTTTTTTCACCATCACTGACAATATGATAGAACATTGTTCCTCTGGCAGCTTCAGTACGTACAAATGCCTCACCAGGTTCTCCGCGCATTACGCCACCAATTACTTGTTTGATTGGTCCTGGTTCCATAATATCAAGAACTTGTTTCATAATGTTCATACTTTGTTGAAGTTCTTCTAATCGGACAATACATCGTGCATATGAATCTCCTTCTTTACGTGTTGGAATTTCAAAATCAACGCGATCATAAAGACAATAGGGTTCGTCTTTTCGAGTATCAGAATCTATTCCACAAGCACGAAGATTAGAACCAGTTATACCAAGTCTAATTGCATCTTTTTTTTCTAAGATACCAATGCCTTCGGTTCTTGCAGCCATAAGAGGATTATTAAAGAATATTTTTTTGTATTCTTCTATACGTTTTTCGAAATAATCAAATGTTTTCAATGCGCGCTCTTTGAAATTACTAGGCATGTCGTTTCTTACTCCGCCAGGAACTACATAGGAGAAGGTTACACGAGTTCCACCAATTGATTCAGCCAAATCAATAAAGAGTTCTCTATCGCCCATAGGCCACATAAACATTGTAGAATGACCAAGAAATATACCATATATTCCAAGCCAGTACAAATGAGAAATAATACGGTTTAATTCAGCCATAATCATTCGAATATATTGAGCGCGTTCAGGAGCTTCCACATCAATAATGCGTTCAGCAGTGAGAACATATGGAAGGGTTACACCAGTTGCATCGATTATAACTGGACGTTCTAAATGAGGAATGTTTTGAATATAATCTCGGTATTCTGCCATTTTTTCGGCTCCTCGATGAACATAACCAGGATCAGGTTTAGCTCCGACAATGTAATCACCGTCAACAGTAACAACTATACGAAAGTGGCCAGAACCAGGATGTTGTGGACCAACATGGAGAACTAATTTATCTCCACCTTTATCTTCAATATTCATAGCTGCGTTTTGCATATCATCCTCTTCCAGGTAAAATATAGTCTTTTCTCAATGGGGGGATGTCATCCCAGTCTTCAGGGAGAAGTAATCTTTCTTTTCTAGGATGTCCAATAAATGTGATTCCGAAATTTTCATAGGTTTCTTGTTCATGAAATTCTGCACTAGGAAATATTTCAATTAGAGTATCGATTTCAGGTTTATCCTTTGAGATCTCAGTCATTATAGAGAACATAATGCGACGGAGTTTTTTCTTGGAAACGCAAATTAGATGATATTCTAAACGAAAGACGTTATTGTCAGGATAGTCAGTACCACCTTGAGAGATAACTTGTTCAAAACCCAAGTTTTTGACTGCAATTGCAAGGTTTTTGAAATTGTCTTGACTTGTAGATACCTTTATGCGATTAGTTATTACGTATTCGGTTTTGATTTTATTTTTGAATTGATCAGTTAAGCTTGTGACAAGCTGATTTTCAGTATCGAGTTTAGCAGGCATTGAGTATGTATATTACACCTTGGATTTCCTTATTTTATTTTGCAGTTCAATAATTCCTTGAATGAGTGTTTCTGGTCTAGGAGGACAACCTGGAATGTAAACATCCACAGGTACAATTTTATCAACTCCTTGGAGGACGTTATATGAATCCATGTATAAACCACCAGAAATTGCACATGCGCCCATTGCAATTACCCATTTAGGTTCTGGCATTTGTTCATAAACCCATTTCATCCTAGGTGCCATTTTTCGAGTTACTGTGCCTTGAACAACTAAGACATCGCATTGTCTTAGTGAACCAAAGGCTTCTAACATTCCAAATCGTTCAACGTCGTGTCTTGGGCCCGATGCTGCACCGAATTCAATACTGCAACAAGCTGTTTCTAAGTGAACAGGCCATAAAGAGTATAATCTACCCCAATTAACAAGAAATCTAATTGGTTCCCGTACATTTTTTTCAATAGTGTTATCAAGTATATCACTGGCTTTACCAACAAGAAGATTTAGAGTAGGATCGTTTACCAATTTTCTCTCCTTCCTGCTAAATGTAATGCATAAACCATAGGACAAAGTATGACAGCAAGAAATGGTAAAAGAGTAATTAGACTTTGAATACCAAGATTTGAAAAAGACAATCCCCATGCAAATAGAAACATTACAGTGACATCAAAAATAACAAACATAATCAAATAAGAATAATATTGCATAATTAAATGTATACGGGATTCACCGGTTGGTGGTTGCCCAGCCTCAAATGTTTGTAATTTAATAGGATTGCGTTTTTTAGGGGCAAATAAAGAAGGAATAATTAGAGTAGGTAAGCTAAACACAACTCCGGCAAGAGCCATGACCAAAATCATTGCAAACTCAGATGAAACCATATTAGATTACACGGGATAAATGCAGTTTAAATTTATTTAAAGTTTGAGTCGAACCGGAATAATTGGAAAGCATATGTTAAGTTTGTTGTAAAGTCTTAATATTGTTTTATGATTCTATGATTTTTTCAAAAAATTGAATGATCCGGACTCAACTTGCACGCCAAGTATGTTCACATTTAGCGCATCGGAAGAATTGAGTAGATGCTTCTTCTAAGCTACTGGTTTGTTTTTCCCAGAAATATGCTGAATCATGACCACATTTGGAACAAGTGGCCTTGGTAGTAGGCATAGATTGGAGTTTTTGTGTTTTGCTATCAACAACCTTAATATTAGTTTTGTCTTCAATTTTAGTCTCTTTGACAGTAACACGTCGTGATTTTTCTTGATAACCACAAGAAGAGCAAACAATAATAGATTTAGGTTTTGTGTTAGAATTAGATTCGTCTAATATTTTCTTAGGCCTCATTTTTGAACTACACTCAGGACAGAATTTCACTACATAAACACCAAAATATTGAATATTATTTAATAAATGATTATATAAAATTTTCTGTTAAAATTATATATGGAGATAATTTTGAGAGTTCTTCTATGCGTTTTATACCCCCATTGGAAGCAATAGAGAGATTACGCCTATATTGTAATTCAATAAGTGAAGTGCTATTTAACTGACGAAGAATTTTACTAGTAAGTCTTCTACCCTCTGCGTCATAATCGAATAAAATTATAATTTTATCATAGTCATATGATTTAATTTCTATTTTGGATAAGGTATTGTTATTACAATATTCTATTGTTTTACCTATAAACCCAAGGGATAATAATGCACGAGTGTCCTTTTTTCCTTCTACAAGCACAATTGCTCCGTTTTCACATTCAAAGTTAAGTTGATTAATAAAATCTAAAAGAAATTTATTGAATTCAATATTTGTTTGAAGAATATTCATCATACATATTATAACAAAATTGATATATTAAGTCAAATATTAGATGTGTTTTTTGATTTATATTTTTCAATAAGTGGAATAAATAATACTGGAACAAGAGTACCAATTGCAATTCCAAGAACCATATGGTTTAGAGTAGGATCAAGAAACGCGCCTAAACCATTTGAAACTACATGAGAAAGACCAGCTCCGATAAGACCGCCAATTACTCCTTTAGAATTTTTTTTAAGAAAATCTCTAAGTTTCCTAGCGAATTTGTAGTCATGAGTTAAACGATGAAGTCTATATTCAACGGTTACGCCAAAATATGCTCCAAGAATTAGAATAAAATTATCAAAGAAACCAAAGATGAAACCATCCGGAAGTATCATATTAATACATATGTTTTTCAGATATATTATTGTTGTTAATTAACAGTGTTAAGTATAAAGATTATTTTCTAATTTTTTCAATTATGGGAATTAAGAATAACGGAAGAATTGTTCCGATAACGATTCCAACAAACATGTCATTCATATTTGGATCAATAAGTGCACCTATGCCGTCTGAAATAGAATTAGCTAAGCCTGCTCCGACAACTCCGCCGAGTACTCCACTTGCTTTTTGATCAATGTATTTCTCAATATTTATCCCAGTATAAGCGCCAATTAAAAGAATAAAATTATCAAAGAAACCAAAGATGAATCCTGCAGGTAGAAAATCAAGAAATTCCCAAAGAACATTGAGTTCTGATACCATATCAAAGACCTAATCCTAATAATTCTTTAGCTATAATCATGCGTTGAATATCATTAGTTCCTTCGTATATCTCAGCAATAAATGAGTCCCTGAAGCCTCTTTCAAGCTCTGAACCAGTAGTAATACCAGTCAAGCCCTGTATTTCTATGGCAGTGGTTATTGCACGAGATGCAACTTCAGAAACATATGCTTTGGAGATTGCAGAACCACGGGATACACGATCTCGTAATTGTCTTGGAACTTTTTCTTTTGACTCAATAACTTCATAATATTTTTCCAGTTCAACCAGATTATTATAACACATAAATTTGGATGCATATACTTCCATAGCTACATCAGCTAATTTCCACTGAATTGATTGTCGATTTGATAAATTTCCTCCTTCGCCTTGGTTTTGTCGAAGGTAATCAACAGACAAATCGAGTGCTCGCTGTGCAGCACCCAGGGAGCCAACAGCAAGTGTAATACGTCCTCCGTCCAGAGTAGATAAGGCAATCATAAAACCTGCACCTATATCGCCAAGAATATTCTCCTTTGGTACTTTACAGTTTTCAAATATCAATTCAATAGTGGACGATGCTCTCAATCCGAGTTTCTTTTCCTTTTTTCCAACTGAGAACCCAGGCATATTTTTTTCTACAATAAATGCAGTAATTCCTCCCATAGGTCCGAGTGATTTATCATTAGACGCAAAAACAATAATGTAATCAGCTTTATCTCCATTCGTACAAAAGATTTTAGTTCCGTTAAGAACGAAGTCATCTCCATCAGCAGTTGCAGTAGTTTGGAGGTTAGCGGCATCACTACCGGCTCCAGGTTCTGTTAATGCAAAAGCTCCAATAGATTTACCAGAAGCAAGAGTGGGTAAAAATTTATTTTTTTGTTTTTCTGTACCAAAGAGAATAATAGGTGTAACACAAAGACCAAGATGTGCTCCAAGGATTGTACCATGAGATGCACAAATTGCGCCAAGCTCTTCAAGAAGTATACCATATTCAATCTTTGATAATCCCTTTCCTCCGAATTTCTCTGGAACAGTTAAACCGAAATATCCTTGTTCAGACATTTTTTCTATGTTTTCAAGTGGGAGCTCTTCAATCTTGTCATAATTAGCGACAGTAGGCATAATTTCATTATGGATAAATTCGCGTACATCGCGACGAAATTTCTCTTGTTCTTCTGTGAAAGAAAATTCGAATGGCATTGATAAT
>sequence25
AGCAAAGGCAAAACCTAAGGCAACTACAAAACCTAAAGCAAAGGCAAAACCTAAGGCAACTACAAAATCTATACCTGATAAATCTGAAAATGTTCTTAAATCTAAATCTGATTATCTAACCCTACGTTCACAAATAAATAAAAAAAGACCTGCTTTTCGTGCACAAGAATCTTGGCGATATAAAAGAATCGATTCTAGATGGCGAAAACCTAAAGGTTTTGACAGTTTCATGAGAATCCAAAAGAAAAGTTGGCCTGCAATCGTTAAGATTGGTTACAGAGGTCCAAAAGCTGTTCGTGGATTACATCCATCTGGATATAATGATGTCTTAATATACAATATTGACGGTCTAAAGAATCTTGATCCATCTATTGACGCCATTCGATTATCATCAAAAATTGGAAAAAGATATAGATTATTAATCATTAATGAAGCAGATAAACTTGGTTTTAAAATATTGAATAAAGGGAATCTAAATCGGAGTAAATAAAAATGACTAATCTAAAAACTAAGAAAAAACTTGCAGCACGCGTATTTGGTATTGGTCAGAATCGTTTAAAACTTGATGCATCACAAGCTGAAAAGTTAGACGACGCAATTACTCGTGGTAGTATTCGAAGTCTTAAGAAAGATAATGTTGTTACACTTCCTAAAAAACAAGGAGTATCTCGTGGACGTCATAGACGACAAAAAAGAAAATTAAAACGTGGACGAACTCAAGGATCAAAAGAAGGAGCTAAATATTCTCGTTTATCTAAAAAAAATCGCTGGATGATAAAAGTACGTGCTCAACGAAAACGATTAAAAATTTCTAAAGACCGTAAAGAAATCTCTAATTCATCATTTTGGACATTATACAAGATGTCAAGTTCAGGCGGTATACGTTCTGTTAAACATCTTAATGAATTAATTGCGGAACATAAAGGTGAAAATTAGTTATTATGACACGCAATACTCATGTTCCTATATTCAAACGCCGTCGAACAGGACAAACTGATTATTCAAAACGTAAATCTATGATTACTTCACGATCTACAATTCTTTCTATTCGAATTAGTAATAAACACTCGATATTTCAATTTATTGAACCCAAAATTATTGGTGATTCTATAAGAAGTTCTAGTCATTCTAAACAAATTATTAAACTTGGTTGGACCGGTTCTGGTAAAAGTCTTCATGGATTATATCTTACTGGATATCTTGCTGGTAAAAAAGCAAAATCTACAGGCTTAGATAAAGCTATTCTATATATTGGAAGAAGAGAATTTCATTCAGGTTCAAAAATAATATATGCATTAAAAGGTGTTATTGATGCCGGTATTGAAATTCCTGTTAACAACGAAATTTTCCCTGACGACGAAAAATTCAAAACTGATAATACAGAAAAAATAATTACTGAAATAAATTCTAAATATGGTTGATAATTATGAGTGAACAAAACGTAAAAAATAACGATAAAAATAATAAAGAAGTTAATTCTAATACACAATCCAATAATGATTCCCGTGGAAATCGTGACCGTAGAAATGACCGTAGAAATGACCGTCACCGTAGAGAACGTAGACCTGAACCTGAAGTAATATGGACTCCTCGTACTCGTTTAGGCACACTTGTACAATCTGGTTCTGTTCAATCTCTCGATACAATCTTTCAAAACGGATGGAAAATTAAAGAATATGAAATAGTTAACAAATTACTTCCTGATGTCAAATCCTTTGTTGTTCATGTCGGTGTCGTACAAAAACAAACTGACGCAGGAGAATCTACACGATTTAAATCTGTTGTCGCAGTAGGCGATGAAAATGGTTGGTTTGGTATTGGAACTGGTAAAAAACCACAAATGAAAAATGCTATAGACAGTGCAACTCAAAATGCTTTACTTAATATAATTCCTGTTAAACTAGGTTGTGGAAGCTGGGAATGTCGATGTGGAACCAATCATTCAATTCCTCACCGAACTGTTGGTAAGGGTGGAAGTGTTAAAATTGAATTAATTCCTGGTCCCAAAGGACTTGGTTTAGTTGCAGGAGAAACTATTCGTAATTTACTTGCATTGGCTGGCGTAAAAGATGTATGGTCTAAAAGTTTTGGCTCGACTAGTACTATGCCTTCAGTAGCAAATGCAGTTTATGATTCAATTCGACAACTTCATGGTATGAGTCTACAGTGATTTATGATGTCGGCATTAATAGTTGTTAATCTTCGTGGCACAATAAACCAAAGAAGTACTGTAAAGACTACTCTTGAACATTTACATCTTGGATCTCGTTATCGAGCTACTATAATTCCTGATAATCCAATCTCTAAAGGAATGTTACAAACTGTGAAAAATCATGTCGCTTGGATGGATGCTGATTCTTCTATAATTGAATCCTTAATAACAAATCGTGGCGAAAAATCTAATTCAATCAAATACGACGAAGATCTTGCAAAAAAAGATGGTTATGATAATATTTCTGATCTTGCTAAAGCATTGTGCGACGATAAAATTAATTTATCATCTTTATCCAATCTTAAACCTTCATTTCGTTTATCTCCACCTAAAGGTGGTTTCCGAAAGTCTACAAGAAGAATGCATTCTCAAGGAGGTACATTAGGTTATAATCCAGATTTATCTAAATTAATTTCAAATATGATATAAGGTGATATAGATGGGAACAAGAAATAGAAAAATTAGAAAACTACGTGGCTCAAGGTCACATGGCTGGGGCCAGGTTAAAGGTCATAGATCACATCCTGGAGGAAGAGGAAATGCAGGATTAATGAAATATAAATGGAGTTGGACTGTAAAATATGATCCTGACCACTTTAGAAAACCTTCTCTAAATCCACCTAATCGTAAAATTGTAAAGAAATGGATTAATGTAGGAGATTTAGATGGTTTATTTTTACATTCTCAAACTAATACTCCTATCGACTTAGAAAAACTTGGATATGAAAAGTTACTTGGATCTGGTTCAGTAAAGGGTTCTTATGAATTATTTGTTACATCTTTTACTAAACAAGCCCAATCAAAAATTGAAAAAGCTGGCGGAAAAATTTCACCGAGGTCTTAATAATGGGATTAACTACTGACTTTGTTCGCCAAGTTGCATCAATACTTCCAGAAGTAGCTAAACCTAAAATTAAACCCTCACTTACAAATAGATTACTTTGGACTGCAGTTGCTGTTACAACTTATCTTGTAATGGCTCAAATACCATTATATGGTGTTGCATCTGGTGCACAAGATCAAATGTCATATACTGCAATTATCTTTGCTTCATCCCAAGGTACTTTAATGACTCTTGGAATCGGCCCTATTGTTACAGCTGGTTTAATATTACAATTACTAAAAGGCGCTGAAATAATTAAATTAGATTTCAAAAAACCTGACGATCGTGCTTTGTTTTCTGCAGGTACTAAAATTCTTGCACTTATTGTAACATTTGCAGAAGCTGTAGCTTTTATGGTTGGTGGTTCATTTGGACAAAATCTACCTTTTCCTACTGCTGCAACAATTATTGTTCAAATCATGTTTGGTGGCCTTATTGTAATTCTTTTAGATGAATTAATTCAAAAAGGCTGGGGACTTGGAAGTGGTATAAGTCTATTTATTGCCGCTGGTGTTTCTCAACAAATATTTTGGAGTGTATTTGCATTAATTCCTGCTGGATCTAGTTACTTTGGCATTATTCCTCATACTATCTCTACACTTATTTCTAGTTCTCCTGAAAGTATATTTATACGTCCTAGCGGTCTTCCTGATTTCCTTACTTTATTGCTAACTATTACGGTAATTGGATTAATTGTATATGCTGAAGGTATAAGGATTGAAATACCGATAACTTCTACTAAATATCGAGGTTTTCAAGGAACTTACCCTATAAAATTATTATATGTCTCCGTTTTACCCGTTATTCTTACAGGGGCATTATTAGCTAATGTTACATTCTTTGCTCAAATTGTATGGTCTAGATTTAATGCCACTAATAGTAATGCAATATTGAATTTGTTTGCCCAGTTTAACGTTGCAGATCCTAGTTTAGGTCCTATTGGAGGCTTTGCATATTTTGTTACTCCACCTCGTGGTATTGAAGTATTATCTGTTGAACCATTGCGAGCAATATCTTATGTTTTCTTTTATGTTGTAATGTGTACTATTTTTGCTCGTGTTTGGGTAGAAATTGGTGGCCTTGGATCAAAAGCTGTAGCTGGCAAATTACTTGGAGCAAATGTTCAAGTTCCAGGATTCCGTCGTTCAGAAGGATCTCTTGAAGTACTTCTTGATCGATATATTCCAGTTATTACTATTATTGGAGGAATACTTATGGGGTTATTAGCTTCTGTATCAGATATTTTAGGTGTATTTGGAGGAGGAACTGGTATATTGCTTATGGTAAGTATCTTCATTAATTATTATCAATTACTTATGAAAGAAAGATTAGAAACAATGATGCCTGGATTAGCTAGTTTCCTCGGTAAGGATTAATTCTTCATGACAAATACTAAACGTGTTGTAATTGTTGGAATTGCAGGTGTTGGAAAATCAACAGTAGTTAATGAAGTATTATCTCTTCTTGAAAAGAAAGATGCCAAAGTTGAAAACCTTACATTTGGAACAGTTATGTTTGAAGAAGCTCAAAAACTTGGAATTTCTGATCGTGATGAAATGAGAACTTTATCTACTGACAAACAACAAGAACTTCAAATTAATGCAGCAAAATCTATTGCAAATATTAATTCTGACGTAGTAATTATTGATACTCATTTATTTATTAAAACTAATTCTGGATACATGCCTGGATTACCTATTCCTATCTTGGAATCACTTATTCCAACTAATCTTATTCTAATTGAAGCACTGCCCCAAGATGTACTTGATCGACGTTCTAATGATCCTACACGTAACAGAGATACAACTACTATTGAATCTATTGAACTTGATAATCAAATTGCAAGAAGTATGCTATCTTCTGCCGGTATACTTACTGGTGCTTCATTATTAGTAGTCCTTAATTCAGACGGTAAATCTCACGAAGCTGCGGAATCAATTGTTAATTCCTTAGGTTTAGATTAGAGTTTTCTTTTATGAAAGGAATCATTTTATCAGGGATGCCTGCTGTTGGTAAAACTACTATAGCACATTCACTTTGTAAAGAATTTAATATTAAATATTATTCGGGAGGAGACATGCTTAAAGAAATTGCCAAAGAAAAAGGATTTGAAATTTCTGGACTTGATTGGTGGGATAATGAAAACGGAATGAAATTTCTATCTAATCGTATGCAAGATTCCTCATTTGACAAACTCGTAGACCAACGTTTAATTAATCTATTAAATCAAGGTAATGTTGTAATTACTAGTTATACTCTTCCTTGGTTAACTTCTAATGGAATCTCTGTTTGGTTAGAGGCATCAAAAGAAAATCGATCTCTTAGATTGGGTTCACGTGATTCAGTCTCACTTGAGGAATCAATTCAAGTAGTCAATGAACGTGATATAAAAAACCAACAAATATATGAGAAATTATATAGTATGAAATTAGGAACTGATCTATCTGTTTTTGATATAATTATTGATACAAACGATATGAATATTAGTCAAGTCTGTAAATCTGTTATTAATTCGATAAATGAATCACTCTAAAACAAATAATAACGAACAAATCATTCTGGACGAAGAACCTGATATTCTTGATTCTGGTTCCTATCCAGATAAACGATCAATCGAAGATTTAATTGATAATTGTATTATCTTTATTGACAAACAATCTGGTCCTACTAGTCATCAAGTTGTATCGTGGGTTAAATCAATGTTAAATTATAACAAAGCAGGTCATAGTGGAACATTAGATCCTATGGTCACTGGATTACTACCTATTAGTCTTGGTAATGCAACAAAAGCTTTACCTATTTTATTATATGGACCTAAAGAATATGTTGCAGTTATTCGTTTACATAACAGTGTAAACCAGACTAAACTTTATGATTGTATAAATAAATTTAAAGGACCAATTTATCAAAGACCTCCACAACGTTCCGCAGTAAAACGACAAACTCGTATTAGGAATATTTATGATATTTCTATTCTTGATGATACTAGTCGACTTTTATGTTTGCGTGTACTTTGTGAAGCAGGAACATATATTCGTAAATTAATTTACGATATTGGCGAAATAATGGAATGTGGCGCTACTATGGTTGAGTTACGACGTACTCGTGTTATGCATATTGAAGGAGAGAATAATTTCGTACGACTGCATGAATTAAGTGATGCTATTTATAGACTTCAACACGAAAATGATGAAACTCGTTTTCGAGAATTAGTTCATCCAGTTGAATTTATTACTAAGCCCTTAAAATCAATTACTGTTAGATGTTCTGCTATTGATTCTCTCTGTCATGGAGCCCAGCTTGCGATTCCTGGTATACTCAAACTTTCTAAAGAGATCTCTTTAAACGAAAATATTTCCATATTATCACAAAAAGGTGAATTAATCGCTCTTGCTGAATCTCTTATGAGCAGTGATGATATTACAAAAAATAAAAAAGGAATTGCTTGTAAAACTAAAAGAGTCATCATGAAAACTGGTACTTATCCTAAACTCTGGACAAAAAACAACATTCAAGATTGATTTATTCATAAAAGATTTTATCTTGTAAAGTATTTGTTCGAATTATAGCCGGGGTAGTCTAGATCAAAGGACAATCTGGTAAGGCGCAAGCCTGGAATATATTTCAGTAAGCTTGTGACTCGCAAGGGTCTCGTGGGTTCAAATCCCACTCCCGGCGTTTACATCTTTGTAATTTTTACAATATCAGATTCTAAATCTTTATTTAATTTATTAGGAGCTTCTTTTAATTCAACTATTTCTGCTTCATTATCTTTCCCCCAAATTATTTGTAATATTTGTAATTCTGTTATTTTGTTTGTTGAATCTAATGCAATTGATATATTATATGCAGTAGATTCTTCACTTGTATACATTTTTGTAAGCTTCTTTTTCTTATCCACGTAAATTAACTCATAACCTATTAATGACGCTTCTAAAAGATTAACTAATTTTCCTTTATACATCTACATTATTCTAATTATTTCTGTTATTTGTAGTTATTATATTGCTTTACTTGGTTATCCTTTTGAATATATATTCGTTCATTGTCGAAAAAATCAAAAACGTTAAAAACCATTCTTGTAAAAGCCGGTTTTACTGATTAGTTGATATGACTCACATGATACAGTGTATTACAAAAGAAGGCGAAATACTCAAAGATGTTAGTATTGATCTTTCTGAAGCAGAATTAATTAAAGCATATCAAACTATGATTCTTACACGTACTCTTGATACAAAAATGGTTGCTTTACAGAGACAAGGACGTATAGGTTTCTATTTACCATCGTATGGAGAAGAAGCCTGTTCAGTTGGTAGTGCATTAGGTGTTTCTAATAATGATTGGTTCTTTCCAGCTTATAGAGAACAAGGTGCAATGCTTCTAAAAGGCGTTACATTAAATTTCATCATATCACATTTACGTGGAAGTGCAGACGACGAACATAAAGGGAGATCTCTTCCAGGTCTCTTTGGTTGTAGTTCTAAAAGATTTGTTCCCCCATCTGCTCCTGTAGGTACACAGATCTCTCATGCTGTCGGTACTGCTTTTGCTTCAAAACTTCTTGATGATAAAGTTGCCACTATTGTTTATTTCGGTGACGGTGCAACATCATCAAATGATTTTCATTCAGGTCTTAATTTTGCAGGTGTTTATAAAACCCCTACAGTTTTCTTCTGTAAAAATAACCAATGGGCTATCTCTACAAATATCTCAGATCAGACTGCTTCAGACGGAATTGCAATTAAAGCAAAAGCATATGGATTTGACGGTGTTGTTGTTGATGGTAATGATATTTTAGCAGTTTATATGGCTACCAAATCTGCTATGGAAAAAGCTCGTGCAGGAAAAGGTCCTACTCTTATTGAAGCTAAAACCTATAGACTTTCATCACATTCTACTTCCGACGACGGTGCTAGATATCAAGATCAAGACGAATATAAAAACTGGTTATCACAAGATCCAATTGCTCGATTCCGCAAGTATCTTGAAAATTCTGGTATTTGGAATCGTGATCTTGAACAAGAAATCCAACAAAAAACCGAGAGACAAATTACTGAAGCAATCACTCAAGCTGAATCTTCTCCTATGCCTAGTCTAGATACCTTAATTACTGATGTGTATTCAGAAATTCCTGATTCTTTAAAGGCAGATTTTCAATCTCTTAAAGATTCTAAACTTTAGATTATCTATCTATAACTCGATTTTTAATAATCAAACCTATTATAATCAATGAAATTGCTATTCCAATAATAAATGAAGAATCTTGTAGGATTGATTTATTTGCTACTAATATTCTAAATTGTGTATCTATTTTTGCCACCTTTCCTTCTTCTAATACCTCAATTTTTACATCATATATTCCATCATTTCCAATATTATATTTTATTGAAAAGTCTCCTTCAATAATATCATTATTTGGCACACTTACTCTATCTAATATTGTTCCACTATTATCGAAAAATATTATTTCTACTTGGGTTAAATTCACTAGTCCTATATCTGTAAACGCATCCTGTATACTAAAACTCAA
>sequence26
ACAACATATGGTTCCAGATCAGATAAATTAATTTCAATAACTTGATCAAAATATTTTTCAGGATTTTTTTCAATATCTCGATCTGCACAAAGTAATTCTGAGTATTGTTCTGCAATATTGGCAATATTTTGACGATTAGTAATTTTCATGTATTTTGCCATAGAATCATCAAATGGAAACAAGGAAGAAGTAGCACCAAGTTCAGCTCCCATATTTGTTATAGTAGCTTTACCAGTACAACTAATTGATTTGGTTCCAGATCCAAAATATTCAATTATAGAATTTGTTCCGCCAGAAACAGTAAGAATTGAAGTCAAATATAAAATTACATCTTTTGCTGAACACCAACCATTGAGTGCGCCTTTAAGATGTACGCCAATACGTTTTGGCAATAGAACTTCCCAATCAAAACCGGCCATAACTTCAGATGCATCTATTCCACCTACCCCAATTGCAAGCATTCCTAAACCTCCTGCATTAGGAGTATGTGAATCAGTTCCAATCATAAGGCCACCAGGAAATGCATAATTTTCAAGTAAGACTTGATGAATTATACCCGCGCCAGGTTTCCAGAAACCAATTCCATATTTACGACAAGATGATTCAAGGAATTTGTAAATTTCATTATTTTCGTAAATTGAGATCTTTGTATCTTCAGATGCAGAGGTACGAGCTTGAATAAGATGGTCACAGTGAACAGTAGTAGGAATAGATACTTCGTTAAGTCCAGATTGCATAAATTGTAAGATAACCATTTGTCCAGTAACATCTTGTAAAGCTACACGATCAGGATTAAGAAAGATATAATCTTTACCAGAAGTATACGATTGGATTGAATCAGGATTCATATGGCCATAAATAATTTTTTCAGACAGAGTTAATGGAGAAGAACTGATAGAACGTAATTTCTCAATATTGGCATTCATTTTATCATAAATGGCTTGGATTTGATCGGAATCGAAATATTCTTGCATTATCTACACTAAAAAGAGGTAGTAATTTCTTTCTAATAATAATTCTGCATTATTAAATACTCGTAAAAGTTAAATGAGTATAATTAGTTAATATTCTACATGTCTATTACCGAATATTTCAACTGGCAATCTTCTCTATTAATTCTACTTTTCATATTAACAATAATGATGATTTTTGTATATGAATATCAAGTCAATAAATCAAAGATTCCAAGTAAACAATAATTTTGTTAAATAATAAGACTAGAACCAACAAGAAATACTGACGGATATTGATTTATGCAATGTTAGGGTTTATTTAATTCTATTATGTCAAGTCAAGAATTTGAGAAATCTGTAGAAGAAAAATATAACAAAATTGGATTTAATAAGTTAACCGACATACAGAAAAATTCTTATGTAAAAATAGTAAAGGATGAAAATGTTTTATTAATTGCACCAACAGGTTCAGGTAAGACAGAAGCGGCAATAATACCAGTAATAATGGGAAGTATAAAAAGTAAAAAGAAAAATAAAATATCTGCAGTATATATTACGCCATTAAAAGCATTAAACAGAGATATATTTAGACGAGTTATACATTATGCTGAGGCTGAAGGATTAAAAGTAAACATTAGACACGGAGATACAACACGTAAAGAAAAACAAAAAATAACTAAAGAACCACCTGATGTGCTAATAACGACACCAGAAACATTAGGAATAATGATTGGTAATAAATCCACAAGAGAGATACTGACAGATACAAAATATGTAATTATTGATGAATTTCATGAATTAATTGGAAATGAAAGAGGTACGCACCTATCATTATCACTAGAAAGATTACAAGAATTAACAGCAAAAAAAATTGTTAGAATTGGTTTATCTGCAACATTAGGAAATGTAAATACAGGATTGCATCTATTATCAGGTGAATCCTATAAATCTACTGCAGTATTAGATCATACAAAGAAAGAATATGACATTTCAAACATGTATATTAAAGGAGATTTGTTTGAAATAGCAAAAATAATATTAAAAAAAATTAAAGAGACAAATAAAGCGACATTATTATTTACTAATACTAGAGTAGAAGCAGAAGCTATTGGTTCGATTTTGAAAGCAAAGGAACCAGAGTTTCCAATTGAAATTCATCATGGTTCTTTATCAAGAGAAGCAAGAGAAGATGCAGAAACAAGATTGAGAAGTGGACAACCAATATTAGTAGTATGTACTTCGTCGTTGGAGTTAGGATTAGATATAGGTAGTATAGATAATGTCATGCAATTTGGATCTCCGAGACAGGCAATTAAATTAATTCAACGAATGGGAAGAAGTAAACATAGAACAGGTGAAATATCAACAGGAATAATATTATCTAATCGTATTGATGATGAGTTAGAATCATTAGCTTTGATTGATAGAGTTGAACAAAAGGATTTAGAGGAGATAAATATTCATGAGAATTCCTTAGATGTATTATGCCATCAAATTACGGGTATGTTGATGGAAAATGGAAAGATGGATATAAATAAAGTAGTAAAAATAGCAAATAGATCTTATCCTTTTAGAAATACTACGAGAGAAGAGATTATCGACACAGTGAATTTGTTGAATAATCAAGGAATAGTTAGATTTGATGGTAAAATCATTAGAAGAGGATTCAAGATTTTTGAATATTACTTTCATAATCTGTCAACAATACCTGATTCAGTACAATTTGAAGTAATAGATATTTCAAAGAAAAGAATTGTAGGAAGATTAGATCAATTATTTGTTGGGGAGTATGCAGAACCAGGTGAACCTTTCATATTAAAAGGAAATTCTTGGAGGATAGTATCTATTGATGATGACAAGATGTCCGTACATGTAGAACCGATGTTTTCAGATGTATCAAGAGTACCACATTGGGTTGGAGAACTAATACCCGTTGAATTTAAGACTGCACAAAGAGTTGGAAAATTAAGAAAGGATATCGCCAATAATAAAGAGAAAAGAATTAGTGATGAACAAAAACAAATGATTGAAGATACAGAAAATACTTTGGGAATAATTCCTGATGATAGGACATTGGTGATTGAACAATCAATAACAAACAAATCAATAGTAATACATTCATGCTTGGGTTCAAGAGTGAATCAGACTTTATCTACTCTGCTGTCAACTATAATTTCTTCAAAAAATGGATATCTAGTAGATTCAAAATCAGATGCATATAGAATATCATTATCATCACAAGGTCAGTTATCACAAACATACATAGAAGAAACATTAAAACAAGACATAGATTTCAAAAGCATATTAGAAGTTGCAGTAATTGGAACACATCCACTTAACTGGAAGACTTGGCATGTTGCAAAACGATTTGGAGTGGTTAGTAAAGATTCAAAATATGATAAAAGAGCAGCACGGCTTATAAAAGAGAGGTTCAAAAATACACCACTAGACAAAGAAATAATGAGAGAATTGATTCTTGAGAAATATGATTTAAAAAATACTTTAGAGATAATGAATGAAATTAAAGAGAATAAAATTGCAATCAAGTATGTAAAAGTATCAGAATTTTCTTCGTTGGCGAAACCAATATTGGATTATGCAAATACGTTCGCGGCATTACCATTAACAGTTGAAAAAAGTATTATTGAATTAGTAAAAAAGAGACTTGAAGAAACAAACAATAAGTTATTGTGTTTAAGTTGTGGAGTTTGGGAAACAGTAGTTAAACCAAAAGATATAATGGATATAGATATTCAGTGTCCAAGATGTAAATCAAGAATCGTTACAAGAACATATATAACAGACATGGAAATTGGAAAAATAATTAAAAAGAAACAAAAAAAGAAGAAATTAACTCGTGATGAGAACATATATTATAGAAAATTATGGAAAGTATCTTCATTAATACAGAATCATGGAAAGGATGCAGTACTAACACTATCTGCTTATGGAATAGGTCCAGATACTGCAGCACGAGTATTAAGAAATAAAATAGATGAAGAAGACATGTTCAGAAAGATATATCTTGCAGAAAAAGTTTATGTTACTACAAGAGGATTTTGGAAAGAATGAAAGAAAATAGAAAGACATATTGTATTTCTCATGGAAAAGATGTTGATGGAATAGCATCTGCGTCAATTGTAAAAATGGCAAATGGTGCAAAAACATTTCTTGTAAATTATGATAAGATAATTGAAACATTAGAAAAGATTCCAGATAATTCAGAAGTATATGTTTGTGATCTAGGTATGAATGATTCAATTGCAGAGAGATTTATTGAAGAGTGTAATAGAATAACAAAAAATGGGAAATTTACATATATAGATCATCATATTTTAAAATTAAATACTAAAAGAAAATTACTTAAAGCAAAAGTGAAATTAGTACATTCAAGAAAAGAATGTGCAGGAGTACTGACGTATCAACATTTTAAAAAACAAGTTCCAAAAGGAGCATCAATACTAGCATGTTATGCAGCAATAACAGATTATTTAGATAATCAAAAGATTGCAAAGAGTTTAATTAGCAATTACGATAGGCAATTACTTTTACTAGAATCAACAATGTTAGCATATGCATTGGCCTATGATGGTGCAAAACCACAATTTGGTAATAAAATTGTAGATGCTTTTCAAGATTTGAAATTTCCGCACGAGATTAAAGATGTTTCTACGTTAGCTAATCAACAAGCTGAGAGAATGAAAAATATAATGAAGACAATTAATACTGAAGCAAAAAGTTACAAAAGTTTTGCATGTATGGAATCGAGTAATCCAACAATTGGATTAGTTGCAAATATGATTATAGGTGAATTAAATGTACCGGTAGCATTTGCTTATAGACATAATCCAAATGGACATTATGAGATGTCATTTCGTGCAAGATATGATTCAAAAGCAGAACTAGGAAAGATAGTAGCAGAAATAACACCTAAATTAGGAGGAATGGGAGGAGGTCACAATAAAGCTTGTGGAGCTCGTATTCCAGATGATAAATTAAATAAATTTATTAAATTATTTTCTGCGGAATTAAAGAAATAATCACGGTGCAGGTTTAATAAATCCAGAATCCATTTGATTTTTTGTAATGTTACGAGAACGAGTAATTACTTCTAAGGCATTTTCATAAACTTCAGATCGATCTAATTTGATTTGAGCAACGCCTTCGTCAATAGCTTGCATTGCTACTGCCGCAGCTTCATGAGCAAATAATTCAAGTGCTTCCATTGTAGGAACAATATGATTTTCAGAAAGACCTGTTTTTTCTGCATAAGAAGCAATTTCAGATGCAGCTGCCAAACACATACCATCAGTAAGTTTTAGTGCACGTACATCAAGTGCGCCTCTAAATAATCCAGGAAATCCTAATGAATTGTTAACTTGATTTGGGAAATCAGATCGTCCAGTAGCAACTATTGCAGCACCCGCTTTTGTTGCATTCCAAGGCCAGATTTCAGGCACAGGATTAGCACATGCAAATACAATAGGACTATCAGACATATCTTTAATCCAAGAGGCTTCAATAACATCTGGACCAGGCTTAGATAATGCAATACAGGCGTCGGCATTTTGTAAAGATTCTTTTATGCCACCAGTAATTTGTTCTTTATTTGTTGTTTTAGCAATATTCCATTTTGCAGGATGATTCTGAAGATCATTACGATCAAGATTAATTATTCCACGACTATCTACTACAGATATATTTTCAAGATTAACACCTGCTTTACCTAAAAGTCGGACTAATGCAACATTAGCTGCACCACTTCCAATTAAACTGATTTTAAGTGATTCAAATTTTTTATTTACAAATTTTGCAGAGTTAATTAATCCTGCAATGACAACAAGGGCAGTACCTTGTTGATCATCATGCCAAATAGGAATGGGTAAAGTTTGCTGTAGTTCAGAAAGAATATCAAAACATTTTGGACTTTCTATGTCTTCGAGATTAATTCCACCAAAAGTAGGTGCAATAACTTTACAAAATCGAATAATTTCATCTTTATCTTTAGTGTCAAGCATTATAGGAACTGCATCTACACCACCGAGATATTTGAAAAGAAGAGCTTTGCCTTCCATAACAGGAAGACCTGCTTCAGGACCGATGTCTCCTAATCCTAAAACTCTTGAGCCATCACTAACAATAGCAACCGAATTTCCACGATTAGTATGTTCAAAAACTTTTTCTTTATTATTACTAATATCTTTACAAGGAGCTGCTACACCAGGAGAATACCAAACTGCAAAATCGTCAAGAGATTTTACAGAACATTTCAACATTGTTTCAATTTTACCTTTATAGAAGGGATGTAATTTAAGAGCATCTTCGCCAGGTTTTTGAGCTGCTTTTTCTAATTCGTGTGTATCTCGTTTAGACAATTCAATTAAACTTAATGTTTATGTCTTTTTATCTCTTTAGGAAGTTACCTCGAGAAATGATAATTTAACATTATACATATAAACAGAGATGAGTATTCTCAAACTATATTGAAAATAGCAATAATTGGATTAGGAGTAGCAGGTTCATTTTTATTGCACACATTAAGTAAAGAACACGATGTAGAAGGATTCGAAATGCAAAAAGCAGGAGAATTTAATGCAGTTTGTGCGTGGGGTGCAGCTAAAAGTGAAATGCAAAGAATTTTTGAACGTATTAACATTGATTTTAATGATTATGTGTATTTTAATGGTGAAAATATTAATTTAGAATTAAAAGGAAAAGTAAGAAAAATCGCATGTAAAGGGCTTGTTACATACAATAAACATCAATTAGAATTAGATTTAACAAAAGGTTTGAATGCAAAATATGGAAAGAGAATTATTCCAAGTACATTTCCATCAGATCAATATGATTTAGTTATAGACGCAACTAGTTTACAAAGGGTAATGTTACCAAAAATTAGTGATCAATTACTTGTACCATGTGTAGAATATATGGTAGAATACGAAAAGTTGCCATATGATGATTTCTATGTAAAACCTTTTAGTACCGCTAGTGGATATTTTTGGTATTTTCCATTGGAAAAGAATACTGCGTATGTAGGTGCGGGAGACTACTATCGAAAACATATGGAAGAATTAGATTATTTTAACAACAAACATGGTGGAAAGATAATTAAGAAAATAGGTAGGCCAATAAGATTGTCAGCGCCAGAAGTCTGTCAACCTTTTACACAAGGTAATGTAGTAGGAGTTGGAGAGGCAATAGGTACTGTTTTCCCATTGATTGGAGAAGGAATAATTCCTAGTCTTCAATGTGCAGAGATATTACAAAAAAATATTGATAATATTCCAAGATATGTAGAAGAAGTAAAAGAATATTTTAAGGTATATTCAGATGTATACAAAGTTATAAAATTAAAAATGAATAATAATTTAGGTCCATATACATTCATTAAGAATTCAGGTGCAGTTTGGAGTACTTATAGAACGATGAAAAAACAAGAAGAAAGGTTTGGGTTAGAAGTTCGAGTAAGGGATATGGCGGAAATATTACTTACACAGTTGTAATCTTTATATCAAGGTAGATTCTAGTAAAGTGTGTTAGTAATGATATACGAAAATTATTATTTAAATGGTGTTAAATTAATTGCCCGAAACTATAGTAAAGTATTTAGCGAAACTGAGTTTTGAGATTGACGGCGCAGTAGATAAAGCAGACATTATTGGTGCAATATTCGGCCAGACAGAAGGCCTATTTGGACCAGAAATGAATCTAAATGAGCTTCAAAAGAACTGGAAAGTAGGAAGAATTGAGATCATAACAGAGTCACAAAATGGCAAAGCTAGTGGATCAGTTACAATTCCAATGAGTACAGACATATCAACAGTATCATTAATTGCGGCTGCAGTAGAACAAATTGATAAAGTAGGACCATGTGGTTCACAATTTAAATTATTATCAATTGATGATGTTAGAGCAGTGAAAAGAAATGCAATTATGGAACGTGCAAAGCAGATTTCGAGAGATTGGGCTACAAAATCATCTAGTGAAGGAGAAGATATGTTAAAAGATATCTCAGAATCTACAGTACAAAAAGGAAAGGTATTAGCTTTTGGTAAAGATGAATGTCCAGCAGGTCCTGCAATAAATACTTCGGATGAGATAATCGTTGTAGAAGGAAGAGCAGATATATTAAATTTAATGAGAATAGGAGTTGAAAATACAATAGCAGTAGAAGGTACAAGTGTACCACAAACGATTGTAGATTTAGCAAAAACAAAGAGTCTATCTGCATTTCTTGACGGAGATAGAGGTGGAGATTTGATATTAAGGGAATTAAGCAGTGTTGTGAAATTATCAAAAGTATCGAGAGCAATAAGAGGAAAAGAAGTGGAAGAACTCACACCTGTTGAATTACAAGAATGTTTAAACAAATCTGAAGAATCTCATGATAATAGAAGAAATGGTGATGGATATCAGAGGCGTGATAATTATCAAAGACGTGATGGATATCAGAGGCGTGATAATTATCAAAGACGTGATGG
>sequence27
AGCTTCATCGACTCTTACAGCTTCAGTTGGACATACAGTAACACATGCCATACACCAAATACAATCAGATTCACGAACTGGTGCTGCTTTATCAGTAAGATCGAGTTTTTCTTCAGTACCACTGAAACCTGGATTCTTTGTCCATTCAAAGACTCCTACAGGACATGCAGGTAAACATGCACCATCAGCAACACAATCATCGAAGTCAACAGCTACGTAAGTTCCATGTATACCCAATGGTTCAAATTTTTCTCCAGCAGCTTCATACGCAGACTTTACTTCGTCACTTTCAGCAGCAGCTCCGTCTTTTCCTGGTCCCCAAATAAGGTAACCATGTTCGGATCTTGCCACTGGTTTCAACTTTTTTTCAAATTCTTGATCAATAGGCATAATAGCAATCATTATGTAAAAGTAAAAAAGGGTTATGGTCAATATCAAAGTTGAAAGGCCATATAACTGCCGTTATTTTATATTAAAGTAGGTAAATAATTAAATTTAACAAGATGGGATTTTTTCCAAAGCTTTTGATATATCAGATTCGGAAACAGTAAGGGAGAATCTAACATAATTCTTACCGGCATTTCCAAATCCTAAACCAGGAGTAACAACTATTCCTTTATCTAATAATTTCATTGCAAAACTTTCACAGTTCTCATCAACTTTCATCCATAAATAAAACGTTCCAGAAGGCATTTTTACTTGGTATCCAAGGTTAGATAGACCATGATAAAGAAGGGACATTCTGTTTTCATAAATTTTTAGATTATTAAGAATATCTTTAGGAGGAACTCCATTAGAATAACTATCAAGTGCAATAGTCGCAGCATGTTGAATAAATTTAGGCGAGCCAGAATCAATTTGGTTTTTTATCTTTTTAAGACCGTCAATGAGGTTCTTATTACCTACAGCAAAACCAATTCTATAACCCGTCATATTGAAAGTTTTAGAAAGTGAATGAAATTCAATACTATTTTGATTTGCGTTTTCACATTGCATTATAGAAGGAGCTTTATAATCACCATAAGTGATTTCGGAGTATGCATTATCATAAACAATAATTGAATTTTTTTCATGACAAATATTAACAATATTATCGAGTTCAGACTGTTGGATTACAGCGCCTGTTGGATTATTAGGATAGTTAAGATAAAGACCAGAAAAATCAGATTCTTGTAATTGATCAGTCTGAGGAATATAATTAGATTCTTCGGATAAATCAAGAATTAATGGTTTAAAGTCATTTAACATTGTACCTCCATGCTCATAAAGAGGATATCCAGGATTAGGTACGGCAACTGTTTGACCAGAATTTAAAAATGCGCGGAAAATATGAGCCAGTCCTTCTTTTGAACCAATTAAAGCACATATTTCTTCGTCAGGATTAAGAGATACAGTAAAGCGTTTTTCAAACCATTTAGATATACTATCGCGGAATGATTTTTCACCTGCGCTAGATGAATAATTATGATTGCCAGGAATAGATAGGCCTTCAATTAGAGCTTTATTAATAAAATCAGGAGTAGTTAAATCAGGGTCACCAATACCGAAACTTATTAAGTCAATTCCTTCTTGGCGTTTTTTAGAGATTAAATTCTCAAGCTTAGCGAAAGGATATGGTGGAAGAGAATTTAGACGATCAGAAATTTTCAATTAAACCACGTAATAACTTTTTGTCCCTTGATTAAATCATTTATAGTTTCTCTTTGTCGGATTATTTTACAATTTTTTTTATTAATCATAACTTCGGCAGCTCTTGGACGTGTGTTATATTGTGAACTCATAGAGAAACCATATGCGCCAACATTAAGAATTGCTAATAAATCGCCTTCTTTTACATTGCCAATCTTTCGGTTTTTTGCAAGAATGTCCGTATTTTCACAGATTTGTCCGCAGATGTTTACAGATTCATTACTTCGAGAATTTAGTCGACTAGCGTTAACAACATGATGATAGGCATCATATAATGCAGGGCGAAGTAATGTATTCATTCCTGCATCTATACCAACATAATTTATTGGGCCTTTTTTGATTGAATGAACATTAGTTAATAGAATAGTAGAATCTGCAACAAGATATCTACCAGGTTCAACAAATAGCCAAGGTTTGTCAAGAATCTTAGAAGATTTTCTACCATTAAAAATTTTACCAATATCGGAACCAACTTTCTTTATATCAAGTGATTTTTCCGGAGGTTTATACGGAATGCCAAATCCACCACCAATATTAATGAAGTCAAGTGAGATTTTACATTCTTCAACAATTTCAACAGCAATGTCAATCAATTTACTAGTCGCTTTTTTGAAATAAGAGGAATCAAGAATTGATGAACCAGTCATCATGTGTATACCGAATTTTTTCACTCCTGATTTTTTTGCCAGACGGTAAGCAGCAACAGCATCTTTTTTACTCATACCGAATTTAGTGTTTTTTCCACCAAAAACCAATACACTATGTGAACCACTACCAATTCCAGGATTAATTCTGAAAGAAATGGTGTTTGGAGTTCCAATCTTAAGAAGTCGAGGAAGAATAGATAAACTATCAACATTAATCATAATTTTTTGTTTTAATGCATAAGAAAGTTGGTCATCAGAATTATAGTTTCCAGTGTACAAAATATCTTTACTAGAAAAACCAATTTTTTTAGCAAGGAATATTTCTTCAGGGCAAGAACAATCAGCACCGCTACCTAAATGATTGAATAGCTTCAAAATTGATAAATTGTTATTAGCTTTCACTGCATAATTAATTTTAAATTTATCATAATGTGAAGAAAAGGCGGAATAAAGATTGTTATAATTAGATATAATTCGTTCAGAATCAGTAACAAATAAAGGAGTGCCAAATTTAGTAGCAAGTTTGTTAGTACTAATATTTGCAAAGAAAAGTTTTCCATTTAAATTTTTTAAAGGAGTTTCTAATTTCCACATAATGATTTCACTAACTAAATATTACATCTTGCATACTATAAATTTGGGATTCAGAGATATTATTAAGCCAATGGGCAGCCACTAGTGCACCGCGAGCAAATGCTGATCGTGAAAATGCAATATGCTCCAACCTAAGAATCTCATATTGGCCAGCAATACTAACTTCATGTATTCCAGGAGTTCCTCCTAATCGTTCTGATGTTACGTCAAGTTCAGATGTTTTTCTCTTACCATGGTTACTACGATCAAAAACAAGATCTTCATAACCTTTAGATTCCGAAATTATTTTAGCAAGTGATAGGGCAGTTCCACTGGGTGAATCAATTTTTTTAGAATGATGTTTTTCATTAATACTTATTTCAAATTCGTCAGGTAATTGACCAACTAATTTAGAAAGACGATAAAGAAAGTTCATTCCAATGGAGAAATTTGAAGTGATAATAGATGGAACTTTTCCATTAATAATAGAAACTAAATCAGAATATTGTTTTTCAGAAAAACCGGTCGTTCCAATAATAATCTTTTTATTATTATTGACATAAATAGGCGCATTAACTAGTTCAGAATCAGGAATAGTAGCAGAGATAGTTACGTCGGCGTCAGATATAGCAGAAGAGAGATTATCAGAACTTGTGATTTGAATATCAGATTCAATTATGCCAAGAGAAGTTAAGGATTTACCAATATGTGGACTATTTGAAGTTTCTACGGCTCCAACTATTTCAAAATTGTCTATACTTTCTTGAATAATAGATTTACCCAATCTCCCACAAGCGCCAACAATACAAAGTTTAGTAAGACTCATAATACAATCCACTTATGTATTTATCAGAGTATAATCTTTCCTGAATATTAACATCAAAAAAGTCTTCAATAGGCTTAAATAAATCGCTATTTTCATAAACTAATTTAGATTGTTCAAGTATAAATTCTAAAGCTTGTTTTGTAACTAGTCCTAAAGGTTGGCGTGAAGGACCGGAAGGTAAACCAAGAATTCTCATTAGAGTTTTTGTAGGAACAGGATTACGAGATTTAACAATGACATCTCCAACAGTAGTTGATTCGGTTGTTTGAATTCCAACTAATTTGAATAAAGGAGATATGGATTTTTCAAGATTAATATATTGAGAATCATTATCAATAGTTTTTAGAACTAATTCAGTAACTGCGGATGGAACTAGATTTGAAGCAACAGATATTACACCAGTTGATTTGATATCTGAATTTTGAATTAATTTAACAGTTTTATCGTCATCGCCAGATAGAATACAGAAATCTTTGCCACAAAGTTTTCTAGTTAATTTTGCGTTATCAAAATCACCAGTAGCTTCTTTTACAGTATTAATATTAGGACAATTACTATATGATATTGCAAGATCTTGTGGTAACAATTTAGTTCCAGTACGACCAGGTATAATATAGGGAATAACTGTTACAGAAGGAAACTTCTTTGCAATAATTTCTAGGTATTCTCGACGAATTTCCAATGAACTTGGACCATTATAATATGGATCAATAAGAAGAATATTATTTATACCTAGATCATGAGCAAATTCTGTAACTTGAAGACTTTCAGAGGTATTATTACTTCCAGTTCCTGCAATAATGACAGTTCTTTCTCCTGCAACATCGTAAACAGTTTTTATGACTTTTTCATGTTCAGACCAAGATAAAGTAGGGCTTTCGCCAGTTGTTCCAGCAACAAGAATACCAGAAACATTTTCAGATATTTGGAATTCAACTAGTTTTTTGAGACCATCATAATCAACTTTAAAATCATTAGTAAATGGAGTTATGAGTGCAGTATAACATCCTTTAAACAATTCTCTATCATTCATAATAAACACTACTTTGAGTTAAGTACTGCGGAAAACACGCACAAGATAAATATAAAACAAATAAACCTAAAAACAAGACTAGACAATTAAATTAACAGGGCCCGTAACTCAGCTTGGTAGAAGAAATTCGCCAAAAGTGACCGACTCATAAGATATTGAGAAATCGGTTTGTCGTGGGATCGAAGCCCACCGGGCCCACATATATTTAATAAAATTATATTTTTCGATAAAAAAAATAAAAGAAATTGATATAAATAATTGTATCATTCGTATCTTGAGTGTCGTTAGCCGTCGTAGCTCAGCGTGGTAGAGCAGATGACTGTTAATCATCTGGCCGCAGGTTCAAGATTATATATGAAAGTCCTGTCGACGGCGCTCATTAATATTATTTTTTAATATATTTTTTTGAGAAATTTTGATAAGAATTTCTTAGATCGTTTTTATTAACTGTAGATTTAAATCCAAAATTAGATAATTCTTCTATATTTCCAGATTCGTTCATATCATGAGAATGTTGAATGCCTCGGATAATATCTAATAATAATCCACCAGCATTTGGACCATCAGTGCTTCTTAAGTAAATATCAAATCGAACTTTTGATCCAAGGAATGAATCACCTTCAATCCAAAAGTAGTTAGTACGAGAATTACCCATAAAATCAACATAATCAGTCGTGCCTGAAACAGTTTGGACGTCATATGGTAATTCAGACTCGATTGTATCAGACTTAATTTGTCTTTTCAATATACGTAAATCTTCATCAACTGTGTTATTTGTTTCAATTCCACCACCTACATCTAATTGATAGCTTTTATTGATCCTTATACCTCGTTCGTGCATAAGGTTCATTATTCCTTTATGAAATGCAGTACCTCCAAATTGACTCATAAGATCATCGCCGACAACAATTAATTTTTTATCATTAAAAATCTTAACGAATTTTTCATTAGTAGCAATTTTTGTTGGAGTAGCATTAATGAAACTAGAACCAACATCAGCAGCTATTTCAGCGTATTTTTCAGAGCTTTTGTGTAAACCAGATGAAATTAAATTAATTATAACATCGGGATTTTTAGTTTTTAAGGAATCTATGAATTCATTTTCGGAAAAAGGATTAAATCCTGTATCTTGTGACAATTCGATTGAAGATTGAAGATTTTCATTCATGTCGGTATCTGAAAGAAGACCAGGTTCGACATTAATATCAGAAATTTCTAAATCGACGAATTTTTCCAATTTATTAGAAGGGGAAAAGATACTTTTATTTAGATCAATTCCGCCTAATTTATTTTTTTCAATATCATAAGCTCCGACTATCTCAATATCAGAAATTTTATAACTACCCACTAAAGGATGCCACAGTCCGTGTTCGTCAGTGTTTTGATTGTTTTTTTCTAGGTCTTTATAATAAGCAAGACCTTGAACTAATGCACTAGCTGAATTTCCAACACCTAGAATTATTGTACGAATCATTTAGTATAATCTATAAATGATATAATTTATAGTTTAATCTCGAATTATTGAAATAAGACCAAATAACCCTGACAAAATAAGAACTAATGATATAAAATAATATATTGGAACTATTTGAGGAGGAAGTGTTGGAGTAGATGAAGTATAACTAGCAGACAGTAGACCGAGAATAATTAGAATTCCACCGATAGCACGAAACATCAAATCAGAATCGAGTTTTCGATTAGTGACGATTGACATAGATTATATTCAGAATAGCATAGGTATTAGTGTTTCTACAAAAATGGTGCCGGGGGTGGGATTTGAACCCACGAACACCTAAGTGACGGGATGTCATATACTTGGCTCTCCTAGAAGAGCGATCTTAAGTCCAGCGCCTTTGACCTGGCTCGGCAACCCCGGCAGTACTTATTATTGATTTGAGTAGTTTATAATAAATTAAAAGGATTCTACAATATAATAAAAATGAGGTGTAATAAGAGATTTTGATTATAACGAGAAAAGTATTGATTATATTATTTACAATACCAATAATTTTGGGATTAATAGTAGGAAGTCAAATAATTAGCAATTCTGGTGATGAGGAGAAAGAGATTGTACAAGATAGTTGTAATATTAGGTATGAAAATAATAACAAATACATCAAAGAATATGTCATACCAAGTAAATGTTCAGGCCCAGTAGCTATAACAATTGACGATGAAGGAATAGTATGGTTTATTGAGAATAATAATAGTAAACTAGCATCGTTTGATCCAAAAGAATATTCATTCAATGAATACGAGATCTCAAATATTTATACAAATATTAAATCGTGGAGTATGATTGCAATAGAAGATGAAATTTGGTTCACAGATCATCAGAATAATTTTATATGGAAATATTCAAAATCAGAAAATAAATTTGAGCACTTTAGATTAATAACTGAAAATTCTTATCCAGTTCAGATACTGGATAATGAAGATAGAATAATAGTTTCAGAAATATTTGGGAAAAAAATTGCAATTCTAGAAAAAAATAAATTATTAATAAATACAACTAATGGAATAAATGAAATATCGCCAGAAATAGATTTAGATGTATTAGGAGGAATTGCAATTGATTCTGACAATACAATTTGGTTTACAATGCTAACATGGCCAATTGAGGGGTATTTAGGAAATTATAAAGATGGAGAATTTAATTCTTATAAATTACCGGAAGGAGTATCATCTCCAGTAGGAATAGCTGTAAAAGAAAATCACATATGGATTAACGATCATGGATCAAGTCAATTTGTTTTATTTAATCTTGAAAATAACACATTTACAAAATATGTTACGTCGTCAAGTAAATCAGATTTTACGACTACATTACCATATTGGAATAAATTTGACCAAGAGGGAAATATATGGATGAATATTCATCAATCGAATACTATAGCAAAATTTGATATTATGAAACAAATATTAATTGAATATGAGATTCCAACAAAAAATTTTGATTGGGGTGGAATATCAAATCCACTTCAATTCGATATAGATGAACAAGGAAATATTTGGTTTACTGAATGGACAGAAAATAAGATAGGAGTAATTGACGCCCAAAAGCCGTTAGAATTTTCGATTGAAATATCAACAAGAGAGATAACTATGAATAGAAATGATGTTAAGGAATTTACATTAATAATAGAACCAGAAAATATCATTTATGCAGAAATAAAAATTTCCGGAACTATGACAATAAACGGAATATTAGAGAATGTTTCTTTAGAATTTGAACAAATTAAAAATGAATTTGATAAAACAAAATCAATACCGATAATATTACAAACAGAAAACCTAAACAGTGGAATATATACAATAATGGTTAGCGTAGAGAGTGAAGAAATAACTCAGTCAATTCCTGTAAAATTAATTATAAAATAAGTTGTATGGGGCGAGGGAGATTTGAACTCCCGATCACTTGCTCCCAAAGCAAACATCTTAGACCAGACTAGACAACCGCC
>sequence28
TACCCAAGAAACAACTAAATCAATAGGAAGTCCTACATTATCACGAATTACAGATGGAGCAGCACCAGTACCTGCACCTGAACCATCAATAATAATTCCGTCTGCGCCCATAGCTGCAACGCCAGATGCAATATATGGAACGTAATTAGTACAACCAATTTTAACAAAAACAGGTTTACCAGTAGCCTCTTTCAGAGCCCAAATTCTTTGACCCAAATCCTCAATAGAGTAAATGTCATGATGAGGTGCAGGAGATACGGCGTCTTTTCCAATTGGAATTCTACGAGCACGAGAAATCGGACCAGTAACCTTTGAACCAGGTAAATGTCCACCTATACCAGGTTTCGCACCCTGACCAACTTTAATTACGATTCCTTGTCCAGTTTTCAATACATCAATATCTACGCCAAATCTTCCTGAAGCCCATTGAACAGTTATTTGTTTACAAGCAGCGACATCAGGGTGTAATCCACCTTCGCCAGTTCCATTAATAACACCAGTTGCATCAGAAGCACGTGCTAAAGCAATATTAGGGATTCCACTAAGTGCGCCAAATGACATGTCTCCAAGATATAATGGTGCAGTTATACCAATTCTTCCATATGCCAATTTAGTACTAGTATCTATATTTTTGATTAATGATGAATCATGTCGTAATTCTTTGAATTTGTCATTAGATTTTTGTGGGTCAATATCAGAAAAAGCAAGACGATCGAGAACTCGAGAGCTATCTGAATGATTTTCCCATAAATATGCAGCTTTTCCAGTAGTAGCGAGTTCACGAAGATGTTCAATACGACGATTATCCCAAAATTCTTTCTGTTTAGGCTTGGGCATACGGACAAAGTTAGTTACTTCTTGTACAGATTTAGTTGACACAATATTAATGTCAGAAAAGTTCTTAATAAATCATGACCAAATAATATTTGACAAATGGAAATTCGAATAAAAACATTGAAAAAAAGAAAATTCAACAACCCCGTATTAATTTGTGGTATGCCAGGGAGTGGGTATGTAGGAAAATTAGCGGTAGAGCATTTATTAAATGAATTTAAATCGACTGCCATATGTGAAATCCAGAGTGATTTATTTCCACCTCAAATCTCGACAAATAATGGAATAGTAGAAAATATGTCAAATACTATATATTATGTAGAAACAAATGGACAAAAAAATGACATATTAGTATTAACAGGTGATTCACAGCCAATAACTGAACGTGGAAATTACCTAGTAACAGAAAAAATTTTAGAATATGCACAGAATTTAGGTATAAAAAAGATATTTACACTTGCTGCATATATAACAGGCGAATTTGTTGATAAACCAAAAGTATTCGGAACTGCTACAGAAAAGAAACATGTAAAGAAATTAAAGAATAATGGAATAAAAATTATGAATCAAGGAATGATAACTGGAATGAACGGAATATTAATTGGGTCTGCGAAAATTAAAGGTATTGAAGGATATTCATTATTAGGAGAAACATCAGGTTACATGATTGATCCAAGATCGTCAAAAGCAATTTTAGAATCTTTAAGTAAAATATTGAAGATCAAGATTAATTTAGAACAATTAACTAAAAAGATCAAAGAATCGAGTGAATTAATTAATCAAGTTGAAGAAATGAAAACAAATACTGAAGGTATAGAATATTCAAACAGAGACAATAGTAAAGAATATATCAATTAGAAAATCAGAGAAGTTCGTTAGGGATATATTGAGGATCAATAATTTTTATTGTTTTTGAATTAGTTGTTGTGCCATTAAGAATTTTTACATTAATAGAATCAGCATGAAATATAGTAGAAAGTAAGTTAATTATTTCATTATTCGCTTTGTTTTTTAATGGAAGAGATTTAATGCCAAGAATAATTTGGTTATCTTCAAATTTTATAAAACTATCTTTAAGACCTGTTTTTACATTAATATGAAGAATAATATGATTATCGTCCATTATGATATAATTATATAGCATTCTAATAAAATTAAATTAGGAAATAATATGAATGATATTATCAATGTTGTAAAAAAGAAATCAAATACTATATGGGAGATACCAATGAATTATAAACAAGGTATGAAGGTTCCTGTTAGAATTTATGCGACAGAGCAACTTTTGAAGTTCATGGATCATCAAGTCATTGATCAAATTACAAATGTAGCAACACTTCCAGGAATAATTAATTATGCATATACTATGCCTGATGCCCATAGTGGATATGGATTTCCAATAGGTGGAGTTGCAGCAATGGATTTGAATGAAGGTGTAATATCTCCAGGAGGAATTGGATTTGACATAAATTGTGGTATGAGATTGGTTTTAACTAATTTAACATATAATGACGTCAAGCCAAAACTTAGGGAATTAGTCGATCAGTTGTATAATAAAGTTCCTGCAGGAGTCGGTGGAGCAGGATTTGTAAAGATTAACAAATCTCAGTTTAGAGATATTACGGAAATGGGGTCTACGTGGTGCGTTGAAAATGGATATGGCTGGGAAGATGATTTAGAAAATACAGAAGAAAATGGGATCATGAAAAAAGCTAATGCAGAAAAGGTTAGCGATGTAGCGATTAAAAGAGGATTAAAACAAATTGGAACATTAGGATCAGGAAATCATTACTTAGAAATACAAGTTGTAAAACCTGAATACATATTTGATGAAAAAGCTGCAAAAGCAGTAGGAATATTTCCAAATCAAGTAGTAATTATGTTTCATTGTGGAAGTAGAGGATTCGGTCATCAAGTTGCGTCAGATTATCTCAAAAAGTTTCTAGGAGTAATGGAAAGCAAATATAATATTAATATTTTAGATAGAGAACTTGCATGTGCGCCTTTTCAGTCTCAAGAAGGTCAAGATTATTTTTCTGCAATGCAATGTGCAATAAACATGTCATTTGTTAATAGACAAACAATATTACATAGAATAAGGGAAGTTTTTTCAACAGTATTTAAAACCGAACCAGAAAAATTAGGATTATCAATGGTTTATGATGTAGCGCATAATACTGCAAAAGTGGAGGAACATGAAGTTGACGGAAAAAATAAAAAAATGATAGTTCATAGAAAAGGAGCAACAAGAGCATTTGGTCCAGGAAGATTAGAAATTCCGCAAAAATATAGAAATATTGGACAACCAGTAATTATTGGTGGAAGTATGGAAACAGGGTCATATCTTTTATTGGGTACAAAAGAAGCTCATAAAGAAACATTTGCAAGTACTGCGCATGGAAGTGGAAGAATCATGAGTAGAACAAAAGCAAAGAAAATGTTTAGAGGAGAGACATTGTATAGAGATATGCTAAAGAAAGGAATTTACGTAAAATCAGTATCATATGCAGGACTTGCGGAAGAAGCAGGAAATGCATATAAAGATATAGATGACGTAGTTGATGCAACAGTTAATGCCAAGATTTCAAAACGAGTAGTTAGATTTATTCCTATAGGTAATGTAAAGGGATAGAATTGCCATATATCTATAAAGACGATATATCAATGGCGGATGCGGCAATAGAAGTTAATTCAGATTCATTAGAAGGTATTTTTGTTGATTCAGGTAAGGCCTTAACAAATACAATGGTGGAGGATTTGAAAAGCATTAAAACTAATCAAAAATACACCTTCAAAGTTGAGTCACAAGAAAGAGATTTATTATTATTTGAATTTTTAGAAAAATTAGTTATAGAAAAAGATGCAAATCAGATGTTATTTAGTGAATTTGAAGTGAAGATTAATAAAACAGATAAAAAATTCATGGTTTCAGTGATTGCCTATGGTGAACACATAGACTATGATAGACACGAATTATGTGCAGACGTCAAAGCAGTAACATTGCATAAATTCAGTCTGACAAAAGAAAAAGAAAATTGGAAAGCAGCGATGATATTGGATATCTAGTTATTTTTCAATGCACGTTTAACTACTTTATCAATTCCAGAACTAAAATGAATGGCCTTTTTAGTCTGATAGATTATTTCGTCAGGAAGGTTTAATTTCTTAGCAACAGAACGAAGAATTACTTTTCGAATTTCATTCTTAGGGTCGATTTTGGATTCAATTGGGCATGAAAGGGCAAAATCAACTAAAGGAATTGAAGCATATGGAACAAATAAATCAACGAATGGAGAAGTAATTTTTTCATCTCGTTCAAAGTTTTTTGTATATGCCTGATGAACATCAGAATTCATCATATCGGTAACAAATTGTGGACTTTCTTCAGACAATGTACGAATATAACGAGCATAGCCACCAAATAATTCATCCGCAAGTTGACCAACAAAAAGTGTTGAGACATTATGTTCTTTCGCTGTTTTAGCTACATAATAAAAACCCAAAGCAATACTTACATCCATAGGTCGGATGATTTCGGCAATTGAAGTAATATTAGGAATATCAGTAGGAATATGGTCTTTTTTTGGTTCAATTTCTATAAGATCAATTCCAAGCAAATTGGCAAGTTTTTTAGCATTTTCAAAGTCATGTGAATCTTTCATTCTTACATTGAAAGCTTTGATTTCAGTGAATTCATTAGCAATAGAAATCAATATAGAACTATCTATGCCGCCAGAAAAGGAGACACCTATAGTTTTTTTATTACCAATACGAGAAACAATAGAATTTTTTAATAGAGTCAATAAAGTATCGGCTTCATATTTAGAATAAGAAGTAGGAGAAAGATTACGTACATTAATAATTTTTTCATTATTAAGTATCATTGCAGTACCTGGAATGAAATCTTCAACATGAAAATTTGAGTTTATTAAAATTGATTTTTGTGTTGAGACAGAAAGCGAGTTGTTATTTTTACCAATGTAAAGAGGTTTACAACCCAAAGGATCACGAAGACAAATTGTTCCTAATTTTCCTACAATGATCATACAATAAGAACCATCTAATTTGTACAATTCATGAATATTCGAAGTTAATTTTTCTATAGTATCGGAATTAATTATATCATTAATAATAGGAATATAATCTCCGTAAATTTCTCCATGAATTAATACATTAGAATCATTAATGGATGAATTACCAAGACATGCAATAATATTAGAAGAGAGATTGGTTAATTGTTCATTAATAGAATAATTAAAATCATCGTCATAACACAAATAACCAGACCAAGCACGGTGATTCATGAAATTAAGATTTACATCATTAAGACCGCCATTACGAGTACATATGAATCCTCTAACGTATGTTGGAATCATTACTTTCAAAATCCTTTAGTTGTTCTTTAATTTTTTCAGCTAAAGAGGAATTTACATGAGGAATTTTAGAGATATCAGAGATTGATGCAGAATTCAATGAATTAAGTGATGTAAATCCTGAATCGAATAATCTTCGAGCATAGACACGGCCAATTCCTTTAAGACTAGTCAGTTCAATAAGTTCAGATCTAATTCCTTGTTGAATACGATTCTGAAGAACAAGAATATGGTCAAACAAATGTCTAGTTTGAAACAGTACAGTTAAACGATAGAATGCATTCAAAAGCCATTTTGTATTCTCAGTGGCAAAATACAAATCTCCAGGATCAATATCTACAAAATTGAGAATGTCGTTCTCTTTCTTTTCATTAATCCAGGCATTAAGAGCAGCAAGAATACGGAAGGTCGATCTGAATTCATGGTCAGAATGACCGATATCAAAAAATTCAGGTTTATGTTCATTAATAAATGAGAGATAATTAATTTCGTCAGATTTTCGAAAAGAAAATAGTCTGCCAAAATCAGGACTAGAAGCTATTACCTGAAGTATTCCCATAGTATAATCTTGTTCTTTGTGAGAAGATAATATAGAATCACGAAAATCACGTGCAGTTATTGGATTTATATAAAGTAATGAAGTTTGTTTGCCGAATCTTGTAGAAATAAATTTATTATTACGTTTTTCAATAAAATTTTCATCTATTAGAAAATCAATACAATCCTCTACTTTGAATTCTAATTCATCATTTCCATTTTGTAATGTATAAAGAGTATTATTAAATAATTTTAACAGATTAGGTTTAGATATACCAAATTTACTTGAAGAAATTGTTGCAAGAATATGAGTACGTAAAGAATCTTCATTACTTAAAGCAGATTCAATATCTTCAACATCACCATTAATATAATGATCAAATAATGAATCTTGTTCGGATTCGTTATTGGCAATCAAAATGGTTTCTCCTTTATCGTCATATTGAGGTCTACCGGCACGTCCACACATTTGTTTATAATCAAGAACAGAAATAGGAGACATTCCTCCATACTGCATATCATATCGAAGATAACTGCTCAATACTACACGTCTTGCTGGAAGATTAACGCCTGCGGCGAGAGTGGGCGTTGCGCAAATGATTTTTATTTTCCGGTCTCGAAAACCTGATTCTATAATTTGACGTTGTTGATTACTAACGCCTGCATGATGGAAGGCAACACCATGTTTTAATAATTTTACAAGTAAATCATTCATGTCAGTGTTAGTATCAGATTTCTTCAATAACTGAGATAAATCGAATAATTCGTCAGATTGTTCTTTTGTCAAGATTAGTGGCATCATTTTTTCAATTTTTTTAGCAAGACTGGAAGCACGTTTTCGTGTTTCAGTAAAGATTATGCTCTGTCCGTTTTTTTTAACCATATCGATTGCTATATCAATAGCAGTACCTTCCCCAGAATTATCTATATTGATAGGTGAAGTTCCATCTTTAAAGTCAACTTGACCAAAACAAAAAACACCTTCAGAAAGATCAACAGGCCTCCATGTAGAAACAACAGATTTTGCCCCAATCCAATCAGAGATTTCTTCTACATTATTTATGGTTGCACTCAATCCAAGAATTTGAGGAGAATGTTCAGAAATTAACATTTTAGCAATTATCATTTCCAATGTTGGACCACGATAAGAATCTCCTATGAGATGAATTTCGTCAATAACAATTAAACTTACTTGGGATAGCCATTTAATTCCATGACGTTGAAGTGAATCAAATTTTTCATTTGTAAGAATAATTATATCAGAGTTTTTAAGATATTCGTTATTTGATTCGAAATCACCAGTAGAAATACTAACTTTTATTGATGAACCATCAGATTTTGAAAGACTTTCTAATTTTTTAAAATCAGCATATTTTTCGCTTGCAAGTGCACGTAAAGGAGATAAATAAATGATTTTTCCACTATTTTCAATATGTTGAAGTGCAGATATTATTGCCACTAAAGTTTTTCCACTTGCAGTAGGAGTGGAAACTATTAGATTATTATTTTCCAGTAATCCAGTTTTTATACATTCGGCTTGTGGTGGATAAAGTGTTTTGAAGCCTTGATTATGCAAAAAGTTAATAGATTTTTCAGATAAATCGAGTGATGAGATATTCAAACAAGATATCTAGTTTACTTTACGATATAAATTATCTTGTACGTTATAGATTTGTCCACTATCACTCATATTTTTAAAGAATTTTCTTGCTTCAGTAGAGGTGAATTTTCCTGTATCAATTAATTTTTGAATAAATTCATCTTTGTCAACTAGATTTTTATTAGATTCTTTTTCAAGTTCTTCAAATATACTCATAGATGTTTCAAGTTTACTTCTTTCACTAACTGGTTTACCATACATTATTCCAAAATCAACTTCGCCAGTTTCAGGATCAGTTCCGACTGATTCATACATTGCTCTAACTAGGTTACGAGCATATTCTGCATCTTCTTCAGTAGCAATATCTCTGAACAATGCACGTGCTCGAGCCTTTGCAAGACGAACCATTCCTTCTAATGCACGCGGAGTTATAGGAATACCTTGATTGCCTTCTTCGTCTTTAGCAGGACTTTGACGTGTTTTTACATAATAATCTTGAATGAGTTTTTTCGCTTCAGGAGATAATTGTGGAATAAAGTTTTTGGCATAACTAATATATTTCTTCAATAATTCAAATTCAAGTGGAACATCTACAGTAATTTTACCAGTTTCATGAATGTCAAGAATATGCTTCGCAAGACGTTCATCTTTAGGAACATTTGGCGTATCTTTTATTGCAAATATAAGATCGAATCTTGTTAATAATGGAGCATCAATATTTATTTGGTCATTAAAAGTTTTATAATTATCATATCTTCCCAATTCAGGATTGGCTGCAGCAAGA
>sequence29
GAAATTTTCATCAATTGGAGTTTCGAGAATTAATGGAAGATTTTTGATCAACGAATGTTTCAAAATCTCCCGGAAACCATCTTCTCCAATATGTCCTTGACCAATATGCTGATGACGGTCCAAACCATTACCTAATTCGCCTTTAGAATCGTTTAAATGAACAACTTTCAAATGTTTTAAGCCTATTATTTTATCAAAGGTTTTGATAGTATCAAGTGCCGATTTACGAGAAGATAGATCATATCCTGCAGCAAAAGCATGACATGTATCAAAACAAAATCCAATACGAGAGTTATCTTTAACATTGTCAAAAATATATTTTAATTCTTCAAATTTAGATCCAACGTTATTTTTTGTTCCGGCGGTATTTTCTAGAATTATCATCGTATCGTTTGAGGAATCAGACAAGGCAGTATTACATGCTTTTATTACTCGTTCAAGACCTTTTTCGATACCTGTTCCAAGATGACTTCCGATATGTGTAACAACATAATTGATTCCAAGTTTATTACAACGTTCTAATTCAGAACTTAATGCTTGTACAGACATTTTATGAACGTCGTCTTTTGGGGAAGAAAGATTTGGTAAATAAGGCATATGACAAACTACTGTAGAGATATTTTCAGATAGGACTTTGTTTTTAAAATTTAATATAGCAGATTCTTGAAGGTCAGAAAATTTCCAACCACGAGGATTTCTTGTGAATATTTGAAATGTATTAAGATCTAAAGACCTAGCTCGTGTGATAGATAAATCTATAGAACCTGCAATAGATACATGAACTCCAAGTTTCATTTATAATATTTTATAATTTCATTCCGAAACTTTCTGCGAAATCTGCGAAATCAGAATGAGATCGTAAATATTCTATTCCTTTATGGCTTAGAATATATCTTTGATTATTGTTTACAGTAACTTGTTCAATTAAACCAGAATCAACTAAACGTGTAATAATTTTTGTTGCTCGACTATAAGAAAGATTTGCTTTTTGAATTATTCGAGTAATTCCTAATCCAGTTTCACCATCATTACCATCATTAATTGATGATAAGACATCCGCGACAATTTTAACTTGAGATCTATATACTGACATTATTCTGTTCTCCTTTGTATGTATTGAAAGTACTTACTGGCGTATAAAGCATTATGAATCCAATTAATTTGACTAAAATAGAAGATATCATTAACGGACTTAGACCAGAATAAAATAAGGCTAGCCACCTTATAAATTCGCCGGCGGCCAATGCAGTAAACCCAAGAAACATGAAAAGAATTGGACGTTTTTTCGCTTCTAAATAAGACAAAAGAGTTTCAAATGCACCATAAAGTAGAAAAACGAATGAAATTGACTTTAGAATAGACAAAACAGAAACAGTGGTAAGAAATCCATAGGCAATAGGAGCCATTGTAGTTTTTTGATATGATTTAATTCCATGACCTAATGCAAGGATAAAATATCCTAACAATTCAAAGGAAGCGGCAATAATGAAGAATAAAGAAGTTAATGCAATAGATATTCCAAGAAAGTCAAGTCGCAGATTAAGTATAAAATTAGATTGAAAGGTCAATTGGAAGAAAATAGGGAATATGTATGTAAATGCAGTTATAAAGAAACCAATAGTGAGAGCAATAAATGAAATAGTAAGCCTAAGTAAAGTAGGACTACGAGTATTCCTATATCCTTCTCTTGCAATTCTAAGAACTCGATAACCAATAAATGATCCAATAAGGTAAAGTAATCCTTCGATTAATTTATATTCTGAAAACAGAAAATAAGACCCAAGCATAATAATTATCATGTAATGTCAATTTATAAGGTTAAAAAATTAAGGATATGAATAGATTGTAGGATTAACGAATAATTGAATAAAATAAGAACAATAAGCTTAAGATAATTAATAATGGAGATGTAGCAAAAGTAAAATTATTCTGTTTATAAACATATAAAATAAACCATGGAAAATTTGCTGGAATCAATATATTAAATTTTTTAATTAATTCAGGAATAAGTAATATTAAGAGACCAATAATTATGAAAAGATAGCCAAAAGTAGAGAAATTGGGTAGTATATTCAATAAACGTAGATATAATAATACCTCAATATATAATGTTTTGTTAAGAACTTTAGTCTTTAAATATAACAATAAAACTTATCTAGGAAGTTTATTCCTAAATTGCTGTGAGACGAAGAAGGGAATACAACTGTTAAACAAGGCGGAAATCAACATTAGTAGTTATACTACAATAAGAGAGGAAATTTATGGAAGTATGTAATAAGTGCGGTTTACCAACGGATCTTTGCGTTTGTCAAGAATTAGAAAAAGAAGATTCTAGAATTATTGTAAGATTAGAAATGAGAAGATTTAGAAAGCCAACAACAATTATTGAAGGATTAGCATCAAAGAGTACAGATGTATCAGAAATTGCCAAGAAATTAAAGAACACATTAGCATGTGGCGGATCGGGAAAAGGCAATCTAGTAATACTTCAAGGAGATCACAGAGATGTATTAAAAGCACATTTAATAAATCTTGGTTTCAGTGAATCATCCATAGAGGTACAATAAAGAAATATGTTTAAAAAAATAAAAAAATTCAAAGATGAATTGAATCAAATAAATAATTTAAAGGCTAGACGAAAAATATTAGAGACAAAAATAAAAATATGTCCAGAGTGTACATCAGAATTAGAACCAATGAATGAACAACTGGAATGGTTAATGCCTCAAAAGTATATTTGTAAAAAATGTAACTATCTAGGAACCGCATACTTTGAGAAATAATTTAATACAGGAAAAAACGTAATAACGATATGACAAGACCAACATGGGACAAATATTTTATGGAAATTGCTCACCAAGTATCAAAAAGATCAACGTGTGATAGGAAGAATGTTGGGGCAGTAATTGTGAGAGACAAAGTTATACTATCGACAGGATATAATGGAAGTATAAGAGGAATAAAACATTGTGATGAAGTAGGACATCTCATGGAAAATGGTCATTGTGTTAGAACAGTTCATGCAGAAGTTAATGCCGTAGCACAATCAGCTATGAATGGAACAGAAATAAAGGATTCAAGTATTTATCTTACTGCAAGTCCATGTTGGTCATGTTTCAAGGTAATTGTGAATAGTGGAATAAAAAGGATATATTTTGGAGAATTTTATAAGGATGAAAAAATTTTTCAGTTTGCGCAAGAAATAGGCGTAGAATTGATAGATATGAGTGAAAGTAAGAACGAATAAGATCTATAATTGTAAAGCAGATTTGAGACCTTTGTATCGGTTACGAATAGTAACTTCGGTAACTCCTGCAGCTTCGGCAACATCTTTCTGAGTTTTACTTTCTCCTTCCATCACACAAGCAACGTACAATGCAGCGGCAGCTAATCCCATTGGGTCTTTTCCAGCAGAAGTTCTAGTAGTTTCAGCTTTATGTAAAATTATTAGAGCACTTCGTTTCGTTTTTTCAGATAAACCTGCCTTACTAGCAATTCTTGAAACACATTTTGTAGGATCAACAACAGGCATTCTTAAATCCATTTCACGTAGAAGTAATCGATAACATCGTGCAATATCTTTTTTCTTAATATTACATGCGGCAGCTACATCTTTTAGTGTTCTAGGTGTTTCAGTATCCCGACATGCGGCATAAAGAGAAGCAGCAATAAGTGCAGAAATAGAACGACCTCGTACTAAACCTTTTTCAAGTGCTTTTCTATATATGTAAGCAGCTTTTTCAATTACTGCGTCACTAAGATTTAATTTATCAGCTAATCTATCCAATTCACTAAATGCTTGTCGAAGGTTTCGATCAACAGGTTCATGAACCTGACTTCTTCCATCCCATGTACGTAATCGTTCAATTGCAGCTTTCATAGACGCTGGCAATGATCTACCGGCGGCATCACGATCTTCTGCGCCAATAACAGTAGCTAATCCCATATCATGCATAGCAAGAGATGATGGAACTCCAGTTCTAGCTCGATCGTCTTTTTCTTCCTTAGAAAATGCTCGCCATTCAGGACCTTCTTCCTCGATTTTATCTACAATAACATAACCACAATTACTACAATTCATTTCTCCACCAGATGAATCTACAACGATTGGACCTTTTCCACAACGTGTACATCTATCTACAGAGGGGCGACTTGGTAACGAACCTAATTCTTCTTTCATATAAATTTCAACATTTTTTGTTTTTCATATATAAGCATTTTTATACTTATACTTCCGGTTGAATGTAGATATTATATTTAAACTTTAGTATATATGTCGATTATGATAATATAACATAATGAATAATAATATATTCAGAAAATAAGAAGTTACTTTACTCGTAAATAGTTGAAGATAAATTGGTCAAAATTGGAATAACAGAAAAAAAAGATGAGAATTTTTCAGAATGGTATACACAAACTGTATTAAAAGCAGAATTAATTGATTATTCACAAGTAAAAGGTTTCATCATATTAAGAGAATATGGATTTTCAATATGGGAAAATATACAATCAATCCTTGACAAGGAATTCAAAAAGGACGGTACAAAAAATGCATACTTTCCATTACTGATTCCTGAATCATTGTTAAATAGAGAATCTGATCATTTCAAAGGTTTTACTCCCGAAGTATTTTGGGTAACTAGAACTGGAGATAATGAAATTGACAATAAATTAGCAATAAGACCAACATCAGAAACAATAGCATATGAATCATATGCAAAATGGATAAAGAGTTGGAGAGATTTACCATTAAAATTAAATTTTTGGAATTCAGTACTTCGAGCAGAAATAAAGGACACAAAACCATTTATCAGAACGTCGGAATTTCTATGGCAAGAAGGACATACAGCACATGAAACTAAAGAAGAAGCAACAAAACAAGTAGACTTTATGTTAAAGTTATACGAAGATTTTGTAAATGATTATTTAGCTTTACCAATATTAACTGGAAGAAAAAGTGATAAAGAGAAATTTGTCGGAGCAGATTATACATTAACAATAGAAGGAATTATGCCTGATGGAAAGGCATTACAAATGGGAACGTCACATCACTTAGGACAAAACTTCTCAAAACCTTTTGAAATTAGTTTCCTTGGAAAAGATGAGGAACAGCACTTTGCATGGCAGACATCTTGGGGAGTGTCATGGAGATTAATGGGGGCATTGATAATGACACATGGAGATGATAAAGGCTTGATTTTACCACCAAAAATCGCTCCAATACAGGTTGTAATAATTCCAATTTATTATGATGAAATGAAGAAAAATGAGATCATGAAAGTGATTGAAGGAGTTATAAAACAATTAGATGCCAAAGGAGTAAGGAGTTATGTTGATTCTACTGAACAGCACACTCCTGGATGGAAATTCAATCAATGGGAGATGAAAGGAGTTCCTATACGAATAGAAATAGGTCCAAAAGACCTTGAGAAGAATTCTTTTGTAGTAGTAAAAAGAAATTCACGAGAGAAGAGAGACATTCCTATAGACAATAATACTGCAGGAGAGATTGTGAAAGAATTGAAAACTATTCAGAGTGAATTATACGATATTGCAAAAAAGAAGCATAATAACATGATTTTCGAAAGTGTGGATTATAATGAATTATGTGAAAGATTAAACAATGAAAGAGGTTTTGTGAAAACTGGTTGGTGTGAGAGTAGAGAGTGTGAAGATAAAATAAAAGATGAAACGGGAGCAGATATTAGACTAATTGAAGATGAGAAAATAGATTCTACTTGTATTGTGTGTGGAAAGAACACAAAGAATACAGTATATTTTGCAAAATCATATTAGAGTAATTATTTATTCTTGTATAACGTGTAAAAAATATAATGGATTTATTTCAGATAATAATTATTAGCATAATTCAAGGAATAATTGAATGGCTTCCAATTTCGAGTCAAGGAAATATTATAATTTTGATGTCAGAGGTATTTGATTATAGTATAGAAAATGCATTGAAATTATCAATAATTTTACATTTAGGAACAGTAATGTCAGCTTGTATTTATTTTAGAAATGATATAATTCAAATAACCTCAAATTTGAAGAATTATAAATTTGGTTATAGTACCGAGGTTAATTCTTTAACGACTTTCATAATTTTATCGACTGTATCATCCAGTGTAATTGGACTCGTTGTATTTGCAAGTCTGTTAGAAATATCTGGAAGTTCTTTTTTTCCATTAATAATAGGAGGAGGATTAATTATAACGGGAATAATACAAAAAATTATTAAGTCAGATTTAAGAAATGAAAAAAATCTAACGCATAATGTAGCAATTGTTACTGGAATTCTTCAAGGTTTTGCAATAATACCTGGAATTTCGAGATCTGGAATAACAACTTCATACTTACTTGTTAGAAAATTTAGTCCTAGTACTGCGTTAAGATTATCATTTATCATGAGTATTCCAGCAGTACTTGTAGCAAATTTATTCGTAATATTTGTAGAAGGAATTCAGAATTTACAATTAATTGAACTAATCATTGCGGTGTCGTTGTCATGTGTCTCAGGATTAATTTCAATAAGTAGTTTCATAAAAATTGCACGTAAGATTAGATTTTGGATATTTTCAATATTTGTAGGTGTATTGTTGTTAATACCATATGTATTAGATATAATTATTTAGAGTAGGAATTCGACAAGAGACATAGAATTATAAAGTAATTTTATTAGTAAATTGTATGAGTGATGTAGCAGAAACAAAATTTAAAGTTAAGGTATATGATTATCCAGAGGGTCAAAAACCAAAAAGAGTGGCTAAAGAGGTTACAGAATCATTAAAAGGAGTAGTAAGTACCAAGAAAATTGGAAAATTGAAAAAACAAGCAATACATTGTCCAGTATTAGATGAAGAAAGAAATTTTGTAGAATGTTTTGCCTGCAAGTCACATATAAGAAGAGTAATGGGTGAAGTAGATTGCGCAGGAGGATCTACAGAATTACAAGTATAGAAAAATAGTATTACATACTTTTTGCTTGTTCTAATTTTTCGGGGAGATATTTATCTACAATAGTAGTTAAACCATATTTACTAAAAGCTTCCAATTCGCATTTAGCTTTAATTTTCATAAATACGTCAAGTTCTTTATTCCAGACACCTTTTTGATATCTTGGATCACGTTTCAATTCAGAAACTCGTTTGAAATCTACTTCGGTCATTGGGATAGTAGGTAGTTTATATTTAGCTATATCAGATGCCCAGATACCCAACCATTTGGCCGAAGGTACAGTGAGATCACGTAAATGAGCAGCTCCTGCAGAACCAGAAACAATAACCATAGCAATATGTTCGCCATAAACGTCGCCATCAGTCATAATATAAACAGGAAGATTGAGTTCTTTATGTAATCGTTTAAGCATATATCGAGTAGCACGAGGAGCCTGTCCAGCGGTATCAATAATTATTGCTTTATATTTAGAATGAACCTTTTCTTCAACAAATCGATTAAAGAGTCCACCTTTTTCAATTGCAATAATCATTTCGGCAGATGTGTCAACAAAATCAGCAGTACTAAGACTAGGTCCGATTAAATAACCATCAGGATGAGAAGAAAGGTTCAATCGATTTCCCTCGTATCCAGGTACGGTATATTCAATATCTAAATCTCCAAATATTGCTGAACGTTCTTCAGGATAGATATTCAATCTTTCTCTGGCAGTCGATATGACGGATTCAAGGTCAGTAATAATTGCATCAGATTCAGATTGATCGTCATAATCAACTGCATAAGCTTGTGAAGAATAATAAACATCTCGAAGTGTAGATGATTTTTTATTAGACATCAATTCATTAGCAAAAAATGCCAA
>sequence30
GATCTTACTGATAAAGCAGCACCAGTTCGTGAATCTGATTGTATTTGGTGTATGGCATGTGTTACTGTATGTCCAACTGAAGCTGTAAGAGTCGATGAAGCTTTAGTTGCTGTTGCCGAAAATGCAGAAAGCACTCTTGCTGCCGCCGAAAGCAGTGAACCTGCCGCAGAAAGCAATGAACCTAAAGCAGAAAGCAGTGAATCTGAGTAGTCAGGTCCCTGTCTAATGTCACACGACTTTTCTGAAGATGATGTTTTAGAAGCAATGTCAGAGGTAGTAGATCCAGAAATTAATGTTCCCATTCTTGAAATGGGTGAAGGCAATGGACTGATTGATGAGGTTAACATTTCTGAAGATAATTCCGTTGAAGTCAAATACCATGCAACAACTCCTTACTGCCCTCCAGTTTTTGCTTTACAAATTTCCATGGATATCAAAAAAAGTGTCGAACAAATGGAAAAAATTGGAAATGTTAAAGTGATTGTATCCGGTCATGCTATGTCTAAACAAATAAACGATAAAATTAACGAAAACTCTTAATTAAGGCATATATGCTTTCTCATAAACGCCAGAATTAAATCCTAAACATTCTTGATGTATCCAGCCTGCTTTAATTAATTTTCCATTACTTATTCCTTCGTTCCAATATGTCTTTCTTCCACCATCTATTTGGTGTTTTGTTATTCTTTTTTCACACATTACACAAATTGTTGCATATTTGAGATCTTCATCATCCATTCCTACTTTATTCATTTTTTCTGGAACTTTTATTACTCCGTCCAGTTCATCAAGCCATTTTCTTGTTTCTCCATCCCAACGTCTTACAGGTATCTTCAATATGTTATTTTATAATCTGTTCGAATATTTATTGATTTTTCTCTATGGTGGTAAAATATTTTTCTCCATTTAATCTTTATACATTCCAAATTCTTCACTATTGTATGGAAGATAAAACTTCAAACTTTGACATTCGTTTTCCTTTGATTATATTAAAAACTCAAAGAGGTCAGAGATTACTAGAAAAACTCTCTAAATTTCGTTTTATATCATTTTTAAGCTGGATTTCTCTATTTCTTATGCCTATATTTTCTCTTCTTGCAATTTCTATCTTGATATTGACTGCTTCTTTATACCTGTCTTTTCCAGAAGTTCGTGAAATTGCTCGAGAGACTGGTCCACAAGGTGCATTGTTAATCCCTGGAATAAATCCATATCTTCCAATCGTTTATGGTTGGGTTGCTATATTCATTGGTATTGTAATTCATGAATTATCTCATGGTGTAATTGCTCGGGCTGTCGACATTCCTGTTAAATCCTCTGGAATAATGTTCTTCATATTTCTTCCTATTGGTGCATTTGTCGAAGTAGACGATACTAAACTAGATTCAGTATCTTTTAAAAAATCTGGTCGAATAATTGCAGCTGGTTCGGGCAGTAATATTATCGTAGGTCTCTTTGCACTATTTCTTTTAGTGGGAGTTGTTAATACAATGGAACCTGTAGCTGATGGAATTCCCGTCAGTAGAATTGTTGTTGATTCACCTGCTAATCTTGCTGGATTACTTCCTGGAGATATAATTACTCATCTTAATGATATTCCTGTATCTGATTCTGATGTTTTTTCACAGAATTATAACAACCTGAGTCCAGGAGATAGTATTTCTCTTATAGTTCAGAGGCAATCTGAAAGATATGAATATGAACTAGTTCTATCAAGTCGTCCAGATAATTCCGAAGAGCCATTTATTGGAATAATGAGGCCCTCTATTGATGTAACTGATTCTTTAACTAGATATCAAAATGGATTATCCCTCTCTACTGATTTACTTGTGTATTTCTCTTTCCCATCTGGAGACAGTTATTCTATTCCTTTTTCATCATCTATGCAAAATTTCTACACTTCTAGTTTAGGGAATCAATATACTGTTTTAACAAATCTACTTTTCTGGATCTGGTTCATTAATTTCAATCTTGGTATCTTTAATGCACTTCCACTTGGACCATTAGATGGAGGTCAAGCATTCAAACGTGGATTAAAATCTATTACCAGAAATAAAATCTCTCAAAACAAAATTAATTATGTTAGTCGATTAGTCTCTTTTTCTATTCTATTTCTAATCTTGGCTATGTTTCTTTTGCCTTATCTTCCTGTTCAATGATAATTATATGACATAAGATTCGCCATAATCTTTTTGTTCTTGCGTTTGTGTATCGATATTAATTTTCATACCTTCTAGTGCATACTTAGCTACATTATAATCAATTTCTTTTGGCATGTCTACTAATCCTTTTAATTTTTCATGATCTAATTTGATTTTAACTGCTCCCAATAATTGATTTGAAAACGACATTGACATTACTTCTGGAGGATGTCCTTCAGCAGCTACTAAATTTGCAATTCTTCCTTTTGCTATTAGTATAATCTTTGTTCCATTTTCTAATTCATATTCTTCTAAATTATCTCTTATCGTTCTAACATTCTTTGCAATATCTTGTAGAAATGCTACATCTATCTCTAAATCAAAATGTCCTGCATTTGCCAATATTGCACCATCTTTCAAATTCTTTATACTATTTTTATCTATAACATGTTTTTGTCCTGTTGCTGTTACGAAGATGTCTGATTCTTTTGCTAATTCATTAATCGGTTTTACATTAAATCCATCCATAACTGCTTCTATTGCTCTAATAGGATCTATCTCAGAAACTGAAACTATTCCTCCTAAACCTTTTGCTCTGGCTGCTATTCCTCTTCCAACCCAACCATATCCACAGACTGTTACTTTTTTACCTGCAATTAATAAAGCAGTAGATCTTAAAATTCCGTCAAATGTACTTTGACCTGTTCCATAACGATTATCAAATAGATGTTTGGTGTATGCATTGTTTACTGCAATAATTGGATATTTCAATTTACCACTCTTTTCTAATGCTTCTAATCTAACAACTCCTGTTGTTGTTTCTTCCGTTCCCCCAATCACATTAAGTTGTGCAAATTTAGAATTCTCATGTAATGTAATGTGAGCATCCGCACCATCATCCATTATAATTTCTGGTTCTGCTTCTAATATTGCGTTTACACATTCTTGATATTCTTGATCGTTCTGACCTCTCCATGCAAAAACATTAATTCCTTCTGAATCAAGATATGCTGCAATATCATCTTGTGTAGATAACGGATTGGCTCCTGCAAGATATACATCTGCTTCTAGTTCCTTAAGTCCCATTGCTAATACTGATGTTTCTTTTGTTACATGTAGACATACTGCAATTTTTGTTCCTTTGAACGAAAAATCTTCAGCGGTTTTGTTAATAGTTGTAACAAGAGCAGGCATATTGTTTTTTGCCCATTCATATGATTTTTTACCTTTTTCTGCTAAGTTTTTATCTGTAATTTTACTCATCTATTATTCTCACATTATTCCTATCAAAAATATTCTTTTGTTTTATTTAAATTGCTTCATCCAATGCATTTACACATAAACAATTTCTATTTTCATTAATTTCTGGAATTATTGCTTGAATAATATTACTTGTTTTTTCTACATTCTTCTCTAATGTTTTTAATACCTCATGATGTGATACCGCTGTTTCTGCCCAAACATCATAATCGGTTATTGTTGCCATTGCTACATAACAAATTTGAGATTCTCTCGCTAAAACACATTCTGGAAATAGTGTCATATTTATTGTATCTGCACCCCAATTCCTAAACATGTTAGATTCAGCTCTCGTTGAAAATCTTGGTCCTTCAATACATACCTGCGTTGCTTTCTCATGAATATTGTAATTTAATTTCTTACCTGCTGCTATTGCTAAACTCCTTAATTCAGGACAAAATGGATCTGCCGTAGATATGTGCGCAACAGTGCCTTGATCATAAAACGTACTATCTCTATCCTTCGTTCTATCAATAAATTGATCTGGTATTGCAATATGTCCCGGTTCCATCTCTTTCCTTAAACTTCCTACTGCACATGGTGCAATTATTCTCTTAACTCCTATCTCTTTTAATGCCCATATGTTTGCCCGAAAATTAATTTTATGTGGTGGAACACTGTGTTTTTTTCCATGCCTTGGCAGAAATACTATCTTTTTTTGATTAAATTCACCTATAGTTAATGAATCTGACGTTTTTCCATATGGCGTTTCTATATCGATTGTTTCTTTATCTGAAATTATATCTGTGTTATAAATTCCTGTTCCACCAATTATTGCTACTTCTGTTTTCATCTTACTCATACCCCACGATTGAAAATATTTTATAATCTTTTAGAATTTCTCTCGCTTTTAAAAATTTCAATTCAATTAAGAATCCTAATCCTATTATATTTCCTTCTAGTTGTTTAATCATCTTTATTGCAGCTTCTACTGTTCCACCTGTTGCTAATAAATCATCTATTAATAGAATCTTCTTGTTTTGTAATGATTCATTTTTGATTTCTATTGAAGCATTTCCATATTCTAATTCAAAATCTCTTGAAATTGTTTCCCCAGGAAGTTTTCCTTTTTTTCTAATAGGTATAAAACTGATTTTTAATCTATTTGCTAATGCCGCTCCAAATATAAATCCTCTTGATTCTATTCCTATTATTGTATCAATTTTACCTCTAAACTCATTTTCAAATTCTGTTAAAATATATTCAAATGCATCTGGATCTTCTATTGCTGGCCACATATCTTTGAATATTATTCCTTTTTTTGGATAATCTGGATAATCCTTTATTACATTTTTTATATTCATTATTCGTATCACGTAATTATTTGCTTATAATTATTCGCATTTAATTGGAAACAATTATATTCTTTTATTCTTATTTCCAATATATTAATGAAAGACGATTCTTATAAAAAACTCTTAACCAGAATTGAAGATCAATTGTCTACAGTTGATGTTAAGAAAAAAGATAGAATTGAAATTCCTAAAGCAGAAACTTTCTGGATTGGCCAAAAGACATTCTTTAGAAACTTCTCTGTTTATCCAAAATTACTTAGGCGAACTACTGAACATTTTATGATGTTTCTTTCAAAAGAACTTGCTACATCTGCATCTATTGATGGCGATCGCGCTATTTTTATTGGTCGTAAAACCCCTGACTCATTTGATTTTATTCTCAAACGTTATATCCGTCAATATGTTAATTGTTCTGTTTGCGATAGCTATGATACCTCTCTTGATAAAGTTAAACGTCTATATTTTATTAATTGTGAAGCCTGTGGAGCAAAAACCACTGCAGGTTCTCGGTAATTATGCAGTCCAAATCTTTTCATTTTCGTTCAATTACTAATAATGAAATTAATATTGTGAATATATGCGATACTGATAATATTGGAACAACTATCTCCGAAGGAAATTTTGAAATTGAAATATCTGAAGATTATTTCGGAGGAGACATAATTGATGAAAATAAGGCTCAGGAATTATTAAAAACATCAGATACTTTGAATTTAGTTGGAAATAATATCGTTAATCTTGCTGTTGATTTAGATCTCGTATCAATTGAATCAATTAAAAAGATTCAAGGCATCTCTTTTGTTCTAATTTATAAATTCATACAATAGACTTTAAGTAATAATTTTTCTAATTATAATGTGATATAATGGGTAAGCGGAAAGTTCTAAACGAAAAGTCACTCAAAGATGTAGTTTTACCTCAAGAAGGTGAAATGTTTGGACGAGTTGTAAAACATCTAGGCAGTGAGTTAATTCAAATTAAATGTGCCGACGATAAAATTCGTATTGGGAGGATCCGTGGAAAATTAAAACGTAGAGTTTGGATTCGTGATAATGATGTTGTTATAATTGCCCCTTGGGATTTTAAAAGTGACGATCGAGGTGATATACTTTGGAGATATACAGTTGGACAAGTTGAATGGCTTCAATCTCAAGGACATCTTCCAAAGGAATTGTAGAATATGTCATTTCAAATTGACAATCGTGCAATTAAAAAAGCATTAAATAAAGTCAACAGCTCTGACAAATCAAATCGTTCATTGAAAAAACGTTCCGAAGATTTTCAGGTTTTTCAAGATGTATTTAATAAACCTACTCTCCTAACACTTTATTCTTTGTTTAACAATGGCACTCTTTCTTATCTTAACGGTATTGTTAATTCTGGAAAAGAATCAAATATATTTTGGGGTGTAACTCCTGAAGGAAATGACGTTGCAATTAAAATTTACCTTACTGTTGCTTCAGAATTTCGAAAGAGACTTAAATACATAGAAGGAGATAATCGTTTTAAAAATATTAATACAAATGGCCATAAATTAATTGAACTATGGGCAAGAAAAGAATATAAAAATCTATTAAAAGCTTATTCTATTAATATTCCTGTTCCAAAACCTATTGCAGTCAAACAAAATGTATTAGTAATGGAATTTCAAGGTATTGACGGTTCACCTTTTCCTACTCTCTCTGAAACTGAAGTCTCAGAGTCTGACCTTCATGAAGTTCTTGATTTAGTTACAAAATTATATACAAAATGCAATTTAGTTCATTCCGATTTATCTGAGTATAATGTATTTAAAAATTCTAGTGATTTAATTCTATTTGATTTTGGTTCAGCAGTTGATGTTTCTCATCCTATGTCTAAAGATTTTTTATCTCGTGACTTAAATAATCTTTGTCGATTTTTTTCTAAGCGCGGTATACCCAAATTTGACGTCGAAAAAAAATATCAGGAGTTAATTGACAATGATGTTTAATAAAACAATTCGAATACCTGTTGATCGCATTGGTTCAATTATTGGTCGATCTGGAAAAACTAAATTATGGATTGAAGAGAAATGTAAAGTCAATCTGGATATTGATAGCCGCAGTGGTGAAATACACATTTCTAGTGATAATGACTTATCTAATCCATTTCTTGCTGTTGATTTAATTCAATCTATTGGACATGGTTTCTCTAAAATTAATGCTTCTCATTTACTCAACGAAAATAATTTTCTTTCAATAATTGATCTTACACAATATTATAAAAAATCATCTAGTTCAATTTCTAGAATCAAATCTCGTGTAATAGGCCAGAATGGTAAAGCAAGGAAAGTTATGGAAGAAATTTCTAATACTCATATTTCTGTATATGGTCACACTATATCTATAATTGGATCTTATGAACAAATAAAATTAGTAGAAAATGCAATTAATTTACTTATTTCAGGCGCCCAACATAAAACTGCTTATGATTTATTGCAAAAAAGCCGAACTCAATCTAAATTAGACAGACTGCAATTATGGGAAGATGGTCCTGTTGTCGAAAACTAAAACTACATTCTCTGGTATTTCTCCTAGTGAATTCTTTTATCGTAA
>sequence31
CAACTGAAGTTAAAGAACCAGAAAAGAAAACAAGAGGACGAAAACCTAAAGCTAAAACAACTGAAGTTAAAGAACCAGAAAAGAAAACAAGAGGACGAAAAAGTAAAATTGAATTTGCAGATCTTACAGCAAGAGTTTATGAAATAGTAATTGAAAATGGTAGAGAAGGAATATTACAAAGTGAACTTTGGAAAAAATTAGGATTAAGTAGTAGAGAAGGTTCAAGATTAGCTATAAAATTAGAAAAAAGAAGAATTGTTGACAGGCAAAAACTTTTGGAAGGAGGAAGATGGACATACAAATTAACACCAGTAAAATTTCCAGTCAAAGTTGATTCAATAGAGAATATTCCATGTATAACATGCCCAGAAGAAGAAAGATGTGCGGCAGATGGAGTAGTAACACCATTTGATTGTCTATTTATTGAAAATTGGGTTTTAACTGAACAAGATAAGATTAAAAAAGAATAAAAGTATAGATGGAAATATTTTGCGATTAGAGGATGCGAAGAAAGATCATTATAGAAAATTAGCAAAAGAGCAAGGCTATAGAAGTAGATCTGCATTTAAATTAATTGAATTAAATCAGAAATATAATCTAATTAAGGCAAATGATAGTGTATTAGATTTTGGTGCAGCACCTGGAGGATGGTTGCAAGTATCGTCAAAATTAGTAATGCCAAAAGGAAAAATAATAGGAGTGGATTTACTACCAATAAAACCAATTGGAGATAATGTTACTATATTTCAAGGAGACATTAGAGATGAAGAAGTTATAGAGAGAATATTAAATGAATCTAAGAAAAAGGTAGACGTAATATTATCAGATATGGCACCAAATATATCAGGAATATGGAAAATAGATCATAATAATCAAATTGATTTAACTAGGCTAATTGTTGATAGATTTCCAGATTTATTAGAGAAAAATGGTCGATGTTTATTAAAGGCATTCGATGGTCCTATGTTAAAATCATTAGAGAATGAATTAAAGAAGAGTTTTAGAAATGTGAAATTAATTAAACCAAAAGTAAGTAGAAATGCAAGTAGTGAATTATATATTTCTTGTAGAGGATTTAGATAAAATATCATTAATTTCATTAATATTAGCATTTGTTCTGAATCCAGTAGAATGTAAAACAGTTTTGGAAGAAGTAAAATTATTTTCATTTAATTGAGATAAAATTGTTTCAACTGGAAATGAAGAAATTTTAAGATTTTGAGAGATATTATCGGTGACATAATATAAAGCTGGTAAAGAAGATTCGGAAATTGCTATTTGAAAGAGTTTAGTTAGGTTGGAATCATTAGAAAGATCAATTGCTTTATTTAGAAAATCTTTATCAAATATAGCCCCAAGCCAAATTGGTCCTGCAAGTTTACAATTGGATGAACATAATTTACAGGAGAGAATAGGAGTTTCAGATAAAGTACGATAGTTACAAATAGTACAATGCATAAGAAAACCGATTTTTCCTTCAGTATCAGAAATCGAATCAGTAATTTGAACATAAACTTGAATGTAGTGTTTATCGGTATGACAGAAAATAGGTTTTATTCCTAATTCATAACGAGATGCCATAGAGGCAATAGAGAAAAGTAGAATTCTTAATGCGGTTTCGTTAAAATATTCAGTATTCAAAGAAAGACTGCCATATTTTCTTAAACAAACTTTTGGATATACGCCACAAAGAACTGCACCATCAGTTGCGGTAATAGACAATATACCATTAATTTTTAATGCACGAATAGCAGAATCAATATATTGTATTGGAGAACCGAAAGGATCCAAATCAATAAAATCAAATCGTACATCATTATTAGTAAAATTGGATAAGAATTTATTTGCTTCATTTATAGAAATTTCAGCTAGTAAATCCAAATTATTATGTTTAAGAGAATTATTTAAAAATTCCAATGTATTGAGATTTGCATCATTGAAATAGATCTTCTTAACATAATTGGATTCATTAGCAAGACGTATTCCTGTTGCACCAATACCTGATAAAGTATCAGAAAATGTAATTTTTGATTCAGATTGAGATGCATAGCTATTAAATATAGAAATTAGTAAATCACGTTTGAATTTTGCCATCGTATTAAAAAATACAGGAGTTCGTGGAGGGGGAATTTGAGTAAGACTAGTTTTAGGAATAAAAAATTCAGTAATACCTTCTAAGAATAATGTATGTGAAGGATTAGAGTCAGTAGACATAAATAATCATTTTGAAGACTTTTTTGTTTCGCCTTTAACAATAGTAAGCATTTTTGCAATATCTTGAAGAACAACAGTTTTCTTATTTTTTTTATCGACAGATATGTAACCAGAATGTATTGATGTGTGTTTAGGATGTACAACTTCGTGGCTAGTGGGATTAAGGTTTAATCTTTTTGCAGCTTCGAGAAGATCAGATAATATAGGGTTTTTGATAGATCGATTACGAGAAACTCGTCTTCCTTGAGAACGAGAATAAGATGAATTAAAATAATCAAGCCAGATTACTTGTCTTTCATAGTCTTTCAAAAAAGATTACACCCAGATAATAGAATGAATTAAAAGAAGATAATTACTCATGAATTAAGACTTAGATTGTTTACCTAAGTACCACCACATGAACCAAAAACCAAGTGAGAGCAATAAAACAACGATGCCAACTCCCCAGGATACTGCATTTTGTAGAAAAGTATCATTACCAACAAATACCTGTGCTAAAAATTTCATATCATAAATCTCCAATTATTCATTAATAAGTATTCCATCAATAATTCCAGTTTGACCAGGTCTTGATAAGACACGAACTTTACCAAGGTCAGTATCAAGAATTGCACCTTTAGTAATAACACCACGTCTTTCATAATCGCGATTAGATGGATTTTTTAGAACACGATTAATAGTGGTTTTCTTTATACTGTTATTTGACTTATCGATAACATTAACTGAATTATCTGAGACAAGAGATACTTTGACATTTCCTCCACGTGAGTTTTTAATACGAACGGAATGATCACCTAATAAAGTATCAACAGAAAATGAGTCTTGTTCGTCAGAACGTCGGTTACGAGTATGCTTAATACGTCCGCCTGTATGTTTGCGTTTTCTGATATTTTCTAATGCTTTTACCATTTACATCATATTAGATATTTCAATCTTATATAATTTTATGGTTTATTTGGAGAAGTTGAAATAACTGGTGTTTTTTTCGGTTTAAAGCCGTATTTTACTAGTTGTTGTTTCAAGATAGCAGGGTCATTAGCAATTCCAAAATATTCAGCAAGTCTACTGGTTGTGCTGAAAATTTTAGTGCGACCGCTAGGTTCAGATTTTATAAAACCAAGTTGCTTGAGCGTCCTTACATGTTGATAGGAATTAGGTCCACGTCTATCTGCCAAATCTTTTCCAGAAATTGGCTGGAAATAGACGATAAAAGACAATGTCTTCAATTCTGCATTAGATAACAATGGTCGTGAAGAGAATTTTCTAGCAGATGTAGTGAAATCAGATTTTAGTTGAATTACAAATCGTTCACCTTCAAGTTCAAACATTTGTATTGCTTCAAATGTTGAATTTATTTTTAACATAAGATTTCGAGCAATATTCGATGATTTGATAGTAGAAGTAATACCTGCGGCTTTCGCTAATTCAAATTTAGATAAGGGTCTTCCAGCTGCATACAAAGCAGCTTCAATTTTGGCTTGGAGAAGTTTGTCATTAGATATTGATAAAGTGTTTGAGTCGGTCATTCTAATACACGGGTTATTATAATATCAGATTCTAGAGAATCTGGAGATTCTAGTTGTTCTAAACTAACGACGTTATCGATTGCAACGAATAATAATAACAGAAATGATCTAGCCTTTTCTATCGCGGATTTATCTTTGATAATTTCACTAAAGAGTAGTTTATCTTTATTAGTCAATTTAGTAATAAGTTCTGTTTTGAAATCTTTTGCTAGTTCTTCAAATTTTACAACATATTGATCAAAATCAGGTTCTGAATTAGGAATAAGTTGAGATGATTTATCTTTTCTTTCAATATCTTGTCTTGAAACATCTTCGAGAATCTTTTCGAGATTTATGATTAAATCGTCAATTGATGTAGAATATAATTCATAACGAAAAGGTAATACAATAATACTAGGTGGACCACTTCGAGAAATCCTTGGACGTTTCACTTTAAGTTTTTCAAAATAAAATAAAGTTTCTACTTTAAATCGATATAAAACAGCAGATGAAAGTGCAGCAGTTCCGCATAAACGTAAATCAGGATTATTTTTGGCAATTATTTGCTTCAGGAAGAGATCAAGCAAGTCTGCAATGTCGATTTCCCAAGGTTTTCCTTTTCGTGCAGTTTTCGGATTAACAAGTAAATTCAAGGGTGCTTTTGATAGTTGGTTAGAATCTTTCGTCAAATTGTCATTCCTTCACTATATTTGAAACCTTCATTTCTTTAGCTTTGTATTTAACAATCTTAGTAATACTTCGTTCATGGTATACACCATACATATTATCAACACGTGAGAGTAGTGTATCTTTAAGAGTAATCATTATGACTTGAGATTTGGAAGTTCTCTTTTCTAGGATTTCGCCCAATTTGCTGGAATTAACAGCGTCAAGTGCGGCATCTATTTCATCAAAAACATAAAATGGAGCAGGTTTTACGCCCTGAATAGCTAGTATTAGACACAATGCAGCAATAGTTTTTTCACCTCCACTACAAATTACAATGTCTCGTGGAACTTTGTTTGGGAACGTGGCCATAAGTGTAACTCCTGCACTAAAAATTTCGTCAGGATTATCTAATTCAAGCCATGCGTCACCGTGTAGAATTCTACCGGGTGGACAATTATCATGATTGCAATATCCATTGTCACGGGTAGTAAGTTGTGCAAAAATACTTCTAAATTCTTTATCGATTTTTTGGAACGCATCAATAAATGTATCACGTTTCTCAGAATCAATTCCGTCAATAAATTCTACAATAGCAAGTCTTTCTTTTTGGAGTTGATTTTTTCTTTCAGAAAATCCTTTATAACCAAAATAAATCTCACGATATTGTTCATCAGCTAGAAGATTAACTCTTGTCCTTAAATTATTATATTCTTTATCAAGTTCAATAAGAAGAACATCTGCTCCAGAGAAGTATTCGATAAGTTCATTAGCATTCAATTCATTTAGATTATTTTCATATGATTGTATAGAATCAGATAATCGAGAAGTATGATTTTCTGTGTTATGAGATTTTGATGTATTTTCCATTATATGTTTTTGAATGAGTTCTTTATTTTTATTATGAGATTTTATTTGTTTATCGAGAGAATCAATTATTGGTTTCATTTTTCTTGATTCGTCTGATAGTAATTTTTCTTTAGAAGTGAGTGATTCAACAATATTTTTAAGATCAGATAAATTATTTTCACTATTTGTAAGAAATTCAGATTTATCTTGTAGTTCTTGTTTGAGTTGAGATATTTGATTATTTAATTGTGATTTTTGATTTGTTAAATTATGCTCAAGATTAGCGTGTTCTTTAGTAAGAGTAGATTCATTATTTCGAATAGTTTCAGATAATGCATCAATTGTAGTAGAAAGTTCATTTTTTTCATCGTCGAGAGAATTTAATTTATCTTTTTGAGAATGTAATGAAGATTGTGAATCAATTTTATTTTTTTGATCTTTAAGTAAATTATCTATATTGATTAAATCCTTTTCTTGTGTTATTATGATTGAAGAAATAGATTTAAGTTGGTTTTGTAAGTCAGTAAGATGTTCCTCAGTTTTATTAAGAACTTTTAAGTAACGATTTTTCATAGATTGAAGATTCTTAAGTTCAGAAGTTAGTTTAGTAAGACCTAAATTTCGTGTATTTTGATTTGATTCCATTTCTTTAACTTGAGAATTTAGACTAGTGATTGCAGTTTTACGTTTTTTAATTGATTCTCTTAAGGTATTAACACTAGATTTAATCTGAGAAAGTGATTTAGAGTCAAAGAATAGATTTGCAAGAGGTGAGATACTTCCAGTTTCAAAAACAGATCCACCAGGTTCAAATAAATCTCCGGATATACTAACTGTACGATATCCTTTTTGTGATAATATATATCCAGTTTTTGCAGTAGAAACAAGAAGTGTATCTCCAAAGATAAAATTTCTTATACCAATATATTGGTCATCTACGTTTACAAAATCAGCTAAAGAACCAAGAACATCTTTATTTTTAAGTGGTTTAGCATTCTCAAAATCAACAACGTCTGAGAGTGGAATTAAAGCGACACGACCTAATTTATGTTTTTTAATTTGTGCAACGACTTGAAACAAAGATGACATATCTTCTACTATAATTGCATTAGACCAACGTTTTGTAGCAGCATGTAAAGCAGTTTTATATTTATTAGAATAATTAAAAAGATCTTCAGTACCGCCGAGATAACCTGAGACAGAATTCTCTTTTACGATAGATTGAATTTTAGATTGAACATTTTGTTTGGATGTAATTTCTTTGGCAGCTTCTACCTTAGATTCATGTTTAAGTACCTGTTGATTTGCCTTTGTAAGAATATCTATAGCTTTTGATAATTCAAATTCGATTTTTTCTCTTCTATGTGCTAATTTAGAATTGGAATCATTTATGTAGGAAAGAGATTCTTCTTGACCGGTTTTTAGAGATTCAAGTTCAGAAATAGATTTAGAGAGTAAGTTAACAACGGTTTCTGTTTCTTTTTTCTTTTTTTCACTACTGTTAAATTTTTCTTTGAGAATAGATTTCTTTGCATTTGAATTAGACAATGATTGATTTAGTTTATTTTTCTCATCGTATGAATGTCTTAATTGTTGATTAATAGTTGAGATTAATTTTTCTTCTTCGCTGATAGATTTACGAAGTGTATTTCGTTGTTCGTCGCATTTTTTCATATTGGTATTCAATAAATCACGATCTTTTCGATTATTTTCGAGAGTTTGGGACAAAGTATTGATATTAGTTTCTACCTGATTGCTATTTTTAATATTTTCAGATAACATGTCATTAAGATAAGGTAATGAGTCGTTAATTTTTTTAGTATCTGTTTTATATTCTGTAATTTTATTTTGAAATTTTACAAGTTCCTCTTTTTTATTTGAAAGATTAATTTGAACAGTTAATAATTCATCAGATGC
>sequence32
CAAGAATTAATATTGTAATTGCAGAATATGAGTAATTATTGCTCAAAAAGAATGAAATTCCTACTAAAAGTACTAAGATCATGCCGAGCATAAGTTGACGTAATTCAGTATTAAGTATGCGATTAATTCTTGAGTCAATAGGGTTTAGATTGTTGATAGAAAAAGTAGGCTCAATTTTTCTATAGTTATCCCTTGGTTTATGAACTCGATATAATTGACTACAATGATGTTTTTCAGGTAAACGATGTAAAGAACAGAGAATTAATTCACAATAAGAACATGTAAATGGTAAATCTTCTGATGCATTACAGAATGAGCACTCCATTATTATTTATTTAAAAACGTAAATAATAAATGTATAAGAAGATCGGATTAAAGGAATTTATCTAATCCTTTTTTCTCAACAGGTTTTTTATAATTTTTATTTATACGTTTTATTGTTCGTTGAGATTTAGATAATCGTTGTTGACTAATATAATAATTAGTTTCGTCACGAGTGCCTTTAGTAATAAAGGATACAACTTTTCCAGGGGAACGTCGTCCAGTTCTACCAAGTCTTTGTGTAAATCGAATAGCACTAGAAACATTATCATAAAAAACAACAAGTTTACATTCTGAAACATCTAGTCCTTCTTCACCAACTTGAGTGGCTACAATAATATCAAATTCACCTGATTTTAGTTTCTCAAGTGATTCGAGTTGTTGTTTCTGTGATTGTCCTGTCTGTCCACTTTTACCAATTAATGTACCGACATGATAGCCTTTATTGTGAAGAACTTCAAAGATTTTGTCAACCGTATCACGGTAACTAGCAAAGATGATAGCTTTATCAGTTCCTTTAAGGTTTGTTTCCATAATCATTTCTAATTTAGCAAGTTTTGGATGATCTTCTCCAAGAGATTGTAGACGATTGGTAAGTACAATTGCTTGATTAAAATCAGGATGTTCAAGTAATTTTTTGACTCCACTGGATTTTTGTTTTGATTGAAGTCGAGAAATATATTTTGAGAAACTATTAACTCCTTGAGTTTCAATAATATTAACACCATGAAGTAACCTGACTAGAGAATAGAGATTGCTTCGAATATCCCAACGTTTTGACAGATATGGGTCTTTTTCAATCTGATGACTTTTTGCAAGAACGGCTTTCAATGAAGGATCTCGTGGTAATAATTGACCGTTATTACGAAGTTTTAATGAGTAAGAAGATATAGTTTTTTTGATTAAGTTACTGATGTTTTTAATATCGTCAGTTAATTCTATTTCAATTTTTTGAACTTCAGTATTATGAATATAGGGTTTTACGTCTTCACTTTCACGATCTCGAGATTCTATATGGGAAGCATGGAGATTATTCATAATTTCTTCGACTTTAGGAGATTCACTTGGAAGAGATGCAGTCATTCCATGCATAATGATTTCGTTGTTATGTGAATAAAGTGATTGTGCAATAGGTACGTAAGCATATTCTCCAACAGCTCTATGTACTTCGTCAAAAATAACAACAGAAAATTGTTTGAGATCTATAATTCCGCGATTAATATCTAGATGTAATATTTGAGGAGTAGCACAGACAATTTGATTTTGCCATTTAGTTTGTCTTTTTTTTAATGTATCTTCACCGGTTATTACACTGATTTCAGTTTTACTAAGATTAAGTGAATTTAACAAAAATTCATAGTGTTGATGAACAAGTACACGTGTAGGTGCTAAAATCATACAAGTTTTTGTTGGTTGTTTAATCATTGATTCAGCAATAGATAATAATGCAATTACGGTTTTACCAAGACCAGTAGGTAATACAACAATAGAGTTTTGTGATTTTATTGCGTCTGCGATATTGATTTGATAATCTCGTTTATCGATAGTGTTAGATTTAACATATTGCTTTTCAATAAATTGAGATGACACAGACTTTATTATGTAATACAAAGATAAAAATTTAGACTATGAAAAAATTTGATAATTACCTTATATAAATCAACAACATAACGAACGTATTGAAAAAAGGAAAGTTCATAGTAATAGAGGGAATTGATCAATCAGGGAAAAAAACACAGTCATTATTGCTTAAAAATAGGTTAAAAAAGAAAGGATACAAGGTAGGGTACCTCTCATTTCCTAAATATAATACGAATATTGGTAAATTAGTAAAAAAATGTCTGCATGATGATAGATTTTCGGTTCAAACATCTCATGTATTATTATCAGCAAATAGATGGGAAGCAGAAAAAGAAATATATCAAAATTTAGAAAAAATGGATTTTTTGGTATGTAATAGATATCGTGATTCAAATATTGCATATGGATTAGCAAATGGTTTAGAAAAGAAGTGGTTGGAGAATTTGGATTTAGGATTACCTAAACCTGATTTAACTATTTTGATAGATATTCCAATAACAGAATCAGTAATTAGGAAGACGAAGAATCGTGACCGATATGAGAAAAATAAAAAGTTTCTTAAAAATGTAAAGTCAAGATACATGAAGCTTGCGACTATGAGGAAATGGAAAATAATCAAGGGAGATAGAAGTAAAGGAGAAGTAAGTAAAGATATTTGGAATATTGTTGTAAAAAGATACAAGATCAAGGAATGATAGTAATTGAGAGGTGAAGTTACGCAAATAAGAGATCCAGTACATGGATATATTTATGCAAATGAATTAGAATGTAAAATAATTGATTCTCCAGTTTTTCAGAGGTTAAGAGGAATTAGACAATTGGCATCTGCGCATCTGACATATCCAGGTGCACTTCATACAAGGTTTGAACATTGTATTGGATCAATGTATTTAGCTAAAAGGGCATCGAATCATCTTAGATCCCAAGAAATAATTAATGAAGATATGAGTAATGAATTATCAATAGCTGCATTATTACATGACATAGGTCATGGGCCATTCTCACATTTATTTGAAGAAGTTCTTCATGAAAAAGGAATGACGCATGAAAATATTACAGATCGTATTATTAAGGAAACAGAAATTGCAGATATTATATCATCATATGGAATTAATGTAAAGAAATTTTCTAATTTATGTGTAGGAACGTCAAAAAATCATCCAAGATTTATGAATGACATAATCGCGGGATTTCTAAGTGTAGATTCAATGGATTATTTACTGAGAGATTCATATTTTTCAGGAGTAGAATATGGAAAAGTAGATGTTCATAGAATTATTGATGCGTATGAAATTGCAGGAAAGAAACTTGCAATAAATAAAGATAGTCTGTATGCTTTGGAATCGTTAATGTTGGCAAGATATGAGATGTTTAGAGCTGTTTATTTTCACAAGAGTGTGCGTGCTTCCGCAGTAATGATAATTAGAGCAATGAATTTAGCTGATAATGAATTACATTTTACTGATCTTGATAATTTAAGTGGATTTTTAGAGTTAGGAGATGAGAAAGTTTTGTATAATATTTCAAATGTTAATTCAGTAAATGAGGAGACAAAATTAGCGAAAAAATTAGCTATAGATTATACAAACAGAAAAATGTTAAAATTAGTTTTTGAAAAGATTGTATTAGGAAGAGATAAGTTTAGTACAAAGATATTTGCGCAAAAGAAATTTCGAGAGAATTTAACAGAAGAAATATCAGATAAATCAAAGGTACCAAAAAGTCACATATTTATTGATGTATCATCAGCAACATCAGTTCCGACAACATCAACAAAAGAATCATTTAATGAGATCACTGTATTGCTAGATAAATCACGGAAGAAAGAATTTGAGGTAACAAAAGCAACTGAATTGCCTCTCATGAATGCAATATTAGGATATATGAATATAATTCGAATTTATACAACCAACAAATATAAAAAGAAATTAGAGATAGTAGTTAAAGAAATCTTTGAGAAAGAAATATTATAATTATTTAAGATAAGAACGAATTATTTGAATTATATTAACGGCAGTTTCCATTTTTAATTCCTTTGTGATATACACAGAAGATAAACCAATACCATTAGATAAATCACTAGCAAGTTCACTGATTAATTGTTGAATAGTAGGGGAGAATTTACTAGGAATAATAATTGTAGTATTTACTAAATTTGATTGTTTCAATGACATAGACATAGATCCGAAACGAGGTTCATTTCCCTCTGTAAGAGAAATAAAGCATCCATTCGAATATTTTAAAATTGATAAATGAAATGATTGATTTTCAATAGATATAATTTCATCAATTAGCTTTTCCTGCACATGATTAGTAGTTAATTATGAACTTTTATAGTTTATTTGATAAATTTCATATGGGCCCGTGGCGCAGAATTATGAAAATATGTGCAATCTGGATTAGCGCGATAGAAAATGTCGATCCTCCTAATTCACGGTGACAGCTATAAAGATTGAATTAATCAATCTTGGTTAGAGGTCGTGAGTTCAAGTCTCACCGGGTCCGTTAAAAATTATTTTTGTAATAATCTAATATTGTGCCCGCTTCGATGAATGTAATGTTATTTTTTTTAGCTACTTGTTTACAATCAGTAACAGATTTTGCAATAAATGTTTCATTATCTAATATTTCACACATAATTACAATAGGTGTGAGATGAGAAATTTCACAAAGGAATAAACTTAGTTCTGTATGACCTTCGCGTGAATTAAGAAGACCTGATGAACCAATTAACATTTGAAGATGGCCAGGTGATTCAAACATAGAATGAAAATCTGTGTAGAAATTATTATTGGAACTATAGTCGTCACATAATTGATATAAATTTGAAATAGTATTAGATCGTTGGGAATCAGTTGCGCCTCCTAATTTCCTATGATTGAAAGTTATTGAATGAGTTGAACGTTGAGATTTATTACGATCTGTATTGACAAGATCAGTCAATGATGGAGATTGAGTTTGTAATAAAATATCCCACATATAAGAGAGTTTAAGTTTTGATGCTATATCCGGAGAAATAGCAACGCAAAGAAGTCCTCCACCAAGTTGTCTCATTTGATAAATTTTTTCTGGAGTAACATGTTTTGCAGCTAACATTATATCAGTTTCATTTTCTCGTGAATCATCATCGTGTAAAAAGATGAATTCTCCTTTCTGAAAATTGTTTATAATTTCATCGATATTGGATTGTTCGTTCAAAGTACATTATCAATAAATTTATTGATTTTTTAAGATTTTGAATATATAATAGACAATTTTATTAAAGGAAAAAAATATCAAAATAGTATAAGAAATGACAGAAATTGATGAGTTTTTTAAGAGAATTAAAAGCAATTATCCATTTTTCATGCCATTATTCAATGATTTATTCAAAGATTTAGATGGTTTTGAAGAAATATTTAGAGATTTTGAGCAGGAAATGAACAACGATTTAGTAAATATGATTAACAAAATGGAATCAGAGAATAATGATAAATCAGAGCCATTCATTTATGGATATTCAATAAATATAGATGAGAATGGTAAAGCAGAAATCAATGAATTTGGGAATATTAAAACAAATTCGTCGGAAGAGAATATAGAGATATCAGAATCGCGTGAACCATTAGTTGATATAATTGAAGGAAAGAATTCTTGGACAGTAGTAATAGAATTACCAGGAGTAGAGAAATCAGATATAAAAGTTGAGATAAAAGAGTCTACACTATTAGTAACAACTTCAAATTCAAAGAATTATTATAAAGAGATTCCATTAACAGGAAATATAATTGCAAATACAACACGAGCAAGATATAACAATGGAATATTAGAAATTATTATAAACAAAGATAATACAAATAACTCAAAAAATAATCTAGTGACAATAGAGTGAAAATGAAGAAATATTTTATTAAGTATATGGTGAATTAAGAGAAATGGTATTACCAGTAACTAGATGGCAACAAGATTCAAGAGAATGGATAACAGAGCATGGGGCAAGTTATAAAAAGATGAAGCTTCCTACGTTATCTGGTGCGAATCAAGATACTGCAACAGTAAGTAAAGAAGGAAATACTGAATGTAAAAATTGTGGAGAAATGTTTGAGGTATGGGGGACAAATAAAACAGCAGCGCCAAGTTATTGTAGTTTTGATTGTATGAAACAATGGTTAGACTATCATATTGATAATAAAGATGCGAGTGCAGGCGGAATGATAAAGAAAAAATCATCAATGGGCATTCCTGCAAATTCAAAATTACCAATTACTCGTTGGGATGGACCAGCTAGGAAATGGATTTCGAATAAAGCTGCATAAATGTAATAATAGGGAATGTATTGTATGAGTGGAATATTTAGAGATATTCGTCGATTCGGTTCAAACAATAATATTTCGCAAAAGGTTTTAACATCAACCATATTTCTTTTTTTTAGTGGAACTTTGATTTTCTTAGATACAGGGGGATCTTTTATGTATGGAATTCCAATTGAGTTAATTCTTCCAATATACATAATCCAACTTGCTTTAATACCGGCATATTTGAAAAGATATGAAGTGGCATATATTATTGGAATGATTGTAGCTATATTTGTAGCATTGACTTATAGAGATGCAACAACAATTGCAAGAACAATACCAATTTTACAATATTTTCTAGCATTTTTCAGTTTTTTAGCATATAAAGAAATAAAAGAATTAAAACTCGGGAAGAAAAAGAATAAAAATTGAAAAATAATACAGTAATAAACATTGAAGGATTGACAAAAACTTATGATAAATTTATTGCAGTAAATGAGATTTCGTTTATAGTAAATGAAGGAGAAGTATTTGCTCTTTTAGGACCAAATGGTGCAGGTAAAACTACAACTGTTGAGATAATAGAATGTTTAAAGACGCCAGATAGTGGAAAAGTAGAGATATTTGGAATAAATCTAAAAGACAAGAAAAAACAAAACGATATTAAAAGGAAGATTGGGGTTATGCCTCAAAACTTCAATGCATTTGATTGGTTAACAGTAAAAGAGAATCTAGATTACTTTAGGAATCTATATGATAGTAAGATATCAGTTGATGAATTGATTGACCGTGTTGGATTAGCAAAAAAAACTGATTCAATGTATAAAACATTATCAGGTGGAATGAA
>sequence33
AACTCTCCGACGACAGTCCGGTTCCTGTGTGCTTGGCAAACTGTTCGGATAAGCCAAGGCTTAACCCTACAGCCGGAAGCTTTTGGCAATATTTCTACCAAGCTGAGCTACCGCGGGCCTGCGGAATATCATAAGATCATACCGCGGGTCGCGAGACCGAAATAATAAAGTAAAGAAAAGAATAAAAAAGTACCTAAAACATAAGATTACTATGGGAGAAACCAATAGAAAACTAGAATCAGATGAAATTGAGTTAGAACTTTCAAAGATAGATAATTGGACTTTTGACAAAGATCGCATAAAAAAGACTTTCGAGTTTAAGGACTTTGGAGACGCATTTGCTTTTATGACAAGAATGGCGATAGAAATTGAAAAAATGAATCATCATCCCGAATGGTTTAATGTTTATAATAAAATTAAAGTAGAACTTACGACTCATGATGTAAATGGATTAAGTATGTATGATTTCAAATTAGCGAAAATTATGGATGACTTTGAAAAAGTTTATCATAAATAGATATGAAAGAAGAAGAAGCTATAAAAAAAGCCATAGAATATGTAAATCTTTTTGGGTATATTCAATGGAATGAACTAAAATCAATAAATCTCAACAATGAAATGGCAATTTGGACAGTATTATTTTCAGCAAAAGAGAAAGAAACAGGAGATATAATTCCTTATTCATTAGAAGTAAATGATTTATCCGGAAATATTACAAATTTACAAATGAATAATGATTAATTTCTAAAATGACAATATCCGTAAGGTATAAGTATTCAAGATTATTCTAGTATATTGTTCAAAATGGGTAAAGTATCAAGAACTATAATCATGGAAGCACCTGTAGATGATGTTTTTATGTATTATGCGCGACCAGAACATGTTGCGGGTCACTTTCCAGAAGAAGCAAAAATGAAAGTCATTCCTATCAAGATTACTGAAGGATGGGGAGTTGGAACTGTAATGAGAATCATTGGAGAATTCGGAGGAAGAACAATGCAATGGGATAGTATAACCTGTGAAGTAACTAAAAATAAGAAAATAGTTTCTAAAGCACTAAATGGTCCATTCAAAAAGAACGTCATAACTGTTGAATTTGAAGAAATTAATGATACTACAAAAGTAACTTTTGAAGCAGATTATATATTACCACAATCTATAATCGGAATAATTATTGATAGATTACACGTAAGAAAACAAGTCATCAATGGAATGGATTCTAGTTTACTAGAAGTAAAGAAATCCGTTGAAGAAAAACATAAAGAAATTGTAAAAGAAGTTACAATAGAATCAAAAAATTAAAAAATCGGAATTCTAAAGAAAACGTCTATTATCAAAGCAATAAATATTATCGCTAGATATGGACTAGAGAATTTGAAAGCAGTAAGCGCAATTTTTTTGTCAGAAGGATTCTGAAGTAATTTTATATTGCTATATAACAAAAGTATTCCAAAAATAATTGAAATAATAAGATAGATAAGACCAAAACCAAATAGCACGAAAACCAGAGAAAATGGAATTAATAATAAAGTGTTAATAATTGTATAACGAGCAGCTTTAGCCTTTCCAACAACAACAGGAAGCATAGGAATTCCCGCTTCAGTATAATCGTCATCTTTCAATAACGCGAGCGCCCAAAAATGTGAGGGGGTCCAGATAAAAACCAATGCACCCATAAGAATTGCTACAATATGTAGTTGACCTGTAATGGCAGTCCATCCTGCAAAAGCCGCAGCACTACCAGCAAAGCCCCCAATTACAATATTCCAAGTAGTTCTACGTTTTAGCCATATAGTATAAATAAATACATAGAAAAATGAACCTAAAAGAATCATTCCAGTAGTCAATAGATTAAGAAATGCAGTAGAAATAATGGTTGCAATTGTAATCATAACAATTCCATAGACAAGAGTAATATTAGGAGAAAGTTGACCTGTAGCACTGGCACGATTTTTTGTTCTTTCCATTTTAATATCGATATCACGATCAACATAACAATTTAGAGCTGCAGAACCAGCAGAAGAAAGAGTTCCAGCAATTAGAAGTGCGATAACAATTGTGAAACTAATAGGATTTGTAATATAATTTGGGTCATAATATGCAATTAATAAGGCAGAGATAGCAACAAAATCAAGAAGATAAATTATAGAAGGTTTTGAAACTTCTATAAGATGGGAGATAAGATTTCTATAATTTAATTCTGTTGAATTAGGTGACATTCGATGTATTTCACTCGGATGGAATTACGAAAAATGATTGCCAGAGAAGATAAGCAATTCCAAAAACAAGAAATATAACGGTCAGTGTTAATATCAATTTTTTAGTTCCTTGCTCATGGTCAACATGTTCTGTAGAATCAGACAATAATACAAACATATTTAGAATGAGATTGATTATGTTAAACATCATAGTTTTTACCTAATTGCTAATTATTAAATTCTTTGATTATTTTGGGTTAGAATTAAAGAAATTTTTTAGAATCAGAAGTATACATAATAAATCAATCCCAACCATCATAATTATCATCCAGAATCCTGAAGTCATTTGTACGGATAAAGGATAAGTTTGATAGATTTGAGAGTTTCCTCCAGCAAGAAAGAAACCAAGAACTCCCATTGCTTTATCGACAGATAAGATAAAAACAAGAGATTGTATACGTGAAATCATTTTAAAACTAGAATAAAGAAATATTCCAGATAAGATTATACTAAAATGCATTATCATATGAGAATTAATGTCAATAATTGCTTTATCAAAATTAGATGGAATGTGCCAATAAAATAACAATATTATAAAAAATAACCCAGTTATTAGTCCAAATGGATTAAATCGATTATTAAGTGCAAGATAACTAGAATAATATTTTAGAATTTTTAATCTATAATTCGATGAACTAAATTTAAATGATTTAAGTATAGAATCAAGACCTGAAGCATTAAGAAATCCTACTGAAATATACAATAAATGTTCAATCATAATATGAAAAAATAGATTTTCTACTTCGTAACGTTCTAATGTTGGAGAAGTTAATAACAAAATTAGAGCATTGCCAAGGATTATTTGCAGTAATCCATCTTGAAAATGATAGTTGGTATTTTTCCTTTTATTAAATAACTGCATCTTGCATTATTAATTAGGTTCTTAATGATAATAAAGCAGTAATAATAGAAGTTCCAAACAAAGCCGTAGAAACCGCCAAATGAATAGTAACAATTGCAGGATCAAGGATAGATGTTACCGTGAGCATACCAATATAGGCCTGTATAGTAACCAAAAAAAGAGTAATGCCAGATGAAGCAATTATGTATTTAGAATCCCGATAAGAACGATAGGCGACAATAAATGTTCCAAGTATAAGAAATCCAACAATCATTGCGAGATAACGATGAGTCATTTCAATCAATACAGAAGTAGTAAGATTAGGGAGTAATTCCCCGAAACATAAAGGCCAATCAGGACAAGCCATACCTGAACCGCTTTGAGTAGTAATTCCTCCGACAACAATTAAGATATAGATACCAATAGCAGAGGAAATTGAAAGAGTCTTTAATGGATTCATTGATTACTGATCAGGCCATTCTTTCATACCATAGTCTGCGAGTTTCCAAGGGTCGTCTTTATTTTCGACCGCAGGGCCACTATACCAACTAGATAAAATATTATACAAAAATACAAGAGCGCCAAATGCAATCAAAACAGCGCCAAATGTGGCAGCAACATTAAGGGTGAAGAATTCTGGAAGATATTGATAGTATCTTCTAGGCATACCTTCAAGACCTAAGAACAACATAGCTGTGAATAAAGTATACATTCCTACAGTAGTAAGAGCGAAATGAAGTTGTCCAAGCATTTCATTATATTTTCTACCAGTCATATATGGGAAATAATAATAAATTCCTGCAAAAACAGCTTGAGCGGAAACGCCGAATAGAACATAATGTAAGTGACTTACTACATAATATGTATCTTGAAGTTGATAATCAAGTGGAATATTTGCAAGAAATACACCTTCAACTCCTTGAATAATAAAACTTAGAATAAAGCTTAGAGCGAAAAGCATAGGAGTACTAAGTTTTAGTTTGCCACCGTATAATGTTGCAACCCAATTGAAAACTTTGACACCAGACGGTATGGCAATAGCCATGGTCAAAAACATAAATGGTACTCGTGCGGTAATTGATAATCCACTAGTCCACATATGATGTGCCCAGACACCAAATCCAAGGAATCCAATCAATGCAGTTGAAACGGCAATAGAAGTATAACCAAATATCTTTTTTCTTGACATACTAGGTAAAATTTGTGAGACTAAGCCCATTCCAGGCAAAACCATAATATAGACAGCAGGATGTGAGTAGAACCAAAACAGATGTTGCCACATTATAGGATCTCCTCCAAGAGCAGGATTAAAGAATCCAGTTCCTAAGTTTCTATCCAATAATAATAAAGTCAAAGCCATGGCGAGAACAGGTGTTGCTAGTGCTTGTAAGAAAGCAGTAGTTAATTGGGTCCAGACCATTAAAGGCATGTTTCGGTAGTTAACAGAAGGAGCCCGCATTTTCATAATTGTAACAATAAAATTAAGTGCTCCAATAATAGATGATGTTCCGAGTAAGTGAAGTCCAAGAATAGTCATATCCATTCCCCAACCAGCTTCATAGATAGATAATGGAGCATAAGCAGTCCATCCGACATTTGGCATTCCTGCCCAGATAAGGAATCCTGCAGGAGGTAACATCCAGAAACCTAATGCATTAAGTTTTGGGAAATACATATCTTTCGCTCCAATGTATTTTGGAACAAGATAATTTCCAAAACCTGCCCAAGCAGGTATTACAAATAGAAATATCATACTAACGCCGTGAATTGTGAAAAGACTAGAATATGCTTCTGGTGCAATAGAACCTCCTCGAGTCAAACCATAACGAACAAGTAATGAAGCAAATCCTCCCATAAAGAAAAAGAACAGAGAGAATACAAGATACATAATACCAATATCAGTATGATGAGTTGTAGTCAGAATACTTTTCCAACTAGAATAGAAATTATGGTGTTCTTGCGTTGTTGTTTCTTTTTTAACTTCTTTAATTTCCATCTTTTATCATTCCTCAATAATTAATTTAGTTCTCATACCACCATGATAAGCACCACAGAATTCTGCGCATTGAATCCAATACTCGCCAGGTGTTTCACCACTAATAACTTGAACTCTAGTTTTACCTGGTATTATATCAACTTTAAATCCCATTTCTCTAACGTATAAACTGTGAATTACATCGACGCTTTCAAGTTCAAGTCTAACTATATCACCTTTTTTAATTATTAGTTCTCCAGATTCTGATCCATCAGGATAAATAAATTTCCAATACCATTGACCTGACTCAACTTTAACAATATAATCAGGTTCTCCATAATAATCAGGATTATCAAGAGCGTCTAAAACAGGAAGAGCTAAAGCAGCCAATCCAAACAACAAAACAGTACCTCCTATAATAGTAGCCCATTCTAATTTTTCTAATGTTTCCATAATTAGTCAAGTCCTGCAGATTGTGTTCTGTCCCAGAATTTAAGAATAAGATAAAAGAATGTACCTACAAACAAAGCAGAAACGGCCATCCCAGCAACATATACAATATCATAATATGATTTAATTAAAGCGGCACGAGCATCAATAGGATCTGGATACCAAGAGATTAACAACCCTCCACCTAAAATAAACAATACTAAAAAGGTTACAATAACAGTAGATCCCCAGACAATTTTATCAAATGTTGAAAGTATTCCCAATCTTAAGCCAAATTTTAGTGCATTGATTTAATATATTAGGATTTCTACTCCTTTCAGATTTGGGAAGAAATTTATTTAAACCGATTTAACATAATTGGATCAGGTTTAATGACATTTTTTCGAAGGCGTTTTTCATATAATTTTGGGCCATAATAGATATTTAAATAGGCAATAATTTGCATGGTGGCATGAAAAGCAAGCATAGTAGTAAATGAATAGGAAAATATAACAAGCATGACTATTCCGGTAACAAATGCTATGACATGAATGATAACCGCAAGAATCATTGCGAATTTTCTGTATTTAGAGACTTTATCAGAGATTTGTTGCCTTCTAAGTTCCTCCAATTCAGATAGATATGTAGAATGGTTCAATAATTTTACAACGTATAGAATTTAATTAAATGTTATCTAAAAAAAAAACTTAATATGTGGTTATCGTTATAAATTTTTGAAGTAAGGATGTCAGAGAAAGAAGAAAAGGTAGAATTTGAACATCATGTAGATACTAGTGAATTACATTCTTACATGCCTGCTTTAGTAGGTTTGGCTGCCGGGGCATTTGTTGCTGCGGGCGTAATATTCATGCTAAAAGGATTTTCATTACAATTAGGTGCAGGTCTAGTTGGATTATTTGTTTTATTGATATTCATTTTTATTGGCGGAGAGATTCCAAGATGGCCAAAAATTACAAAAGAATCTGAACACATGGTAAAAGCAGGAGGTACACCTGGAGAGTTTCATGAGATAGGAGATGTAGGATTTCCAACTGCTCTTTTTATTCTTTCGGAAATTGCATTTTTCGGTGGAGCCTTTGTAGCATACTTCTATCTAAGATCAGCTTATCCAGTATGGCCATTAGAAGGAACACACCATCTAGATGTTGCAATTCCAAGTATACAAACTGCATTATTAATTGTCAGTAGTATAATGATTGAATGGTCTACAGCAGCAGTTAAAAAAGGAAATCAAACTGCAGTAAAATTAGGTTTTCTCGGAGCAGTAATTCTTGGTTTAGGATTTGCAGTAATACAAATGGGTTACGAATGGCCACATCTTCTTAGTTCAGGCGAACTAACACCACAAGACGGATTGTTTGGAGCTTCGTTCTTTGTACTTACAGGAATTCACGGAGTGCACGTAATAGCAGGAGTTATTGCAAACGCAGTTGTAACAA
>sequence34
CAGATATTGGTTCTGGTTCTGGAATTGGTTCTGGAACAGATATTGGTTCTGGTTCTGGATTATCACTAACGGATAACCAATTAAGAATATCAGAAATTTCACGACGTTCAAGTATATCTTTATCCATCATATCCATTGTACTTTGACTAGCACGTTTGAAAGTTTCACCATCGATTTCGTCAGAGTGATATTGAACTTTAAGAGTACTAAGGAATTTTTCAGTTTTTATTCGGCTAGATTCGATATTATCTACTCTATTTTGTAATTTATCAACAATTGTACTACATGATGCTTTAAGATTATTAATTTCACCCTCATAAGATGATTTAAGATCATCAAAGGCATGTTCTGGAATTTCACCTTGTGCTCTTAATTTTTCAAGTACTCTGGTTCTTTTTTTAGCAATTTGTGTATTTTTCTTTAATTTATCAACATCTTCTTGCCATTCAGGTAATAAAATAATGGTTTCTGAACTTCCATCAATAATAATTCGTTCATGAGCATATTCAAAAAATTGACCATTTCCATGATCAACACCTAATGCTTTCATATTTCCTGAACTATCTAGTGAAAAGCCAATTACTTGACCTAGATTTCGACCATATGTGTCTTTTACGGGTTTTTTTACTAATTTTTCCAAAGCTTGAGCGTGCATCATATACAATTACCTAACATATCATACAATTCACAGACACTTATCAAATGAAGTAAACTATTTTACCTAAATGAGTCAAAAATTATAACGCCAGCAAATAGAATATATAATTTAAATTATAGTGATTCATTGTGCAAAAAAGATCAATAAAAAGTAAGTTCTTAGATTATTACGAACTTACAAAACCGAATGTTTGGTGGCTATTAGTATTTACTGCTATTGGTGCCATGATAAGAGCAGGAGGTGTAAATGGTGAATTTTCAATTAATACCGAAATAATAATTTTAGTGATATTATCAGTGACTTGTGGAACAGCCGGTGCAGAAGCTATTTCAAATTACATAGATAAAGATATAGATGCAATTATGAAACGAACAAAAAATAGGCCAATACCTTCAGGAAGAATTAAAGCTTCTAATTCATTAATATTTGGATTAATTCTATCATCTATCGCATTAATTACTACATTTACGATTGATACAATAAATAATAGTGCATTACCAATTGTAACATTTCTTATGGCATTTGGATTATTTGATTATATAATTGTATATAGTGCATATCTAAAAAGAAAAAGTTTTACAAATATTATTCTTGGTGGATTTTCTGGAGCGATGCCTGCATTAATTGGATATACTGCAGTTTCAAAAGTTATTACAATGGAAGGATTATTAATTTCTGCATTAGTATTCATATGGATTCCAGCTCATATTTGGAGTTTATCATTAAGATTCCAAGAAGATTATTCCGAAGCAGACATACCAATGTTACCAATAATTGTTAGTTTAAAAACATCAATTAGATTAATTGCATTAAGTTCAATATTATTAATTATATTTTCTCTAATGCTTTATGAAATTGGAATAATTTATACAATAGCTGCAATAATAAGTGGAGCAATTGTATTATTAGCAAGTATTAAATTACTTTTAGAACCTACACAAGAAAAAGCATGGACATTGTTTAAAATATCTAGTCCTTATCTAGCAGTATTATTTATTGCAATGATATTAGATGTTATAATTAATTCATTATAGAGAATCTTTAATCAGATTCTTTAATTCTTCGTCAGATTTATCAGTAGGATCAATACCTAATTCCTTAGCTGCTTTTTCTAACTCAGCACGTGATTTTGAACCTGATTCAGGTTGAGAATCTTCAGGTTTAGAGTCTGTTTTTCCTTTTTCAAATTCACCTTTAGATTGGCCAAGTGAACGTGCCAATTGAGGTAAACGTTGTGCTCCAAACATTAGAAAAATAATTAATGCAACAATAATAATCTCTGAACCGCCAAGACCTGGTAATACCATAATTATAGTATAAATAATTAGAATTTATCTTTTACTAGTAAAAAATTAACTAAACATACTTTTATTTTTAGGCATAATAAGTGATTTAGAATTTTTAGAACTAATTTTAAAATTAATGCCTCTAATCAACGCAATAGGATTATTATTAATTTTACCTAGAACTAATTCAGCAGAAGAAGCCAATTCATCAGCAATTGCAATAGATGTAAAATTAATATTTTTATGAAATGAATCTTTTGAACCTTTATAATTAAATAATGGATGAATACCAGAAATACCAATAGCGACATCAATTTGGCCATTTCTAAAAGGTCGTCCAAATGTATCAGAAATAATTACACCAAGATTAATTTTGAATTCTTTTTCCAAAGAAATTCGAATTTGTTTAGCAGATTTATCAGGATTAACCGGTAATAAACAATAATAATCAGATGGAATATTTGATTGATCAATACCAGAATTTGCACAAATAAAACCATGATGGGTTTCTGTTATAATAACACCAGGTTTTTTTTGAATAATACGTTTACTTTCATTTAATATTAATTGAGTTAAAATTGGATTTTTATTAATTGATTTAGATAATTTAATTGCAGATTTTTTTGGAATAACGTTATTTTTATGAATAAGACGATTCTCAGATTTTGAAATAATTTTTTGAGTAATAACAATAACATCTTTATTCTGTAATTTAATACGATTTTTTTTCAATGCTTGGATAATAATTTTTGCAATATTATCTCCAGAATTAATTTCAGGAATACCTGAAATAGATTTTATAATAATATTATTAGATGTCATCGTATATCAAATTACTTAGAATCACGTTTACCAATAAATGTCTGGATTGAATCATTTCCTAATTTTTGGCTCAATGTATTATTAATTTCAATAACAAGATTTAGACCTTTAAAAGTTATACCACTATAAATTTCGAATAATGATGCACCTTTATTCAATAAAGACCATACTTTTTCTCCATTAGTTATTCCACCACAAGCAATTATTGGTAATTTTGAAAATTTATTATGAACAGATTCAACTAATTTTTCAGTATATGGAAATAATTGATCGCCACTAAGACCTCCATATTTATTGGAAAAATTAGAAATATTAAATAATTTTTTAACGTCAATTGATAAACTATTATTTAATACAACCATATTACCGCCATTATCATAAAATTTTTCAATCATATTAAATTTATTAGATATGTCATTTTTTGATGGAGATAAAGAAGAATATGGAGCAACTTTTAAAATTTTTATTTTAGATGGAGCATGAGAATTTAAAATTGATATTAATGAATTAGTAATTTCAGAAGTCTGTATTAATTTATTATATTCTGTATTAGGTGAACTTCGACTATCTTCATATCCGTCGACAAACTCATGTGTGGCCTGTATAATTTCTTGAGAATTTTGTAATAAATTATCAACTGATTCATTTTTTGATATTCCTGAAAAACTCAATATTAATTTTGATTTTTTATTTCTCTTATTAGAAAATCTCTTTAACTTATCAACAGTATAATCAAGTCCTTCACTTGGATAGCCTTGAGAATTAATAATTGATTGATTTTGAGGATTTACAATAACTCGTTTTATTCCTTCAAGAGGTTTTTGAGCATTTCCTATATTTTTATTTTTAATTACAGTCCCAATTGTAACAAGGCCAAAGACATATGACATTGGAACAAATAAATCAGAATTTTTATCAAATCCAGATGCCAATCCAATTGGATTGGGGAATTTTTGAGAATTTATTTCAATTTCATTAGAATTGTTAGATTGAAAATATTTAGAATTATCTTTAAGGCTTTTAGAAAGCATTAACAAATGATTTTTTGATTTTTCATGTATAATTTCAGCTTGCGATGAATTTGCCGTATCATTATACCGAAGATACATGTATTTCCTATAAAGAGAAAATATAACAGGATTCAAACTTGCATTAACAAGGTTAAATCTATTCATGATTTTTTTAGTACAAATATAGTATAAGAATTAAACCTTAATACACGAATATTACATCATTTTTATCTATTATTGATGAAACGTCTGCATTGGAAATTATTTTAATACCTTGATCAATATCTTTTCTAGAAATAATTGATTTTTCTATATCTTCAAGAATTGCATATACATTTCCATTTATTTCATTGGAAATCCATTCCCAAGAAGCATTATATTCAGATTCAGGAAAATCATTTTTCCAATTTGATGAAACAAGATATTCAACGGCGTTATTTCGTAACAAGAAAGATAAATTCATACCTCCTTCAAGTCCTAATAATAAAGTCAAACCATTTGGATCAATGGAATCAGTAGTTAGAATTGTAGGTTCATTATAGATTATTAAAATATTTTTAGTATGAACAGTTTTATGATGCAATATAAGAATTCAATAAAATACTTACATAAATGTATTTAACGAATAATTAATAAATAAACGTATGAATAATAATTCAATTTGTATATTTGCTGAATCAGGAGAATATGTCAAATTTCATAATTTATTATCTATAGCAATGGCTTCTGTAGCAAATGATATGGAAGTAAATATATTCTTTTCATATAGTGCTTTAGAAAGATTAAAAAAAGGAAATACAAATAATATGACATTTAATGATGAGAATCTAAAAAATAAATTCATCAATTCAATTAATTCAAATAATATTCAAAGCATAGAACAAATGATAGAAACGTTAAGGGAAACTGGAATAGTAAAATTTTATGTATGTAGTGCATCATTAAGTATAATGGAAATTAAAGAAGATGAATTATTAGCAGTAGATTCAATTATGGGTTTGTCAACTTTTCTAAATAAAGCAGAAAAAGCATCAATAGTATTATATATTTGATAAAAAAAATTGGGCAAAAAAAATGATTACTTGCCCATTTCTATTTCAATTGAACTTACATTACTCAGTTCATTAGTTTCACGATTAGGAACTTGTTCAGTTGCAATGCTTATACTTTTAACATTAACACCTTGGGTAAATCTTCGTGTTAATATTTGTGCAACATCAACTGCAGCACTAATGCTTCTTCCACGAGCTTTGATAGTTACTGTATCAGAACCACTTTGAAGTATAGTCATACAGGCCAATACATAATTCATTACACGTTTTTTACCAACATAAATAGTATTAGGATCACGTGCAGGTTCATTAGAAGTATTATTATTTACTTCATTTGACGTTGATACGTTAGTTGTTTCAGGAGTAGTTGTTTCAGGAGTAGTTGTTTCAGTTGTTACTGGAGTGTCCTGATCAACGGGGGATTGTGTTTCTTCATTGTTAATTGGATTGATTTCTTCGTTCATTTTTATTCACTTAGTTATAATTCGTCTTAAATAATAATAAATATTGCGCATGATTAATAATCAAATACTTCAAGTATGACGATTAATATACAATATTATGAGTAAAGCATTTGTTTTATTAAATGTAAAATCAGGTTATGAAGACACTGTTAGGGATGAATTAACTAAAACAAAAGGAGTTTCAGAATCTCATGCCATTTATGGCAAATATGATTTTATGATATCAATGGAATCTTCATCACAAGATGAGTTAAAAACTGACATATTTTCACTTAGAAAAATGTCAGGTGTAACTTCCACCCTAAGTATGATTGTAATAGAATAGATTCCACAAAGTTCATATAAAGAAGACATGATATCAGAATAATATGCCTATAACTGATTTACAAAAAAAACAATTAGCGCAAAAAAGAAGGCTTTTCTTCAAAATTTGTTTAAAATGTGGTGGAAAAAATCCTATTACTGCCACCAGATGTAGAAAATGTAAAAAAACAGACCTAAGATTAAAGAACAGATCAATTGGCATCAAAAAAGGATAGAAAATAATTAATGGGCCGGGAGAGATTTGAACTCTCGATCACCACTGTTTGCCCAATATTATTTGTGAGAGTGGTATCTTAACCAAATTATCCGAAACTAGTCACTAGACTACCGGCCCTTGGTAATAATGATATCAACCCTAATTAGTAAGCTTTGATTAATCAACATTAGCCCCGAAGCCCTGTCGATGGATTAGATCCAGCAGAATCTAGTTGGTCAAAAGTAATGACTATGGACACGAGGTTCTGGAAATAGGAAATTCCTCGAAACTCCAGTTCGAATCTGGGCGGGGCTATAATTTCTATTTATTCGTCTACTACAGTAATTTTTCCAACCATCCAAGGATGTGGTGGGCAAACATATTCGAATACTCCAACTTCATTAAATGTATAACTCCATTTTTTATTTAAAATAAGTGGACCAGAATCAAATAATCCATTTATTTCAAATACTTGATGATAATTTACATCGCCTCCTGCTCCAAGATTTTCTTCAGTAGTTTTCCATGTAACAGTAACACCTTTTTGTATCGTTAATTCCTTAAATTGAAAATCACCTTTTAGTTCCATCATAAAATCTTCTCGAATAACAATCATTTCACATGATTCTACCATATCAATTTCGACTTTGGCAAAACCAAATTCACATTCAAGTTCTGGTTCTTCAACAACAAGTTCAGCAACAGTAAATGTTTGACTAGCTTGTTCACCAACTAGTGAATGTGAGGAATCAACTGCGCCGACATAAACAGTATGTTCTCCAGGTTGAACGTCTGTAAATATATAACTAAATTGATAATTAACCATAATTCCACCAGCAACACCAGATTCACTTAATTGATTATCTAAATTAATATGCCAATGATCAAAATCACCATCGATATTGACACTAACAGTAACACTATTTCCTTCTATATCGAGTGAAGAAATAGAGATAATAGTAGAAGATTGAATTGGATCTGGATTTAACATATCAGGTACGGGTTCAGGTTCAACTACAGGTTCTGCAACTGGTTCAGGTTCAACTACAGGTTCTGCAACTGGTTCAGGTTCAACTACAG
>sequence35
TATACCTGCCCAACTAGTACCACCCATACCAGCAATATTTATTGCGTCGACTTTACTAGCAGATAGTTTTTTAGCAACAGAAGGAGATATTCCTGAACCGACTTCTTTAACAATTATAGGGACGTTCAAGTCGGAAGATAGTTCTTTGATTCGAGATAATACATTAACATAATTAGATTCACCTTCAGGTTGAACTAGTTCTTGTAGAGGATTAAGATGAATAGCTAAAGCGTCAGCGTCGATCATTTTTAATAATTTTTTAATAGATTTGTGATTCAATCCTTGAGAAAGTTGTGCGCCACCAATATTTGAATAGATAAAGGCGTTTGGGGCATTTCTTCGTACGACTTTGAAGCTTTCGGCAAGATCATTTGACAATAATCCAGCACGCTGGCTGCCAACTCCCATACCAATTCCAAATTCTTCAGCAGCTTGTGCCAATCTCGTATTAATTTTTTGTGCGGCAGGAGTACCGCCAGTCATAGAATCGATTAAAAATGGAAATTGAAGATTATGACGAAGAAACTTGGTAGATGTTTTAATATCGTCGAAATTGATTTCGGGTAATGCACAGTGAAATAATTCGACGCATTCTAAAAGTGTGGTTTTATTAAGTGCATTAGTATTTTTCAAAGCAAGTTCAATACCTTCTTTTTTACGATCTTCAATAATATTTTTAGAATTTTTTTTACTCAACGTTTATCACCAATAAATAAGGTTCCTACATGTTCACCCATTAATGCTTTGATTAAAGTTTTGGAATTTAATCCGTTGGTGATTTGAACATCGATACCAAGATTAGCAATTTTTAGACTTTGAGTTATTTTCGTTTTAATACCACCAGTAACATCATAATTAAGTTTAGAAAATTTAAGATTATGCATATTATTTTTAATTATAGGAATTAATGTAGAATCATCATCAGGATTCTGGTATATACCGTCGATATTTGATGCAAAAATAACACGTTTTGGATTAAGTAATTTACACAGATCAGATACAATAAGATCACCAGAATATATGTAAAATCCATTTTTAGCAAGTAATACATCACCAAATGTTATTGGAATTAAATCAAGAGAGATACTTTTTTTCAATATAGATTGCCAGTTGTTTATTATTTTTTTATTATGATACATATACATCGGGGAAAAAGAAAAAGTATTAACATTATTTTTATGAAAGATTTTAACAAGCTTTTGATTTAATAATTGCATAGAATCACGAATCTTAACAACATGATTAGTTGATTTAGTAGGTTTATCAGAGATTCTATAACGTTTAGCATAGTAATGGCCAAAAGAACCAGCGCCATGAACAATAATCAATGGTTCATTGAATTTTTTAATTACTTTAGATATTTTTTGAACAGAATCAGAATTAAATGTAAGAGGTTTTGATTTTTTGGTGATAACTGAGCCTCCTAATTTAAGAATTGTTAATTTGTTAGCCATACTTTTACACCTTTTTGTGGAAGTTTTACAGAGAATGTTTCATAATTCATACTATTCAATTCATTAACAATAACTCCGACATGCTTAGAAGGAGAGATAGCAATTATTGAACCGCCTCCGCCTCCACCAGTAATTTTTGCTCCATAAGATCCTAACTCAAGACATTTTTCAATTACAGTATCAGTGGCTAGAGAACTTAGTCCAAAATAATTTAGAGTGGAATTAAAGAAATTGAAATAAGATCCCACTGCCAAATAGTCTTTTTGTGATAATGCAGAAAGCGTTTTTTTAGTTAGTGTATTTGATGAATTAACAAGACTGTGAAAAGAATGAGGTTTTTCATTACGAAAATTAGTGAATTTATTTATCATATTTGATGTTTTTCTACGCTTACCACTAATTGATACAATTAATTCAGGATTATGTTTAAGATTGATTCGTTTAGGATCAAATCCTTTACGAAATGATATAATTCCTCCCATTATACTTGTAGCGACATCTATGCCTGATGGATTGCCGTGGATTTTTTTTTCGCCATACATAGCAAGATTGAACAATGTCTTTCTATCAAGTTTAGTATTGAAGAGTGAAGAAATAGAAGCAGCTGTAGCCACACATAAAGCACTAGAAGAACCTAAACCTGAGCCACGTGGAATACCAGAATCAACAGTAATAGATAATGGACTTTTTTCTCCTAGATATTCAAGAGTTTTATTACGAACAACATAGACAGGGTCATTTTTTATATTATAATTTGTTGAATGAATTCTCTGATTTTTATAAGTTATATTATTATTTGGAGAAAAACTAGAAGAGATACGAATTCTTTTATTTATTGCAGCTGCCAGTGCTTGGGCTCCGTGAACAACAAAATGTTCTCCTGTAAGAATGATTTTACCTGGTGCTTCTGCAATTGAGATCAAATTACTATTTATAATACATTACAACCATAAAAATCAGCGGGTAATTGTAATAGAAAAATGAATAGGATTATTCGTCGTCGACTAATTTTGTCTCGAAATCCTCAATTGAGTAAGACAACGATTCATCTGAAGATAATTTACCTGATTGTTGAAGAACAGATCTTGATAACAACCACATAACTGCCGCCAATGCTTTACGTCCTCTATTATTTGCAGGAATAACAAAATCAACATTTTCTGTAAGATTATCAGTATCACATATTGCAATAACAGGAACACCAACTTGAGTAGCTTCAATAACAGCTTGTTGATCCATTGAAGGGTCAGTTACAATAACTGCTTCAGGGTCTAAGTGTTTAGGATATAATGGATTTGTAAAAGTTCCAGGCATGAATCTTCCTGTTAAAGGAATTGTACCGGTAAGTTCAGTAAATTTTGCTACCGGAGTTTTACCATATTCTCGAGATGAATAAACAACCACACGAGATGAATCAAGATTAGAAATGAATTTTGAAGCAAGTTCAATACGTTGAAGAGTTTTAGCAACATCAATTATATGAAGACCATCAGGACGAGTTCGACTAATAAAAGTTGACATGGATTTAGTTTTAACAAGAGTACCCACACGAATTCCTGTAGATAATAAAACTTGTTCAGACACGTGTTGAGTAATAGAGCTATCTAAGGTACCTGTACTTTCAACATCTTCTGTTTCAAAATTAATTGACATATTTATTAATCCTCGCAATAGGCATCGACATGTTATTATTTATAAAGTTAGTTTCCTCAATTCTGAGAAGTTCATTTAGTTTTGAAATTCTTTCACCGCCAACAACTCCACTTTTCATCATGATAGCGCCAGAACCAATAGCAATATGGGCTAGATGTCTATCTACTGTATCTCCTGATCGGTGAGAAGCAATAATTGCATAATTATGCTCATTACATAAATTAGCAAATTCCATTGCATCGCCTAAAGCACCAGCTTGATTTACTTTCAAGATTACGGCATTACCAGCTTTTTGATCTATTCCTTTTTGGAGTATAGATGTATTTGTAACAAAAAGATCATCGCCAACTATCAAACAATTATCATTTTTAGATGATAATTCAGTAAAATCAGAAAAGGCTTCTTCATGTAGAGGATCTTCAACGTAAATGAGATTATATTTTTCAATTAGTTCAAGAACATAAGATATTTGTTCTTCAGTATTTCTAGTTTTATTTTCACGAGAATATAAGTAAAGATTTTTATCAGGATTCCAAAGAGAAGAAGAAGCAACGTCTAATCCTAATCGTATTTCAAAGCCTACTGAATCTGATATAGTATTAATTGCTTCTTGAGCAACTTCAAGTGCTTCAGTATTTGATAATTGTGGAGCCCATGCGCCTTCGTCTCCTTTACCGCCGGAAAATTTTGAATCTTTCTTATCAATGATTTTCTTAATTTCTTTATGAACCATTAAATTAGCTTGAATTCCAGAATGGATAGAATCTGCACCAAGTGGATAAGAAAGAAATTCTTGAATATCAGTGGATCCGTTTCCCGCATGCATACCTCCACCAAGAACATTTCCTAAAGGTAAAGGCATTGCTGCAGCTTTTCCATTGAGTAGTATTTCATAAATTGGTTTATCAAGAATTTGAGAAGCTGCATCTACTGATGCAAGAGATATAGCATATGCGGCAGAGCCGCCAATATTGGAATAATTATCGGTTTTATCAACCTCTTTTAAGATATTTTTAAGATTGTATATATCAGAAGTATCTGCGCCGATCAGATCAGATTTATAGGTATCAAGATATTCTATTGTGTCTTTACATTTTGAATTTCTAAAAGAAACTGCTTCAAATTTACCAACACTTGCACCAGCAGGAGAAGATGCAGTACCAATAATATTATCAACATATACGTCAACTTCGATAGTTTCGCTACCACGGCTATTATAAATTAAACGAGACTTAATATCAGTGATTTTGGTCATAATTAATATTTCCTCAAGTATGTGTAATTATGATAAATCGAATTCCGCTCTTTTATCATGTGCGCTTTCATGATACTGAATTATTTGATCGATTACATTAGAATTTGATAGTAACATCCTTCGACAACAATATCGTGTGACTTTGAGATCGTTAAGAATATCAGCAGGATTTTCACCATTAGATGTGCGAGATTCTAAAGTTTCAAGTTTATCAGCAATAACTGATCCGCAACTAAAACAACGAATAGGAATAATCAAGAGTAAACATCAACAACCTATCTATACGATTTTTGTTTTCTTCGACGTGCACTAGGTCCTCCAAATTTCTTAGATTCGCTGCGACGAGAATCACCAGAAAGAAGATGTTGGTCAAAATCAGCAATTTTATTTTTTATTTCTTTAGTTTTAAGATGTGAAGTTAATGCTCTTGATATCGCAATAGCGCAAGCTTCTGCTTGACCCATATATCCACCTCCAGAAACTCGGATATTAATATCAACTTTATCGCGATGATCACCAATTAGTTCCAATGGAGTTAACATTCTTTCTCTGGCCATCAATGGAGTAACAATTTCAACAGGAGTTTTATTGATGAATACTTTACCAGTACCTTGAGTAATCACTGCAGTAGCTTTAGCAGTCTTTCTGGAAGCCGGAATTAACTTGGATTTCTTTTTCATTCTAATTTTCTCCATCCCATAGATGAACATAGTTCACCAATGGTAGTATAATAAGATAGTGACCTTGGAGCTAATGCTGTTTCAATAGTTTTTTGTTCTGCTTTTTGATATTTTTCAGGAACAGAAATATATACGCGAAGAAGTTTTTTAGCTGCATTTCCTTTTGGTTTTTTATAAGGCAACATACCTCTAACCATTTTTTCTATATATGTGTCAGGACGTCTAGGATGGAAAGGACCGTGTTTTGGATGTACACGACTAGTTATTTCTAACCTTAATTCATTTTCTTTAAGAATATTTGCTCTACTGCCTGAAATAAGAATTTTTTCAGCGTTAACTAAAACAACACGATTGCCATTTAGTAGCATTTTAGCGACTACAGAACATAAACGTCCTGCTAGGTGTTTATCTCCATTAATGACAATAGTAGATTCAGAATTAGCCAACAAAAATCTTTACACCTTTTCCTTCGGGATTAGTTTCAACAAGTTTTTCAATTAACATAGTTGTTCCTCCAGCATTTTTAATTTTTTCTTTAGCACTTTCAGAGAAAGATACAGCACCAATAGTTATTGAGTGTTCAATTATACCAGCGCCAAGAACTTTACCAGGAACAGCAATTACATCACCGGTTTTTGTAACTTTAGATAATGTTCCAACATTAATTTCATGATTATGTTCAAGTTTTTGTACAATATTAATCCAGATTTTTGCATGGTTTTTACGTGCAATACGTTTTATTGATTCAATTCGATAATCATTAAATGTCATTTTATGCAGATTCCTTAATTGATTCATTCAGATCTTTCAATTTTGTATTTAATATATTTGTAGCTTGTAATAATATTTCATTAGCAGGTAAACTTCCTGTCGATTCTATTGTAAGATGGAATTCAGATCGATTATCAGTATCAGTAAGTGTAGATACAGTAACAGGCTGCCATTTAGCATGAGTTCTACCTTTACCGAGTTTTGCGTAAGCTTCCAATTTTATTTTTTGATTTGGTGCAAGCTTAATAATTGGAATATTATCAAGATGAGGTTTTACACGTGTGTCTTCAGATACTAAATCACCAGAGTAAATTGTTTTAATTTCTTCGGTGGCAACAGCATCAAGAACTAATAAAACTCTACATTTAGTACATCCTAAAGATGTTTTACATGAACAATCTTGTGGTAAAATATATCCTTCTAAATCAGTAGTTAGAGGGATAAGGCCTAAACGATGAGCAAGTATTTCGTCGTATAAGACTGAAGAATTTTCATGAATCACGATTTCGTCGATAGCCATACAAGGAACTTCGCTTATAGCAAATCTCCTTAAAGCATTAGCATATACTCTATCTATGCCCTTGAGCAGTAATTTTACGTGAGAATCCGAAGATTCTAAAATTTTTATGGTTGCCAATTTATGTCTCCTTAATACCTTAGTAAACGCAGAATATTATAATTAAAACCTTATCATTTTTCGATAAAGATTAATTAGAGGCATCATCTACATAATTATAAAATTGTCGACCGAATTCAAGTACATAGTCAGGATATTAGGTAGAGATGTCAGTGGCACAAAGAAAGTTATTCAGGCACTATCCAATATCAAAGGAATAGGCAATAATTTAGCCCATTATATTGTAAAATCATTAGAAATAGATAGAGATTTGAGAATGGGTATGTTAACTGATGAACAAATCAATGCAATAGAAGAGAATATCAAGAATATAGACAAGAAATATCCTGAATTTAATCTAA
>sequence36
AATAGAATATTTTGCCCCAGTAGCTCAGATCGGCCAGAGCGACTAAATAAAGTCGAACCTCGTAAGTAGTAGGTCCTGGGTTCAAATCCCAGCTGGGGCTTGATTTATATAGAAAATAAATGGGTTATTTAGATATGGAAATATTTAGTTTTGCGATTCTTGCATTATTCATGGGGATTAAACATGCGTTTGATGCAGATCACATAATCGTTGTATCGAATTTTTTATCTAAATCAAAGAGGTTAGATGAATCGTTAAACATTAGTTTAAGTTGGGGTGTTGGACACATGCTCACTGCAGGAATTATAACAACATTCATCTTTTACAATAGGAATTCAATTCCTGTGATTATGTTACTGGAGAATTTTGAGATAATTATTGCTTTGATAATGATAGTAATGGGAATAATTAGTTTAACAATTGGAATTCCATTACAGCATAAACATGAACACAATCATGAGGGAGTTAAACATGAACATGTACATACACATCGAGTTGGGGGATTTATTAATAAAGACATAAAATCGCATCATGCATCGTTCGGTGTAGGGATAATTCATGGATTAGCAAATAATGACGAGTTATTCATTGTATTGATTTTAGGTTTAGGAATTGGTTCAATTACTACATTACTTGGCGCTTTGGTATTATTCTCAACGGGAGTAGTATTAGGAATGATTGCATTTAGCATAGTGTTATTTAGATTTTCTAATGTGTTTACTAATAATATTAAACTGATTATAAATTATGGATTCGGAATTTCTGCAATAATATATGGATTATATTTACTCAATGTAATTACTGGTCTAGAAATAATCTGACTTATTCTAAGAAAATAGCAGGTCTCATAGGTCTAGAATAAGTTGAACGATTTTTTGGATCGTAAATCTCCGAATCGTCTTCTGAATATAAATCAACTTGAATATTATTCTGAGATTTATAGAATAACTGTAGTTCTTTAAGAATTTGTGTTTCATTTAATTTACCCATACGAAGAATACGAGACTTTGAATCGGAATCCATATTAGACAATTCTTTAAAGAGGCTTTGACAGAATTTAGGAATATGTTTTTTGAATGCAGAATAATCAGGATTATTTAGACTAGTTTCAATAAGATCTTTAAGATTAACTTGATCTTTATTTAATGCAAAAAGAAAGATATTCCATTTCCAATTAGCTGGAACATATATACATATTTTTTGTGTTTGGATTTTTGTAACTTTAAGTATATTATTAATATCTTCGATTGTATTTTTAATTAATTCTTCAGATAATTCTGCAGTTTCATTAATTAAATGTTCATCAATTTCGGGCCATTTTTCAAGAGTAATAGTATTATTATGGCCAAGTATCTCCCAAGTTTCTTCACAGAAAAATGGTGCAAAAGGAGCAAGAAGTTTTATTCTTGTTTCAAAGAAGAATTTTAAAAATGAATTCCTTTCTGAGACAGAAGAAGTAGTTCTTCTATTATACCATTGTAAATCAATATCAAGAAGATAAATAATATTATGTAGAGATTCTCGTACACGAAGTTTATTCATTGAATCAGTAGAAAGTTTAATTGTTCTTTGTAACCTACTCAACATCCATTTTTCAATAGAATTAGCATTGTTTATATCATAATCAGATGCAGTTTTAATTTCATTTATGATATTATACATTTTATTTAGGCGTTCATTAAATGATTTTACTAATTCTAAACTAAAATCAGCATCTTGAAGCAGTTCAGCGGCAGACATAATGCCAAGACGTATAGGATCAGCGCCATAAGTTCTTACTGCTTGACGAAGAGGAATTATATTACCAAATGATTTAGACATTTTTTTACCGTCCATTAATACTGAACCATTAACAACAATTTGTTGTGGCCAATGATTTTTTGGGAATATGGCAGAATGATTAAAAATAAAAAAGGTCAGATGATTTGGAACTAAATCACGACCTGAATGTCTACTGTCAAGAGGATAAAAATATACGAATTCATTTCGTAGTTCATCAATAATATTTTTATTAATTTTGGTGCTTTGAGAAACTGAATTAGAATTACCAATACCTAAAAATACATAATCAAAAAATTCTTCCGACAGATTTGATGGATTAAGATTATGTTCTTGGATAAGTCTAGAAATTGTGTAATAAGCCATATAGATTACAGAATCAGACAAACTTTCAATGATCCAATTGGAATCCCATGGAAGGATTGTACCAAGTCCTGAATTCCTTGCACAGGCTTTTTCATGTAGCCAATCCACAGTATTATGAAATTCAACAATGATTTCAGTAGGTACTAAAGACATTGAATCAATTGAAGAGTGAGCTTTTTCTTTCCAATCAGATTTTCCATAGTCAATAAACCATTGATCTTCAAACATTTTAATCACGCATTCAGTGCCGCAACGACAGATGATAGGACGATTCATTATTTCATATAATTTACTAGCAAGACCCATTTGAATAAGGTCAGTTTTTACTTTTTCTTTTGCTTGTTTGACAGGAAGATTTGCATAATCACCGGTAATAACTAGCATTTTACCAGAATTGAATTCAAGAGTATAGAGTTCTTTTGTGGCATCTACTAATTTAGGATCGTCTTGATTTTTGATACTTAGATCAGAAAGAAGATGTTTAGCAGGAGTATTATCGTATTTTTCAGTTTTTATTACATCAATAGGTGCAAGATTATTTGTATCAATTATAGGGTATTTACTTAAGAGACTATTGTCTTGGGTAAAATCAACAATTGCTTGATAATCATATGGAGCATGTGAGGGTACAGACATTACAAGGCCAGTACCATTTTTAGGGTCTACAAAAGAAGCAGGTAATAATTGGATTTTCATTTGTGTAAACGGATTTTCAGTCCATTTACCAATCAATGAATCACCTGAGATTGTTTCAATAGATGAATTGTCATTTATAAGATGATCAAACTTAGTCATAGAATCACGACTGACTATCCATTTTTCGTCATTTAAGGAGATTTTTACATATTCAATTTCAGGATTAATCCAAATATTTGTAACACCAAATATAGTTTCTGGACGAAGTGTAGCAGTGACCAGTTTGGCATCGTCAAAAGTAAATTTTATAATTGTATATTCTCCAATATCTGGCTCTACATCTCCCAATGTATCATGTTGGCCAACAGGATTGCCATCATTAGGACACCAGCCAACTGGATGACTTCCTCGTGTTATAAAACCGCCAGAATTTAATTTCTTAAATTGCCATTCAATGAATTTACTATATGCTTTGTCAATAGTAGTGAATTCACGGCGCCAGTCGATTGAATAACCCATTTCAACCATACCTTGTTTAATCTCATTATGGAAATATTGTGCAATTTTTTTAGGTTCGTCTAGTTCTTTGATTACAGACATAGGAATATTATAAACATCCTGAAATGCACTAGTGAGTTCAGGGTCATTTTCTGCAAGTCTTTTAGTCATTGCAAGAATAGGAGTACCTGTATAATGAAAAGCCATAGGAAATAATACATTAAATCCAAGCATTCGTTTATAACGAGCATAAACATCAGTGAGAGTATATGTACGTCCATGTCCTATATGCTGTGGAGAATTAGGATAAGGATAAGCAACTGTAAGAAAGAATTTTTTTTTATTAATATCTACATCAGTATTGTGAAGAGAAGAATCATCCCATTTCTCTCTCCATTTCTGTTCAATGTTAGACCAATTGATTGTCAAGAAAATCACCCTATTTTATATTAACAAGTGATTGAACAGTATTAATGATTGTCTTAGTATCAGAGATTTTAGAACATCCACCTTGTGCAAATCGTTCAGTACCTCCACCAGAACCTCCAAAGGATTTGGAAATTTGTCGAGCGAGATCTACAGCCTTGTATTTTTGATTAATTTTGTCGCCGCAGAAAACAAATAATCGTGAATTTTGATCTGTATTAATAATTCCAACATAAATTAGATTATCAAGTTTATTAATACAATGTTCGCCTACAAGAATATGAAAGTCTTCGTCAACACCAGTCCAATCGATTATGGATAATACAGAATCTGAAATTTTAACAGATGAATTAACAAGTTTGTCATATATTAAATCAGCAAGATGATTTTTTATAAGGGATTTAGAATCCCGTTTAATAGTCTCATTATCTTGAATTAAATCATCCACAGTTTTATTTAGTTTATCAATTGGAACAGAAAGGTTGTTACAAATTGAATATAATAATTCATTTTGTTTTTGTATATACTCGATAGCAGTTTCTCCTGCCACATACTCTAATCGTTCTACGCCATCTTGTACTCGTTCATTTTTAATAATTTTAATGAGGCCAAGTTCTCCAGTACTAGCTACATGAGTACCAGCACAAGCTTCAACATCCCATGTTTCTATATCTTGTACACGGATGTTTTTACCAGGAGCTATACCACCTTGATAAATTGAGAAACCATATTTTTTTTCTGCTTCACCTCTATCTAAAACTAGTTTGTGTACAGGTAAATTCTGTCTAATAGCATCGTTTGCGAGTTTTTCAATTTTTTCAATTTGTTGAAGGGAAAGATGTTCAAAATGTGTTATGTCAAGACGAGCTTTATCTACATCTTTAAAAGCAGATGATTGCCAAATCCATGAACCAAGAGCTCTTTTAGCAGCGCCCAACATAACATGAGTTGCAGTATGATGACGAGTTAGTATTTGTCTTCTAGTTTCATCAATTTTTCCTTTTAGTACATCGCCAACTTTGATATTTGCTTTGTTAATTTTATGTAAGATTACTTGACCATATTTTTCAACGTCGAGTACATTATAATTATTTAAAGTACCAAAATCAGGTTCTTGGCCTCCTGCACGGGCATAAAATGCAGTCTGATCTAACACAATAAATGAATGTTTTGAATCATCATATACTTGGAGTACTTGTCCTTCAAATTCAGTAAGTTCTTGATTTTCATAAAACAATGGACGAGTTTCAGGTAATTTATCAATATCAAAACTACGTTTAGGCTTTTCAGTTTTATTTAGTATATGACGTTCTGTAACTTTAGCATAGAAATTAGCAGGAATATCAATGTTAAGACCTTGGTCACGGATAAATTCAGGAGTAATTCCATCAGAATCATATAATTTTATCAAATTATCTTCGTTAACAGGTTGGTTTGATTTCTGCATATTAGAAACAATCTTTTTGATTCGTTCCTGTGTGTTATCATATCGTTTTTCTTCCACCTCAAGAATTTTTAATATTTCATTTCGATGCTCTTTGAGTTCAGGATAAATTTGTGATAGATAATTTATATGCCAATCGGCAATTTCGCCTAACTCAACATTCCATTTCTGTGAATGAATCTTAGATAATGAACGTCGAAGTAGGACACGTAAATTATAGCCTCCACCCACATTACTAGGTAAAGCTCCATCACTAATAGCAAAAACAAGAGTTTTTACATGATCAAGAACTGCAAACATTGATTCAAAGGGGATAATTTTTTGATCAAGTATATCTTTCTCAACACCGAGTTTTTCAGCAACTTGTTTACGAGTTAGTTCAATATCAGAAACTTCATCTAAATTCAACATACCAGAAAATTTTGAATAATTTTTAAAGAAGTTTTGATCATAGACAATATTACATTTGTCAACCATTTTTTGAATAACGTTTCCAAAGACTGCCTCGTAAGCAGTAGATGTACCTTGAGTAAGCCAACTGAATCTTTCTAAGCCTGCACCCATATCGATAATTTTGTCGTTCATAGTTTTGTAGCTAGTTGGATCACCTTCAAATTGAGTAAATACAGCATTACCTAATTCTAATCCGCGAACATAATATTCCAAAGAATAACCAAACGCGCCATAACCAACCCAGACGTCTTCTTTAAAGACGATTTCTTTCTTGGGAATGCCAAAAACATTGGTTAATAATCCATAATCAAGATCAATACATTCATTTTTCCAATAACCTGTATCATTAGCAACGCAATGTTGTCCAATCATTACAAAAGATGTAAAATGTTTACCACTTACTCCAACGTTTTCAATGTCATTGAATCGTAAACACATTTGAGGAACTATTAATGGATTTTCTGGAAATTCAAAAGCAATTTTACCACCTTCAATTCTCTGAAAATCAACAATTGAGGCAATAGTAAAATAAAGATCAGGTCGCCATCGAGCTACTACAGGATAACGATTTACACTTGTATGGTCATGATCGACAAAATACTTTTCAATCGCTTTCCAACATTGTGCATAATCTAATTTAGTAGATGTAGGGGAGTTACCAATAAATCCATATTGTTCACAAGGTTGTTCAGGACAAGTTAAACGTGATTCATCGGCCGTCCAGAAGAAATTATCGCAATTTGGGCATTGTTTCCTGACAAAACCTTCTTTTTCGAATAAATTTACAGTATAATAATTCTTATAATCAGAAGAGAATTTCTTCCGAAGAAGGTCTTTATTCATATTAAATAAAGATAGTAATTTTCACATATTAATAGCTCTATCTAGGCACATAGAAGTCAAAAATGAGAAAATTTGATAATTTTCAAAAATATTTTAAACCTTATATACATGAAAAAAAAATTGTATCGTTATACAAATGGAATACATTTATGCGGCTTTGCTTTTGCACAAGCTTGAACAAAAAATTGATGAAGATACTGTAAAAAAAGTAATCACATCAACAG
>sequence37
AAGTCTAAATCTACTACCGGCCGGCCTCAATAATTTTAAGCTAATAAGTAACAACAACATATTGTCCTCATTTGACAAACACCAAAGCAATCGATAAAGAAATCAAGTCATTAAAGAAGACGTGCACCGACGTGGACTGCGATAACGTTAGCGAATGCTGGAGTGAAGAAAAAATTGAATTGTTAAAAAAAGATCTTTTAGTTAGAAGGAAAAACTAATTTATTATTTCTGTTTTTTAGCGTAGTACATTGCATATCCAGCATGTCCTACAAATAACGCAAGTATTAGCCATGCACTCATCGTATGAGAAATAAGTAGATTACTCATTCCTGCTAGCAGCATATAGCCTGTTGCGAGTTGACCTAAAATAACCAAAGATGCTATAACCATGACGTACTTTGTTATTGGGGTTGTAGAAACTTTCAACGCTTTGTTGGTCATGAATAACGTTGCGCCAAACCCTCCGACTCCGATTACTACGTGTGCTATTGTTATTGGAGCCATCATTACAGGTGTTACTAGACCTGCAAATCCTAGAATAAGTTGAACAACTACTCCTGCAAGTATGATCATTCCGATTATCCGAGTTTCCATATTTCTTGTTCCCAACTCCTAATTTATAACTTTGTCCCACGTCAAACACTATGATGGCAAACGCAATAACTATTAAAGATCTTACAAAAACTTTTGACGATATAACAGCCGTGGATAATCTTTCCTTAGAAGTTCCTAAAGGTTCTGCTTTTGCTTTTCTTGGACCAAATGGGGCTGGAAAAAGTACTACTCTAAAAATTCTGACATCTTTGATTAAACCAACTTCTGGAGAAGCCCATTTCTTCAACATCAACGCCTTGGAAGAACCTCATGAAGCGTTATTACAAATTGGCGCTGTGATTGAATCTTCAGAATTCTATCCATCATTAACTCCTTCAGAAACGTTGGAATATTTCGGAAGATTACGAGGAATGAATTCTGATAAAATTCATAAGAACACAAATAAATTTTTGAAGATTGTTGGGCTTGAAAATTGGTCAGACAAAAAAATTGGTACTTTTTCGCGTGGAATGAAACAAAGACTAGCATTAGCTCAAGCATTATTACACGAACCTCCTATTCTTCTATTTGACGAACCTACTTTTGGACTCGATCCACGTGGCATGGCTGAAATCCGCACTGTCTTCAAAGACTTGACCAAAGAAGGAAAAACAATCTTCTTCAGTTCGCATCTTATCAGCGAAATTGAAGAAATTTGTGATACTCTCGCAATTATCGATAAAGGACAGGTGCTCTTTTCAGACACAATAAAGAACCTAACAAAGAAATTCAAAACAGACGATTTAGAAGAAATCTATCTCAAAACCATAAAGGAGTCTGTACGATAGACATGAAACGTACTAAAATCAACCGTAAAAAGCAATTCCAAGACGTCGTACGTTTTGAGATAATAAAATTTCTACGTAGTCGCAAAATCCGTGCTGCATTAATTCTAACTGCTATTATCCCAATACTGATTTATCTAATCACCAATTATATCGGAGGCACTTTCGTCTCCCAGATATACAACAGCGAGAGCAGTGTTGTGAACGACTATCAAATCTTTGTAAACTTCATCCTTACTCTTACTCTTGTTAATGTCATAATGTTTGGAGGCGACTCTCTAACTGGCGATTTTGAAAACAAAACCGGTTATACCTTATTCATCAACCCAATATCTAGAACAAGTTTCCTCTTCGCCAAATTTGTAGCTGCGTCTATAGCAATAACATCTTTCAACATCTTGTTTTACTTGATAGCTTCAATCTTTTCCTACGCTAAACATTCTGCAATACCAGAAAACGCACTTCTTTCCCTAATTTTTACATCATTATTTAGTCTAGCTTTGCTTTCCACGTCATTTGCACTCAGTTCCTTTTTCAAACGGAGCAGTATGTCGAATATTGCATTCATCTTTCTATGGTTCCTGGTAGTCGGGTTACTGGAATACTTCTTAGTCATCTCTGAAATCAAACCATGGTGGTCACTAACATACGCCGCAGGAATAGTTGTGTATATCTTCGAAATTCCATATCCTAAAGACTCGATGATTGATATTCCGTCTCTTCTTGTTCCAGGACAATCACAAACAATCGTCAACTTCATTCCAGAAGTCAATCTAAGTGTAGGAGTTTTCTTGATCTATATGATAGTAGGATTATTAGTATCTGTTCTATTCTATAAACGCAAGCAACTTAATTAAGACACTCTAACTATTCCCGTCATTCCATGGAACTTAATCAGACAAGAATAGAAATACGTTCCAGGAGTGTCAAAAGTAACACTGTAAACTTCATCGGGTAACAAAGTATCATGAAAGTATACTCCTCCATCTGAAGTAACATTTGCACTAGATACAGTATGTACTTCTGAATCAACATTTGTCCAAGTTACAGTATCTCCTACTTGTATGTTCAACATAGCAGGTGTGTAAACAGTTTTACTTACTACATCTACATGAAATTCCTCCGGAGGCCTTCTTTCTTTCTCAACCTGAACTTTCTCTTCTGAATCATTAAAATTCTCTTGCAGCAAACTGTCTAAATCTGCCACAAAAATTATACCAATTCCCACAAATACAACAATAATTATAACAAATATTCTACGATCCTTTGAAAAACTCATAATAATATTACTAGAAATTGATAATTATTATATTATCTCAAATCACAATAATTCTATCAAAAAAAGTGTAAATTTATGAATAGTACATCTCAAATCGCCTTGTCTGCCGCTGCATTTGTAGTAATTTTATCTGCATTTGCATTCATCTATCCAGCAGTTACCCGGCCCGATGTAAATTTAATTGTTTCAGTTGATGCTGAATTAAACGGAATTGCAGATGACTATAACAAAGAATATCGACCTATTCAAACCGACGAACAGAATATTATGACCGAAATTTTTGCTTTACGTATTGCGAATCTGGGAAATGTTGACGTCAATAATATTGTAATAGATCTTAATTTTTCTCCAACTAATAATTGGTATTCTCTCGTATCAATTGAACAAACATTTGGTCCACCTACTAGTATTTCTGATAACCAAGTCACTGTAGAAAAACTATCTATCGATGAAACACTCACCATAAAGTACGAAGTGTCCATGAATGCTAGTGCAATAGGTTCTAATAATTTACTTCAAAGGAAATCACAAATCAATTTTCTAGTTAAAACAGCAGAAAATCTAATGATTTCTGATAATTTATTTAATGTTAGGTTACCTCCTGCGTAGATTTTCTATATTAAATTATATCTGTTTATATTATACTTCATAATAATCTCACTTTGTGAGCGAGGACAAACGTCTTAAAAAACGTGAGAAGGAACAAAGAAGACAAGATCGTAAAAAACATAAAAAACGATCTAAACAAATGCAACAAATCAGAACTTATTCTATTTACGTTATTGCTGTAGTATTGATTGGTTATGGATTATTCTCCATAATATCAGGACCACAGATAGGACCTATGGGTTCAACACACGAACATGTTGATCTACTTGTCTACATCAACGGCGAACCACTAGATCTTAATCAATCTCGTTATGCAATGAAAAGCAGTTATGGACATATACATGGAGGCGAAGGTGATATAATGCATCTCCATGCAATCAATATACCTTTAAGTTGGTTTATGGAAACACTCGATCTTGCTATAACACCTACTTCAATTAATGTACATGGATTTGAATATGTTACTAACGACGACAATGTTTTCATGGTAGTTATTAACGGAAATGCCATTGGTGATATGGATCAAATGTTAATAGACGAAGATAAAGTTCTCATTTATTATGGACCTGGAGATGAAGATGACTTGAACAGAGCTCAAAGCCTTATTCCTGATCGTGCACAAGAAATTAATTCAATGCCAAATAAAGGAGATTAAATTACATCTTTTTTATTTCTTCTTCAAATTCTGGGAAGAATGTAGATATTTTAGGTAAATCAAATTCACTCAAAATTGATTCTTTCGGTTCTTTTGAAAGTAAAAATTCAAAAGAAGTTTTTATGAATTCTTCTGGTGTCTTTCCATTTGCCAATTTCTGATGATAATCATGACTCATTCTTACTCTATGTTCTGTCTGACCTGATTCGTCTCTTACTTTTACTTGAAAAATTGCTCCACCACTGGATGAAGATAATGTTTCTACAATAATTTCTGCCATTATGATCACTAATAATAAAAATTCTACTAATTTAAGAATTGTGAATCTCTTATTTTCCTTTAAACTTAGGCTGCCTTTTTTCTGTGAAACCCTTTATTCCTTCTTGAATATCCTCAGTTTTCACCAATTCTTTCATTGCTTCTACCTCTAAACTGAGTCCTTCTTCTAGAGTACTTTCATCATTTCCTGCATTGATTATTTCTTTTGCCGCTTTTATCGCCAATGGCGCTGCTCTAGATGCAATCTGTCTTACTATGTCAGATGCAGCACGCAATTCTTCACCATCTGGAACTACTTTGTTTACCATCCCTATTCTGTATGCTTCTTGTGCCGTCACAAATTGACCTGTAAAAATAAGTTCTTTAGCTTTTGACACACCTACTAATCTACTCAATCTTTGTGTTCCTCCCCATGCAGGTATTAATCCTAGATTAACTTCTGGTTGCGAAAATCTTGCTCTGTCTGAAGAAATTCTAATATCACATGAAAGTGCTAATTCATTTCCACCTCCATATGCTGCACCATTTATTGCAGCAACAACTGGTTTACCAACACTAGATAATTTTTTGAAAACCTTTTGTCCTAATTCAATAACTGCTAATACATCATTTGGATCAGTTAATTGAGCGAATGATTTTATGTCTGCACCTGCACAGAATGCATTATTTCCTCCTCCAGTTAATACTATTCCAATGATTTCTTTATTCTCAGATACATCATCAATTACTTTATCTAATTGTTCTAAAACTGACGAATTAAGAGCATTTACTGGTGGATTGTCAACTGTAACTATTCCAATACCGTCTTCTAATCTTATCTTAACTAATTCATTTTCTGACATCTAATCACCTGTAATCGTAGAATCCTCTCTTAGTTTTCTTACCATAACGTCCAGCATGATAAAGCTTTCTTATAGTTTGTGAAGGTTGACGTGTAGTATTTCCGCCTATCATCTTTCTTACTTCTTCTTCCACATGATAAATTACATCAATTCCAACTAAATCTGATAATTCAAATGGACCCATTGGCATACCTGCTCCTGCTTTCATTGCTAAGTCTATATCCCTCATAGAAGCTACTCCCTCATCATAACAAGAATATGCCTCATTCATCATTGCAAACAAAATTCTATTAACAAGAAATCCAGGAACTTCTTTCACTTTTATCGGTTGCATTGGATATCTATGATTTCTTATTGTAGACATAAAATCAATCATGTCATTTACTGTCTCTTCACTGGTTTCCATACCGGGTATTACTTCTACTAATGGCAGTGTCACAGGTGGATTGAAAAAATGAACTCCAACTACTTTCTCTGGTCTTTTTGTTGCCGATGCAATCTCTGTAACAGACAATGACGAAGTATTTGTAGCCAAAATTACATGTGAACGCGTATTTTTATCTAATTCACTGAAAATTTCTCTCTTCAAATCCACGTTTTCTACTGCAGCCTCAATTACTAGATCTACATCACTAAATCCCGTATAATCTGTAGTCGTTTGTATTCTGTTAAGAGCTTCTTTCTTCATATCTTCATTAAATTTTGGTTTCAACGTCTCTTGAATCTTTGCCTTTTGCTCATCTGTTAACTGTATCTGGTTAGATTTTTCAATTCTTTCTATTTCTTTATCTGCACGTGTAACATTAAATTCTAATAAACTATTCAAGTTCTTTTCTACATTTTCACGTGCTTTTTTCAAATACTCTTCAGAAATATCTTTTATGATTACTTCTTTTCCATTAATAGCCATTATATCAGCAATTTGGCTACCCATTGCTCCTCCGCCTATTATACCAACACGTTTTGCAAATAATACCATTATAATAAACTCGTATTGTATTCGATTTAACTCTTATTCAGATATCTTCTCAAAAACCATTCCAGGTTTGTATGACTTTACAAGTTTTACCTTCTGACCTATTTTTAATTCTTCTTTAGAAGATATGAATGGTATCCATCCTGTAATTCTTATTTTCTTATCAAGTTCCACAATTACCCAAGCATATGGAACTTCGTTTACAAAAGGATCTGGTGCAACAGTTTGAATAGTATAAGTTACTACTTTCCCAACATTGTTTATTTCTTTAATTTCTAATTTACTACTTCCACAATTTCCACATAATGCTTGTACCGAAACTCCAGATTCATTACAATCAATACAGCTATATGATTTGATTATTCCTTCTCTAGTTGCCTCGATTATATCATTTACAAAAAGCGCTTCATCGGTCATGCTATTCACTCTCAAAAATATGTACTGCACAACTTCCACCAGTTGCACCTACATTGTGTGTTAATCCAATTCTCGCATCATCTACTTGACGTTTACCTGCCTTTCCAGTTAACTGTTCGAATACTTCAACAATTTGTCCTACT
>sequence38
AGGAGGAAGTGCCGCAGCTATTGCTGGTAATCTAGCAGATTTTGCACTAGGCAGTGATACAGGTGGCTCAATACGTTGTCCTGCTTCTTTTTGTGGTATTGTTGGCTTAAAACCAACTTATGGCCTTGTTAGTCGATATGGTCTAATTGCTTATGGAAATAGTTTAGAACAAATTGGTCCTATGGCAAAAACTGTTTATGATTGTGCATTGTTACTCGAATGTATTTCTGATTACGATAATAGAGACGCAACATGTGTAAACAACAAAAAAATTAATTATACAGAACATCTTAATGACGATATCTCAGGTTTAAAGGTTGCAGTTCCTCGAGAGTTTTTTGGTAGCGGAACTGATCCTGTAGTAAAAAAATCTGTTTGGGATACTATTAACAAAATTGAATCTGAAGGAGCTATCGTCGAAGAAATTAATATTGAATCTATAAAATATTCTCTTGCTGCATATTACATACTTGCAATGTCTGAAGCAAGCTCTAACTTAGCTAGATTTGACGGTCTTCGTTATGGTTTACATAGCGGCAAATCGAAAGATTGGAATGAGTTATTCTCTAATAATCGAAAATCTGGTTTTGGATTTGAAGTAAAGAGAAGAATTATGTTAGGTACTTTTGCACTATCTTCTGGCTACTTTGACGAATATTATATTAAGGCTCAGAAAGTGCGTTCACTGATTACTAATGATTTCAAAAAGATTTTTAATAAATTTGATGTTATAGCTGGACCTACTATGCCAACATTACCTTTTAAATTGGGTGAAAAACTAACTGATCCATTATCTATGTATATGAGTGATATCGATACCGTTTCAGCAAATCTTGCAGGTATTCCTTCTATTTCTATTCCTTGTGGAAGTTCTAATTCTCTTCCAATTGGTATTCAATTAATGTCTTCACATTTTGACGAAAAGACTATATTGAATCTTGGAAATAAAATTGAACAAATTCGAGGTATTAAAAATGAATAATGTATCTGACGGTGTTAAAATTGGCCTAGAAATTCACTGCCAATTGACTGCTTTAAATACAAAGATGTTTTGTAATTGTTCTTCTGATTATCGAGGTAAATCTCCTAATACTCTATTATGTACTGTTTGTACTGGCTTGCCTGGAGCCTTACCTGTTTTGAATAAGAGAGCCTTAGAAGCTGCTATAAAAATTGGTTTGGCCCTGAATTGTAAAATTTCCAGCAACAGTAATTTCTTTCGTAAAAATTATTTTTATCCAGATTCTCCAAAGAACTATCAAATCACTCAATATGATAAGGCAGGTGGTGTTGCTATTGCTAATGATGGTATTGTTGAAACAAATCTAGGTAAAGTTAGAATTACTAGAATTCAAATGGAAGAGGACCCAGGTAAATTACAATATGAGGGCAGTATAACTACTTCGTCTAATACTCTTATTGATTATAATCGAGCAGGTATATCTCTTGTTGAGATTGTAACTGAGCCCGATATAGTTTCTCCAAAACATGCTCGTGAATTTCTAAATACTATCCAATCAATCGTTGAAACAATAGGCGAATGCGATAGTAAACTCGATGGTTCAATGCGCGCTGATGCAAATGTATCAATTTCTGATGGAAGGAGAGTAGAAATTAAAAATATTTCTTCGTTTAAAGAAGTTGAACGAGCACTAAATTTTGAAATAACAAGACAAAAAACAATTCAAGCAGCCAGCAAAATGGAAACACGACATTGGGATGATGTAAGACGAGTTACTGTAACATTAAGAGTTAAAGAAGGTGAAGAAGGATATAGATATTTTCCTGATCCTGATTTACCTCCTATGATTATTTCTGATAATTATATTGATGAATTACTTGAATCACTTCCTGAACTTCCTGATAAAAGATTTCAACGTTTTACTCAAGAAATTAAATTATCTGAAGAAATTGCTCGTATTTTGATTAGAAATAAAATTGTTGCTGATTATTTCGAAGAAACATTAAGCTATGAATTTAATCCTAAGTTACTTAGTGGTTGGATTGCAACTGATGTTATGGGATATCTAAATCGAAATAATATAGAATTTGTAGATATGCCTATCAAACCTGAGATTCTTGCTTTATTATCCAAATCAGTTTCTGATTCCAAAATAAATGATTCTACTGCAAAATCAATTTTATTGAAATCTCTTTCGTCTGGAGATAATATTAAAGATTTATTGAAATCTGAAATCGATAATTCTTCTACATCTTATGACCTTCAAAATATTATTGACACAGTATTTGAAAATAATTCTAAAGCTGTCGAAGATGCAAAAAAAGACCCACAAGCAATACATTTCTTAATTGGTCAAGTAATGAAAGCTACTGAAGGTCGTGCAAATCATTCTGAAGTCAAAAAAATTCTTGAAGAACGACTTATTTAATATTTCTCTAGTATTTTATGATATATTTTTTATAACTACCGTTATTATTTCTCATTTTTTGGTAATTCATATATATTATTCGCTATTAACGCTATTGTGAACCATAGAAATATTCTAGCATTAACTGCTGTAATAATTGGTTATTTTTTGTTGTCAACTGCCTTTTTTGGCATGACACCAATTGAATCAGCTGAAGGTCAGAATTCACTCACACGTGCCGAAAGAAATTGGGAATATATTAATCACAATAAATTTGGTACGAATTTCAATCCACAAACTCAACTTAACAAAGATAATGTTGAGCATATTGAATTGAAATGGATTTACCCAATTCCTTCTGCAGCGCAGATGGGCGGAGGTGCATTGACAAACTTCGCATCTGTTACAGAAGGTACAACAGCTCCACCGTTGGTTGTTGATGGTGTTACATTCATTATATTGAATCGTAAAACTGTTATTGCAACTGATGCAGAAACTGGAGCATTAATTTGGAGTGCCGAACATCCTGGCGTAGACTCCAATGCAGATACTGTTCAAGAAGGCGGTAATTTACCAATTACAGGTGAACTTGTACATACTCACTCAATGAATTATTGGGGCGGTAGGTTATGGTTTACTGACTTTGGTTGTACATTAACTGGTCTAGATGCAAAAACAGGCGAACGAACTAGAGAGTTTAAAAATCTGTGTCTAGAAAGACCACTTGATCTAAATGATAAAGTTGGATATGGTCTTCCAGGTAATAGTGGATTATATGGAAGTCTTCAACCACATGCACCAATAAAATATGAAGCAGAAAATCTAATTTTCTATTCAGATGGTGGTGCTTCTGAAGGAACATGGGGTGGCCGTATGTATATGGCAGCTTATGATTACTCAACTGGAGAACTTGCATGGCGTACATACTTGATGCCTCCTTGTGGTGATCCTACAACCTGTGGTCCAGGTAAAGATGGCCCATTATTCGTTGAAGAAAAAGCAGAATGGGGTCAATGGTTAGTTGATAACTGTGGTAAGATCTGGATTCAAACAATCAAATCTTGTGAAATGAATCAAGAAATCCTTAGAAATGACTGGGGAGATATGCGTTCTAATTCAGGTATAAGCAACGTTTGGGGACAAAATGTCGTCGATGAAGAGACAGGAATACTCTATTTCGGTACTGCACAAGCAGGTCCTGACTGGAATGGAACATATTCACCAGGTCCTAGATTATTCGGTGCATCAGTCATGGCATTAGATGCAAAAACCGGTGAATTGGTCTGGGCACATCAAACAACTGCTCGTGATCTTTGGGACTATGACTGTTCTTGGAATACTATGTTGACTACAACTGTAGTCAAAGGAGAAGAAAGGAAAGTTGTAATCAAAGGTTGTAAGAACGGAATTGTTTATGTTCTTGACGCAGCTACAGGTGAAGCATATCACTTGTTAGAACCACCTATGATTAAACGAACAAAACATTCAATACTATACGATCCATTGAATGACGCAGAAATGCTTAAACCATGGGCAAATCATCCATCATCAGATGTTTGGATTCAAAACTGTTGGGCTGCTGGTTGTCTAGAAGCTGATATTGTATTTGACGATACACGAAATATGGTATTCTTCGGTACATACAACAATCCAGTAATCGTTCAAGTTGTTCCAGTAGAGAACCGTGGTAACATGGGTCTAAACTTTGCACCTGAAGGTGTTGAATGGTTTAATGACTGGTTAGCAGATACACCAAGCCTCGTAAATGCAACAATCAATGCATACGACGTTGATACAGGCGAACTAAAATGGACATATGACATGATCGGAACAGGATTCCGTGGTGGTGTTATTGTTAGTGGCGGTGTCGTTTGGATGTCTTCAATAGACGGTTTCTCAACTGCATTAGATGCAGATACTGGACAAGTCTTGTATAAACTAAATATGGGATTAGGATCTAGTATCATGCCCGTTATTGCAGCAGATGATAACGGCGATGTTAAACTATTCCGACCACAAGGTGCTGGATTTGTAGGTAATGCAAATTGGGGACCTGGACAAACTACTTCTCCTGGTGCAATTATGGTATATGGATTACCTGATGTAATTCCAGAACCAGAAGTTATCATCGAACAAGTTGAAGTAGAAGTCGAAGTCGAAAAGATAGTTGAAGTCGAAAAAGAAGTCGAAGTCACTGTTGTCGAAGAAGTTACAGTTGAAACAATTAGTCCAGTTTCATATGTAATTATTGGCCTTGGCATAGTTGCAATAATTGTTGCAGGTGTGCTATACCAACGTACTAAACAGGCATAGAACGAAAAGTCTAAACTTAGATTAGTGTGCAGAACGTAATAATATACGTTCTGCATCTAACTTTTTTATAATCCTTATTTATAGTATATTCATGAATATCAAGTCTTACTTGTATTTTGCTATCTCTTTAGTTCTAATAATTATTGCACCAAATTTTCTTGTTTTAGCAATTCCTGATGCTAATGTAATTGATTTCTTTTTAGCATTTTTTGTTGTCTTTTTTTCTTATTTACTATTGGCACTTGGAATATCTAATTTAATAAAGTAATTATTTTACACCTAAAGTATTTCCAATTCCTGCAATTATAATATTTTGATTATTTTCTGAATGTTGTTTTATAGTTTCTTTTACTTTATTTAATAATATTTCTGATGATTTTTCTATTTCTTCTTTCATTTCTGTAATTGCTTCTTTTTCTGACATTTTTGTAACAATTGCTAGATATTTTATTTTATTGTTTGTTGCAATCTCTTCAATTTTATAGCGTTCTATACCTGGTCCACCAATTGCAGCTCCTATACCTTCTGCAACTTCTCCAGTATCTTCACCTTCTAGTTTTAATGCTGCATCTATTGTAATAATTAATGAAATTTGTTTATTGTCTTCAACTACTTTTTTAATTGCCTCTCCAGGTTTACCAACATTTCCTCCTGGGCCTTTTGCTTTAATTATATACGCATTTCTATTTTCTATTACTATTTCATTTAATATTGTATCTTTAACTACTTCTTTACTCTCAGATTCACCACTTAATCTTGATGCTACTAATGGACCTATTCCATCTCCTATTGGTTTTTTTGATTTTAATGATGGAATTGCTGCATTATATGCTTCTGCTTGTTCCATAATTTGAGGCAATATCATTTGAATTTGTGCTATAATCATCATATTTCCTGTCTTTTTTCCACTTATGTAAAAATGACGTATGTATTTGTACATCAAATTAATTCCTAATGACACTTCTACTAAATTCATTAAAACACTAATTTCTACATCGTCAATATCTTTAGTCATTAGTTTAATTTCATCTTTCATATTATCTTCTTGAGTATTTAGAATATGTTCTAATTTAGTGATAATTCCTTTTGGATCAATTGATACAGGCGGTATAACAAACGAAGAAAGTAGTCTATCAAATCTTTCTTTTACAATCTTTTCATTGTCACTCTTTTCAATCAAGCTTTTTAATACAGCATTTTTCGAATTATTATTCATATATTCTAATCGGGCAAGTTTCTTTCCAACATTTCTCATAATCATGAACATTTGTATTCTTTGACCATACAATATTAGAAACATGAATATTGGTAACCATAGTATACTTGCAATAGAATCAATTGAATCAAATGCTATAATGAATGGATATGACACAATTATATAATTTCAACAAGTAAAATTTAAGCCTTGTATCAACTTCTTATTTGTTATCCGCCGCATTTCACATATAACGCTTTTATAGTTGAACTATCGATAATGATATAGTTTTGCCTAAGACTAAATCGGTGATAAGTGTAGAAAATGTTGTTGCAACTGGTAACTTGAGTCAAAGTGTTGATTTGGTTGAAATAAACACTACTTTTGAAGAAACTGAATATAATCCTGATCGTTTTCCTGGTCTTGTATTCAG
>sequence39
TAACTTTCTCCTTTCATCATATCAGGGGCGCGTCGTCTAGCCAGAGTTGATTAAACTCCTAGAATGGTTAGGACATCGCCTTGACATGGCGAAGGTCCCCGGTTCAAATCCGGGCGTGCCCACTATTTCTTATAAGACGAAATAACATCTACAAATTTTCTTAATTTTTGTTTACTATTTTCTGATTCATATCTCAATAATCCAATAAAATATTCACAACCTACTGATTGAAATTCATTTATTACTTTATTTACATCATAAGTTTCCATATCTCTGTGATCATAATACGTTAAACAAATTTTCTTATCAGAATTTTTTTTAATATATTCTGCACATTCTAAATAGCTCTTGACAGAAATTCCTACTGGTATCCATCCAGACCCATATTCAATCATTACTTTTAACATCTTTCGTCCCGTTGTGCCGAACCATAACTCTGGAAATGGTTTTTGTATTGGTTTTGGTTGTAAAACCGCATTCTCAATTTTGTAATATTTACCACTAAAATTTACAACATCATTTGTCCAAAGTTTTTTCATAATTTCTAATCCTTCTACTGTTTTTTCAAAACGAATTTTACTATTATTCCATTCGCTATATGCATCAAATTCTGGTTTATGCCAACCAGCACCAACTCCTAAAATAACTCTGCCATCTGAAATATTATCTACCGACGAAACAACTTTTGCTAATTGTTGTGGAGGTCTAAATGGAATTGGAGTTACACACGTTCCAATTTTAATTTTTGTGGTATTAGCAGCGATAAATGATAACAACGTCCAAGCATCTATTGTATTATTACTTTCAGAGCCATATTTTTCTGGAAGCATATAATGATCCCACACTAACAAAGAAGAAATTCCTGCATCTTCAATTAATGGCAATACTTTCAACAATTTATCCTTCCAATTTTTTCCAATTGTAACTGGTATAGATAATCCAAATTTCATTTTAACACACTTACATTAACCCAAATAATGATCCTTTCTTATCAAAATAATCTTGATGATAATCTTCCGCTTTATAATATTGTTTTATAGGTTGCACTTCTGTTACAATTAAATCACGAAACTTTCCTGATTTATCCATCTTAGTCATCGAATCTACTGCCAAATCCTTTTGTTCATCATTAAGATAATATATAACAGAACGATATTGATGCCCGATATCTGGTCCTTGCCTATCTTTTGTAGTTGGATTATGACAAGACCAAAATACATTCAATAACTCTGAATAAGTAACAACCTTTGGATCATAATCAATTTCAACTACTTCTGCATGACCGGTATTGCCTGTACATACCTGTTCATAAGTTGGAGATTTAATATTACCACCTGAATAACCTACAGACGTTGACATAACTCCATTTACTTTCTTAAATTTGTCTTGAATATGCCAAAAACAACCTGCTCCAAAAACAGCTTTTTCCATATTATTACTTGATATTTCCTTAATATAATTTATTCGAAATATAATCAATTAAATTTTAAATCATGCAAAAATATAAAAGAAGTAATTAATCAAATCACTTGATAACATATGGGATATGATCCCTCCACTTATGAAAGAGCTCCTGTAGAAGACGAAAACACTTCAAATGATACACAAGGTAATGACGACCCTTCATCAATATCTCCAAAGATTGTTTTTGTGATAGTAGGTTTACTAGTTGGTGTTGCAATTGGATATGGTATTGCTCAATTACTAACTGAAAGTCCGGAAACTATTACAGTTGAAGTTCCTGCTGAAAACTCAAATAACAACGATTTAAATAAATTACAAACCGATCTCGATAAAGCAAATTCAGAAATTCTTATTCTTGAAAGTAGATTAACTAGTTTTGATGAAACTCAAGATTTACTTGCCCAAACACAACAAAATCTTGAAGAATCTAACCGAGAACTACTAGAAAGTACAAATAAATTTAGTAATTATGAACAAACCATTGAAGATTTACAAAATGAAATTGAGTTGCACATAGACGATCTTGAAATTGCAAACAAAAGAATTAGTGACTTATTAACTGTAGAAAATCCTGCTGCTGATCCAGAGCCTGCAGCACCCGATCCAGAGCCTGCAGCACCCGATCCAGAGCCTGCAGCAGATCCTGTAGCAGCAATCGACGAAAAAATTTCCTTAGGTGCAATCAATCTCCTTTATGGCACATCCTTGATTCCTATATCTGATCCAACTCCTATTGGTGAACCTATTTTAATTGAAACTGAAGCCATAAACATATCCGAAGATAGAGTAACTATTTCTTGGATTGCTATTATTACGAATATCGAAACTGGCGAAACTAAAGAAGTATTCGTTTTTAATATTCAATTAGATCCAGGAAAATCCTTTAAATTAGGTAATACTTGGACACCTGAGTCTGCGGGTCAATATAATATTGAAGCATTTGCTGTAGATAATCTAACTGACAAAAACCCAATCTCACAATCTCAAAGTAAAGTTATTACAGTAGCATAAGTTATCTAAATATTAATGAATATAATTACCAAAGAAATTACCATTAAAACAAAACATGAGAATCAAATGATTGATTTATCTGATGATATAAATACTGAAATTAAATCTTCCGGACTTAAAACTGGTATTGCAACAATATTTACTAGACATTCTACTGGTGCCATTACAACAATTGAATATGAACCCGGTCTCGAGAAAGATTTTCCTGCAATGTTAAAAAGAATTGCACCTGATGATATTTTTTATGAACATGAAAATACTTGGCATGATGGAAACGGTCGTTCACATGTCAAAGCATCATTAATAGGTTCCAGTATTACTGTACCTTTTAAAGATCAAAAACTCTTACTTGGTCAATGGCAACACATAATATTTCTTGAATGTAATATTGAAGGAAGAGATAGACAAATTATTTTTCAAATGATGGGAAATTGATAACTCTATTTTTGGAAATTCTTTTTTAATTCCTTTGCGGCACTTTCTGGTATAATTTTATTCGTATAAATATTTGAAGATATCTCTAATCCCGTTTTTGTTTCTATTCTTGGATAAATCTCAATATGCCAATGAATTTGTTTTGATGTTTTCTTTTCTGGCGATGAATGTATAATTAAATTAAATGAAACTATTCCTAAAGTCTTCATTAATGATTTTATACTCTTATGAATTATCTCCGATAATTCTGATATTCCTTTTTGAGTTGATTTTACAAAACTAACTTCATGTTGACGTGGAAATATCCAATATTCAAACGCATGTTTGGATGCCCACGGTGTAAATACCAAAAAATTCTCCGATTTTGATATAATACGTTTACTAGATTCTTCTTCTTTTATTATATCACACATCGGACACACACCTTTTTCTCTTAATGGTTTTTTCATAAATTTCGCTTCAGATTCAATTATTGGAGGAACAGTAGGTAAACTTACAATTTGTAAATGCGGATGTTCAATTTCTGAACCTGCTTCAAGTCCATGATTCATATAAACTGATACATAAGAAACATGTTTTTGTGAATACAACCAACGCGCTTTATCTTGAACTGTAGTTAAAATATTAGTCCATTGTTCACTATCTATTTCTGATAAATCAACTGTATGTTTTTGACTTAACACCACAACATAATGATATCCTATTGCAGGTTCACTATATTGTGGATAATCTGTAAATATTTTTTCCTCATCGTGACTAACAATCGCATCTTTGTTTAATATTACTCTAACAGTCCAATCTTTTACATAATTTTCAGGTTCATCAACTAATTTTGCCAGTGTACCTTCTTTAGAAATTAATACTAAATCTGCAGGACCAGTTATATGTTCATTTCCAGGACAATATGGACAATCTTTCTTTTTTATTATTTTCTTTAAATTCTTAATTTTCTTTGGTTTTTCATCTGAAAATAATACAAAATCCTCAGAAAAATAGTCTTTTCGTACCTTTGACAAAAAATTACTTCACCAATACTAACACAATTATGTTATGTTTATCATCCTAGTTATTGGTTTAATTGCCTTATTCGCAATTTCTTCAGGAACTTTTACTTCATAAACTTCTTCATTAAGAGATTTGTATACTTTTTCTAACGTAATCATTTTCATATACTCACAAACTGCATTCTCTTTAACTGGATGAAATTTTTTCTTTGGATTTTGTTTCTGCAATTGATGTAAAATACCTGTTTCTGTTGCTACTACAAAGTCCTTTGCATTAGATTTCTTTGCATATTCTATCATACCACCTGTTGATAAAATTTTTGTATTGTCATTATTTATTACACCTTCCGATAATTGAAATAATATATTCGATACACAACCACATTCTGGATGAACAAGAAAGTCTGCATCCGAATAATTATTTTGCATAACATTGATCTCACTTGCTGTTAATTTAGCATGTACATGACATTCTCCTGGCCAAATATGCATCTTTCTTCCAGTCATATTTTCAATATAAGCTCCAAGAAATAAATCAGGTAAAAATAAAATCTCTTTATTCTTAGGTATTTCTTCCACAACTTTAACTGCATTTGAAGATGTACAACAATAATCACTTTCTGCTTTGATTTCTGCAGACGTGTTTATGTATGATATGACCACTGCATCAGAATGTTTTTCTTTCCATTCCCGTAATTGTTTAACATCAATTGTATCAGCTAAAGAACATCCAGCTTCTAAATCAGGAATTAACACTTTTTTATTAGGAGCTAAAATCGATGCCGTTTCTGCCATAAAATTTACTCCACAAAAAATAATCAAATCCTTATCTGAATTTAATGCTTGAAGTGAAAGATTAAGTGAATCTCCAACTACATCTGCTAAATCCTGTATCTCAGGAATTTGATAATTATGAGATAAAATTAACGCATTTTTTTCTTCTTTTAACTCATTAATTGCTTCTTGAAAATTACTTTCTGAAGTATTTATCTGTGCTATAATCAATCACCTTTTGTCTATTTGTACCCATATGAAGCAATGATTCGCTTGTTTTATATTTTGTGTGTACTTTTGTAATAGAGGACACTTTGGATTCCGAAATAGAACGATTTCTACACGAAGATATATCTCACGGCGATATAACATCAGATTTATTTATAGACCCTGATTTAAACTCCAACGCTGAAATAATAAGTCGCGAATCTGGCATTCTTGCTGGACGCAATGAAATAACACAAATATTTAATCATTTTAATATTGAATCCAATTGGTCATTTAAAGACGGTGATTCTTTTAATATAAACTCTCAAATTGTAACACTAAATGGATCATCAAAATCAATATTATTATCTGAACGTGTTTCCTTAAATTTGCTTGGACATATGTGTGGAATTGCTACTGCTACCAACAATGCAGTAAATGTTATTAAAAAAATTAGTCCCCATACAAACATATCTGCTACAAGAAAAACACTTCCTGGACTTCGTAAATATGAAAAATACTCTGTTATAGTAGGTGGAGGTCTTCCACATCGTTATAATCTTAATGAAATGATTCTCATTAAAGACAATCATATCAAATTAATACATAATCTAGAAAAAACTATTAATTCTGTTAGAAATCAAATTGGATCAACTAAAAAAATTGAATTCGAAGTTGATTCCTTAGAATCTGCTTTCAAAGCACTTGATCTAGATATCGATATAATATTATTAGATAACATGACACCTGAAGATATTTCAAAATTCATTAATGAATTAAAAACAATTACCAAAAAAACTCCACTCACAGAGGCATCAGGTGGTATTAATATGTCTAATCTCAAATCTTACGCAAAAACCCAAGTAGATATTATATCAATGGGTACGCTTACCCATTCCAGTAAATCTATTGATTTTTCCCTTCAAATCATCTAGTTCTTAATTCCAATAGCTTCTATACGATTTTTTATTATTACAACCAACAATGATCCAAGTATTCCGA
>sequence40
AATTTAATTGAACAACAATCAATTAATATAATTAATGTAATTGAAACAAATATTGATTTTAATAGTTATTCCATTGAATCTATTTCACGAGAAATGACTTTTGAATTTGATACATTTGTAATCTATCGCCATGATAATTTTAATTGGAAATTAGAATTCTCTTTAATCGATAATTCTTCTGTTAATATTACTGAAAGTAGAAGTTTCTTTGCAGATGAATGGGAAGTAATAAGATGGAGAATTGTAGATCTGAATTGTTTGATCATAAAAAACTCCCATACTACATCATTTGATCAAGCTTCACAAGAAACACCTTATCTTCTTGGCAAATCGTACGAATTCCTTGTTCGTTCAGATCTTTCTATTGGTGACTATATATTGCCAGCTTATGAAGATATTGGACTAGGTCTAGAAGTTTCAGTGTTTCGTGTTGTTGATATTCGTGAATTTGAATATAACGGAGAAATCTTTAATGTTATAGTTGCCGAATCAGTTGGTGATAATGGACTAGTTAGAAGATATTTTGATACACTTACAGGAATTATGCTACTCGAAGAACTCGAATATGATGGTATTATAAGACCTATTCTCAGTTTACAAGAAAGCGGAATTAGAAACTAACTTAGATTCTGAATATATTTCTCATAAAGCGAGAAATTTAAGTAATCGTTCCTAGTAAGATAATTCGATAATTAATTGCCAAGAGATTATGATGTAATTGTTGCAGGAGGCGGAATGACCGGTTTAATCACCGCTACATCAATCGCAAAATACACTAATCAAAATAAAAAAATCCTTGTTATCGATCGTAATGAGGAAATTAATCCTGCCCGAAAAAATATTTCTGGTTGGACCTGCGGTGATGCTGTAAGTAAACGCAGTATTGATTTTTATTCAAAAGAAGTTGGAATTTCATACGAATTTCCTGAATTAGAACATAAAGTTAAAGGCGTAGTTGCTTTCTCACCCGATCGTGAAACTAAAGTTTCATTCGATGGTGAAGGTTATGTTCTTAATCGTAAATTATTAGGTTTACGTCAAGTTGAGGATGCAAAGAAACTCGGAGTAGAATTCTCATTTGAAACTGAATCCGACAAATTGATATCAGAAAATGGTTATATTACCGGAATAGAAATTCTCGATAAAAATAAGGAACGTAAAACACTTACTGCGAATATTGTTGTAGATGCTACAGGTTCAGCTTCTAAACTTCGACAAAATCTTCCTATTGATAATTCCTTTATGGAAAAACAAATTGATCGTGAAAACGATATGGAAACTACTGGACGATATATACTAGAATTTGATAGAGGTGAAACTGATACATCACTTTATGACGATGATTATTGTATTATACATCTAAATCAAGATATTGCTCCTGGCGGTTATGCTTGGGTCTTTCCAAAATCTAAAAATAAAGTTAATATTGGTTTAGGAGTTCAGAAAAAAAGACTTGTTACGCGTAATCAAAGATTAGGTAAAAATGACACGCTTCAAAGTCTAATTGATAATTACATTAGTTCTAATACATCAATTAAAAACTATAGACTCTCTTCTGACGCAGGTGATTCAGGAAATTCTCGAGGAAACTGGCAAGTTCCTGTACGACGTCAAAATGATTGTATGGTAGAAAATGGTTATGTCATTGTTGGAGATGCCGCTTGGTTACCTAGACCAATAGACGCTGGTGGAATAGGTCCAGGAATCTTTGCAAGTGTAATTGCTGGTAAAACTATTGCTAATGCATTAGAAGCCGAAGATTATAGTCAAAATAATCTATGGAATTATAACACTGAATACGTACGAAATTATGGCTATCAAATGGCTAGTTTTGAAATACTTCGTAGATTCTTACAAATTGTATTAAATGAAAAAATCAGTTATGGTATGAAACATTTTCTTTCTGCCGACGACGTCGACAAAATCACTTCAAGAGAACACCCAAGTTTCGATAAAGTAAATATGCTTAATCCTCTTATGCTCTTCAAAATCCTTACACATTGGAGTCTTGCAAAAGAATTACGTTATACTGCAAAAAAAAGTAATGAACTTGTTACACATAGTCAAAATTATCCAGAATCTCCAAAAAGTTTTCCGGAATGGAAAAATAAATTACATACACTTCTGAATGAAGCTTATAGTAGATTCTCTTAATCTATCTTAATTCTTTAACTCTTTTCTTAGAATCTTTCCAATCAAACTTTTTGGTAGTTCTTTTCTAAATTCTATTTCCTTAGGAACTTTATATCCTGTTAATTTAGTTCTACAAAATTCAATTAATTCTTCTTCACTGGCTGTTTTTCCTTCTTTAAAAACTACAAATGCTTTAATATATTCCGATAAATCCTTATTCTTTATACCTACTGCAGCTGCCTCTAATACATTTTCATTTTCATAAAGTACATCTTCTACATCCCTTGGATATACATTAAATCCTCCAACTTTAATCATATCTTTTTTACGATCTACAATGTAAAAATAACCCTCTTCATCCATCTTTCCAATATCTCCAGTTAATAACCATCCATTTTTTATCATATTCTCTGTTTCTTCTATATTTTCCCAGTATCCTTTCATTACAACCGGACCTTTGACTGCAATCTCACCAATCTCATTAACTCCAACAAATTCTTCATGATTTTCACTATTTACTATAGCCACGTCACACATAGGCAATGGTACTCCTATTGATCCTACTTTGGCAAGATTCATATCATGAACTGGATTGAAAGTTACTGCTCCTGTAGTTTCACTTAATCCATATAGTTCAACTAACGGTGATTTTGATTTCTCAACAAATTGTTTTACTACCGCCTCAGGTAATGCCATAGCGGCTGCAAATGAGATTCTAAGTGAAGATAATTCAGCATTCTTCATACTTGAATGATCTATCAACCTTGTAAACATCGTCGTTACACCTGGAAATATTGTAATCTTACTTTTTTGAATTGTTTTTAAAACCTGTTTCTCTTCAAAACTTGGCAATAAAACTACTTTACCGCCAGATCTCATCATAATCATCTGCCCAATAAAACCAAATATATGGAATAATGGAAGCACAATTAACGCTGTGTCGTTGTTTTCTCTTAATTTTACCCATTCACAAACCATTTCTACCTCTGTTATGATATTTTTATGTGTTAACATTGCCCCTTTAGATTTTCCTGTTGTTCCACCAGTATATTGTAGTGCTGCAATATCATCTGAAACCGAAATATTTTCTGGCCGTGTATTATCACCAGAATTTAACACTTCCATAAAATCAATTGTATTGTCGAATTTTCTTTTTTTAACTTTGACAAATGCCAAACGTTTTTTTATTCCTGGAAGAAATTCCGTTACACTTGTAGTAATTACTTTTTCAATATCCAAATTATCTCGAGTTTCATGAAATCCTTGATACAGATCTCTTTCAATTGGTTTTTTTACTAAATCTGTACATGCAATAACAATCTTAGGTTTTGCATCACGTAATTGTGATTCAATTTCTGCTGACGTATAAAGAAAATTAGTTCCTACTGAAATTGCTCCTGCTTTTAAAATTCCATATAACGCAATTGGAAATTGTGGAATATTCGGTAATAATAATGCAACACGATCTCCTTTTTTTACACCAAGTTTTATTAGAGCATTTGCAAATTTATTTGAAAGCTCATTAATTTCATTGTACGTAAAACTTGATCCATTATACTCGTAAGCTATTTCATTAGAATACTTTTTACAAATATTATCTATATAATCTCCAAAAGTTACATCTGGTACATTAATATTAAATTTTAATCCATCTGGATATTTATTTAACCAAACTCTCCCCTGTTCAGTAGTTTCTGACATCTATGATATATTATTCTTAATTATTAATGAATCTTGTCTATTTTTTCCGTTTTTTTGAACCTAAAATCCTTTTTGCACCCATATATGCAATTACAGATGCTATTAAAGTTGAAGTTACTAATATACCCATTAATTCTATAAACATCGATGCTGGATTAGGAATTATGGCAAAAACAGTAGCTAATGTATTTGGAACTAATACGGCAGTACCAATTACTGTTAACCAAAGAATTATTGTAGAAAGACGATTTGTTATATTCGTTTGAATAACATTTACTCCAGTTGCCAAAACTTCCAATACTTGTTCTGCTAATTGTATTTGTCTATCCAAGTCAGCTAATATAATATCAAAACGGGATAAAATCTCGTCCTTATCACTTAACATTTCAGGATCTCCATATCTTAATGAATGAACTGTTGTATGAGTGGCCCATATAGCTGTTAAGAATGTTATTATTGATCTCTTTATATTTGACATTTCTACAGAAATGTCTTTATCCATTGTTCTTTCATCTGTCATTTCAATTTCCAATGTTTGAGCTTTTTCAACAATCAATCTTAACGTATCATAATTTCTCTCTGAAATTTCATCAATAATCCTTGCAAACAAAATTGTTTGTCTATCTGCCCATAACTCCTTGCTACTTGGCAGCTTTTTCATTATTCCTTCTGCAAATCCAGAAAGACGCAGTAATTTTTCTGCTTCTTCATCGTGAATTGAAATTATCTTATCTCTTGCAATATAAATTAAAACTGATAATGAATCTACAGTTCCCCCTGAAAACTTTATCAACGGAACTGTAATTCCTAACACTTCTCCTGCATCTTCATAATTTGAATAATATCCACCAAGTACGGCTGCAGGTTCTAATGGTATTCCAAATTCTTTTGCAATTTCTTTTGAACCTGTTTTTACATCATCTACAACACATTCTAACCACGATAAAGAGTATTCATCAATATTTGGCTTAATATCTACAATATTGTTTATAGTATCCTTAATTGGTATACCATCCTTTGATATCGCCGCCAGTTTCATATTTTTTATCATCAATATCCCTTGCTTAATTATAATTCATTATACATTATATTATTAGCTCTAAAAACCCTCTCATCATTGTGATTTATTGTACGATGTCCGCATGATTCTTCATCCTCAAATGAGTCCAGATTGCCCGTCGATGCAACGGACATCCCACACCTAAATCTAGCAAACATATTGTTAAAAATATTTTCTTAATTAACTTACTAATATTGTCCCTTTCATGTATGGATGCAATATACAATAATAGTGAAATTCTCCTTTTTCATTAAATTTGTATGAAATAATCCCTAAAGTATCAACATCTTTTGATAAATTTATTTGTAAAATCTTATTATGTTCTATATTTTGACTTAGATCTGAAGTAACATTATGCCCTTCTAAATCAATATTAAACCAATATACAGTTGTACCTTTTTTTATTGTAATATCTTCAGGTTGATAATCAAATCTATTAACTAATATTATATTGTTTTCTGATAAACTTACAAATACAATTCCTAATACCAATGATAATATTATTAATCCAAAGAAAATTTCTTTTCTCATACTTTGTTAACATTTTTATTGTTTTTAATTACTCGTTATTGAAGGCCGCCGGTGGGTTTCGAACCCACGACCTGAACCTATCTGCTTTTGCTGACCCACAGGGTCCTATGCTACCAACTACACCACGAATTGACTAATAATCGGCCACGTGTACAGACGGCCTACAATAAAAAAGTAT
>sequence41
TGGACTAATTGTTTCTACTTCGACTTCTTCAGTGACTATTACTTCACGGATTTCGACTTCTCGGCTTGCTGCTTCAGGTAATTCATCAGGTAAACCAAATGCCATTATAGCTCCAGGAACAGAGCCTCTTAATGGTGGGTTTTGGCTAGTTAGACCACGTCCTCCAAATGATTGTAGGAGCAAAGTCTTACCATTAGAATCTTGTCCAATACTTGGTTGAGTATCTAATGCTGAACCAAGATTGAATGTATGAAGAAGTTCACCGTTACCGGCATCAACTGCACGAAGCTTACCATCGAAACCATTCCAGTAGACTACACCACCAGAGGTAATCATTCCACCTCGGTGTGCAACTCTTTCAACGAAGAATTCCCATGTGATTTCACCAGTTCTTACATTAACTGCAGCAACTGAGTGATTCATTTCAGGTGGGAATGGAGCGTCGTCTATATGGTTTTCAATGAAACCTCCCCAGAAACTACCTACTCGAGCTTCTGTTGGAAGAATTTTGAAGTATGCAGGTTCATTCTTACATGATACAAAGATATTTTGACCATCGTAGCCGATATCGTTTTCAGCACATCCAGATCCATTTGGACTTTGCCAGATGACATCTGTTGATGGATGGTTCTGTGTTGGTTTGTTCATGTCAGCATGTGATCGTGGATCTAAGAAGAACCAGTCGTTGTTTTCGTTAAGACCGTCAATACCTAATGCTTGAGAGTGTAATACACCTCTACCACGTTCACCATTGGTTGGTCCGGCTCGATTATCACAAGCGGCATTACAATAATACTTTGTGAATCGTACGCCAGGAAGTTCAGTGATGAATAATACTTCACCAGTATTTGCATCAAATGCATGAATGTGACCCTGTTTACATTGTTTGATAACAGTTCTGCGTCCATCGATATCCATGATTGTTGTATTCCATGAACAGTCCATGTCCCAAAGGTCTTTAGTAGTACTTTGGAAGTACCAGGCTAAACTACCATCGTCACCATTTATAGCAACAATAGCTGAACCAAATAGACGTGGACCACGGGTGTATGTGTGGTTAAAGTCTGGACCAGGTTGTGCTGTTCCGAAGAAGATTTTATCATTTTCTTCGTCAACAACGATCTGTCCCCAGATGTTACTTACACCAGCGTTGAATGGCATACCAGTAAATTCGTTGTATGTACCTGGATTACCAGCCCAATCCATTCTTAGGATTTCTTCTGGAACATCACAGGCATCAAATCCTTCAATGTTACCTACATCACATGTATCAACTAACCATTGACCCCATGCGGCATATTCTTCTGGGAATAACTCACCGTTTGGTGGTTGATAGAAGAATCTCCAATTGAGGTGTGTGTCTGTGGTTGCATCAATTTCACAAGGGAAACTTGAACAAGCGCCTAAGTCATATGCAGCTACATATGCACGGCCACCATAGCTTCCTTCCATGTGTCCACCAACAGCTACAATCATTTGATTATTGCCGCGATCAACGATAGGAGCATGTGATCCTTGTGCGTTATACAAACCAGAGTTTGTTTCTACATTTCTGCAGTGTTGTTTTAATACGAATACTTCATCGCCATTTTCTGCATCAACTCCTACGATTGTACAACCGAATGAGTTAAGCCAAAGAATACCTTTGCCATTCAATTCCCAATAGTTCATTGAATGAGTATGGGCAGATAGAGAGTACACAGGTAAACCTGGAGGGTTAAGGCCACGATTGTCTGCGACAGCGGGACCAATTATGTCAGGGTCTTCACCATCTGCAGTTCTTTCACTATACCAATTCATTGATCCGTCAACCGAATTGATTGAAAAGATCGTCTGATAATTGGTTGTGTAGAAAACCTGGCCGTCGACAACTAATGGAGGTGCAATACCACCAGTACCACAGAAGGTCATAGATGAACAACCTATGGAATCTGCATCAGGAATTGGAAATACCCATTGCAATTGTGCAAGGTGTATGTTCTCTGAATTCAATTGTGTCTGTGGATTAGCGTTGTGGCCCCAGGAATTTGCATTAATGAATTCCCAGTTTCTTTCTGCTCTTGAAGAATCAAGTGCAGGAGAAACGTTTTGTGCACTAACCGAAGGGGTTAGGAACAAAGATGCTGCAATTAAGAGTGCAGCAACTAGGATACTTACGTATACACGTCGAGTCATGCCCCGGGATAGTGTCGAAAAACCATATAAATCCCTCGCATTTACTATAAAATTTGAACAAATTGATAGAAAATTCGCTATTTTGTTAACGAATTATTCAAAATAATAATAATTATGTGAATATAGTTAATAATTTGTATAAATTATTTCCAATTAATATTGATAACAAGATATTCGAATTTTTCAAATGTAAAAGGAAAAGATTTTTCAAAATTATAAACAGAGCTAGATGGAATAGAATCAATCTTAACTAATTCAGTACGTATAGGAAGTGCATCACATCCACAATCACTTAAAATCCACCAAGTAACTTCTACTTCTACGTCATTTGCATTCTGCAAACCAAAATTAGTTATTGAACCGTTCACAACAGAAAAAGATTTACCATTAATTTGAACTATATTATTTTGAAAAGTTTGAGTTATAGTTAGATTAGCTTGTGTAATCAAATCATTATCATAAAGAAGAGTTAGACTAGAAATTTCATCAGAAAGTATTTGATTTTCTTTGATTAAGTTTTCAATACGTTCAAGATTAATATCATTAGAGTATCTCAATTCCTCAACTGTTGATTCGAGTTGATTTACTGATAACATAAAAAAGAATAATAAAACGATAGAAGTAAGTAACAAGAATATAGATAATACTCCGTAAATACGATTCACGATTAATATAATTGCATACAAGATAATATGTATTATAATCATTCATATAGATGCTAATACTAACAGGAGTTAGTTGGCTCAGATTAATTCTAAACCAGATGAAAAGAAGAGATGGAAGATTCTTGCTAAAGATTTAGGAGTAAAAGAATTCAACAATATCTCAAGTTTACATGATATTAAGAGACATATAGGTAAAACTAGATACCAAGATCGAATTCCAAGTAATTCGGAACTTCTTGACATACTACCTTCAGATAAACGTAAACAACATTTACAATTACTTAAAATTAAACCAACAAAAAGTGCGTCAGGAATTGCAGTAATATCAGTAATGACAAAGCCTTATGATTGTCCTCATGGTGTTTGTATTTTTTGTCCAGGAGGAGAAAAAATAGGAACGCCGCAAAGTTACTTGCCTACAGAACCAGCAACAATGAGAGCGCTTGAAGCTGAATATGAACCTGAAAGGCAGATTGAAAATAGATTTAATCAATTGAAAAAAATTGGACATTATATAGATAAAGTTGAATTGTTGATCATTGGGGGTACGTTTATGAATTTACCATTCGAATATCAACAAAGTTTTGTAAAATCTTGTTATGACGCGTTAAATGGAGTAAAATCAAATAATATTAATCATGCAAAGAAAATAGCAGAAAAATCCACAATAAAGAATGTTGGTCTAAGTGTAGAAACAAAACCAGATTGGTGTAAACAAAAACATATTGATTTAGCATTAGATTTTGGTGTAACAAGAATTGAGATTGGAATTCAGACATTATCTGATGAGATATATAAGAAAACTAACAGAGGGCATACATTACTCGATGTTGAAGAATCATTACAAATTGCTAAAGATGCAGGTTACAAAATTGTTGCGCATATGATGCCAGGGCTTCCAGGATCAAATCTCCGGAAAGATTTTGATGATTTTATTGAGTTATTTAATAATTCAAAATATAAACCAGATATGTTAAAGATTTATCCAACATTAGTAGTTCCAGGTACTGGATTATACAAGATGTATAAAGATAACAAATTTACTGCATATAATACAGAAGAAGTAGTAGATTTATTAGCAAAAGTAAAGAAAGAAGTTCCTCCTTGGATTAGAATAATGAGAATACAGAGAGAGATTTCAGAAGAGTATATTGAAGCAGGTACTGGAAAAGGAAACATTCGTGAATTAATAATTAATAAGATGAAACAAAACGGAGATAAATGTAATTGTATAAGATGTAGAGAAATTGGATTAAAACAACTAAAAGAAAAATTACAAATTGACAATTATGATATTGAAATAAAAAATATCTACTATGAAGCTTCAGGAGGGGAAGAGTATTTTATTAGTGCAGAAGAAAAAAATACAAAGTCATTAATTGGTTTTGTAAGAATGCGTATTCCGTCCAATAAAGCGCATAGAAAAGAGATTGTAGATAATACAGCAATTATCAGGGAATTACATGTATACGGACAGGTTGTTCCTATTGGAGAAAGAGATACAAATAGTTGGCAGCACAAAGGTATTGGAATTAAATTAATGTTAGAAGCTGAGAGATTAGCTAAAGAGGAGTTATCTATAAGAAAATTACTTGTAATAAGTGCAGTAGGAACTAGAGAATATTATAAAAGATTAGGATATGAATTAGAAGGACCTTACATGGCAAAAATATTATAATTTCAAGGTGATAGTAAGTATGAGAAAGACAATTATTGTGACTGTAATGTTATTAACAGCGACTTTAATGTCAATTCAATTTAATAATATAGATAGTGAAGCTACAAGAGAAATAGACATTCAGCAAATAGATAAATTACAAAGAAATTGGGAATTTGTTAATCATGATGCATTTGGAACAAACTACTCACCACAAAATCAGATCAATATAGATAATGTACATTTGTTGGAATTAAAATGGACGTTTCCATTTCCACCAGCGTCGGAATTTTTGAAATATCAACAAGGAGGGATTGCATTTGAAGGTGCAATAACACCTCCACTAATTGTAGATGGTGAGATATTCGTAGCGTCAAATATGAGAAATGTATATTCGTTCAATGCAGATTCAGGTAATATGAATTGGATAAATATTTATGAACATAATTGGGACAAAGCGAGGCAAGAATTACCTGAAGTGGCAGGCGGTGCACCGCATATTCACGGACTACAATACGTTAATGGAAATCTATTTACAAGTACGTTAAATTGTTCTGTAGAGGCAATTGATTCTAAATCGGGAGAGACATCTTTCCTTATTGAGAATATTTGTAGAAATGTTGATGGAAATTACTATTCATGGCCAATGTATGAAGGAATTGGAAAGTATGGATCTCCATCACATCCAGGACCAATTTATCAAGAGGATAATATTTTAGTTGTGGCAATAACTGGAGCAACAGCCTCATGGGGAGGAGGTAGAGCATTCATTGATGGGTATGATTTGAATGTAGATCCGCCTGAGAGATTATGGAGGACATTTCTTGCGCCACCTGGTGAGGGAGATCCAGAATGGGCTTTACATCACTGTGACAAAGGTTGGTTTTTCTCTTATCCAGAGTGGAAGGAAAATGGAA
>sequence42
AACCTTTGATTTATCTGAAAAAATGCGTGGTGCTACTGCAGGAAAAGCAATTTGGTCTACACATTTTAAAGAATGGTCTCAAGTTCCTAATTCTATGCTATCTACTGTAATTACTGATATAAGAAAAAGACGTGGACTTTCTGATTCTCCACCTCCTGCATCAGATTTCATCGACAAGGATTAATTCTTCTTTGCTTTTAGATTGTTTGTGACTAGTCCTTCTTCTATTGAATTCTCTCATTATCGATTTGAAGATTTGTCTCTAAACGATCTTTATGGAGTATTAAGACTCCGAAGTATTGTCTTTAATCATCAACAACGGTTGGTCGAAGTTTCCGATGGGAAATGTATTGAAATCGACGACAACGATTCTTCTTGTATTCATATAATTGGAAAACTTCCAAATCAAAAAATTATAGCAACTGCACGATTATTTGATAAACAATCTCCATTACAATGGGGTAGATTTGCCGTTGATCCTAATTTTCAAAAACATGGCGTTGGAACTCAACTTTTAGAATACCTCGACTCAATAATTAACTCGAAACCCATTGAGATGAACGCACAATCATATCTTATTGATTGGTATTCAAAATTTGGTTGGTCTATATCTGGCCCTGAATTTATTGAATGTGGAATTAAACATGTACGAATGATAAAAAATATGTAATTTCTAATTAAATTGCAATATGTTTTTAAATTCAGTATCAATCTTCTCTGGATTGATCTCTAATTCATTTATTATTATTTCACTAAATATTTCTAATGCTCGTTTCTCTTCAAGCGCTCCAACTATGATTGATACACCACTTGTTACAATGCTTATTGTAATTTTTTCATTATATTGTAACGTTGTTCCTAACTCTCCTTTTCTAATTATATTCATTTGTTTATTTATTATAATTTGATTCAGTTTATCTAAATCAATTTCTAGATTCTCTTTTGGACTGATAATGTGAACTGATTTTCCTTCTCTACCACAAATATCTTCTATTAATTTTCTTTTTGATTCTTTTATTGATAAATCTGCATCAGGACCACATACTTTACATCTAGATTGTTTTATTATTTTGACTTTATCGTAATCTAAATTCTTTATATCTGCTAGAAATAATTTGTTTACTAAATTTGGTTCCTTTCCAATTAATATCCTTACTGTTTCCGATACCTGAACACTTGATATTGTGGTTAATATAGAAGGATGTACTCCTTCGGTTCCACATTTTGGCATATCATCATCTTTTAATGCAGGTTGAAAACATTCTAAACAAGGTGTTTTTCCAGGAATTATTGAAGTAGAAGAACCTGTTGTTACTATAGCTGAACCAAAAATATATGGTATATTTAATCTTACGCATGCTCTATTAATTGAATATCTTGCTGATACCGAATCTAATCCATCTATAACAACATCTGAACCATTAATTGCTTCATCAACAGTATCGTCATTTATTGATAATGTTAAAGGTTCAATATTTACTTTAGGATTTATTCTTTTTAATCTATCGTGAGCAGCTTCTGCTTTTGATAATCCCACATCCTCGTCTCCATAAAGTACTTGTCTATGCAAGTTCGAAACTTCTACAACATCTCTGTCCACAATTCTTATTGTTCCAATTCCCATAGCTACTAATTGCTGAGTTATTGGAGATCCTAGACCTCCTACTCCTATTACAGTTACTCTTGCATTTTTTAATTTTTGTTGACCTTCAAAACCAATTTCATCCATGACAATTTGTCTAGAATATCTTTCAATTTCCTCGTCCGATAATTCCATATTCTATCCCCCACTTACCGCTGGTAAAAATAAAATCTCATCTTTGTCTTTTAGAATTGTTTCGAGATCTTGAAGGAATTTGATATTTTCATCATTTACATATACATTAATTATTGGTTTTAATTTTCCATCATTGTCTATTACTTTATTCTTAAATCCATCTCCATATTTTTCTGACAATTCATCGATTACTTCAATTACTGTATTTCCTTCTATATCTAATTCTCTTTCACCATTTGTAGATGTCGCCATTACTGCAGGAATCAAAACTTTTACCATTTTTATCGACCTATTATATCCTGTAAAACTTCTCTCTTGGGTTCAACTACTTTTAATTCTGGTTGTTGTATAAATGGAGCTTCTGGCGCTTTGAGACCATTTCCTGTTACATAGCATACAACTTTCTCATTTGAATCAATTTTTCCATCTCTTACTAGTTTTAGTAATATTGCTATTGAAACTGCTCCTCCAGGTTCAGCAAATATGCCTTCAGTACTGGCTAGAAGCCTTATTGCTTCTCGTATTTCTTCGTCATTAGCTTTTTCTCCATATCCTCCTGAATTATTCACTGTTTCTACTGCAAATATTCCATCTCCAGGCTCACCAATAGCCAAGCTTTTTGCTAATGTATTTGGTCGTTTTACAGGTTGAATTGAATTGGTCTTATTCTTTATTGCATCTACTATTGGAGAACAACCTTCTGGTTGTGCACTTGTGATCTTTGTTTTATTATTTGGAATTAAATCAATCTTTTCAAATTCTTTTAATCCTCTGTCTATTGCACATAACATTGCACCACTTCCTGTTGGAACTATTACATGATCAGGTGCATTCCATCCTAATTGTTCACATACTTCAAATGCAAGTGTTTTTGAACCTTCAACATAATACGTTCTTAAATTTATATTAACTATTCCGATGTTGTACTTATCTCCTGCATACGACGCTAATCTATTTGCATCATCATATGTTCCATTTACTGGAATTATATTTGCTCCATATGTTTGTACTTGTGATATCTTTGCTTGTTCTATGTCATATGGAATAAAAATATAACATGGTATTCCTGCTCTTGCAGCATGTGCTGCAGTAGCTGACGCTAAATTACCTGTAGATGGAGAACCTACTGCTTCTAAACCTAATTCAATTGATTTTGATACAGCTACTCCTGCAGGTCTATCTTTAAAAGAAAATGAAGGATTAACTGTATCGTTTTTAATATACAGATTATTTAATCCTAATCTTTTTGCTAATTTATCTGCTTTATGTAGAGGTGTATATCCTGCTCCAATATCTATTATGTTATTCTTATTTCTTAATGGTAATAATTCAAAATATCTCCAAAGATTCTTGTCTCTGTTCTTTATAGTTTCTTTTGTTAATGTAATTTTATCAAAATCATATATTACATCTAATGGATTAAAACATTCATCACAAACATATTTCAAGTCAGGCCTAAATTCAGTAGAACATTTTCTACATAACAGATATTTTATCGACATATTAGTTTTCATTTATACATTCATAAATAAATATTTTCCTGAAGATATTATTCATATATGAATATCTATCTCATACTCTGTAAAATTTCTTTCAATAATTTTCTATTAAATTCCGAATCAATATTTTTTTCAGCTGATTGCAAAAATTCATTGAATACTTCTTTTGACATTTGATTTTTGTATAGCGATAATTGAATAATTAATTCAAGCTTATCAATTTCATTAACTAACATTGATTCTTTACTTTGTTTATTCGTGAATTCATTCCAAATATCTATATATTCTGCTCTAATATTCTCTGGTAAATTCTCTAAAATCTTATTTATTGCTATATTTTCCTCGATACTCTTATTTGGATTCTCTCCAGGCATCAAATCTCCAATAATAATTTCCGGCAAATCATGAATCAGCATCATTTTAACAACCTTTTCAGTATCCAAATCTGCTAAATCTGATAGAATCATTGCTATCGATGTAGCTACATAACTGTGATCTGCAACTGATTCAACATTATTTACATTTGTTTTAATTTCCCAACCTTTCCTTTTTATTGATTTTAATTCTTCTAAACATAGAAAAAATTTATTTAATTCATTAGTATTCAATTAAACCACTTATCCAAACTTTCTGATTTTTGTTCTTCCACTTTGTCTAATTTTTTTATCATATTCGAAATTCTGTCGGTTGAAAAATCATTATCATCACAGAGATATGAAATTAGTTTCTCTTTTTGTATTTCTTTTTTATCACTAATCTCTGGTTTCACAACTTCTGGATTTAAAAACATATTTCTTACCTCATTTATATCAATCAATTCTAATTCTTTCTCTATTTTTGGAATATTTTCTATATTGTTGTATTTTTTTATATGTTTAATAGCTGTTTTTGGACCAATTCTAGTAAATCCATCTGGATTATAATCTGTTCCAATCAATATTGCAATATCTATTAATTGTTCTCTAGTAATCTCGTTTATTCTGAGAAATTCTTTTAGATCAATAATTTCTGGATCCACGTCAATGAACCTATTGGTTCTTGGTATTCTCCTTTTTCCTGATACTGTTAGGTTTCTACACAATCTTTTCGCTCCAAATAATAATGAATCATAATCTTGACTTACTGTATAATTCACTAATCCTATATCATTCATATATGCTGCAGTTGCTTCTCCTTCAGCAGGCGCTTGAATACATTGGATCCCTAATAATTCTAGAATTTTTTTTACATCATTAATTATATCCTCATTAATTTTTATCATTGAATGTGCATACCTTCTTGCTTGTTCTTGATCTCCTTCTTCCATTGCTTTTCTATATTTTTCTTGATTTTTCTCTCTGATTTCTTTTCTTTTTTTAATTAATGTTGATTTTAATTGGGGAGGTTTTCCATCTAACACATATATTGGTTGAATATTGTTATTCAGAAGATTTATGTTTCTATAAAATAATCCTGTTAAATGACTAGTTATTTTTCCTTTATTATTCATTAATGGTTCTCCTGTTGGTCCTCTAATTGTAGTTAAAAATTGATAAATTATATTATATCCATCAATAGCTATCAAATTTCCTGATAAGTTCTCGAATGATGTTTTTCTTGGATCGGCTAAATCCTTTAATTTAACTCCCATTTAATTTTTATTTATCACAAATGTTTATTATTTGTTTTCTAATACGAATATTATATGTCTGATGAAAATGAACAAATTTTATCATTGGAGTCAAAACTTGGTCTTTTATCTTTTGATTGGGATAACTCTGAATTTATTAAAGTAAATACTGACATTTGTAAAACTTGTGAAAAAAAGCCCTGTTTATACGTATGTCCTTCTGAAGTATATACTCTTAATGAAAATGAACTAGTCTATAATATTGAAGGATGTATAGAAATGGGTTTATGTACTATTGTTTGTGATCAACTTGGTAATGGCGCTATTGAATGGAATCACCCCCAAGGTGGTAAAGGCGTAACCTATAAACTAGGTTAATTTTTATCTATTTTTTATTTTAGAAGTTAATTATTTTCAAGTAAAAACGTTATTACAGTATGTTGTTATATGTATAATGAAGTGGGAAAATATTATGTTAGATGATTCTA
>sequence43
AAAAGAAGTATTCTTTATATTAATCTTGCAGATGATCCTGCTATTGAAAGAATTATCACTCCTCGTGTAGCACTTACTGCTGCTGAATATTTGGCATTTGAAAAGAATACACATGTTCTTGTAATTATTAGTGATATGACAAATTATGCTGAATCATTAAGAGAAATTAGTGCTGCTCGTGAAGAGGTTCCAGGACGAAAAGGCTATCCTGGTTATCTATATACTGACCTTGCAACAATCTATGAACGCGCAGGTAAAATTAAAGGATCAAATGGAAGTCTTACACAGATTCCAATTCTTTCAATGCCTTCTGATGACATTACACATCCTATTCCTGATCTTACTGGATATATTACTGAAGGTCAAATCGTTTTAGGTCGTGATTTACATCGAAAGGAAATTTATCCACCTGTAAGTATTCTTTCTTGTTTAAGTCGTCTAATGAAAGAAGGTGTAGGCGAAGGTAAAACCCGTAACGACCATCAAAATGTTAGTAGTCAATTGTATAGTGCATATTCTCGTGCATTGGAATTAAGAGCTTTGGCAGAAATTGTAGGAAAAGCTGGCCTTGCACCAAATGATATTAAGTATCTAGAATTTGGAGACTTGTTTGAAAGTAAATTCCTAAAACAAGGATTTGATGAAAATCGTACTCTTGATGATACACTTGGAATTGCATGGGATTTGTTTAGTACCTTGCCTGTTGATGAATTAACTAAAGTCAAACAAGATGAAATTGATTCATATTTGAAGGTAAAGTAATTATGTCGAGTTCAAATAAGCGTCCTCCACCAACAAAAATTGAACTAATTAAAGTAAAGCGAAGTCTAGTTGTTGCTAAATCTGTTTATAAGATTCTTGAAGATAAACGGGACGTACTTCTTAAAAATATTGATGAAATGATTGACGAAGCAGGTAAAGCAAGAAATGAAATGTCTGAACCATTGTCTAATGCTTATAGATCATTATTTAATGCTTACATGTCTTTAGGCTCATCTAAACTTGAGTCAATTGCACTTACATCTCCATCACACATTGATGTTGACGTAGATGTAAAAGTCGTTGTCGACGTTCGAATTCCTACTATTTCTATAAGTGAAAAAGAAATCGGATTAAATTATGGATTTGCTGATTCCGATTCCAAACTAGACGATGCAACTCAAATGATGAGACTTGCCTTACCTAGAATTCTACGCGCTGCAGAATATGAAAATTCAATTCTAGAATTAGCACGATCACTTGAAAAAACTCAAAGATTACTAAATGCATTGGATTATGTAATAATGCCCGGCTATGACGAATCAATTAAATATATCTCTTCTATTCTTGAAGAACGTGAAAGAGAAGACTTTTCAAGATTAAAACATGTTAAAAAAGTACTTGAACGAAAGAGGTGAAATTAATGGACGATAAAGAATATAAAAAACTAACTGAGAAAATTAAAAAGAAATACGAATCCGATATTGATGAACTAAAAAAAGAAATTTTTTCTGCAAAAGACAAGGCTTATAAAGAATTGAAAAAATAATTATGAACATTAGGAGTTAATGAAAATGAACTACAAAATATCAATTATAATGTTGACAATAATCGCAACAGTATTCCTACAATTTGTACCTATTGCACATGCTCAAGAAGAATCTTCTGGATCTTCTGGTGAAAAATTCTTGGGTGCAGGTATTGCCTTTGCTGGCGCTGCTATTGGTGCAGGTATGGCCGTTGGTCGTGCAGGTTCAGCTGGTTTAGCCGCTGCAGCAGAAGATGAAAGCCTAAAAACACAAGGTTTAATCATTACTGCATTAGGTGAAGCTATTGCCATCTATGGAATAGTTGTTGCTCTGTTAATTCTCGGAAGCTAAAATAATTAATAATTAATTATTTTTGCTAATCTAATTATTAACAGAATTGCTATTATTAGTCCTATCATTGGTAATATAAATGGAATAATTATTGCTATAGGACTATCAATAGTTTCATACATGTCTATACCTAATAATGCTCCTGTTAACAAAAAAAATGTTAAAAGTATTGTAGGGACAAATCTAAATCCTTTTTTAATTATTTTATTTTCAATCAATCTTAATTCTAATTTATTATTTTAGTATTTCTTCACTTAATGAAATTCTAGTACAGTATTTACAAATTAAACTTGGAGGATCTTGACTACTCACAAATAATTCTGAAATAATTGGTTCTTTTGAATTTGAAATACATGTTGGATTTGTGCATTCGAATACTCCAGTGAATTTCTCTGGTAATTCTACATTTCTCTTTTCTATTATTTCATAATTCTCAATAATATTAATTGTTGAATGTGGAGTTATTAATGCTAAACGATTTGTCTCTTCCACTGCTAATATTCTATTTTCAATTTTGATTATATCTTTTTTGTTATACTGTTTACTTGGCACATTCATTGCAACTGAAACTTGATTTCCATCAGTACCATTTATGTTTAATGCCGATAATACATTGAATGCTCTTCCTGCTACAATATGATCTAAAACAGTTCCACGTTTTATCCTGTTTATTCTCAGATCATGCGTTTCTGTCATTTTCTATTAATTCTAGTTCTTACAACGTTTATATTTATGTTTGTATACACTAATGAAAAGATTGAAAAATCCATTTTATAACAGAGATGTAGTTTCGATAAAGGATTTTCAACGTCCTGACTTAGAGTATTTGTTTCAAGTTGCAGATAAAATTAAATCATCTCTTCCTAATGCTTCGTTAAATAGTAAGTCAATTGGACTAATGTTTTTTGAACCAAGTACTCGAACTCGTTTAAGTTTTGAATCTGCAATGAATTCCTTAGGTGGAAAATCTATTAGTTTTGGTAATCCTTCGGATTCATCTACTCAAAAAGGTGAAAATCTTAGTGACAGTTTACTTACAATGGATCAATATGTAGATGCTATAATATTGAGACATGCAAGTGAAGGAGTTTCTAGATACGCTTCCGAAATCTGTAAAAACCCAATTATAAATGCAGGTAGTGGTAGTGAAGAACATCCTACTCAAGCAATGTTAGATGTTTTCACTATATTGAAAGAATGCGATAAAATTGATGGACTTAATATTGCAATATTTGGCGATTTAAAATATGGTAGAACTGTTTATTCGCTTTTATACGCTCTTTCTAATTACAAACCAAATATACATCTTGTTTCACCAAAACCTCTTCAACTCCGTCCTGATCCTTTATCAGAACTTCAAAATCGCTTAAACATATCTGTTCATGAAAATCTTCAAGATATAATTTCTGAACTTGACGTAATATATACTACTCGTATTCAAAAAGAACGTTTTCCTGATTTACAAGAATATGAAAGAGTAAAAGGTTCTTATAAAATTGATAAAAATCTTCTCAATAATGCAAAAGAAAATCTTGTTTTATTACATCCTATGCCAAGATCTGACGAAATACCAAGTGATATTGACAATACTGTATTTGCAAAATATTTTAATCAAGTAGGCTATGGAAAACTAGTAAGATCTACATTATTATATCTTATTTTTACCGAAAATCCGTCTTTTTAACCACAACTAGAATAAGAACACGATAAACATTTACTACAACCTTCTGCATATATTAAACTCATTTCTCCACATACAGTACATTTACTTTTATTATTACTAGTTGTACCTGATATCTCTAATACTTCATTTTCTACCTTTTGTTCATTTATCCCTACTAACTCTGATTCAGTGTGTATTGAATCTGCCAATGCATGAGCTACTGCATCTGGAACTGATCTAATTGGTATACTTGTCCCTTTTGTTTGATGCCAAGATACATTTTTTGTTTGTATCCCCCTCATTGTTTTTATTATTGCCTTAACATCGACATCTGATTGCAATGCAATTGAAATTAATCTACCCATTCCCTCATACGCTGCTTTTTCCTCATCACCAGATTTACCTCTTTCAATAAATACTTCTCTTGGTTTTCCTTCTTGATCTCTATTTATTGTAATAAATAATCCGGTATTTGTATAAGTAAATCTGTAAGTTCTACCTATTAGATATTCGGGTCGTTTATATCCTCCTGGTAATACATGTGTTGATTCTTTATCTGACTTTGATCCACGTAAATTCTTTGTTTTATCTGTTTCAAGAACTTGAACATCTAAACAACCATCTCTATATACTGTTATACCTTTACAATGTGTATTATAAGCTAATTTGTATGAGTTATCTACGTCTTCTTTTGTAGCTTCATTTGCAAGGTTTATTGTTTTACTTACTCCGTCATCAACAAACTCTTGGAAAGCTGATTGCATTAGAACATGTTGTTCACCTGATAAGTCTGCAGCAATAGGAAACATCTCCTTAATTTCTCTTGGAATCCACGATATATTTTGAATACTTCCACCATTTTCTGAAATCTCTTTTATTTTTTCTTTATCTAGACTTATGTTATTATCTTCTAATGCTATTGCAAATGATTCATTCAAATAATGAAGTTCTTCAAATTCTTCACTTCTTTCCTTAATTCTAGAATGCCTTACAAATACTAAAGCAAAATGCGGTTCTATTCCTGGTGAACAATTGGCTATAGTTCCAATTGATCCTGTAGGCGCGATTATTGTACAATTTACATTTCTCACTTTTCTTCCTATTTTTGCAAAATCACTCTTATCCCAGTATGGGAATGTTCCTCTTGTTTCTGCTAATTCTTCCGACATCTTCCAAGCGACTTCTGAAATAAATTTCATTAATTTTTTTGAGAAACGAAAAGATTCTTCTGAACCATATTTTATTTTTAGTTTACTTAATAAATCTGCTAATCCCATAACGCCTAATCCTAATCTTCTCATGTTATGTGATAATTCTTCAATTTCTATTGTTGGATACTTATTCTTTGTCACAACATTATCAAGAAAATGTATTGCATCTCTTGTACATTCTTTAAGTTTTTCCCAGTCTATGTCATCATTATCTTTGTTTGTAAATTTTGCAACATTAATAGAACCTAAATTACAACTCTCATTTGGTAGTAACGGTACTTCTCCACAAGGATTTGTTGATTCAATTTTAAAATATTCTCTTACAGGATTTGAATTACTGTTATTTATTTTATCTATAAATATTAATCCGGGGTCTGCACATTCCCATGCACAATCAATAATTTTTTGCCATAATTCTTTTGCTTTGATTCTTTCACCTTCTCCTCCACATAAATTACATTTAGATTCATTTTGTCCAGGAAAAACATTTTTTCTACATTTATTACATTTTAAAACTTCTTGTCCAGTTCTTGGATTAATAAATTTATGATAATCTTCTTTTTCTAATCTACTCATAAAATCATCAGTGATTGCTACTGATACATTAAA
>sequence44
AATATGGTATGGGCATTAAAGGAACGTGGTTATGATATTATAGTAGTAAATTGTAATCCTGAAACTGTTTCTACTGATTATGACATGAGCGATAGTTTATATTTCGAAGAACTCACTCTTGAAAGAATTCTTGATATTTATGACAAAGAACAACCCGATGGTCTTGTTGCATGCGTTGGAGGACAATCTGCAAATAATCTTGTTAACAAATTATCAAACTATGGCGTTAAATTATTTGGAACTTCTAGTTCTAATATCGATCGTGCAGAAAATCGTGAAAAATTTAGTGGATTATTAGACAAAATTGGTGTCTCCCAACCATCCTGGCAAACATTCACTTCTCTAGATAGTGCATATGACTTTGCTAACGAACAAAAATATCCTCTTCTTGTAAGACCTTCTTATGTTCTTAGTGGCGCAGCAATGAGAGTAATCTGGACTGACGATAATCTTAAAACCTTTCTTGAAGATGCTGCAAAAGTTAATGCTGATTATCCGGTAGTTGTTAGTAAATTCATTGAAGATGCTAGAGAAATAGAGGTGGACGCAGTATCTGATGGAAATAATGTATTTATTGGTGCCATTCTTGAACATATAGAAAAAGCTGGCGTACATTCTGGTGATGCAATAATGACTATTCCACCAAGAACTCTCGATCCTAGTGAAGAAGCACTTATCATTGATTATACAAACAAAATTGCAAAACAACTTCAAATTAAAGGACCTTTTAATACGCAATTCATTGTTAAAGATGGTGCAGTCTCCGTTATTGAATGTAACTTAAGAGCCTCTAGATCTATGCCATTTGTTTCAAAATATAGCGGTGTGAATCTTATGCAAATGGCTGCTGATGCATTACTAGGTAAAGCAATCTCCTCAGATTTCCATAATTATAGAAATATTCAATCTGTCGGTGTAAAAGTTCCTATGTTTTCTTTTATGCAATTAGATGGCGCCGATCCTAATCTTGGAGTTGAAATGCAATCAACTGGCGAAGTTGCATGTTTTGGTAAAAATTTCTACGACGCTTTTCTTAAATCACTAATTTCAGCAGGTTATAATATACCACGTAAAAATGGTAGCATACTTGTAAGTATTGGCGGTACTGAGAAAAAACAAAAACTCTTACCTGTCATAAAAAAATTCTCTGAACTTGGTTTTAAAACATTTGCTACTGAACATACTGCCGACTTTCTTGATTCAAATAATATTGATTCTATTGCACTTTACAAAATTGGTGAATATGAAAGAAAACCTAATTTAGAAGATTATTTAATCAAACGTGAATTTGATTTAATCATTAATGTTCCTATGATTAAATCTTCTAATAATGCAGAATCGATAATCGAAGATGAATATCTAATACGCAGAAAAGCCGTTGAATTAGGAATTCCTGTAATTACAACTATTGAATTGGCTGAAGTTTTTGTCGATGGCCTTGATTGGCTCAATACAAATCAACTTACTATTTTGGCAACTGCTAAACAATAATTATTATTCTAGATTGAATTTCTGTTTAATTAATGGTAATATTTCTCTTAAATCCTTCTTATTTACAATAGAATCTGCTTTCTCATTGATCAATTCTGTTCCATTAAAAGAAATTCTCAATCCTGCTAAATCAAATAATTTTATATCATTTGCTCCATCTACTGTTATTACTATCTCATTTTTTTGTTTATTCATAACATCTAAGGTATTTTTTATTGGTATTGATTTATCTGATCCAACATTTATCTCCACTCCTTTTAATTTCATCTCTTCAAACACTAATTTATTTGAAAAAGCATAATCTATCCTTAATTCCTCTTTAATTCTTTCGATTAAAATATCAGGACCTCCAGACACAGTTAATGTTTTAAATCCTAATTGCCGTAATTCCTCAAATGTTTCTCTTGCACCATGCATAATACGCATATTATCTGCCACTTGTTTACAATCATCATATGATACTCCTTTTAACTCATTTATTCTGTCTAAAAGGCCTTTTTCCCATTCTATTTCACCATTAATTCCCTTATTTGTTATCTCCCAAATTTCCTTTTCTTTTCCAACAATTTTAGCTAATTCTGGTAAAAATTCACCATCAATTAAAACTCCTTCCGTATCAAATATTGCTAACAATAAATATCCTCTTGATTAACAATTATTAAATTTCGTTAACTAATAAACCTGTAGAAAATATTATACGTATCTTTTTAATTCTGAATTATTTTCTGCCAGTTCTTTTAATATTACTGCACTAGTCTTATCAATTAAACTCATTCCTTTTCCTGAAATCATCCTTCCTTTTAATTCCTTTTTTTCAATATAACCTGCAGATTCTAATTGTTGTAATGGTTTTCTTATAGCTGACTGTCCTGCACTTCGTTGATGTCTTTTTGCGAATTTAATTTTCTTTTTACCTCCATAAAAATCTTGTAAATCTGCTAATCCTATTGGTCCATGTATGTATACCTTTCTTAACAATGAGGCACATCTTTCATACCACCAATCATTATTTTGTGGTGGTCTTTCTGCATGAGATCCTGTTTTTACAAAATCTGACCATTCTGGTGGTTTCACAATATTTTCTTCTTTTAGTTTTAATGCTAATGTCTCTATTAGTCGATCTGCTGGTACTTCATTCACGTTTGTCAAATTCAGTTTCACAATATTTTATATCATATATAGGTTTGACTCTTGTTTATTATTTTTCTATATGTAACTCCGCAATGAAAACATGTAATATTCAATGATTTCCTTATCTTTGAAAGTCTAACTCTTGAATTAAATCCAGGTACAATGAATCGTTTACATTTATGACAAAACAACATTCTTTGAGAATAACCACTTTTTATATTAAATTTCTTAGAGAATTCTCTTGCTTGTTTTGCCTGTATTTCAGCAAGATTACGATTATCTTTCAATGATTTCTCAATTTCTATTGCTAGATGATTGATTCTATTTTCTGCAATTTGCCGTTTTTTCTTCTTAATATTCATTGAATCTCCAAAATCTATTTAACAATACAAATTTTTTATACATTGTGGAATATCTTACGATTATATTAACAGAATCTGCATTAGAATTACTTACCCCTGAATTCCTGAATATGTCGAAATCCAATAAACATACATTTCTAGATAAAAGCTATCACTCACATTTTATGAAGAATCTTGATAATATTGACAAACGAGGTCGACCGGATATAGTACATTTGAGTTCACTTGCAATTACATCTACTCCTTTGTATCTTGAAAAGAAAATCAAATTCTATATACATACTATTTCTGATTATGTAATTGATATTGATTTTGGCGTTCGTTTACCAAAATCATATCATCGGTTTATTGGTCTTTTCGGAAAATTATTCAATAACTATTCAAATAATACAAATTCTGATCCCTTAATGAAAATATATGAATCCTCATTTTCTAAACTTATTAATACAATTCAATCAGATCATGTTGTTGGATTATCAAAACATGGTACTCAATTAACTTCTGATTACCTCTCAAATAAAATAATTACTTCCAGTAATCCCGTTATTCTGATTGGTGGTTTTTCTCATGGAACATTTTCTAACAATGTTCTCAATTCAACTGACAACTTAATTTCTCTAGGAAACTACAATCTTGAATCCCACACAACATGTTCTCGAATTATATACGAAATTGAGAAATCAAATCTAAATTCATCATAAATATTTTTTATCTACTAATATCTCTTAGAATCTAGCGGTTGTCGTCCAGACCTTTAATTAGGGGAAAACTTGGTTAGGACACGGGGTTTCCAACCCCGGAACACGGGTTCAAATCCCGTCGACCGCATTTTTATCTCATCAAAATATAAACTAATTAGAAACATTATATTCTATAATAATGAAATTTATTCACTGCCGAGGTAGCTCAGCCTGGGAGAGATTACATAACTCCAGCACTCCGCTGAAGCCGGAGCTGTCGCCGGTTCAAATCCGGCTCTCGGCATTCTAATTAGTTATATATCACTTTTCTAATTCTATTCTGTGAATCGTGAAATTTTTTCTGATAAAATTAACCTTCTTGTATTAGATCTAGACGGTACAGTATTTGGTACCTCTAGACTTCTATTAGAAGAAATTGAAAAAATTCGAAATCTTATTGACAGCGGTGTCCGTGTAATTATATCTAGTGGTAGAACTCTTCATTATGTTCTTGGAATTGCCAGATGTTTAGGAATTGAGGATATTGTTATTTGCGAAGAAGGTACCGTTACTTATGATTGTCGTAATCATAAATTGTCTTTACTTGGCGAACAAAAGGATTTGATATTACTCAAAAATAATCTTTCTTCTTGGTTGCCTTTTTGTATTATTCCAAAAGAAGCTCATCATGACAAAAATGTCATCATTGCTCTTGACCGAGAACCTCGAATAAATGTAGATGATTTTCTTCATGAGGTTTCCGAAGTTATTTCTGACAAAAATCTTAATCTAAATCTTACTCGATCTGATGAAATGATAAACCTTATGCCTCCTAACATCACTAAAGGTTTTGCATTAGACAAAGTCTTACAATCTGAAAAAATTAATCCTAATTCCGTCGTTGCCATTGGGGATTCTCTGAACGATTTGTCTGTATTCGACGCAGTAAAATATTCTATTGCTGTTTCTAATTCTCATGATTTAGTAAAAGAAAAATCATTTTACACATCGAATAAAACAAATGGTGATTGTGTTTCAGAAGTTATTGACTTCATTCTCTCTAATAACAAAAAATATTAGTTATTTACACGAAAATCATTTTTATCTTATTGAATCATATAATTAATTATGGAAGTTGAATCATGGAACTCAGATTGGGGTAAATTAAATGAATCTAATATGAGAAAACGTTTAGAGGAAGAAGGATTTAGCGTGATTACTTATTCTTATAGTCCTGGAACATATTTTTCCGAACATTCACATACTATTGATAAAAAAGATACTGTACTTTCGGGTAAATTCAAGATGACTGCTCTTGGTAAAGAATTCATTTTAGGCCCTGGAGATATGTTACTTGTTCCTGCTGGAACTATTCATACTGCTAAAGTTATTGGAAATGAACCTGTAATTAGCTTAGACGCAACTAAATATTGATTTTATTAGAATTTCTTTATTCCTATTATAAAACCCACAACAAATGGTACTGCCATTTCTAATT
>sequence45
AGTTCATTGGCCACGAATCTATGCAAATAATCCTAAAGATGCAATAAAATTATCAGTTCAAAATTCACGTAGTTTGATTGAATGTTTAGATAAATATAGAAAAAGACCTACGAAAATATTATTCGTCAACGAATTGAATTTTTATCTTCATATGGGAACTATGCATTGGTTGATGAAAGCAACTGATAAATCAGCTTCTTTTATTGGTACTTGTTTTAGATCAAAATTTCCTTATTCGGATTTTAATACTGGAATATCGCGTAGGGAACGTCGTTTAATTGATAAACTTACTCATAAAGTTGATAGTGTAATAACACTATAACTTTTTTTACATAATTAATCGAAATAATTGACTTTTACCAATAACTATCTTCCCGGATAAATATAATTATGCAAACTTCGTCTCAGATTGATCAAAGTTCGATTATGTGTGATTATTGTGGTAAATATCTGAATAAAGAATACTATTTTAAATGTAAATCTTGTTCATCAATATACTGCTTTACCCATAAATCAAAACATAGTTCTTGTAATGATCGTATTACAATTTAGTTTCAGCGACTGCATTCTTTAAGTTCTGAACGCCTTTATTGAATTGTTCTAATTCATTTTGGTTTAAATCAAATTCAATTACTTTTTCTATTCCATTTTTACCTAGTATTGTAGGTACTCCTATGCATATTCCTTCTTGATTATATTCTCCTTTCAAGAGTGTTGATGCTGGCATCAGAATCTTTTTATTTAATTTAATAGCTTCCACCATCGAATATATTCCCATAGATGGAGCATAGTATGTGGCGCCTTTAAGACCTATAATTTTTGCAGCTGCCCCAATTGTATCCGAATAACATTCATCTAAAATTTCTTTACTTGCAAATTTATCCAGCGGTACTCCATTTACTGTTGAATATCTGATTAAAGGAAGCATTCCTTCTCCATGTTCACCTATGACAATCGTTGTTAATGATTTTCTGGACACTCCTAATTTCTCTGAAAGTACGTTTTTAAATCTTAAATTATCTAAAGCACCCGACATTCCAAATACTCTTTCTCTTTCTGTTCCTAGTATTTTATTCATTACATATGTCATTGCATCTAATGGATTGGTTACCATTATTACTATGGAATTAGGAGAATATTTCTTAATATTCTCACCAACTGACTTTACAATACCCATATTTTTGTGAAGTAAATCCATACGAGTTTCTCCTGGTTTTCTTCCCATTCCTGCAGGAACAACTATGATGTCTGATCCTTCTAATTTGCTAAAATCTTCAGTTCCAATAATTTCTCTATCAATACCCATCTCACAAGCCATTTGTGAAAAGTCCATTGCTTCTCCTTCAGCCTTTCCTTTTACAATATCTATTAAAGTTACGTCATCCAAGTCATGACTAATTACCTGTAATGCCGCGGTAGCACCTACATTTCCTGCGCCTATTATTGAAATCATGTGACTATACTAATTTTTTAGACTAATAAATTGTTGGATAGTCGTAAATTTGGTTTTTTGTTCCTAATCCTTTCATTTTTGGCGATTACTTTTTTTTGAAAATTTGAAAATTTTCTGAAAATCATCAAAAATCGAAAAATTTTGGAAATTTGGGCAATTTTGTAAATTTGAGAAATTTTGTAAATTTGAGAAATTTTGTAAATTGTTACTTCTTACTCACGTCTTACTTTTCTTACCTGTAATATTTAGATTAAAATCATAGAATTAAGTAAATTATTACATATTTCTAGATAAATATTGTAATTTCTATATGATTAATTTTCAACCCCGGCAATAATAGTTAATCTTATAATTGGGTTATACAATCACAATTTATCAATCGGGGGAATATGGATGTCTATAAAGGTTGGAATTAATGGATTTGGGGTAATAGGCCGAAGAGTTGCTTATGCCGTAAATAAACAAGAAGATATGGATTTAATTGGTATTGGTAAAACCAGTCCTGATTATAAAGCAAAAATTGGTATTGAAAAAGGATTTAATTTTTATGTACCTGAAGATAGCCATAAAGAAAAATTTGATAAAGCCGGGTTTAAAGTTTCAGGTTCTATTGACGAACTTATTGAAAACTCTGATATAATTGTCGACGCCACTCCTGGTTCTTTAGGTGAAATGTATCGTGAAAAATATCTTAAAGCTAAAACACCTGCTCTATTTCAAGGAGGAGAATCTAAAGACTTGGCCGAGGTCTCATTTGTTGCACAATGTAATTATGAGAATTCAACTGGTAAAAATGTTGTACGAGTAGTTTCTTGTAATACAACTGGTCTCAGTAGAGTTTTAAGTTCAATTGACAATGTTCATGATATTTCTAAAGTTACTTCTGTAATTGCAAGACGTGCAGTCGATCCTGATCTTCCTAAAGGTATGGTCGATTCAGTTTCCTTAGATCCTGTATCAGTTCCATCTCATCATGGTCCTGATGTTTCAACTATATTGCCTGATCTTGATATTGTAACTATGGCTATTAAAATTCCTACAACACATAATCACGTTCATAGTCTTATTGTTGATCTTAATACTTCTACAACTCCTGATGCTATAATTGACACTCTAAAGAAAACTCCAAGAGTTATGTTAGTTTCTTCTAAAAATGGCGTGAAATCTACTGCACATACTTTTGATCTTGGTCGAGAATTAGGAAGAGATCGAGGTGATATTTATGAAAGTATGGTTTGGGAAGATTCAATTACTGTAATTGGAAATCGTGTCTATATGTACATGGCAGTTGCACAAGAGGCAATTGTATTACCAGAAAACGTTGATGCTATTCGTGCAGTTCTTAATACTGCAACAAGAGAAGAATCAATTAAAAAGACTAACGACAGTCTTTGTATTGGTGGACCTACATCTTAATATACTAATTTTTATAATTGATTTTAATGTCTTTACTTGATTCTTCAATAGAGTATTATTTATTAAAAGAAAAAGGTTGGGATCTTGGACATGGAAAAATTTTTGACTCTGACGGTAATGTTATTGGAAAAATGAGTCGCCGTTTGCGTAATATTCGTGGATTAACCAAATTAACTGAAACCGATGGCACTGGCATATTGAAAATACAAAGAAAATTTCTTTCTCCCAGAATAACTTATGATATCTTTGAAAATCATGAAGATGACGGCAAGCACGGAAAACAATTTGCAAGATGTTATAGAGCATTTACTTCAATAATTAGACCAAAGATGTGGTTAAATTATGATCCTGACAAAAACGGTAAACCAACAAAAAGACTAGATGCTCAGGGATCTTTTGCAGGATGGAATTTTACAGTTGTATTTGAAGGAAAAGATATTGCAGAAGTCAAAAAACTAGATCGTTTTAGAGATCTACTTGGTCCAAAAATTCTTGATATAGCAGACACTCATGCAATACACATTCTAGACAAAGATTTCGATAGAAAAATTCTTCTTGGTTTTATTATGTGTATTGAACGAAGTTTGAATACTAAGAAATAATAATTTCTATTGCCACTGCCACTAACGAAACCCCAAATATTACATTCAAAATCTTTGCATTTTTTTCCGAATTGAATATTTCTTTCAATAAAGTTCCAGCATAAGCCCAAGAACTGATCGCCGCCAGTCCAAATATCGACAAAAATCCTACAAGACTCAATATTCCCAAAAACGAAGTTCCCCATTCTTGTGCAAATCCTCCCATCAGCGTAAGGTGAAATACCCATGCTTTACCGTTAACAAGTGAAAAGAAGAATCCTGTTATGAATCCCAAATTATTCGTTTTTTCATCTTCGGTTTTTATTGGTTTTGCAGTTCCTAATATCCAAGCTAACCTAATAATTAATGCTGCACAAATCCAAGTCAAGCCTTCAAGTATTATTGGATATTGTTGTATGAAAGATATAGAAAATCCTACAAATAATCCTAGGAATGCCCATCCAGAAATTAATCCAAGTAATAGGTTTGTTGTTTTTCGAAATCCATATTGAGCTCCGTGCGCTGAGCTTAAAATATTTCCTGGTCCTGGTGTAAAACTTACTGAAAATATGAACCACACCATTGCAATGAATGTTTCTGTTTCCACGCAATGATGTTTTCTTTATGATCTAAAAGTTGTTGTTTTCAAGATGAATTTCTTAGCATCAGTATTCCTCTGATTATGAATATTATTCCTGTAATGAGAATAATTGTAGGTATTGTCGATCTTTGAAATGCTGAATAATTTCTACAATCTTCAATTCCTCCTCCTGCAATTCTTGGATCACATTCAGTTACTTGACCAGGAGTTATTCCTGAAATATACAAACCAATTCCTATTAATACAATTATTACTCCAATCAAAAATTGATTGCGTATTTTCTTTTCCATAAATTATCTTTATAATTCGATTTATTTAGTCTTTATAATGAACTTCTTATCGTCAAGATTCCTCGTATCATGAATACCATTCCTATGACGAGGATGATTGCAGGTATTGTTAATTTTTGAGCAGATGACTCATCACAATCCTTGTATTCCATCCCTTGCCCACCTCCTCCTTGCCTACCAACAATTTCACATTGCCATGGATATGTAATGGAATCTTCTTGGGTCTGGAAAAATAGCAAAGTATTTACATTTACTTCAGAAAAATATATACTAATTCCTACCAACATGATTAATCCTCCAATCAAAAACTGATTACGTATTTTCTTTTCCATAAATTATCTTTATCTATTTAGTATATTTACTATCTATCGACGTCGATATCGACATCGATAATTAATCATCCACATTATTTTTGTATGATCTTCACGTATATATAATTGGACCATAATGGTTATCGAGACAATCGAATATCCTGATGGATCAAAATACATTGGCGATCTTAAAGATGGAAAACCTCATGGTAAAGGTATTTCCACTTTCCCAGATGGTACTATGTATGAAGGCGATTGGTTAGTCGGAAAAAGAGATGGACTTGGAATTATGACTTATCCTAACGGAATAATTTATGAAGGTTTATGGAAAAATGATAAAAAACACGGTAAGGGAACTATGACATTCCCAGACGATACAAAAGAAGAACTCGAGTTCGACGAAGATGAACAGGTCATTAAGAGTATGAAAAAGAAAGATCCATTTGAAATCGACGTTGAT
>sequence46
ATATTCTATTTTTCAAGAATGTATTCCTCTACCTCCATGCCAAAATGTCTGCCCTTATTAGATTCAGTCTTAACAAGAATTTTGTCGCCAACTTTAAGTGAAGTTGTGGAGATAGGTTTGCCATTGTCTTTTACAAATGCAATTGTTTCAGCATTTTGGATCAAGACACCGCCAATTTTATCGTCAGATTTAGCACGTACAAGGAATAATGGCCTACTTTCGATTTTTAGTCGTCCTACAATAGAAGTTCTGACAACTCCTTGATGTGAAACAATCATTACTTCAGTGCCACTTTCAAGTTCAGACAAATATTTTGTACGATTATCAGGTAATAGTGTATAACACTGTACTGCACCTGCATTTACACGAAATGGTCTAGGAGAAGTAAACCCAGAACCTGCAGATTCATTATGCATAAGAAACATAAAGTTTGCTTGATTTCCGACTAACAATCCTTCACCTTGATTTAACATAGATGCAGTGTCGACACAAGCTCTTTCACCCATACCAACTTCTTTAATTTCAATAATTTCCGCTACAGATAAATCAATTTTTGAAAGTTCATTCAATTCGGAATTGAGTTTATTAACATCGTCAATGTTAGATGTTCGTAATAAAACGCCATCGACGCCAAGTTCCAAAATTGTAAACATCATTTTGATTTCAGAAGGATCGTTAATTACCGTAAATATTTTAGTTTTCAGACCATGTAATTCGGCAATAAGATTTTCTAAGGGAATTATCTTCCATTCAGTATTTTCTTCAAATTCAATTATAACAGATTCGGCATTATTTTTTGCTGCATTTACTATCTCATCAAGATTCGAATCATCATTCAACGAAGCAAAATAAGAAAATCTTTGATCAGAATTTACTTTATTTAATGTTTTAGAATCCACTACTTGAACGTCAGATTTACCTGAAAATGAGTATGTCTCAAATTTAGATAAAGCATCAGAATTAGGCATGTCGTGCATGAATATATTATTAATTCCAGATTCAAAGAGCAATTGACTGAAATCATTTATTTCGGAATCAGAGATTTTAGGTTCAACAATAATAGTCCTCAATTTATCAGTCAATTATATAACCTCCAAAGCTGATTCTACAGAACTATTATCAAAAATAATATTTGATATTGCTTTAGTAATATTCTCAGGGTTAGAATGTTGAAAAATATTTCGTCCCATAGAAACGCCTACTGCGCCAGCATCAATTGCGCCTTTTACCATTTCTAGTAATTCTTTATCATTATTTGCTTGGGGGCCTCCTGCAATAACTATTGGAACAGGACATCCTTCAACTACGGTACGAAAACTTTCAGAGTCTCCGGTATATACAGTTTTAACAACATCCGCTCCCAATTCTGCACCAATACGTGCAACATGTGCAACAATTTTTGGATCAAAAGGATTAGAAATATTTTCACCACGAGGATACATCATTGCAAGTAATGGAATATTTAATTCAGAACATTCATCAGCAATCAGGCCAAGATCTTCCAACATGTTTCGATCATGACTAGAACCAATATTAATATGAATAGAAACTGCATCGGCACCCATTTCGCGAACCAATTCAGGACTGCCCACAATTACTTTATCATCAGGAAAAACAGAAAGATTCGTACTTGCAGATAGATGAACAATTTTACCAATGTTGACTTTTGTATCAAGAGTTTTAAAAATTCCTTTATGTGCAACAACAGCTGATGCGCCACCTTTTTGAACAGAATCTACTGTTTTATTCATATCAATTAATCCAGAAACAGGTCCAATTGTCAGACCATGGTCTAGGGTAACTGCAAGGATTTTTCCACTACGATTAATATTATCCATCAAACATGACACACCAAAAAGAAACGATTAATTAGAGTGGTAACTAAGGATATGAGAAATACCAGTAACGGTAGCTTGAATATCTTATCATATTACACTCTGAGATATGACGAGGATTTATTGCATATAAATAGTGCTTTTGCAATTACACAAATAATGACATTAAGACTATTCAATTCATTAGGGAGAACTAAGGAAACATTCGTTCCAAAAAATAAAGACGAAGTGAAAGTATATTGTTGTGGGCCTACAGTTTATGATTATGCCCATATAGGAAACCTGCGAACATTTCTATTTGAGGATGTATTGAGAAGGTATTTGGAATATAAAGGTCATAATGTAAAATTTGTTATGAATATAACAGATGTAGATGATAAAACAATAAATTCGTCAAAAAAGAACAATGTTACATTACAAGATTATACAAATAGATTTATTGAGGAATTTTTTAAAGATTTGAAGAGTCTTAATATTAAAACGGCAACATTATACCCAAAAGCGACAGAATATATAGAAGACATAGAAAATCACATAATAGAATTACAGAAAAAGGATTATTGTTATGAAAGTAATGGTTCTTATTATTTTTCTATAAATAAATTTTCAGAATATGGAAAATTATCAGGATTAGAAATTAACAAAACAGATAAAAAAACAAGATTGAATGAAGACGAATATACTAAAGATAATCCACAAGATTTTGCGTTATGGAAAGCATGGGATAATGATGATGGAGATGTTTACTGGACAGGTAAACTAGGAAAAGGAAGACCAGGATGGCATATTGAATGTTCAGTAATGTCGACAAAGATACTTGGTGATGAGATTGATATTCATGCAGGAGGAGTAGATTTAATATTCCCACATCATGAAAATGAAATTGCACAGTCAGAACCGTTAACAAATAAACAATTTGTAAAATATTGGATTCATGCAGAACACCTTATAGTAGAAGGAAAAAAGATGTCAAAATCCGAAGGAAATTTCTTTACATTGAGAGATTTATTAGAAAAAGGTCATGATGCAAAACATATCAGATTTCTGTTAATATCATCTCATTATAGATCACAATTGAATTTCACTTTTGATGGAATAAATCAAGCAAAAGAAAATATAGATAGAATTCAAGAGACATATTCAAAGATTATAGACTGTAAAACTAAAAATGGAAGAAATTCGGATTTATCAAAAATTACAAAAGAAGCAAAAATTGAGTTTGAAAATGCAATGGATGATGATTTAGACATGCCTGTTGCATTAGCGTCAATTTTTGGATTTGTTAGAGAAATTAACAAATATCTAGACAAAGAACAAATTTTAGAAGAAAATAAGTTAGAGATTACAGAATATTTTGAATTAATAAATAAGATATTGGGAGTTTTATCAAATGAAACAATAGAATTTGATGATGAAATTAAGATGTTAGTAGCAGAAAGAGATGAAGCAAGAAATACGAAAGATTGGAAGAAATCAGATGAAATTAGAAAAGAGTTGTCAAGAAGAGGATACACTGTAGAAGATACTGAAAAAGGAACTAGAATAAAACGAAGTTAGATTACTTGTATGGTTTTGAAACTACAGATTTATCAGATTTATCAGATTTCATTCCAGATTTTGTTAATTTGTAGGTTCTATCAGAAGAGATTACATTAACCGACATAGAAGCTTGTACGTTGTAGTGTTTAGAACCATCAGAATTACGATAATTAGTTGCAACGCCAGCACGATCAATATTTACTCGTATTTTTATTATAGAACCATCCTCTAATTGAAATATTACTTCGTCAGAACCATCTGCATTAGATTCAAGCATTTTGAATTCAATTTCATCAGGTAAATCACGATTTTGATTATTGCTCATAATTAACAATCAAAAAGATAACATCTTAATTAAATTTTTAATGCTCGATTACCATTTTTTGTATAAACTAATAATTAAAAGTAAAAATAAGACATTAGTAGAGAGAAATTAAGGCAATGTTTGAAATTAAATCGACTGAATTAGCAGCAAGAATTGGTAAATTATATACAAAGAACGGAAATATGGAAACTCCGGCTCTTTTACCTGTATTACATCCTGTGAATCAATTAATCGACACCAGTATCATAAAAAGAATGGGGTTTGAAGGTATAATGACAAATTCATACATCACATGGCAGAAATATGGGGACGAAGCTGTAGAAAAAAATATTCATAAAATCGTTGATTTTGAAGGTCCCATTATGACGGATTCAGGAGGTTATCAGGTTTTAGAATATGGAAAAGTAGATGTTGGGGAAATAGAAATAGCAAGATTTCAAGAGAATATTGATTCAGATTTCTGCAATATATTAGACAAGCCTACCAGTTTAGCAGATAATTGGGAAACAGCTAGAAATAGTGTAACACAAACGTTAGAAGCATGTGAAACCACCCTCAAGAACATAGAACGTAAATCAATTTGGATGGCTCCAATTCAAGGGGGAAAATTCTTAGATTTGGTTGAATTCTCTTCTAAGCAATTATCAAAAATGGATTTCGATATGTTTACTCTAGGAAGTCCCACAGAAATTATGGAGAATTATGATTATACGCTTTTGGCAAAGATGATAATAACTGCAAAGAAAAATATACCTGCTGAGAAAGCTCTTCACCTGTTTGGACTAGGTCACCCTCTTCCATTGTCTATGGCAGTTGCACTTGGATGTGATACATTTGATTCTGCGTCGTACATACTTTATGCAAAACATGGACGATATTTTACTGAAAATGGAACACGAAATATAGACGAATTAGAATATCTTCCATGCATTTGTGAAATATGCAATAAATATTCAGTAAGAGAAATGAGAAAGTTAGAACATCCTGAGAGAATCAAAGCCATTGGAACTCATAACTTGTGGTTATTATGGAAGGAAATAGTTTCAACCAGACAAGCAATAAGAGAGGGAAGGTTATGGGAATATGTAGGAATTCGTGCCAGATCTCATCCAAAGATGTGGGATGCATTTGTATATATTTCAAATAATATGGATGATATATCAGAATTTCAGAAGAGGTTTAA
>sequence47
GGAGAGGAATATGGAGGAATATTGATTGAAGTTCTTAAAGAAATGGAAGGCAAGAAAGACAATACAGAAGCATTAAGTAGAATTTCTTTTGCAGTAGGAATATTATTTATATTATATTCAGCTAAAAAAGAAATATTAAAAATAAAAAAATATTTGTGGGATTAAAGATTATTTTTTTAATACTTTATCGACATTGGAATTGAATGCTTCTTCTGTAGTAATATGATTTTGGAATAAATTTTGAAATAATTGTCTATCTTGATTAGTTTTAGTAATGACGTCAAATGATGGAAAAATTGAATATTTTTCGTCAGGAAGTAACTTAGAAAGTGAATATTTAGAATCAGATTGAATGTAGGCAGGGACTCTTATGTAGTTATTACCAATCATATTTTGACCGTCTTTAGAAAGAATATAATCAATAAACAATTTAGCAGATTCGAGATTGTTAGAGGTTTTTAGTATCGAGGCAGCAGTAGCAGAAACAGATAAGGGGATATCAGAAAGAATCATTCGTTCAATGGGTAGGTTCATATCTTTTGCACGAAGATATTCATAAAGCATAACAGTAAGACCAAGATCACTATTTCCAAGACTAACACTTCCTAGGACATGTCTGAATAATGGCCAAAGTTGAAGATTTTGTTGAGAAAGTAGATTTACAAATACACTCCAATCGTCGTCAATTAGGTTACTACGAAGAGAAGACAACCAATTACTGCCAAATGTTCCAAGAGTTATGTCATGAATAGATATACGATTTTTCCATCTATCTTGAAGAAGGTCTTTTGAACGAGTTGGAACGTCATTTTTTTCTACATTTTCATTATTATAGATTTGCATAGTAGGTAAAAGAATAACAGAAGTCCAGAAACCATCAGAATCTTTTAACGATTCGGGGATATTTTTTCTTCCATTAGATTTGTATGATTGAAATAAATCTTGATTCTGCATTTGTAAATGGGGGGATATTGCACTAAAAATTATATCGGCAGAAGATCCAGTGTTAGATAGATCGTGTTTAATTTGGGTAGACATAGGTGGAGGAGTTCCATATACATATTTACGTGAATATTCAACTTTTATTCCAGGGTGAATTTTATTGAATTCACTTATCCAAGAATCGAATTCCCAAGTTTCTATTGTGCCATAAATAATTAATTTATTGTTACTCAATTTGTAATCCTACGTCTAGTTACTATTGTAGCGTAGATCAATGAGGCAAAAGTAATAATAAATAATATATAATTAGAGTATGATTCAGAGGATTCGTCGACAGACATAGAAACAAGAATTCCAGGATTGTTTCCTGTTAGTGTGCCTCCGCCCATTGGAAACACAATCATCATAGAACCGGTTGCGTCAGCTCCAATAGAAGGACCTGCAGAACCCATTGAATTGAAGGGTATTGAATTAAGAATTGTTCCGTCTTCTATATCAATAGCATAGAATACTCCACTGCGATCTATCGAATACAATACACCTGCACTTACAATTAGAGAAGCACTTTGTATTCTATCAGGTATAGTGATTTGCCATTTTAATTCAGAAGTAGATAAATCAACAGCATATATTGAACCGTTTGTTGGTCGATCTAGATCTAAACGATATACATAACCGTCGATAACTTCTCCTTTGTATTCTAACTGTCTTGGAAGAACAGTACCACAAACATTCTGAGATGGGATGTATGCAACATTATCAGCAACAGACATTCCAGCAAATACTCCTCCTAATTGACTAGGACAAAATATTTCACCAATATACTTAGTTTGAGATGCATACATGTCAGATTGATTTTCAGTGTTTTCGTTTGTTAGATTATAACTGTCTGGGCCAAAATGTATAGGTTTATGAATTAAATCTCCAGTGAGAGCGTCTACTACATACAAATAATTACTTTTTGAAGCAGCAATTATTGCTTTACGATCGACGTTATTGACAGAAATATCCGAATAAACAACTTTCCAACCTGGATCATTATTGTTTATATCATGAGTACTCATCTGATGGTACCATTTTAGAGTTCCAGAGGTGATATCAAGTGCAACAATAGAACTAGAAAATAAATTAGGGCCAGGACGTAATGCAGCGTCAAATTGATTGGCAGGTTCCCCGGTCAGAAGATAAAGTGTTTCAGATTCTTCGTCAATAGCAAGCAATCCCCAAGAAGTACCTCCGGCAATATAATTAGTATAACCCCAATCATCTTCAAATGGTAAGATATTTCCTAAATTAGCTTGATCATATCCCCAATTCAATTCACCGCCTGCAGGAGGAGAAGAAAACCAATGCCACACTAATTCTTTAGTATCTAAATCATATGCAGATACAAATCCACGTCCGCCAAATGCATTTCCTTGAGCTCGAGTTATTAGAAGATTTTTATAAAAAGTTGGTGCAAATGGAGAAAAATATTCGCCATTATTTCCAGGAATATTAGAACATGTGTCAGGTAATTCGAAAACTACCTCGCCCGTAACTAAATCAAGGCCATAAATTGAACATTCGCTAGTCTGAACATATACTGCTTCATTATGAATTGTAAGAGATCTCATTGCAAGACGTTTTGCCCAGATTTTAGTATTTTTAAAGTCGTCTATATCAGGTTTAAAAGACCATAACGGGCTACCATCAGATGCATCAATCGCATAAACTTCATTATAACCAGTTGCAACATACACTATACCTTGATAGATCAGAGGAGTAGTCTGAATTCCTTCAGGAGGAACTATATCATCGTCAAGTGGTTCAACACTATCGAACTGATAAATCCAATTTAGTTCCAAGTCTTGTACATTAGATTTTGAGATTACAGTTTGTGGACTAAAACCTGTGTTATCTTTATCAAATGCAGAATACTTCCAATCAAAGAAATTTTCAGAACTTACGGCAGATATATTGCCAATAAATAATAATAATAAGAAAATAGTTAATAGCTTATACAATAGGTTTCTAAGCATTAAATAGAGCAATAAAGGTTAACAAAAACGAGAAATAAATTTAATTTTAGGGTAACTAAAGCAATTTTTCGAGATAAAATGTACATTGGAAGTAAAATTAGAGTTAATGAACAAAATCAACTGTGGAGATACTTTAGATTTAATAAAGAATATAGAATCAAATTCCGTACATCTGGCAATTACTTCTCCTCCATATAACGTAGGAAAAGATTATGACAATCATAATGACTTGATGGGATATGATGAATATTTGGATTGGTTGTCAAAAGTTTGGATTGAGACAAAAAGAGTTCTTATAGATGGTGGAAGATTTGCATTGAATGTTGGTCCCACAGGGATAAGAGATTTTAAACCTCTACATCATGATTTATCAAACAGGCTTAGAGAGATAGGAATGATATTTAGAACAGAAATTTTATGGTATAAACAGACAATGTTAAAAAGAACAGCTTGGGGAAGTTGGAAGAGTCCAAGTAATCCACATATAATTCCATCATGGGAATATGTACTAATCTTTAGTAAAAATTCAATGAAGTTAGAAGGAGATAAGTCAAAATCAGATATCACAAGAGACGAATTTCTTAGTTTTTCAGATGGTCATTGGAATATATTACCAGTTACTAAAAATAGAAAAGGTCATCCAGCTCCATTTCCAGAAGAATTAATTTACAGATTAATAAAATATTATTCATATGAAGGAAATACAGTTTTAGATATGTTTGGAGGAACAGGAACAGTGGCTTCCGTAGCTTCAAAGAATAACAGGAATTTTATTCATATAGATATATCAAAAGAATATTGTAAAATTGCTTCAGAAAGAATAACAAAATAAATTAAGACTGAATTGCTTGGATTGTATTTTTCCACCAATAAGAGATTTCAGGAGACATATCGTTGTTAAATGGAAGATAGAAATTAATACGATCTAAAAGTCCTGAATATTTCTTTAATGCCAAGGAAGCAATTTCATTGGGCGCTCCTATTATTGCAATGGATTCAAGAATTTCATCATTAATTAATTTAGGCATATCTTTGAAATTACCAGATGAAGACAATTTGTTTAGTTCCTTTGCAATATCGCCCCAACCATGCATTTCAAGAACTTTAGAATAAGTTGGAGTAGAAGAATAAAATGCAATTTGAGATCTAACGAATTCTTTGGTTTTGAGTATAGAATCATAATCAGGTCCAGTTATAACAAAGACTGAACCACTTATGGAAACATCTTTGACATTTCGATTAGTTGATTCACAACCAACTTCAATATTCGGAATTATAAGATCGTGTATGTATTCTTTAGTATGTAACGGGTGAACATGAAATCCATCACATACTTCACCTGCCATTTTACATAGAGATTCATTTACACCAGCTATATAGACAGGAATATCAGGATAATCGATAGGTCCAGGATTAAAAAAAGGTGTCATAAGATTTAGATTGTAATATTTTCCGTTGAAATTTAATTGAGTCTGAGTTTGCCAGCAATTCCAAATATGACGAATACATGAAATAATTTCTTTAAGTTGAGAAACTGGAGAATTCCAAGGCATGCCGAATCTTCTTCTTACGTGAGCACTTACTTGAGTACCAAGACCTAAAAAAAATCGTCCGTTAGAAAGCTGTGACATATCCCAAGAAGTATAAGCAAGAACCATTGGACTTCGAGCTAATGCAACAGAAATAGCAGTACCTAATTTAATGTTAGTTGTATTTTGAGATGCAATTGAAAGTGGAAGAAATGGATTATGTTTGGTTTCACTAGTCCATATACAATTAAATCCAATTTTTTCAGCAGTAGCAGATAATTTAGAAATATCATTAATTCTATA
>sequence48
ATTTATAATCCAGAGAGAATATCGGCAGGGCAAGCAGTAAGCGATATAGAAAATAATTATCCACCAATATTATCAGGATCGGGAAAAACGAGCATAAAGATAGCAAAAAAAATGTTTGAAGTAATTTCTTCAAAAAAACCAATTATTATGTCAAGTACAGATGCAGCTGAGGCTGAAAAATTAGTGGAGGGATTATATCGAGATGTAAATATTGCATTAGCAAATGAATTAGCTATATTTTGTGAGAATATAGGAATAGATTATTGGGAAGTTAAAGAAGCGGCAAATTCACAGCCTTTTAGTCATCTTCATAAGCCTGGGATAGGAGTTGGAGGATATTGTATTCCAGTTTATCCATGGTTACTAACACAAACAGCAATAGACAAAGGAATTAACATGAATTTTCCATTATTAGGAAGATACACAAATGAAAAGATGCCAAAATATTCCATTAATAGGATTATGTCAATAATTGGAAACAAAAGGAAATTAACAGCATTAATTTTAGGTTTAAGTTTTAGAGGAAATGTAGCAGATAATCGCATTTCTCCGACTTATGATATTGTTAATGAATTAATAAAAAATAAGATTAAGGTAAAAGTTCATGATCCATTCTTTAATTATGATCCAATATTACCAAAAGAAGTCAAATTAAGTGATGAATTAGATAAAGTAATTTCTGGAACAGACATAATAATAATTGCAACTGATCATGATGAATACAAAGAAATTAATGAAGACTATATAATTAAAAAATCGAGAAAGAAACCAATGATTTTTGATGGAAGAAATATATTAAACAAAGATAATTTTAAAATATTAAAATTAGTAACAATTGGAAAATAATTAATTACCAAATTCTTTTTGGGCTTCTTCTATATCTTTATGACTATCAATAGAACGCCATTTTACATCACTCTGTTTTATTGCAGATAATTTATTCTCAGTAGCAAGAATAGGAAAAACATCTGATTCAAGACTACCAATATCAGATAAATAATTAAAAATTTTATTTGAAAAACAATAAATTCCAGCATTAATCCAATGATCATTAAGTATTGGTTTTTCAGTAAAACGAGATATTAATCCATTGTCTTTAATTTCAATTTCGCCAAATGGACTTCTCAATGCAACAACAGCAATAGTTCCAATTAAGTTATCAGTAAGACTTTGAATCAGACTAGAAGGTTCTATATTAGAAATGATATCTCCATTCATAACAAGAAAGTTTGAATGTTCTTTAAGTAAGGAACGAGATTGCATTAATGCACCTCCAGTGCCAAGAGGTTCTTCTTCTTTAGAATATTCAATATGTACACCAAATTTTCCCCCGTCTCCGAAATACTCAGTAATATTATTACCCATATAACCAGTACAAAGAACAATATCACGAATATCATGAGATTTAAGCCATGTAATTTGCCATTCAAGAATAGGTTTGTTTGAAATAGAAATCATAGGCTTGGGTTTATCATCAGTAAGTGGTCGAAGTCTTTTTCCCATTCCACCTGCGAGAATAAGCGCTTTCATAATATAATTCAATAATTATTAACTATAGTTAATCTTTATCCAAAAGACATATCTTTTTCTTAAGTATGTATTAGAATTAATGTTTGAAATTGACGATATAGTAAAATTAAGAAAACAATTAGGATTAACACAGACAGAATTGGCCAATCTATCGGGAGTAAGTCAATCATTAATTACTAAAATGGAAGCAAAAAAAGTAGAACCAGCATATTCTAAAGTAAAAATATTGATAGAAACTTTACAGAAACAGGAACAAAGAGATGGCGATAAAAGAACTGCGAAAAATATATGTTCAAAAACAGTAAAAGGAATAGATAAAAAAGAAATATTAAAGGAGGCTGCAAAAAGAATTCGTGAAAAGAATATATCTCAATTACCAGTTTTTGACAAAAATAATATAATAGGAAGTTTATCAGAGAAAACTATTTTAAGAGAATTATCAGAATCAGGCTCTCCAAATGAAGCATTTGCAAAAAAAGTAGGAGATGTAATGGATCCTCCATTTCCAACAGTGGATGCAGATACACCAGTTGAATTATTATATCAAATGTTAGAATTCTTTGAAGCAGTAGTAGTAACTGAAAAGGCAAAAGTAATAGGAATTGTAACACGAAGTGATTTATTCAAATTAAAATAGATGAAGAAATACTTTTAATATAGACATTTACAGAACAATAAGAATACAATTGATAAATTATTGGATTGCGGGAATTTATCCACGAAATGAAAGACTAATTGAATCAACTAGATTGTATGAGAAAACACTAAAAGAACAATTTAAAAAAGAAAAAACAAGACTATTAACAATTCAATCAAAAAACAAATTTGATTACGTAACTGATCCATTAATTGATTGGGACGATAATATGAGGCCTTTTACAGACAATTTAATAGGAATAGAAAGGGGGCCGTTAACTAGATATTATGAGAATAATACTTTTTATCGTCAACCAATTATTACCAAAAGAATATCTACTTCAGGAAAAATTCTTAAGAATAACATATGTTTTAATTTATTTTCAAAGAGACCCATGATTAAATTAGATATATTGGATCCATTTACATTCTATGACTTATCTTCAAATGAATTTTATAAATCAGAAAATGACGTCATTAATGCATACGCAGAAATAATTAAAAAAGAACTAAATTCAGTAAAGAAGAATGTTAAATTAATTCAATTCAATGCACCATCATTAGCAAGAGTGAAAGAAAAAGAACGTTTAGATATTGTTAAGAAAGCAATGGATAAAATAACGAAACAATTAGGCATTAAAACATGTTTGAATTTATGGGGTTCGGATATATCAGACACATTAGAAGAATTCCAAGAGTTTCCTGTTGATATAATTGGTATAGATTTCACTATGTCAAAAATTGACAAATTTGATAGAACAAATATTAAAAGAGGGTTAGCTTGTGGATTGATTGACGCAAAGAATACTAAAATGGAAAAAACATCCGAAGTTATTCAAGAATTAAAGAGTATTAAAGAGATATTTAATCCACAATCATTAGCAGTAATACCAAATTGGGACTTTGAATTTATACCAGAATCATTTGCAAGTAAGAAATTGAATATAATGAAACAAATAAAAGAAAAAAGTAAAGTGATTAAATTATGAGAAAGTTTCCTCTAGCAACTCAAGAAATAGGTAGTATAAGAAAACCCAGATGGTTAGTAAAATTATTACAAGACAAAAATGTATCAGATGAGATAAAGGAAGAAGCTAGAAGCGATGTTGCATTGTTGAATTTGAAGTTATTTGAAGATATAGGATTGGATGTAGTCTATGATGGAGAAGCAAGAAGAGTAGAGATGTATGAATATAGTATAAGAAGAATTCAAGGGTTAGAATTAGCAGGAAAAATTAGGTCTTGGGACAACAAATATTACAATAAAGGAAGGTGTATAAAGAAAGTTCAATACAAAGGACCTTACCATGTTGATGAATTTCTTTTTGTAAAAGAAAATGCAAATAAGATGATAAAACTGCCAATAACAGGAGCTTATACATTAGCAGATTGGTCATACAATGAATCATACAAATCAAAAGAAGATTTTACAATTGATTTAGCAAGAAAAGTAATCAGACCATTGATTAGAGATTTAGTTAAAACTGGTGCGGAGTTTATTCAAATTGATGAACCGGCTGCGACAACGCATCCAGATGAAATGGAATTAGTTGTAAAATCATTTAATGAATCGATAAAGGGAATAAATGCGAAATTTGGAATACACATATGTTATAGTGAAGATTATTCAAACATGTATCCTGAAGTATTGGAAATGAAAAATCATCAATATGAATTAGAATTTGCAAATAGAGATTCCTGGAATAAAGGTGTCAATCATTCAAACAGGAACGGATTTGAGTCATTTTTAAAGACATTTAGAGAATATGGTGAGAAAAAAGAGATTGGTTTAGGAGTATTAGATGTTCATGTAGATGATGTTGAACCACCAGAATTAGTAAGAGATAGAATATTATATGCAGTAAAAATGACTGACAATCCAAATCTTATTCATGTAAATCCTGATTGTGGACTAAGAACTAGAACACGAGAAATATCATTTTCAAAATTAAGGAATATGGTAACTGGTACAGAAATGGCCAAAAAGAAATTAGGACTATAAATTAATCTGTTTTAGAATTTGTTATAGTAGGTACAACAGCATCAGCTTCTTGAGCAGCTTTTTCTTTTGCAGCTTTTTCTTTTGCAGCTTTTTCAGCTGCAATGACTTTTGGATTATATGAACGATAAACGTGAGCAATAATACCAAAGATACAAAATATAGCGCCAGTTTCAAATAGTGCAAGAGCCCATAAACCTCCTGCATATGCCATCAAAGCCATTCCATTAAGAATTACTTCAAATATAACAAGTGCAATTAAAATTGCGTAAGTCCAAAAAGTATTTAGAATTATTGGAGTTTGTTTTGTAGGTTTAGCTCTTTGGCCAGGAACTGTTAAGGCTGCACGTGCTTTTAAGAAACCATACACAACAACAAAACTAAGAACAACACTAACTAACAAAACACTGTAAAACGGAACAGGTTCAACAAAGAGTC
>sequence49
CCCAACTATCAGGATAAATTAGTCTCAAACCATCAATTTCTTGAATTTCTATAGGCTCTTCAAGCGTATTCAAAGCTTTTTCTTTAAGCAAATCCGCATCAAAAGCCTCCAAAACAACATTATTCTGTAAATAACTCCTTTTTGGAACCGACTTGATCATTTCCTCAATATCTATTTCATTAACTGACATGTAATTCACCAATTTTATTGCAGCATACATTCCATCTTCCCACATTCCCCAATCAGAATCAATAACTTTGCTTGGTTCTGTTGCATATATTCCTGCTAATTTATCTAATGTAATAAACGTCTTACCAAGACGAGCTCTAGATATATTACACGAATTTAATCGTGCAAGCTCCTCAAGTGCAGTCGAAGAATTAATAGAAATTACAACATCACCTTTTCTTTCTTTTATAATTATTGATAATAACAAATAAGATAAAACGTAATCTGGAACAATTCCATTTTTTGTTATTATAACCAGACGATCACCATCACCATCATGTACAAACCCAAAATCTACATCGCTGTTCTTTACCAAGTTTGTTGTTACTTTGAGATTCTCACTAATTGGTTCTGGACTATGTCCATGGAATAAATGACTTGGATGCGAATTAATTGAAATAACTTCATGACCCATCTTTGATAACAACAACGGAGTATAATCATTTGTAACTCCATTTGCACAATCAACTAAAATTTTAAATTTCTTTTTACCAAAATTAAATCTCTTTAAAATATCTAACGAATAATCAACCTTTATTCCTTCATTAAATGTAATTTTTCCAAATCTCTTAGGATAAAGTTTATACGTTGAATTATAATTTTGTATCATCTCTTCAGTTTTTTCATCTATTGCAATTCCATTAGAATCAAATATCTTTATTCCACAATAATTCGGCGGATTGTGTGATGCAGTAACTGAAAAACCCAAATCAAAATCTCCCTTTTTAGTTGCATATGCTACCAACGGTGTAGGTGATGAACCTATATGATTAACTCTATTTCCATGATAACTCAATCCCGATGTCAATATATTTGCAAATAATACACAAGATCGCCTAGAATCATGCCCAACTAGAAAATTTGAACCTAAATTACTCAGTGAAATTGATTCAATCAATTTAATCACCATATTAGTTTCTATCTCTTCTTGAAATAAACCCCTAATACCAGACGTACCAAATTTCAAATTTTATTCATTTGTAGTAATGTTAATTAGATTAATTAAGATAGATGTGTTTAGGAAGATGCCACAATTCCAAGGAAGAAATATACCAATTTTCTGGATAGTTGCTGTTGCAGTAGTAGTCAGTGTAGCATATGTTATTAATTCTGATTCTGCTTTAACAGGAGTTGCTTCTTTAGATGACGATTCACTAATTTTTGATGAAGATTTTGGAAATCTTAGTTCTGAAAATGATCAAGGTGTAACAAGCTTTGATGGCATTGATGATATGGCTCATGTTCCTCCTTCGCCCGGTGGACTTGTTCCACCAAGTATTGGTAATGAAGTATTATCTTGGATTGATATACGAAAAACAAATATTTGGATTGAAGATGAATGGTTGTGGGTAAAAATTACTGTTGTTAAAGCACCACCAACAAATTTAGCGAGAACACTTCCTGTTCCTGACGGAGCACTTTTCCAACTTACTGACGAGCTATTAACTTGGAGAGTACGTATAGATCATAACAATGATAATGTAACTGATTATACCATTGACGCTGTTTGGAATCCAACAGGGGAAAATCTTGACATGGACGGTAATCCAAAAGACGATTTATCTGGAGGATATTTTAGAGATGCAGGGCAACCCGGTGCACAGGGACAAAGAGGATATAATATAGGAGCTGAGGAATTTCCTGGATTGATTGGAACTAATAAAAATACTATTCTCACTGGTTTCCCTCTTGTACTTTTACCTGAACTTGGTGACGAATTTGAAGTTGCTGTTTGTGTTAATTATACAGGAGATCATGAACTTCTTGATGATTTTATACTTGCCGCATATGACTGCGACCCAGATATCTTTCCTCCAGGCGCTGAATGGATACAAGTTAAATTATGATTACTTTACTAATGTAATTCCTAATGCATAAACTAATAATATAATTAAAAATGTAGATACTCCTCCTATTTTCGCGATCATAAACAAACGGTCCAATCCAACTGAATAATCATCTAATAAAGCAGAACCAAATACTTTGTATAAATTTTTATTTCTCTTGATCACAAAATCAGATTTTATCATTGATTTTTCTGCAGCAATCTGTAACTTTTTAATGACTTTTTTAATCTCTTTTACAGACGATTCTCCACCAAACGGCGTATATCCTAATGAATTCATAACTTTTGCCGCGTTAAAATGAGTATCTGTAGTACAAATATCAATTACATCATCAATCTCACTAAGTACATCGTCTCTAAAACCTAATGCAATATTATTTGCATCAACAGATACAATTCCATACGTTTTACTCTTAATTTCAAATAAAACCATGCCTATTCCTGCCGGTCCCACATCATCTTTTAGGTTTATTCCAAGTTTCTTTGAATGAGAATATCCCATCTTAAATTCCACTTGTGTATTAAACCTAATCTTTCGCAAAATATCTTTTGCCGCTCGAATTATATCTTCACAATCCTCCCTAACAGGAGTAGCACCAATTGAATTATGAGCGTCAATTAGTATTACACCATTAAAACCAATTGATTTAGACGCTTTGTTTATTTCTTCTCTAACAAAAATTGGAAAATCTTCCATTCCATAAGGAGCCAATGTTAATATTAACATTGCATAATCTCCAAACGCTAATCCCGTAACAGTTGCTCGACCTATATTTCTTGATTTTGGTTCTGTACATGTACTACCATCAGATACAATTTGTAAATTATTCATTTCATTAAGATAAGAAGTAACAATAGCTTTCGAAGCCAGATTATGTTCATGTCCCGAAATTCCATGAAAAATTAAAGATTTTAAATTAATACTATCAGACCATTTCCATAATTCAAATGGTAAATTACTACTTCCTATTGGATAAAATGGTCCTGGATGAACCTCTGGAACTATTATCGCTCTATTTTTTGTTGATATATTAGATTTATCAGAAAATTCAATCACAGAAGTAACAATTTCCTTTTCCAAACTAAAAGTTTCAATTAAATCTTCAATTACTTTAGGACGTTCTGCAACCCATGCTTGTAAAAATGCTTGAAAAATAATTAACGGCGAACTTTTAATTATATGACCACCCGTTCTACTTAACACTAATAAATAACTTACAGATAAAACCGGAATAATTAATACTAATGAAAAAGCCAATGCTTCTTCCACCAACAATAAAGAAAATTGTTCTATTGGAAACAATACACCAGTTTGTGCAAATGGAATTATTATAAACAATAACATTGGTTGTAGAAAAGATACCAATGTTCCTACACTAATTCTATTAAAGAACACCGATCCTAAAATAATTATTCTTATTGATATTGCAGTTGATAAACCCATTACTACCATTAAATAAAAAACCTGTTGTTCCTGTAATACTGAATATTGATATAATCCAAATGCAGATAGAATTGCCCAAGACGCATTAGGAACAATAGACATTGCTAATAATCTACGCACTGAAGCAAATGAATGTCGTAATAATATTAATCGTTCTAAAATAATTGAAAATAAAAACGCAATAAAAAATATTGATATTGCTTCATATCTTTGTGACATAGGCGCATTTGAAAATATACCTTGAATTAATATTATTGATAATGAAGTTGACGATGCAATAACTAATGAAACAAAGAATGTTGGTAATGTAAATAAAAGTCTAAATTTTCTCTGTAAATTAAACGTTGACTGCATATTTATTCGGACTAATCTATATTACTGGAAAAACTCGTAATGCAATCGAAATAACAATTATTGCCAATGCTCCACCGAAAACTATTATCGGAGAAACCTTTATTCCTTTACTATCATCCCCGAAGAATGTTAGTAAACCTGCTTGCGATGCAGGCATTTGGCCTGATTTGTCTTTCTTAGCCTTTTTTGCACTCATGTTACTGTTTCAAACTTTGTTTAATTTAAATCTGGCTGTTAATTTTATGCGGGAGGTGGGATTTGAACCCACGAACTTCTAAAAGACGAGGATTTTCAAAAAGAAATACCTGAACCTCGCACCGTTGACCGGGCTGGGCGACTCCCGCGTAAATAATTATATAATTAATTATTAAGAAACTTTTTATAAAAATTACATAACATAATAATTTATAATTTAGAAAAATTACTTTCATTTAAATATTGTTATTATGTGCATAAGAAAATCAATTTATATATACATTAGTTCTAGGAATTTTTAGGGAAAGAAGTTGGCTACAAAAAAACGTAAAGCAACAAAACGCAAAGCTACAAAACGCAAAGCAGCTCCAAAACGTAAGGCAGCGAAAAAGAAAGCAGCTCCTCGACGTAAAGCAGCGAAGAAGGGCGGCGGTAAGAAGAAAGCAGCTCCTCGACGTAAAGCAGC
>sequence50
CTTCTTGTTAATCGATCACTCCAAAATAAAACTGGATTGACTAGTCTTATTCAATCATTACACATCAATTCACCTTTATTTTATAATGAACTAGCAAAGATAATTCCAATTAATGATTTAATTCCACGTGATGATCGATTAATCCGTGTTATTGAGAGTATAAATAATATGAATATTGTTCAAGCTGTCTGTTCAAATACTGGATATGGTATAATTTCAAATATTCTAGAATCTATAGGTATTAGAAGATACTTCCGAGAAATTATAAGTAGTGATGAAACAGGTCTGAAACCTTCTCCAGAACCATACATTTATACGTTAAATAAATTAAAAATAAATGCAGTAAATTGTATTTATGTAGGAGATAGAATTAAAATGGAAATCGAAACAGCAAAAACCTTAGGAATGACAACTGTATTTGTCAAAAGCTATCTTATGGAGGGAAAAAATATTAACTACAATACTGCTGATTATTCTATTGAATCTGTCTATGAATTACCCACATTACTTAATAAAAAATTAGGAGGATTATGATATGTATAAACACTCATCAACTACTTGGAAAACTATCTATAAAAATAATTATAAACAAATTCGTGAACGTGTTGTAGACTGGCGAAAACAAAATACAATAACTCGATTAGAAAGACCTACTCGATTAGATCGCGCTCGTACATTAGGATATAAAGCTAAACAAGGAATTATTGTTGTACGAATTAAAGTTAGTCGTGGCGGTATGCGTAGACCTAGACCAAAAGCTGGAAGAAGACAAAAACACGCGGGCGTCGTAAAAATGAAAGCCAATATAAACATGAAACAAACTTCTGAAAATCGCGTTTCCCGAAAATATCCTAATCTTCATGTACTTAATTCTTATTTTGTTTATAAAGATGGAAAAAATGCATGGTATGAAGTTATTCTTGTTGATCCATCTCATCCTTCAATAAAATCAGACACTGATTTTAAATATCTTGTTTCATAAAAACAAACTTTTTATTTATTAAGTTACTCATTAACTAAGTCGATATGCCTAATAGATATGATGTTCGTGCAGAAAAAATAATAACTGAAAGTAGTGATTCAAAATCATTTATCTTTACTCCTATTGATAATGACGACGGTCTTTATGATTATCTTCCAGGTCAATTCTTTATGTTGGAATCAAAAATATCTAGACCTGAAACTATAGTATATGATAAAGAATCTAAACAAATGGTTCCTAGCGGACCTGACGTTGAAGTTGTTGAAAAGAAAGCATATTCTGTTGTTTCCTCACCAACTCAAAAAGGCCATATTGAATTAATGATAAAAAGTGAACAAGGTGTATTTGCACCATATTTACTTGATCAATTACATGAAGGTGATACATGTACACTTATTGGTCCTACTGGAAAATTTATGAAAGAAATATTTGAACAAAATTCACCGAATATTGCTTGTTGGTCTGCTGGTAGTGGAATCCCGTCAACTCTTAGTTTAATGCAATATTGTTTAGATAATGGATTAGATACTCAAGTAGTTGCTTTTGATAGTAATAAAACTCAAGCTGATATAATTTATCATGAAAAAATCAAAGAAATGGTTTCAAAATCTGATAATTTTAAAGCAGTATTTACCGCAACCAGAGAACCTTTAGATAAACTTCCTAAATCTAAATCTGATATTAAATATAAGAGTGGTCGATTTTGGACTAATGAAAATACTCTCGAAAAATATACTGATAATCGTGGAATAATTGCTAAACTTCTTAATAAAAAAACAAATTGGCAAGATTATTATAATACAATTTGCGGAAGCTCAAGTTTCATTAATGGCAAAGGAAGAGACAAAGACGGCAAAATGGCAAAGCTTGGCGAAGGAGTTGAAGATCATTTGTTAAAATTCAATTGTTCCCCATCAAATATAGATAAAGATCAATATTATTTACAATAATTTTAGTTCTTTTGTAATCTCATCAATCTCATCTACAACTGCAGGACCAATACCTAAACATGTAATAGTTCCTTCATCAACTTGTGTTAGTCCTTTGTCTTGAACTAAATAACAAAATATTCCTTTTTTCTGTACTTCTTTTTGTATATCTAATAAATGTTCTAATGATTGAACTTTTAATGCAACTTTTGCTTGTCCATTTATTGTCCATCTTTTGAAAAGTGAATTATCATGTTTTTTTACAATTTCTGCAGACGATAATGAAGCATGAGCAACTTGAACTGCTATTTTACCTTTACCCATTTCTAAATCGGTTCTCACAATAATTGCTTGCTTAATTTCTATAGATGACATATATTGTAATTCTAATTACAGATTCATTAATATATGCTTATAATTATTAATTCTATAATTATGAATCCTGCTAGTAATGACGTTGTAATTGCAGGAGCCAGTATTTCAGGCCTAATCTGTGCACATGAATTAGCACAAAATAATTATAATGTAACTGTAATTGAAGAACATGACGAAATCGGCATACCTGAAAAATGTGACGGGCTTATTAGCATAAACGCATTATCATCACTTGGTGTAATTCCCAACAAAAAAACTATTCAAAATAAAATTACTGGCGCAAGATTCTTCTCTCCATCAGGTAAATTAATTGACGTTGATTCATCAAATCTTGATATAGTCGTGCTAAATCGTAACAAATTTGATAATGAATTATATGAAAATGCTATCTGTGCAGGTGCTATTGTAGAAAAATCTACTCGATTTATTAAATCCGATTCATATAATTCTAATATCCGAATAAAATCAACCAGTAATCAATATGATTGTAAATATTTTGTAGATGCTATGGGAGTTTCTTCATTAATGAAAAAACAAAAAGTTGGTGTTTTACAAGCTGCAAAATACATTGTTAAAGCTGATTGGTTTGAACCTAATAAAGTTGATTTATATTTCAATCAATTACTTTCACCTGGATTTTTCACGTGGGTAATTCCAATTAATGAAAATCTTGCTAAAGTAGGTATTGCAGGTTATGGGATTAATAGTTTCAATAATCTTGATTATTTTCTTAAAGATAAGAAACATACTGTTTTAAAAAAAATAGCATGTCCCATAATTGTTTCTGGTCCAATCAAAACTTTCATTAAAAATAATATTGTTTCAATTGGTGATTCTGCTGCACAAACTAAACCTACTACTGCGGGGGGTATATTCTCTGGAGGAATGGCAGGTTTATTTGCAGGTCAAAGTCTCTGTAAAAGTCTAGAATCACATACTAATCTGTTACATATCTATGAAAATCGCTGGCGAGATACTTTTGGTTCAGAATTCAATTCTACTCGATTGTTTAGAAAAATCTATGATAATCTCGACAATAGACATCTTGATGATATTTTTGATATATTGTCTTCATCTTCTGATCTTCAAAATTTAATTAATAATAGTGGAGATTTTGACTTCCATTCTTTTACACTTTTGAAGGCTTTAGGTTTGAAAAAAATTACTCAATTATTTAACGTCGTATCATCCAACGAGATTAAAAAATTATTTAATAATTAATACTACAATTGGTAAACTGATAAATAATAGGAAATTTGAAATTAAATATTGACTGATCAAATGGAATTACCTACTTGCACTTCTTGTAGTAGGCCAATGCTTCCTGGTGGCCTCTCTGTAAAGTTTCAATGTCCTAATTGTACTGATAATACGTTATGGCGATGCTCAAAATGTCGTAAATTTAGTCGATTATATTCTTGCTCAGATTGTGGATTTGAAGGCCCATAGTGATTTTTGATGGGTATCCTTGTAGCACGTGTAAAAATCTCACCAACTGGACCAGGATTGAATGCTTCTACTTTTGAACCGCTTATTTCTGACATTCTTCCTGTTGGTTCTAAGATTAGACAAATTAAAGAAGAACCACTTGCATTTGGCGTATTTACTATTTTTGCAGATATTGAATTCGAAGATAATCCTGGCGCTTTAGACGTAGTAGAAGAATGTCTTAATAAATTAGAACAAGTTAGTGAACTTGAAACTATTGCTGTAAGTAATACTTCTACTAGTACTGGCGAAGTTTAATTTCTAATACGTTCTCTTTTTATTACTATTGCGTTTTTTATATTGGCTTTTTTTATCATAACCTTTAGTATTTTTAGATCCTTCTGATCTACCCTTTCTTTCTCTCGAAGAATATCCTGATTTATTTCCTGAATTTTCGTTATCTCTTTCTGATCTTCTTCCGTAACCTCCAGAACGATTACCTCCGTAACCTCCAGAACGATTACCTCCGTAACCTCCAGA
>sequence51
CTATTGTTCCATATGAACCACTTAGAAGATGAAAACCGTCAGTTGGTTCAAGAATAGCTAATTCGATATTCTCAGATTTTTGAATGTATAAATTATTATCAATTAATTCGTAATTTGGAACAAAAGTTGACGGTACACCTTCGCCAACAAGTATTAAATTGGATCGTTGAAATGTTTCTTCATTACCGGTAGGTCGCATTTCGGGTCGTTGTTGTTCATCTCGAGGAACACGTTCACATTGCAAGACTTCAAATTGTGCTTCCAATGGTTCAAGAGCGGCGTTGTCACGATTATTTTCATTCATTAATTGTGCAGTTATTGCTTGACGAGATTGATTTCCAAAAAATCCTGGTTGATTACGTACATCAATAATTTCCTCAGCTCTAGTTTGAATATCTTTACGAAGTTCTTCAATTTCATTTTGTAAACTAATACAAGCAGCGGCATTGTCAATATTGTCTAATTCGCCAGCTACTTCCAACATAGTTAATTCAAGAACCAGTGTTTCACCAGATTCAACCTTAGGTAAATCTAACTGGCTAATTCGACGTCCAGGTACCATCTCAGTAAAGAGTAAATCTTTTTCTGGCTCGCCCAATGTAATCATGAGTTGTTTTTCTACAGCAAAAATGAAAAAGTCTTCACCAGGTCCAATAACAACAGTACTTCCAGAGGCAGGAATAGACATACTTTCTTCGTCAAATCCAAGGGTGGCAAAATCAGGCATTGAATTAGTTAATTCAGAAGGAACAAAAGGTTCTTCACAAGCGGCAGATGCAGGACATATACGATCATCAACCTGAGAAAATGACATAGGTAATAATACAATAGTCGAAACAAATAATAGGAAAATAAGAATTAATGACCGCAATTTATTCCCTCTCCACAAAATACAATGAAAGTAAGATGAATCCCATTACAAGTACTGGTGGAAGAATTGTAACAAGATATGGTGCAAAATTATACATAGCAATAGAAATTAAGTAAACTGGAAGTAATAATAGGGCACTACCAAGAGTAAGAAGTGCTACTGAAGATCGTAAAGAGCTAACCATTTTTGATTCACCGCCAGGATTATCACGTACTTCAGAAAGTCTTACCTGAGCTGCTAATGCGGAGAAAGTAATTCCAGGAATAGCAAATGCCATACCCAATCTTACGTATTCAATAAGAGGAAGTTCAATAGGATGTCCTTGATAACCAAGATAAGTTGCTATGCCAGCAATTTGATCGAAAGCTAATAATAAAGAGAAAGTTTCTCCTGTAATTGCACCAGCAACACAACCTGCATAAACCATCAATGCCATCATATAAGCAAAAAAGAAGTATAGAACTTTTCCAAATGCACCAACCCCAGCACCAATTACAACTCTAGAAAGAGAAACAATAGTTCCAATGACTAGATAGGCCAAAAATGCGGCAATAAAATCACTAGGATTTCCAGTAGTTAATACAGTAAACATAGGAATTATGATTGGAAGTACTAACAGTAAACTTTCAAAAAATACTTGTTGATTTGGACCCAATGATTTGATGAATCCAATTTGTTTTAAGAGAAGATATACAAAGATTAATCCAAATGCACTAAAGAAAGCAATAGAAGACAAATAAGAAGCGAAAGCAGTGACTACAACAGGATTAGCAATCATTACAGCGATTGGAATTATAGAAAGTGCAGAAATATATGTTCTAAGTTCTCTTAACGGTAGCATAAGACCACTCCTCCATTTTCTTCATCGTATCAAGAATTGAACTATGATTTGTAAGAATTATTTCTATGCCATTATCTTGAACAGTTTTCTGTATTTGTTGAGCTCTTTCATAATTGTCTTCATTATAAATTAGAATAATAATTAAATCACGGCTAGATTTGAGTTTTGAAAGATATGATTCAATCAATCGATCATCAGTACGAGTTAGAATAAGAATAAAACTATTTCCAAATTCAGATGCAGATAAATCAAGATATGCATTGGTAAAACTTGTAATAAGGAATTTATCTTGTGACGGTTCAACTTTAGCAAGATTTCTTAATAAAGAATCAACATGAGCGTCGCCACGTGCAGGTTTTAGAATAGCACGACTACGAGTATCGAATAATACTAATCCCGTTCTTGTTCCACGTTTAATAAAATTATAGGCTAAGGATGCTGCAAGATCAGCGGAAATATCAAGAGAAATTTGATCGCCGTTTGGAAGTTCGCTATCTTTTCCAATATCTGCGACAATAGTAATTGCTTGTCCCTCTTCACCAGCAGTAATTTTAGATTTTGGTTTATGATCAGGAGATTTAGCCATTGCTTTCCAAGAAATAATTTTAAAATCATCGCCTGGTTGATAATCTCGTATGCCCCAAACTTCACTACTTCTACCTTGTTTAACAGCAGATGAAACACCCAATAATCCTGCAGCAGATGTCTGAGGAGATGTCTCAAATGGGTAAATATGTGGGAGTACAAGAATTTCTGCTTCGTCGTTAGATGCAATAGTAATTCCTGATAATAATAACCAATCTTTAACAACAATTTTTGTGTTTGAAATTTTATGAATGCCACGTCGATCCGCAACAAATGTTTTTGATATATCATATTTTTGACCAGGTTGAAACACAACAGTTCCAGTATTAACATTTAGTCCCAAGCTTTTACAATCAAATTCAACAGAAGCATTTGCAGGAAATCTTCCAGAATATTTCATTTCTAAAGACGTATGTATATCTGCAGGAGGCATAACTTGATATTTATCGAATACTCTTGTTATCTCAAAATTATTTGATGGTTTAAGATATTTGAATAGAACTAAATTAATGCATAGAGCAAACATTACAGAAAGCATTGCAAGAGTGGCATTAGGCAATAATGCTAAACTACATATTGTCATTAATCCAAAGAAACCAATAAGAAGTCGAATATGTTTCTTCATATTAAATCAAACTGGAACAATTACTTCTTCTATACAATCTTGAACTATCTTTCGTAAATATTCAGTGGCAGAATTACTATCACTATCATCAAGATCAAGAAGTGCATTTTGTTGTAATATTAATCTATGATTTAATACATCAAATGCTACAGCTTTAACATCGTCAGGAATGACATATGAACGACCTTCAGTAACAGCGGCATATCCTTTAGATGCATACAATAAAGCAACTGATGCACGTGGACTAGCGCCAAGTGTAACTTTTGGAATATTTGCAGTGTTTTGAACTAATGAAGATATATATTCTAATACATTTTTTTCTGCATTAATTCCTGAATGGATCATATCTTTACCTTCAAGAATTGCTTGTTTAGAAACAACAGAAGAAATCTCTGGAGAGTGACCAATTCTACGTTTAATAATTTCAGCCTCACTATCTTTATCTGGATAATCAATAATTAATCTAAACAAAAATCTATCTAATTGGGCTTCAGGAAGAGGATAAGTTCCCTCTAATTCTATAGAATTTTTTGTTGCAAGAACCATAAATGGTTCGTCCATTTTTCGAGTCATTCCTTCAACACTAACTTGTCGTTCTTGCATACATTCCAATAAAGCAGATTGTGATTTTGGAGGTGCACGATTAATTTCGTCTACAATAACAAAATTAGAAAATATTGGGCCCGATCTAAATTCAAACTCTCGTTCTTTAGGATTATAAATACGAGTTCCAGTAATATCAGAAGGCATTAAATCCGAAGTAGATTGGATTCTATTAGAGGTAGATTCGACAGACTTACTAAATAAATTAGCAATTAATGTCTTTCCAGTTCCAGGAAATCCTTCAATAAGTACGTGTCCACCAACAAGTATTGAAATGATTAATGAATCAACAATATTGTCAAGGCCTACTAAATTATTACCAATTTCAACTTTAAGTTTATCACGTAAATTTTTAATATCTTCAGTAGATTTCAAAGTTTCAATCATAATCAAGTACCTCCAGATTCAATTATTTCAGTAATGACATTCTTTGCAGACAAACTTGATTGAGTATCATCACCTGAATCAGATATATCAGATTGTTTTAGCAATAATCGATGATTAAGAACGTCGAACGCAACAGCCTTCACATCTTCAGTTGTAACGGTATCGTTTCCTCGAATGATTGCGGCATGTCCTCTTGATGCATTAAGAAGAGAAACAGCTGCAG
>sequence52
TGGAACTGTTTTCGGAATTTCTGGTTCAATATTCCAAATGTTTACTCACGCTGCTGCAGTAGGAATTATGTTCATGTTGTCTGGATATCTACACGAAGCTACCGGCACACGTAACATCACAGTCATTAAAGGATTGAAATTCTCTAGTCCTAGACTAGCTACTCTTTTAATATTGGGTTCTATGGCAGCTATGTGTATTCCGATTTTTAGTACTTTCGTAAGCGAATATCTAGTAATTCTCGGAGCAATTCAGGTTAATACAATTTATGCATTGATTGTTGCTGTACCTGCTATTACTGTAGGATATTTCTTATGGATGCTACGTCGTGTAGTAATGTCCGATCAAAAACCAGGTAGTAAAAAATGGGATCTAAGTAATATATCGACTTTAGCTCTTGTATTATATCTTGTTCCGTTAGTTCTTACACTTATTGCTCCTTGGCTGATTCTGGACGTGGCAAATCCAATATCGATTTTTTACACATCTCTAGTATCAGGAGGCGCTGCATAGTATGGATACCCCAATTATAGTACTCATTGTTTTGACTTCTGTTGCAGTTACCTCTCCACTATATGGAATGATATTTGGCAAAAAATCCATAAAATATGTCCAATATCTTACTACATTTTCATTATTGGTTTCTTTAGTTCTATTGATTAGTTCCACATTATCTCTTACACCTCAGGAATCTACTGTCCCCCATCTTCTTCGTAACGACACTCTTGGTTCATTTTTCAGTCTCATGGTTATCTTAGTAACATTGTTTGTTACCATAACTTCGTTTGATTACATGAAAGGTAATTCAAATGAAAGTATCTATTATTCACTGTTATTATTTACAGCAATCGGAATGACTATGCTCTCCTTTGCAGTCGATCTTCTTGTTATATTTGTCGCATGGGAGTTGATGAGTCTTCCGACATTCATCTTGGCTGGATATAATAAACAAGATAAACTTTCTAACGAAGCTGCCGTTAAATTCTTTATTCTTGGCGCATTGTCATCTGGTATTCTTTTATATGGAATATCATTAATGTTTGGACTTACAGGTTCGACCAACCTAGAAGTAATATCTCAATCACTCCCTTCACTCTCACCTGATATGTTACCATTTATCATATTCTCAACTGTCTCTATGCTTGCAGGTCTTGGATTAAAATTATCAATTGTTCCATTCCATATGTGGATTCCAGATACCTATGAAGGTTCGCCTACAACTGTTAGTGCATTATTATCTGCTGCTACAAAGAAAGCTGGCTTTGCAGCCGCCATAAGAATTTTTGCAATTATTTTTCCATTGTTCTATTTTGATTTATCTCTTGCATTATCAATTGTTGCTCTAGTAACAATGACACTTGGTAACCTTGCCGCTCTCACTCAAAAATCTATTACAAGAATGTTAGCATATTCAAGTATTGCACAAGCTGGGTATCTTCTTATTGGAATAGTAGTGTTACCATATTCTGATCTTGGATTAATTGGCTTATTGTATCATTCTTTCAACCACGCAATTTTACAAGCTTCAGCTTTCCTAGCTGCTGGATTGGTTAGATTAAAAACTTCTAGTAGTTCTCTAGAAAGCTACAACGGTCTTTCTAAAGTAATGCCAATAACTTCTTTCTGTTTGGCTTTATCCTTACTTGGTCTTGCGGGAATCCCTCCACTAAATGGCTTCTGGAGTAAGTTAGTATTATTTGCAGCTGCTGTAGATGGTGGATATACGTGGTTAGCTTTTGCAGGACTAATCAACAGTGCAATTTCTGTTGCTTATTATTTGTTAGTTATAAAAAGAATGTATATGGACGAAACATCCCTTAAAGCAATGAAAGAACCATTTGTATTTGTCTCAATTCTGGTATTTGCTTCAGCAATAATTATAGTAACAGGTTTACTTCCAAATGTATTATATGACGTAAGCGAAAATGTTACTATGTCTTTCTTAACTAATAATCCCGTCTAATAGTAAAGTCTGCTAAATCATGAAGAAATTCTTTTTGTTCTGAATCTTTAATCACATTAAGACTGTTTTTTGCATTTTCTGCATAGACATTGGCCATCTCTTTTAACTTTGTAAGTGTCACGTATTTATTATCTTCACTATTGTGCCTAATTTTCATATCATTTGAAAATTTATTATCAGTTTCCCAATCAAGAATATCATCATGAATTTGATATGCAATTCCAAGATTTACGCCAAATCCTGCTAATGCATCAATCTCTTCTTCATTTCCTCCTCCAATAATTGCTCCTAATTTAGACGATGTTTGAAATAGCGCTGCTGTTTTCTCACTAATTACTGTTAAATATTCTACCCATGGAACTTCTCTGGAATTCATACTTAATTCCCTTTGTTCTCCTTCACACATCTTAGTTGCTGCAAGAGATAATTCTTTTGCTACTCGTGGATCATTATATCTTGATGCAATTTCCAAAATTATACCAAAAACAAAATCAGCTGTTAAAATCGAAGTATTATTACCATAACGTTTATGAAATGAATCTCTGTTTCGTCTTTTTATTTGTTCATCAATTATATCATCATGTATTATTGATTCTGTATGTAAAAGTTCAACTGCAACTGAAGCTAAATCTGTTTTAGTGGATGGTACCCCCACTGCTTCAGCTGATAACATTAATATCAACGGTCTAATTCTCTTTCCTCCATGTGTCGCATAAATTAATGGTTCATGGAAACTAGACCATAAATGATTATCAAATACCTTAACTAGGGCTTTATCAAATCTTACTATGTAACTTCTTGATCTATTTTCTAATTCTCTAATTAATTCTTCTCTATTCAATAATATTCTCCCCTTTCCATTCTTTATAATTTTAAAAGTTGACACTATTTAATAACACTATGTTAATATTTTATGTTAAAATTATACCCCGCCTCTGACTGAAATAGGTCATTGTTGTGACATAATGCCAGTACTTACCACTCCTCTTAAATCGGGGCTATTTGTGATCTGTCACATCGCTGGGTGGCCAAAAAATCATCAAAGTATTATTCACACAACTTCATAATCGGCCGTCACAATGTATATATGACCACAATTATCCATTGTTTTACTAATTTATCTATTTTTAAAGAAATAAATAATAACTGTGTTCTTTTTCTATTTATTATGTCGAGTAGAAATAATAGAATTCCAATTATTATTGGTCTTGTTCTCTTAATTTTGGTTGGCCTCTTTTTACTTAATAATAACTCTGACTCATCAGATAGCATGGGTAGCGGTTCTGGACCTATAGCAGTAATTGAAACTAATTTTGGTAATATAATTATTCAACTCTTTCCTGATGTAGCACCTGGACATGTCGACAATTTTGTTAAATTAGCTCAAGATGGATTTTATGATGGTACTACTTTCCATCGTGTAATTCCTGGATTTATGATTCAGGGAGGAGATCCTAACTCTAAGGATGAGGATCGAAGTAATGATGGTCAAGGAGGTCCAGGATATATGATAAAAGCTGAATTTAGCCAAGATTTGACACATAAACGTGGTATATTATCGATGGCTAGGGCACAAGACCCTAATTCTGCAGGTTCCCAATTCTTTATTGTTGTAGCTGATTCTCCTTTCTTAGATAAACAATATTCAATTTTTGGTGAAGTAATAGAAGGTATGGATGTTGCAGATCAAATTGTAAATGTTCAAAGAGATTCAATGGATAATCCAAAAGAGAAAATTACAATGAAAGTTACTATTAGATCTTAAAATATTACCTTAATAATTCGTCTAAATCTATATCAAACAATGCAATTGGAGTTCTTAATGCAAAATTTTCTAAAATCTGTGGATTAATTTCTCCAACTATTCCAATTTTATTTCCTTTCTCGTTAATTATTTCTGCACCTCTTCCTCTAACAAATAATTCATTTTCATTTGCTTTTGTTAACAAATCTATATCACGTAATTGTTTACCAAATGCATTAAGATATGAACTTGCTTCAGTAAAATTAACTGCCGCATGTGCCAAACCTACTGTAAGTTGATAATGTTCGTATATTTCACCATCTTTCTTACTAAAAACTTTTGAAATCTCAAA
>sequence53
CGAGATATTGAAAAAAATCCTGAAAAATATTTTGATCAAGTTATTGAAATTAATTTATCTGATCTGGAACCATATGTTGTAGGACCGCATACTCCTGACCTTGCTAGACCAATATCTCAATTATCAAAAGATGTGATTGATAATGATTATCTTGATAATATTGCAGTTGCTCTAATTGGCAGTTGTACTAATTCATCATATGAAGATATGTCTAGAGTTTCTGATATCGCAAAACAAGCACAGAAAAAAGGCGTAACCTCAAAAATCCCCCTTTTAGTTACACCTGGTTCTGAACAAATTCGAGCCACAATTCAACGTGATGGTCAACTTAATAATCTTGAATCTATTGGAGCTACTGTTCTTGCAAATGCTTGTGGACCTTGTATTGGTCAATGGAATAGACCTGAAGCACAAGATATCAGAAATACTATTGTAACTTCTTTTAATAGAAATTTTCCAGGTAGGAATGATGGAAGCCGAGAAACCATGAATTTTATTGCTAGTCCTGAAATTGTCGTTGCATTATCTCTAAGTGGCAGTCTTTCATTTAATCCATTGAAAGATTTCTTGTTAGACAATCAAGGAAATAAATTCATGTTAACTCCTCCAAAAGCAATTGACATCCCACCAAATGGTTTTCTCTCACCCAAAAATATCTTCATACCTCCTAATTCTAATCCTGAAATCAATATTACAATATCACCAGATAGTAAACGACTACAATTGTTAGAACCATTTTCTACTTGTAACTTAAATAATTATTCTAATATCGCTATTCTTGCTAAAGTAACTGGAAAATGCACCACTGATCATATATCTCCTGCAGGTTATTGGCTTCGTTACCGCGGTCACATTGATAATATTAGTAATAATCTTCTTCTAGGTGCATCTAATTCCTTTACTGAAGAAATTGGAACTGGTATTAACAATCTCACTAATGATATTACTAAGCTTGCTGAAATTGCTCGTTCATATAAATCTAATAATATTCCTTGGTTAATTATTGGAGATCATAATTACGGCGAAGGCAGTAGCAGAGAACATGCTGCTATGTCACCTCGACATCTTGGATGTGTAGTTGTTATTGCTAAAAGTTTTGCTCGTATTCATGAAACGAACCTAAAAAAACAAGGAATTCTTGCACTAACTTTTAATGACGAAAACGATTATAATAAGATTAAACAATCTGACCGAATAAATATTAACGACCTAGATAACTTCTCAGAAAATCAAACATTAACTGCAACAATTACTCATGATGATACTTCTTCTGAAGACATCCTTCTATCACACTCATATAATAATTCTCAAATAGAATGGTTTAAACAAGGTTCTGCATTGAATGTTTTACGTTCACGTATGTCATAATTCAGTTTCTATTAAAGTAAAAAATTCCTTCATTTTCTTTATCATAAAATCTCTGTGTTCTTTATTTGATAAATCTAATCTATATTCATTCATTACCTTCATTTGCATATCATTTTCCCACTCCAAAAAACATTCATTACATACCGATTCCTGAATTTCCACGCCTAAATCTCCTTTAAAATTCAATACTTCGATAGATTCTTTCGTCATATTACATTTTATACATTCTATCATATGTTATCAAAATCCATTATCTCTTATTCTATATAATTATATATTGTCAAAATGAGAGAAGTATTTGTGCCTATTTCTACAAATAAATTTAAAAAGACTCTTGGATCATTTGCTACCGGAGTCACAGTTGTAACAACTTGTCTTGATAGTAAACTTCATGGTCTAACCGTAAATGCATTTTCTTCTCTTTCATTGAATCCTCCATTAGTTCTTATTTGTATTGATAAAAAATCTGAATCGAATAAAATTTTAAAACAAAGTAAAATCTTTGCTGTTAACATACTAAGTAAAGATCAAAAAAATCTTAGTAAGATATTTTCAGATTCAAAAAACAAAAATCGATTTCATAAAGTCAAAACAACTACAAAAATTACGGGTTCCCCGATAATTGTAAACTCCTTAGGATACATTGATTGTAGTGTGGAAAAAATTATTCCTGCAGGAGATCATAATATCTTCGTCGGTAAAATTAAATCACTAAATACCAAAAATTTAGATCCATTAATTTATTATCGTGGAAACTATCTTGTTTAACTCGTCAAAACGAATTGCTGTATGCGGTAGTAATATTATTACATCAGAATCAATAATTAATATTGCTGAAAATATTGGTTCAGGAATAGCAAAAAATGGAGGAATTCTTTTATGTGGAGGTATGGGTGGAGTAATGGAAGCTGCTTCTCGCGGTGTAAAAAATTATAATGGTATCACTGTTGGTATTCTACCAACTAATGATATATCTGATGCTAATCCATATACTGATATAATTATTAATACATCTCTTGGAAAAATAAGAAATTTTTTTGTTGTAAGTCTTGCTGACGTTGTGATTGGAATAGCTGGAAGTTGGGGCACTCTATCTGAATTATCTATGGCAATGAATCTTGATAAAAAAGTTATTCTTCTTGCTAATACCGGTGGTGTAGTTGACCTCTTAATAAATAATAAACCTCAAATCTCATCTAGTACTTTTTTTGTTGCAAAAGACGCTAACACTGCAATTAGTGAGGCATTTTCTTCTAATTGATTAAAAAATTAGTTTTTCATAGCTTGAAATTTAGTGAAAATATATATTTGAATAATTAATAATATTTGTATGCACTTATTGACCGGTCTTAAATTTAGTGTTTTATTGATCTCACTACTTTTTTTGACTATTACAATACCTGTTTCTCATGCTCAAGCACCTGCTGTAATAACTAATTTTACCATCCTTGATCCAAATGGTAATGATGTTACTGATGAATTTCTTGTTGCTGGTGGTAGCTATACAATTAATTTCGAAATAGAAATTGGTGCAACTTTATCTGATAATATATTATTAACTACTAGTATGGAAAAATCTGGAAATTCTTTTTGGACTCTTAATAATAATTATGAAGGCGTCGATACTTCTACTTGGACTCCTGGTTCTCAATCTATTACATTTCAAGCCGTTGAAGGAAATGCTCAATTTACTTTAAATGGAAAAATTCCTGAAGCAATAACCGAAAAAGAAATAATTGAAATTGATAAGACTATTCATGCTCTTGAACTTGTTCCTCTTCTTGTAATGTCACTTGACTCTATGGAAATTCTTGACGAACGTACTTATACTATTACTGATCAAACAATTATTTCTTATGATGCACTATTACAATCTAAAAAAGATAAACTCGATTCAACATCAATGGAAGGAAAATATAATTCTTTAGCACTTGAAATAGTTTCAGAAGCTGAATATTTAACTAGCTTTGGATTTTATAATGATGCAATACAACTTCTTGAAACAATTCCTGATTCAGATTATCCTGCACCACCTAGTACTACTACATTATTTATTATTGCAAGTGTTGTACTTGGACTTACAACAATTGTATTTGCACTATTATTTGTTAGAACTCGATCTTCTACTTCTTATCTTTCTTCTAGCGTTTCTGAGAAAGCAGATAAGTTAGATCTATTACTTATCAAAGCATCTCGAATTGATAAATCTCTTGCTGACGACCTTGAAACTATTAAAAGGGAGCTTAAAGAATTAGTATAGTGATTACTTTGGCTTCTGATTATACTAGTTCAATTCAAATTGTCGGTCTGGGCGGTACAGGCGCAAATGTCATTGAATCATTTGTCCAAAATCATGATAATCTGATTTCACTATTAAAAAATGATGGAATCAAAATATCTCTACTTGCATTAGATGTTGCAGATCATGATATAAGAAGTCTTGACATGGCTTACAAAAATTTATCTGATGATTTAAAATCTAACGGAATTCCCGCTGATAAAATAAGTCTTGAAAGTAAAACAATGAAGTTTCCTACTCCTGAGTCAATGTTTGATTTTGTTAAAACATATCCGGATTTTC
>sequence54
ACGCGCCCCTGATATGATGAAAGGAGAAAGTTATTTAATTGTTCTAGTATTATGATTATTTTTTAATCAGATTCTATAAATAGTATAAAAATAAAATATAATCTATGCTTCTTCATAGTGAGGTTGAGGCTCAAGCAATAATTCCTTTTCTACGTACTACAGTAGCTAAAATATTGATTGATAAATATTCATTAACTCAACAGCAATCTGCAAAGAAAATGGGTATTACACAAGCAACAATTAGTAATTACATGAATCGGAGTAGAGGAAATATCGAATTGTATTTAATTACAGAACGAATACAATCATATGCAGAGCAAATAGCTGATGCTATTATGGATGAAAGTAACGAGATTATAATTGGTGAGAAGTTTGAAGTAGCATTGAAATTTATTCGTGAACAAGGAATAATATATGATTTACATCAAGAGTTGGAGAATAATCATATAATCAAAGATTGTCCACTTTGTTCTAATAGGCAAAAATAAAAGATTTTTTGAAATAGATTAAGGAATGAATATTATGTCAAATGAGATCGTAAATAGTAAATATTTTTTCTATTTATTGCGTGTCCAGGTTTTTATATCGGGTGCTTCTATAATGGGTTTGGAATTATTAGGAAGTAGATTAATGTCTCCATATTTTGGAAATACATTATTTGTATGGGGAAGTTTGATAGGAATTACATTAACGGGATTAAGTGCAGGATATTCTTATGGAGGAAAAATATCGGATAGAGAAGCATCTTATCAAACATTTTCTTTATTAATTTTTATTGCGGGTGGATATACATTACTTTCAACATTATTAGCGGGAGAAATTTTTAAAATTATTTTATTATTAAAGATTGGAGAGATTTATGGACCATTGATTTCAAGTATTGTATTTTTATTAGTACCGGCGTTTTTATTGGGTACAGTAACTCCTTTTGCAATAAAATTAAGTACAAAATCTATGAAAACAATTGGACAAACTGCAGGAAATCTATATTCTTTATCAACCATTGGAAGTATTTTTGGAACATTTGCAACAACGTTTATTCTTGTACCGATATTAGGAGTAGATGTAATATTATATTCAATCAGTGTAATTTTGATAATATCTTCGCTTATAGGAATCTCTAATCAGATCAAAGTTATTGCAATAATTTTAATTTGTATATCAATGTATTCAGCAATATTTGTACAAGCGCCTTTGGCAGGTGTGGTTTTTGAAAAAGATACTCAATATCATAAATTATTAGTACATGATGATTCAGTAACTAATATACGAACTTTAATTTTGGATAATAATTTTCATAGTGCAATGGATCTTGAGAATAAAGATAGAATAGTGTATGAATACACCAAGTACTTTCATTTAGGTTTACTTTTTACAGACAATACACAAGATGTTTTATTTATTGGTGGCGGTGGTTTTTCGGCACCAAAGAGATTTCTTGTAGATTATCCGGAAATAAATATCGATGTAGTTGAAATTGACAAAGATGTTGTTAGTGCAGGAAAAGAGTACTTTTTTCTTCCACAAGATGAACGTCTTGAAATAACTACTGATGATGGACGGATTTTTCTACGAAAAACAGATAAGAAATATGATATTATAGTACTTGATGCATATGATAAAACATATGTTCCATTTCATTTAATGACAAAAGAATTTCATCAATTAATAGCTGATCATTTAACAGATGATGGAGTATTGATTTCCAATATTATTACTTCAATAGATGGTGATTCGGCGACTTTGTTTTTAGCCGAATTAAAAACAATGGATAGTGTTTATCATAATATTCACATTTATCCAGTTGTGTCAGAACAAGATAGAGTAATACAAAATATAATCGTAGTTGCTCAGAATAAAGAAGATAGAATTACGAAATTAGAATTAATGTCACGTCATGAGAATATTAATATTGATTTGTCTGAAGAGATAGAGAAAGAGTTTAAGGGAACTTTAGAATTTAATTCGTATAAAATTTTGGAAGATAATTTTGCACCTGTAGAGAATTATTTGAATCCGTTAACTGGGAAGCAATATGTTAAGAGAATTATTTTAGAAGATGGAGTGGTAATAGAAACATCTGACGATAACAAGCAAGATTGGAATCCTGAATTGGGTATGAATCAGGTTTTACTTATACTAATATCAACGATTGTATTAGTATATTCGATTTATTCATATAGTTATATTGATAAAACCTAGATGTGTAAGAATTGGCTGAATTTCAGGTTGTTGTAATAGGGGCAGGTCCAGGAGGATATTTAACTGCAATTAAATTATCAAAGTTGGGTCATAAGGTAGCATTAATTGAGAACGATAAATTAGGTGGAGAATGTCTAAATTATGGATGTATACCCTCGAAAACTATGATTAACACGAGTGATATGTATCATAAAATTACTGATTTATCTGGGCAAGGAATAGAAGTTGAGGCTGTTAAAGTCGATTTAGAGAAATTTCAGACGTGGAAGAATTCTATTACGAATAAATTGAGAGGAGGAATTAGTTTATTATGTAAAAATTATGGTGTTGAGGTTATTTCGGGAACCGCTAAAATAAAGGATAAAAATTTAGTTGAGATTATAAATGGAGAAGATAAAAATGAAGTCTCTACAGAGTATATAATAATTGCAACGGGTTCCAGGGCAAATGATTTAGAAAATTTAAGATTTGATGGGAATCAGATTATTTCAGCAAAAGATGTTTTAGATTTAGATAAAGTTCCTAAATCAATGTTAATTGTTGGAGGTGGAGCAATAGGATTAGAATTGGGAACTGCATTAGCAAAGTTTGGAACACAAGTAACAATTTTAGAAATAACTGACAAGCTATTACCAGGAATTGAACAAGATTTGGTGAATGTTGTTGAGAGATCATTAGAGGAAATTGGAGTAAGGGTTTTATTGAATTCAAAAATTACGGAAATGAGTAAAGAATCAGATGTTGTTGTTAGTATAGATAATAATTCTAAGACGTTAAATGAAAAATTCGAAAAAGTATTGATAGCAGTTGGTCGGCGTGCAAATGTTGAGAATTTAGGACTAGAAGAAATTGGTGTAGAATTAGATAATAATGGATTTATAAAAGTTAATGAAAATATGCAAACAAATGTTTCTAATGTATTTGCAATTGGTGATGTTATAGGTCCTCCATGGTTAGCTCATAAAGCATACATGCAAGGTAGAAAACTTGCCTACTATATTGCTAAAATTCCAACAGATATACAAATTGAGCATATTCCATATGCAGTTTATACTGAACCTGAAATAGCATCAGTAGGATTAACAGAAGAAAAAGCATTAGAGCAAAACTATGATATTCGTGTAGGAAAATTTCAATTTATGGCAAATGCAAGGGCATTAACATCTAATGATGGTAAAGGGTTTGCAAAGTTAGTCGTGGATAATAAAACTCATGAAGTTTTAGGTGTGCATATAGTAGGTAAAAATGCATCAGAATTAATTAGTGAAGGAATATTGGGGTTAAATCTGGGAATGAAAATTGAGGATGTTGAAAAGTCTATTCATCCTCATCCTACATTAACAGAAGCATTATTTGAAGCAGCAATGGCAAGCTTAGATAAATCAGTTCATTCGTTTATGAAGAAGTCTAAGACAGAATAATTAAAAAAAATAAAAAAATTTAGGATCTTACCAAGAAATACGAAATTAATTTAATGAAGATATTAAACTAACGACGTTTGCGTTTAGCTGCTTTCCTTTTTGGAGCTGCTTTACGTTTAGCGGCTTTGCGCTTTGGTGCTTTACGTTTAGCTGCTTTCCTTTTTGGAGCTGCTTTACGTTTAGCTGCTTTCCTTTTTGGAGCTGCTTTACGTTTAGCTG
>sequence55
ACTCCCGATCACTTGCTCCCAAAGCAAACATCTTAGACCAGACTAGACAACCGCCCCAATAACGTATAATTATCAATATAAAAAAGGATATCGAGATTTGGTAGAATTAGGTCAAAATAAGTTAAGCTTTAAATGCATATTTTATTTATATAGTATATCTTGTCCTCAATGCCTTACAGAACATCAAAAAGAGTAAGGACGATTTATTCAGTAATTGCATCATCTAATCGTCTAGATATTTTACGTATATTAAATTCAAAAGGGCCATTGAGTTATTCTGAATTAAAGACATTAGCGGGATTTAAGTCTAAAAAAGAATCAGGTAAATTTGCATATCATCTGAGAAAATTAGTAAAACAAATGCTGGTAACATTAAATAGATCAGAAAGACGCTACAATGTAACAAATTTAGGCAGATTAATTTTGAATTTAACAAGGCAAATAGAAGAACAAAGTGTCATAGAGAGTGGAAAAATATATGTTAGAACATCAAAAGAAATGATGGAAGAATTTAAACCAGATAAAATTTTACAAGCATTAGTCAAAGAAGCAGGAATGCCTGTAGATTTGGCACAGAAAATGACAAGTGAAGCTGAAGCTAGATTATATAAATTTCAAACAAGTTATTTAACGGCTCCACTAATTAGAGAAATAGTAAACGCGTTATTAATTGAGCATGGATATGAAGAATATAGGCACAAATTAACAAGAATTGGATTGCCTATTCATGATGTTACACAGATGTTAAAACAGAGTACAAGAAGTGACAATAGCGTTTCTTCACTTGTAACTCAAACTTCAAAAGAAGTATTTTCAGAATATCTATTATTAAATCAATTATCAAGAGATGTAACTGATGCTCATTTGTCAGGAGATATTCATATTTCCAATCTAGGAGTTTGGGGATTAAAACCAGATACAATATTTGTTAACTTGAATTCTTTACCGACACAAGGAATTAAGGTAAAAGGAAAATTATTGAATTCGGTGAAAATCAATAAAGCTGAAAGCTTTTCAGACAGTATTGCAAATATTGTTTTGCTTACTACAGAATTAAGTAAGGAGATAAATACAGAAATAGCTTATAATAATTTTATTGAGTATATAATTAGTTTCTCAGATAATAAAGCAGTAAATTCAAAAGAGAGTATATTACAAATGTTTAAAATGATTTCTCAGATTGTATCAGAAGAAAGCAATCCATGTGTATCAATAAATCTAGCAATACAAAAAAATATAAAAATAGATGAAAAACAACTTTCGAAACTATATAAATTAATTTTAGAAAGTTATGAAGATTATATACAAACAGTAGCAATTCCAAAAATAACATTAATCATACCATCAATTGGGTTACAAAATACAGAATTATCAAAAAAATTATTTGGAATTATTAAAAAAGGAGGTTATATTGCAATAAGTAATGACGCAAAAAGTAATTTCTCATATACAGGAATTAATAAATCAATAATAAAAAATTCAGCAGGGGGAAACATTGTTCTACATGCAGTTTCTATAAATCTTCCAAGACTTGCTTACGAGTCAAATAAAGACGATACGTATTTTAGAGCAAAAGTAAATTTAATATTAAAAACTGGAATATCTGCACTATCTACTAGAAGAGAAATAATCGATGATATGATTGGTAAAGGATTATTGCCATTATTGAATATTAATACAGGAATTATTTCTAATCAAAAGATCCCTCTTATAATTAATTTAACAGGATTAGATGAAGCAATAGATAGTCTTTTAGGCACGAAATCAACCGCAAAAGAAAGAGGAAAGCTAGCAGGTAAAATTGTAGATACTGCAATGGAAGAGATATCAAATTCGGGTAAAAAACTAGGCGAGGAATTTGGATTATCATTAATAGCAGACGATTCAGCAAAGAGATTTACTAATATTGATATTGATAAATTTGGTAAAGGAAGAGTTATTACTAAATCAGAATCGAAAGAATATCAACAATCAATAATATTGAGTTTAGAAGAACCAGAGAGAATCGAAGAAATATATACATATATGAATAAATTTAAAGGCGGTCATTCAATCTATTTAGACGTATCTAATTCCACAATCAAGAATTTCTTGGATATAACTAATAAAGTATCAAAGAAAGCGAATTTCTTCAAATATTATTGTAAATTAAAGGTGTGTATAGCATGTGCTTCGAAAAATGTTTACAATACAGAAAAATGTAGTAATTGTAATTCAACGTCATTACAAGAATATCCGGTAAGATAAACTGTTTTTATAATCGACAAGTCAGAAACAATTGACTGAAGTATAATATATTAAGGAAAAATAAAGGCCAAAATAAACAGATTGAAACAATTAACAGGTATTTTTATGTATAGAATAATTAAGACCATGTAAAAATCAAAAGATTGTTGTCAAAAAATTTTATGACAGGTTGTCAAATACAGATTTATCTATAGAGTGATATGAGTAAAATAATTTTTAGACGTTATAAAAAAAATAGACAAAATGTTAATTTAAATGATAATACCTTTACAAGTGTTGATTTACCGGGTAATATGTTAAACGCTCTTATACTTCGAGTACATATTAGATTGTCCTAGTAGGGGTGTAATATATGGAGATTAATGATACATTATCAGAAAACGTAATGAAGGTATTAAAAGCAAGATATTTGTTAAAATTTGAAGATGGAAAACAAGAAAGTCCAGATCAATTATTCAAAAGAGTTGCCACAGCCATAGCGAGTATAGATGAAGAGTATAAGGACTTTGATAAAGAGGAGTCAAAAGAGATATTTTATAAAATGATGAAAAGTTTTGAATTTTTGCCAAATTCTCCAACATTGATGAATGCAGGAGCGCCGTTGGGACAATTATCTGCATGTTTTGTATTACCAGTACAAGATAATACAAGTTCCATACTAGATGCTGTAAAAACTCAAGCTATAGTTCAAAAAACAGGTGGAGGAACAGGTTTTTCTTTCTCAAATCTAAGACCAGAAGGAGATCAAGTTGGTTCCACAGGATCAGTAGCATCAGGACCTGTATCATTCATGCAATTATTTGACAAATGTACTCAAGTCATTAAACAAGGAGGAAAAAGACGTGGTGCAAATATGGGAATTGTAAATATTGAACATCCAGATGTAGTTGAGTTTATTGAAATGAAAAGAAATAACATGAAATTACCAGAAGAAGCAAAAATTATGAAAGAATTTAACGTTTCAGTAGCAATAACAGATGATTTTATGAGTAGATTGAAAAAAGGTGAATATCATAAATTTGTAAACCCAAGAACTGGAAAAGAAGTTTTGAAATGCAATAAATGTGAAAAAAATGTTTTCCCGACAGAAAATGAATCTAGATGTAATTTATGTGGAGGAGAAGGCGAAAGAATAAGAGCTAGAGAATTATGGGAAAAAATTATCGATTGTGCATGGGAGTGTGCAGATCCGGGATTAATTTTCATAGATAAAATAAATAATAGTAATTCAAACCCTGTAAGAGAATATTTTAAAATTGAATCAACAAATCCATGTGGTGAAGTACCATTACTACCAAATGAGAGTTGTAACTTAGGTTCCATAAATGTAGCGAAATTTACAAATAATGA
>sequence56
AGATGAAAATATTGCAAAGACGCATTTACCAAAATATATTCTAAATAGGAATGTTCCTAAAGTAGAAGAGAAGCCAGCTGAAGAAGCTAAAGCTGAAGAGAAGCCAGCTGAAGAAGCTAAAGCTGAAGAGAAGCCAGCTGAAGAAGCTAAAGATAAAGAATCTAAAGCTGAAGAAAAGTCCGCTAAAGCCAAGGAAGATAAGGAATAATTAGTTGATTTATTATGATTGAAGAAGAAGCTACTGCTACTGAAGTAGAAGAAGTTCCTGAAGGCGAACAAGTAGAAGAACAGGTAGAAGAAAAACCTGTAACTAAGCCTAAAGGTAAAAGACAAAAACGAAAAGCTCGTTTTAGTCCTCAAATCTATAAATTTTATAAAGTTGACGATGATAAAGTTACAAGATTACGTAAGGACTGTCCTCGTTGTGGTAAAGGTAACTTCCTTGCAGAACATTCTGATCGCTTATCTTGTGGCAAATGTGGCTATGCTGACTTTAAACAAATAAAAAAATAATTAATTAATTAGTCTTTAACAAACTCTCAGGTTTTATAAGATATTCTGGAATTTCTTTAATGTGTTTCTTACGACTAATTTTTGAGAATAATTCTTTAAACGCAATATTATATTTCACTCTTCCCGCCTTTAGATGTATATAATAATGATTAATTATTCTTCTAACTATCATTAAATTCATTACAAATCTATTTCTTCTTTTATTCATATTCATACGTATTATACCATCTTCAAAATGCAATTGATTTTCCTTCTGTAATAGCTTTGCAGCTCTATCAAAACCTTTTACACTCTTTTTTATATTTCTAGAATTAATCTTTCCTGAATAAGTCATTATATAACTATACTTTACTGGTGGGTACATTCTCATTCTAAAATTTAACTTCTGAAATAGAAAATATTCAGATGGCACCCTTAAATATTCAATTAAACTTCTATATCTAATTTGTAATCTTTCAATTAATTCTAATATTATTCTCTTTTTATATTCTATCTCTATCGAATCAAAAAATTTCTTATTCAATAATACTTCATATGGATTTAATAACCTACCTACTATAAATTCTCCTAATTTTGCTTCTTTTGCATCATATACTAATGACTCTTTATCAACAAAAATTGCTGAGATTTCTATTTTATCAAAAATATATCTATATCTAACTTTCTTTTTATAATTATTAATTACAACAATTAAATCATAATCACTTTTTTCATTTGCATAACCTGCAACTCTTGACCCATATATACAAATTGCTTCAATGTCTAATCCTTTAGTAACTTTATTAATTATACGAAGAATTCTCTCTTTTTCATCGTTTAGGTTTAGATTTCTTTGCATTTTGTTCTAACTCTTTAATCGTTCTTCCTATATCTAAATCAAATCTTGTTTTCATTATTGTTTCTATTGGAATACTTGATACATTATTTTCTAAACTTACTCTACGTACTGGAAGACTCTTATTTATCCAATCTTCCTTTGTTTTCTTAATTAATCTCTCACCCACTGAATGATTCTGAAATTTCTCTCGTAAATGTTTTAAAATCTGTGGTGATTTATTACTATGCGTAAATATTAATTCTGGCTTAAATGACCTACAAGCATCTGCATATTTAGCTTCAAATAACGTACTTGATATTTCATCTGAAATTATATCTAATTTTTCAAATTTTCTTACATATTCTATGTAATGAAGGAACTCATGTGCTAATATTGCTTGAATAGTCCCCTTTAATCCAAAAGCTATTAATGGTGCCGATAACTGAATTATTATTCTTATTTCTCCTTTCCATATGTGGAATATATTTCTTGCAAAATATGGAGTTGGACTTCCTCTTTCTAAAGATGTAAATGCAACGGGTAAAACCGGTTCAACATAATATTCGGGATATTTTATTTTTGATGCTTCTTCAATTCTATTTATTCCATTTTCAATAAATTCCCTTTTCCTTATAATATCCTTAATTATCTTCTTTGGAATAGTATTTTGTATATTAATATCTTCAAACTTTCCAAATGGATCTTTAATTATCTTCTCAGGTACATTATTATCTTTGGATTTCCCGAATGATTCGTAATCCACGTTTTGCATATATTATTTATTCAATAATACAATCTAATGGAATAGGTGTAAAAAAATTAGACGTAATGGTTAATTATTGTTTTATTTCTTCTTACTAATTTCTGAATTTATTCTCGCAATAAAGTTTAATTTATTCCTTTTCATCTCAATAAATGTCTCTGTATGCGTAATTCCACTAATTTGAGAAACTTGTTTTGATACTAATCCGTGTAAATCATCCAACGATTTAGCACTAATCCAAATCAATAAATCAAATCTTCCTGTAATTTCAATTATTTCTCTAGTTTCTTCAATTTTCTCAATATCTTCTAAAATTGTTTCACGTTGTCTTGAACTAATATTACATCCAATTATCGCCTTTACAGGATAACCCAATAAATTCTCATCTACTTCTAATGTAAATTTCTTTATGAAACCTTTTCTAATTAATCTATTAATTCTACTGTATACTACTGATGAATTAATTTCAATCTTTTCACTTAATTTTGGTATTGATATATTTGATTCTTGAGTTAATTCTCCTAAAATCATTATATCTATTTCATCAAATTTCTCCACAATATTGTGAAATATACAAATAATAATTTAAAACTATATCAAATTCTAATTTTTAATTATATTTGATTTTATAAGCATCTCACTTGTAAGAACTACTCCTTTTGCTGCTCCCATTCTTGTATTATGTGATAATAAAACATATTTTATTCCATTAGGAAATACTTCATCTTTTCTTATCCTTCCTACCGACGTCGTCATTCCATCTTCTAATTCTCTGTCCAATCTAGGTTGTGGTCTAAAAGGATCTTTATGTATTGTAATTAGTTTCTTAGGTGCCGATGGAAGTTCCTTATCTGCAAGCGAGTTAGAAAATTTCTCCATTGCTTTAATTACATCTTCTACTTCAGCTTTCTTTTTTGTATTTACTAATACTGATTCTGTATGACCATCTAATACACCTACTCTCGTACATGTTGCTGAGACATCACACTTTGCATTAACAATATTTTGTCCATCATAACTACCTAGAATTTTTTTTAATTCAATTGATACCTTTTCTTCCTCTTTTGGAATATACGGAATTATGTTATCAACTAAATCAAATAGCGGTATACCTGGACTTCTTCCTGCACCTGACACTGCTTGTAATGAAGTTATTACTACAGAATCAATACCAAACTCATCCAAAATCGGTTTTAACGTTATTACCAGACCCGTTGTTGTACAATTAGCTTGCGGTGCCACAAATCCTTTCCATCCTCTTTTCTTTTGTTTTTCTAAAAGTGGTAAATGTTGATCATTTACTGCTGGAATTAATATTGGTACATCTTCTTCGTATCTATAGGCGGACGCTGTACTAAAAACAGGAATATGCTCTGCAAATTTCGACTCAATCTGAGCAGCTCCTGCTTCTAATGCAGAATACGCAATATCAAATTCTAATGGATCAATCTCTTCAACATTTTTAACAGTCATATTTTTAATATTTTCATTTATTTCTC
>sequence57
GTTACTTCAGATACTAAAACAATCTTGTTTCCGTCTGGATTAATTTTACCCCAAGATACTGCTTCTTCTGGTGGCGCACCTGATAATCCTCCTGTCTCAGGTCGATCTAATGTTATTTGTATCACATTGTCGAGCATTTTGTTTGCAAAATAAAATGATTGAAATACAAAATTCTTTGGAACTCCTCCTCCTAATATTATTGCTCCTGATTTTTCTTCTTTCACTCTTATGTCCCAAATATCTTGTAGATCTTTGAATACATCTACATTAAGTTTTCCAGGATTCTTTCTATTGTAAATAGCAGCTTGTAATCCAAATACTGAATCATGTATTGTTGGTACAAATAATTTTATATTATTTTTATAACATGCTTTAAGAATTGATTCTGGTTCTTCTGGAATTCTTTTTGCTATTTCATTTATTAATTCCGATATTGATAAAATCCTTCCATCATTACTCTTTGCTATATCGTCATATAATTCTAGTAATGGCTCATCAAATTTTGATTGAAAATCATCTTCTGATACTAATACGTCATAAATTCTGTCTATTTTCTTTTCAAGTAATGCATCATCTTTCATATTTACATCGCCCTTATAGAAATGTCCTCCATATGCTAACATCATGTCATGAACAAGATTTGCCCCTGTTGTTACAATCGAATTGACTAATCCTCTTTCAATTAATTCAATTATTACTTTGTTCATACCTGCTGGTACTAATGCACCAGAAAGTGTCAAAAATATATAAGAATTTGATTTTACCATCTCTTCATAGGTGTCTACTGTTTTCGCAAGCATTCCTGACATAAACGATCCTGATTTACTCATTTCATTCACTAGTTCATTTGTGGTCATACCTGGCCATATCTTCATTGGCTTTACTTTTCCTTTATGAAAAGTATGTTCTTCCATATCTAGCAATTTTATTTCTTCAATATATATGATATGTCTAATTTTCAGTATTTGAACTCCAGAATAAATCTTCTAATCTTGTTACACCTAATATATCATCAAAGGAATATCCCAATGGACCTAGCAGCTGATCAAATGTACTTTTCATAATTTCCTCATATTTCTTTTTATCAATTTCTCTAATTTTTGCTAGTTCGAGAGGTTTTACCCCTCCAATAGTTTTCACAAACGAAATTATATCACCCGGCTTCATTACTTCGGTATCTCCTTTTTCTCTATTATGTTCCTCTAATAATCTCGCAGCTCGAACATGTTGAGGAATTGTGCTCTTATACATTTTTGTTGATTTACTCAACATCATTCTAAATGCTAATTTTTCAATAGGGACTTTGTCTTCTTTTAATAGTTTGTTACTTTCTCTTGCGATATTTCTAACTTCAGTTTTAACTTTTTCAAAATCTTTTTCAGTTTCTGCTTCTCCTAACTTATCAATTGCCTCATAAAATGCCTCTTTTACAAATAATGGTATGTGACTTTTTTTACCTGTTAATCCTTTGATTATTACTTGACCATTGTTTTTTACAACAATATAGTTTTTCTTTCTCTCGGAAAATACTGCATATCTGTATTTTGCTTCTAATTCTAGATCTACTCCTTGATTTTTCTGCGACCATGATATTAAATTGTCAATTTCATTTTGATCAATGGATTTGATAAATAATGAATCAGTATCTCCATATAATACCTCTATATTATTATTTTTCGCTGCTTCAACTGTTTCAGTAATTATATTTCTTCCAATAGCTGCTGTTGAGTCAGCAACTGGTAAGAAAAATAACGGAAATATTGGAGCGCCTAGTACTCCATAACTTGCATTTAATATTACTTTTAACGCTTGAGATACAACCGAATATAAATTTCTATCATCAGAAGATAATCCTTCCATTTTTGGTAATGGCTTGTAATAATTTACTCGTATGTCTCTTAATGAACCTACTAGTAATGATATTATTCCTCTTCTATTGTTGCAAATCCAATGTTTACTTCCTTTAATCAAATTTTTTTGATGTTCTTTATGTTTACACCTAACTGTTTCGTATGATAGATTGTTGACTTTTATTATGCTGGGATATAGACTTGCAAAATCCAGTGCTGATACTCCAAAATACACTCCTATTTTGGGTTCCAATACCATTCCTCCTTGGTATTGTTTGCCTTCTATTACCGCTTCAGAAGACATTTCCTTTAATTCATCATCATCAATTGCTAATTCGTCTTTTCTTGGAATTAATGCATTAATCTTTCTATGTTCAAAATATACCATACTTCGTATCCAATTCGAAACTCCAATTCTCGATAAATCATTGATTGGCATTTTAGTTATTCTTGAAATTACTAGTAATAATTTCATCAACAAGTCTCCGTCAAAACTTGTTAACTCTAATGTAATTTCCGCATCATTGAAGTTATATTTTGCTAAATGATAATATGTTTGTTGTCCAATCTCTCCAGTAAATTCAATTTTTGATTTACCTAATATTGCTGTACTAACTGCATTCAAACTATGTTCTGAATATTTATTCCCAAATGCGTAAATTTGTATTGATCTGTTAAGAAATGTTCTATATAGATCTAAATGTATTCCGTGTTTTAGATTTGCTTCAATTCTTCCAAGTTGAATTGGTATTTCTTCTTTTTTCATTCCTGCTTTTATGGCTCTATTATAGATATACTTCAAGTCAAAATCGTCTCCATTATATGTAATAATACATGGATAATCTCTAATTATTTTGAATACGTTTTCAAGTAATGTTTTTTCATCATCCACAAAAATAACATCTATATCTTTTTCTAATTCATTAGTTCCTGATTCAATTCCTTCTCTTCGTAGCATAATTACTTGTTTTAAATTATCACTTGCTGCAAATCCTACTGATATTATCTGGTATCTTGCTTCACCTGCATCTGGAAATCTATCCATTTTATCTGATTGTACTTCTATATCTAATGCAACTCGTTTTATATTGGGCAAGGGCTGACTTAGAAGTTCTGCCCATTCGTTAATCTTTTCTTTTATATCGTCATCTGCATTTTCTATACCTTTTTGCAACATTTCATTTGTTTCTTTTGGTGTTGTAAATTTAGTTGGAATTATTTGATTATCTTTGATTTTATAGTATATTCCAGGAATTAATGATTTATCATACATATACGTCTCATAATATTTTATGTCTGCTTCCCATGCAACTACTCTATCTCGTATACTCCTTCCAGGCATTCCACCTATAATCAATGGATTATCTGCAATGATTTTTAGCATATTTTCCTCTTTATCATTTAATAAATCAATTTTTGTCGTTTCTTCAACGACTATCTTATCTTCATTTTTGAATGTTTCTAGTAGTTTTTCATCAGTATCTTTTTTAACTAAACAATATGGTTTATGTTCAGTACTATCGTACCATAATTTTATAGTATTTGTCTTTTCATCATAAAATTTTAAGCACGCTTTTTTTTCAGTACCATCATATGAAGCTGATAGTAAAACCATGTTTTCATTCTCGATTTGTTCAGTCATATGTACTTTTATATATCAAATCAAACATAAAACATTATCAA
>sequence58
ACTTGTATGTCAATTACACGGCCACGTCTTGCCGAACCTGTTACTAAGATTAATGCTGAAAATTCATGGTCTTTTGACAATCTTACACAAAAAGATACAAATTATCTCACACATTGTTATCATCGCTATCCTGCAAAGTTCATCCCTCAATTGGCACGTCGTTTAATACTTGAAAATTCTCGTAATGGCGATATAATTTGTGATCCCTTTTATGGTTCTGGTTCAACTATTCTTGAGTCTATTCTTCAGAATAGAATTGCTTTAGGTACTGATGTTAATCCTATTGCACACATGATTACAATGGCAAAAACAACTCCACTTGATCCTTCTAAAGTTTCAAAAACTAAACTCTCTTTACATAGTAAAATAAAAAACTCATCACGCGAAGAAAATTATGATATCCCTACGGAATTATCAAAATGGTTTGATCAAGAAACATATAATGTTCTTAATCATTTATTATTACAAATTAAATTAATTAAACCAAGAAAATTACAAATATTCTTTTTATGCGCATTTTCTCATATCCTAAAAACTTCTAGTTATTGGAATAATGGATCTGTTAAACCTCATAAAGATAAAACCAAATTTCTTAATCGTGTCAATGATCCTCTATCTCGATATTTTGCTCAAGTTGATAAAATGGAGCTCCGAAATAAACAATTAATAGATGCTCTTTCTCCAAAGATACTCAAGAATCTTGATTTTTATCGACGAGCTTTTGTAGGAGACTTGCAAAATCTACCTACAAATGACAAAAGTTCTTTAATCGTTACTTCTCCACCATATGTCATAAGTTACGAATATCGTGATATTCATTCTCTTAGTTTATCTTTCTTGGAGGATTTCTTTACAGATATTCCTTCGAAAAAACATTTTATCGGTTCCTCTCATCGTAAATCCAACGATAATAATCTATATAGTTATACTGGTGGTTTAATTGCTGATTCTCTACTTTCTTCAAGCAAGTCTTTATCCAAAACTGTGCATTCTTATTTTATAGATATGCAAAATTTCTTTCATAAATCATATAATCTGTTAAAAAATAATGGAAAAATGGCAGTTGTGATTGGAAATACTGCACTTCGAGGTGTAGATATATCAAATACTCAAGTTTTTGACGAAATCCTTGCTACTATTGGTTTTACCGAGGATAAAATCATCAAAAGAAAAATTCCGTTTAAATGCCTTCCAACAACACGTGATCCTAAAACTGGACGATTTGTTTCTTCTAATAGTAACCATAATAAATCATATTCACATGAATACATAATGATTTACTCTAAAAATTAATTAATATCAAAAAATCTAATAAATTATTTAAATTCTTTTGTTGTTGACTTTCTTATATTTATGATACTACAAAAAAAGAATCAATTGATAACTCATCAAGATGGCGATCTTGATAAATTAATTGAATGTGACAAAGCTTTTGAACAAAAGGACCTCACTTTCTTTATCAATTTGCTTCAACAAGACGAAAGCATCTCTGTTCGAACCCGTTGCGTTTGTGTACTAGCAGATATTGGTGATAATTCCGTGGTTCCTATTTTATCTGAACTTCTACAAACTGACGAAACTCCTCTCGTTAGACATGAAGCTGCCTTTACACTTGGTCAATTAGGATTTCCACAATGTGTTACTTATCTGATTGAAGCTATGCTTACAGACATTGATCATGTAGTAAGACATGAAGCTGCCGTAGCGTTAGGTTCTATTGGAAACGAATCTGCTAGAGATGCTCTTATTCGTGCCACATCTGACGAAGATCAATTAGTTTCTCATTCTGCATATTCTTCATTACTCAATCTTGATCTCCTTAAAATCAATTTAAATAAAAATTCTTCAAAATGAATTAATACAATACAATGAGTTAATAATTGTTACAATAAGATATGAAAATTAGGAAATTTATAAAAAATTTTGTTCCTTATAGCTGGGAACCATCTACTGACGACATTGCCAAATCTATAGGAAAAAAACCCAATGAGATAGTTCGATTTGATACTAATGTTTCCCACAAAACCCCTATGGACTGGCTCAAACAACTCAGTAATGAATTTGACAATTTGGAGATTAATCGATATCCTGATTCTTCTTATATTTCAGTCCGTAAATTACTTGCTGATTATTGTTCTTGCGATGTAGACGAACTAATATTAACTAACGGCGCAGATGAGGGTCTATTCATGGTCGGTTCTTTATTCATCGAACCTTCTAGTAATGTCATTCTATCTACTCCTACGTATTCTTACTACGAAAAAATGATACAAATTCTTGGAGGTAATGTTAAAGAAATAACACGAAATCCTGATTTTTCAGACAATTTTTCCCAAATTTCCGAAAATATCGATGCTGATACAAGTCTAATTGTATTATGTAGTCCAAATAATCCTACCGGTAATCTTGTAAACAAAAATTCCCTCGAACAACTCTTAAAGAATTCCGATATTCCAATAGTTGTCGACGAAGCTTATTTTGAATTTACAGACAGTACCGTATCTGATTTAGTCACTCGTTATGATAATCTTATTGTAGTTCGAACTTTTTCTAAAGCTTTTGGCCTCGCAGGTTTAAGAGTTGGTTATCTTATTTCTTCAAATAATACAACCTCTTTACTGAATAAAGTAAGACCTCCTAACAGTGTTGGGGAACTCTCTGTTAATTTATCAAGAATTGCTTTGAATAATGTTAGTTGGATTGAAAATAATGTCAAAGAAATTTTATCAGAAAAAAAATCGTTTATTGATCGCGTATCAAAAATTAATAATATCGAAATCATTCCAAGCTCATCTAATTTTATGTTGTTAAAGTTCCTTAATTACAATGGCTCAAACATTTATGAAAAATTACTTCATAAAGGCATTGTTGTGCGTGACGTCAGTGGTACTAAAGGCCTTGAAGATTTTATACGAATTAATATTGGTTTACCCGACGAAAATAATAAATTAATACAAGCTATTGAAGAAGTATCTAATTAGGTGATTATATGGTTCTTTTACTCACGCATAAAGACGTCTCTTCATTACTGACAATGGAATCTAATATCAAAACAATGGAAAAAAGCTTTATCGAACTGTCTAATGATAATGTCAAGATGCCTGACCGTGGAGTTGTTATTGTCGAAGACAAAAACGGTTGGTATGGAGTTATGACTGCTCATATGAGTGGTATGAAAGCTTTAGGTACTAAAATTGTAACAGTCTTTCCTGAGAATATTAAATTAAATAAACCTACTACTCAAGGTGTTATTTCTCTTACTGACGTTGATACTGGAGAATTGATTTGTATAATGGATGGTTCACTTATTACTGGTATGCGAACGGGTGCTGTTACTGGGGTTGCAACCAAATACTTGTCTAGAAAAGACTCCGACTCTGTTG
>sequence59
CTTCACTATTACAAATTGTAATAACTGTATCACCATTTCTAATTCGTTTTCCACCATATTCACCAATTTTATTATATGCGTCTAAACTATTATGAACAAATTGTTCTGCTGCCTTAACAGTAGCCTCTTTTATATTATCTGCCGAGTCTCCAGCATTATATGATTTTTTCGTCGACGCTAAAACAATATTCACTCCATTTGGAAGTGAAACCGCAGTTGGTCTTGCCGATCTTAATTTCTCTCCCTCTTTCATTATATTTTTATACAATTGTTCACGGTCTGAACTATTTGAATTATCTACATAATTTTTCAAAGCACTTGCAGCTAATCTTGCAATTCTTCCTGCTCCATGAATCCGCATATCTTTAATTTGACTATACGCAGTATCTACATCAATATCTACAACTCCCGAAACTGTGGGAATATTTATTGGATCATCTGTCATATCAATAACAGTTACTAATAATAAATTACTTAAGTGTTGAGAAATATTTTTTAATAACGAAACAAGAATTATAAAATTTTTATAGTTGAATAAAAGAATTAACATATACTCATGAAAATAGCTCCATCTATGTTAGCATCAAAACCAGAAAACTTCGTCCATGATGCACAAATTCTTGAAAAAGCCAATGTTGAATGGTTTCATATTGATATGTTGGATGGCACATTCACTAATACACATGCTTTTCCAGTCGAGGATTTAAGAATCATAAATAATGCAACTGATTCCCCAATGGACATACATTTGATGACCAATCATCCTATTGAATCTCTTCCAGAATACATTGATGCGGGCGGAGATATGTTAACTGCACACGTTGAAGCCGTTAATCCTAGAAAATATATTGACGCAGTCAAAAAATACGATAAGATGGTTGGACTTGCAGTCAATCCTGATACCCCTCTTTCTTCAATAGTTGATTATATTGGAGAATTAGATAGAATCTTAATTATGACTGTTGTCCCTGGTAAAACTGGTCAATCATTCATCGAAGCACCTTTATCTAAAGTTAAAGAAGCCCGTCAACTAATTGACAAACATAATTATGATGTAGAATTATGTGTTGATGGTGGTATAAATGAAAAGACTGCACCACTTGCAATTGAAGCTGGCGTTGACGTTGTAGTTTCTGGAGCAGGAATACTTTACAAAGATGATATGATTAAAGCCGTTGAAGATTTACGTGCTCTTGCATCTAAATAATTTATTTCTTTAATAATTCAAGACTTTTACTTACAACATTTTCTACAGTAAAACCAAATTTTTTCATAACATCATTTCCAGGAGCTGACGTACCAAAAGTTGTCATTCCAATTGACGTTCCTTCTAATCCTACAAATTTTTCCCAACCAAATGTACTTGCAGCTTCCACTGAAATTCGTTTTTTAATTGCACTTGGTAATACTTGTTCTTTATAATCATCTGATTGTTTTTCAAATAATTCCCAACTTGGCATACTAACTATTCTAACATTTACACCTTTATTCTTTAATTCTTTTTGAGCTTCTACAGCTAAATGTAATTCAGAACCAGTTGCAATTATAATTAATTCTGGGGTTTCATCTGAATCTACTATTATGTATCCACCCTTTTGTAAATTTTCCGGTGAAGCAATTTGATCTTTATTTGATTCTCCATATAAAACAGGTAATGCTTGTCTTGTAAGTACTAATGCGGTCGGACCACTAGTTGTTTGTAATGCAGTTTTCCATGCAACAACTGTTTCGTTCGCATCTCCTGGTCTAATTACAGTAAGATTTGGAACTGCTCGTAAATTGGATATTTGTTCAATTGGTTGGTGTGTAGGACCATCTTCACCAACTCCTATACTATCATGTGTATAAACAAAAACAGCACGTAATCCCATTAATGAAGCTAAACGTACTGCCCCTCTCATATAATCCGAAAAGATCAAGAATGTACTTCCGAACGGAATTACTCCTCCATATGCTGCCATTCCATGTACCATTGCACCCATTGCATGTTCCCTTATACCAAAATGAATATTTCGTCCATGAGGCGCGTCAGGTAATGCATCTACAGAATTTTTAATTCGAACATTTGTCGAATCCATTAAATCTGCCGATCCACCAATAATTGCAGGAACATTCTCTGCTAATACATTTAATGTCTTTCCTGATGCTTGTCTTGTGGCAAGAGATTCATCTTCATTGAATATTGGAATGTTGCTATCCCAATTTTCTGGAAGATTACCTTTCATCAAATTTTCAAATTCAATCGCTAATTCTTTATTATCATTTTTATATGAATTATAAATTTCATTCCATTCATTTTCATAGTCATTTCCTTTCGAGATAACTTTTTGAAATTCTTGTTTTACTTCATTAGGAATATAAAACGTAGGTTCTAAAGGCCAACCTAAATTTTCTTTAGTTAATTTTGTTTCATCTGGTCCTAATGGCGCTCCATGTGCAGCTTCACTATCTTGTTTATTTGGGCTGCCAAATCCAATATGAGTTCGTGCTATAATTAATGATGGTTTTTCATTTTGTTCTTGGCTATTCTTTATTGCATCACTAAATCCTTGTAAATCATTTCCTTCAATATTTTGAACGAACCATCCATGAGCGTCAAATCTCTTTTTTATATCTTCTGTTGTAGTTAACGCTGTGTCTCCATCTATACTGATGTGATTATCTAAGTAGATATATATCAAATTATTAAACTTCTGATGACCTGCAACTGCAGCAGCTTCTGAAGAAATACCTTCCATTAAATCTCCATCACTACAAAATGCGTATATTTTATGATCAATAATTTTTTGATTATCTGTATTATATCTATTTGCTAAATATCTTTGTGCAAAAGCCATTCCAATACCTGCACTAAATCCTTGTCCTAATGGACCTGTTGTAGTTTCCACACCAGGTGTTTCACCATATTCAGGATGACCTGGAGCTTTACTTCCCAACTGTCTAAAATTCTTAATCTCATTTAATGGAAGCTCATATCCAGAAAGATGTAATAACGCATACAATATCATTGATCCATGTCCTGATGATAAAATAAATCTATCACGATTAACCCACTTTGGATTTTTAGGATTGTGTTTTAATATTTGCGTAAATAATTTATAACCCATTGCCGCCGCTTCCATTGGTTGTCCTGGATGGCCAGATTTTGCTGCTTCTACAGCATCAACTGACAAAAATCTTATC
>sequence60
AACAACAACGACCCGAAATGCGACCTACCGGTAATGAAGAAACATTTCAACGATCCAATTTAATACTTGTTGGCGAAGGCGTACCGTCAACTTTTGTTCCAAATTACGAATTAATTGATAATAATTTATACATTCAGAAATCTGAGAATATCGAATTAGCTATTCTTGAACCAACTGACGGTTTTCATCTTCTAAGTGGTTCATATGGAACAATAGAATATCCTAGTGTAGTTTCTCCGGGAAACCAATACATAATTAGATATAATAATACAGTTCAAGATTTTGATCCATCAGGAGAAAGTATAGAGTTCGTACTAGAAACTACAAGAAAATTGAAAATATTTTCTCAGACTGAAAATCTAATTACATCTATTGAGAAAAACGGCACTATTGCTTCAACTACATTGAATCTTCCTAATGAACAAACAGGATATTTCCAAATTACCATTCCTGAAATTGGAGCATCTGAAAATGGCGATTCTCCATTACAATATGGATTACATTTCTTCCATGTTCATTCGAATTTTGCGGGTATTGGCACTCTTGATGTATATCTTCCTGTCTATGTTGCTCCATCTAGTGATTATAATCTTGTAAGTTATTCTCTTGCTTCTGATTCTGATTTAAGACTTAATCTTGCTGATTACATTCCAACTTCTGCCGAGCTATTCATTACAGGTAAATCTAATGACGTTACTACGTTTGTTCAATCACAAGAACTCCATCTTCCTGTAGCCGTTATTTCTGTATCGGATAATCTTGGCCCAATTAATGTATACAAAATTGACCTCGATAAAGATTTTACTACAAGTTATTCTGATGGAAAAATGTATATTTTAGGTAACAGTGCTGACGATATTTTTTCAATTTCTACTCTCGAAATTTTTAATTTCCTTATTACTGATTTTGATATTACTGATAGTTTTGATCAAACTAAAACTTATTCAAATAATCTTGTTTTTCCTAGTAATCTCGATTTAAAACTTGATATTAATACAATTGATATCTCTGTTCTTGATGAATTTGAACAACCCTATATAGAAGGTCAAATAATTATTCAAAAAGGAGATGAAGAATTCACTTCTAATTTATTAGAAATACCCAGACTAAAACTTCCTGACGGTAATTATAAAATTACTCATATTGTAAATGACGAAATTAAATCTGAACAGGATATTTCAATTACTAGTTCTGGCTTGGTTCAATTTAACGTTCAAACATTATTATTGGAAGATCAAATTCTTACAATTGCAATAATTCTAGAATCAATTTTGATTATATTCTTTACTTTTAGAGTTGTTTCAAAATACTTTAAAGGATAATTATCCTATTTCTGAACCTGGCAACATCTCTTTATCTGTTTGTAATAATGACACTTCATCTCCATTAATTGAAGCTAATAACATTCCTTGAGATTCATTACCAAATATTTTTCTTGGTTCTAAATTAACTAACACAATTACAATTTTATTTATTAGATCATCAACTTGATAATATTTTGCAATTCCAGCAACTATTTGTCTTTCTTCTTCACCTATGTCTACTTTCATTTTAATTAATTTGTTAGAACCTTCAACTGCTTCTGCATTAATGATTTTCCCAACCTTAATTTTCATTTTTGTAAAGTCGTCAAAATTAATTATTTCCATATATTCATTTTTCTTTAATGAATTTTATATATGTTGTTCCGGTCACTAATTGTAATAATATTTAATAATTTCTATTAAATAATTACTAACATTTGTTAAAAATACATGATTATGTCTCGCATATTTTCAATATAAAATACGCATTAAATACTATAACAACTAAACATTTTCATGAATCATAGGTATTGGCTTATATCTATAGTAGCAGCTTTGCTGTTACTAACTTCAACTTGGACTTTTGTTTCAAATAATACTGAAACAGTAGTTCCTAATGTTGAAGCGGTTGGTCCAGGAAATTGGGAATGGATCAACTTTGACTCAGACGGTGGAAGTTTCAGTCCTCAAACACAAATCAATAAGGAAACAGTTGCATATCTGGAAATGAAATGGCTTTATCCATTCCAATCAGAAGTTGAAACTACTTTCCCTAATACATCACAAGAAGGTGCTTCCGCTCCCCCTATAATTGTTGACGGCATTGTTTATGTCGCTAAGAATAAACAAGACGTTGTCGCAGTTGATGCAAAGACAGGTGAACAAGTATGGTACAGTGACGTAATCACACAAGCTGCCGACTTTGACGCATGGCTTGCAGAATTTCCATACTTGCAAGGACAATATGGACATACTCACGCACTTAATTATTATGCCGACCGTAACGAACTTATTCTAAGTTCTGCACCATGTTGGTTGAAAGCATTAAATGCTGAAGATGGAACTATGGCATGGCAATTAGGACCTGAAATCCTTTGTGGTACACAAGCTGAAATGGGTAATCCATTAGGCGCAATGGGTACATTCAAAAGTAAAGGTTACATGAGTGCTATTCAGAACCATCCTCCTCAAATAATTGATGATATTATTGTATGGCCATCTTTCGGTGCAAGTGGACGTGGTGGACGTTCCAGTTTAATTGGAATTGACATTAGCAACCCTGCTAACCCAACACAAGTTTATCGTAACTGGTTAATGCCTCCTGGTGACGGAAGTCAACCAACATGGGCACAAGACCAATGTGATAGAACAAACGGACAAGTATGGTACTTTGAATATCCAAAGTATATTGAATCCGGTGGTACACATCTAGCAGTTAATTGTCGAGATGTACCTCTTGATGCAGTAAATAATGACTGGATTAATATGAAACCAGGAAGTCCTCATTTCGGTGAGATACATACTGCAAGTGCATTCTCAGTAGTCTGGGGTAATATGCCTTACAGTGAGAAGACTGGCTTAGTATACATGGGAACCGGTGATGTAGGACCTTATCCTAACGGTACTCTCAGATTCGGACCTAACCTCTTTGGTAGTGCATTAATTGCTGTAGACGCACGAACAGGCGAACTCGCTTGGGGCTTCTCAGCATTACCACACGATTTGTGGGACATGGACTGTTCATGGGGCGGTGCATTGAGAGACATGCCTGACGGAACCGAAGTATACATCAAATCATGTAAGAACGGTATCGT
>sequence61
AAGGAAATAGTTTCAACCAGACAAGCAATAAGAGAGGGAAGGTTATGGGAATATGTAGGAATTCGTGCCAGATCACATCCAAAGATGTGGGATGCATTTGTATATATTTCAAATAATATGGATGATATATCAGAATTTCAGAAGAGGTTTAAATCAAAAGGCATGTTTCTTGCATCTTTTCCTGATAATAGAAGACCGGAATTAAGAAATTATCAAAAGAAGATAATAGAGGTTTTTAAGAAATTTAAAAATCGGAGAATAATAATTATTCCAGTAACAAAAAATAAACCACTACTTTATAATAATAAATTAAAGAATGTATTAGAAAACAGTAATAGTGATTATATAATTGGATATATAATTTCACCAATTGGATTTGTGCCATATCAGATAACCGATATTTATCCAATTTCCCATATGGAAAGTTCGTATGAGATAAAGAAAGACAAGATAGTAATTGATGAATTGATTATAACATTAGAAGAACAATTTAACATATTGAATCCAAAAGAAGTCATATACATGAAAGATAACAAACTCAATCAAAGAGTTGTTGATTTTATTGTTAGAGAAGTAAAACCGAAAAAAGTTATAGAATGTGAATCAAATATTGTATATTCTGAATTAGAAGAGATATTAAATAATCAAGAATAGATATTGGATGGATTTGAATTGATATTCTCAACGAGATTAGGTTGATCTGTCTCTAATTCTACTGCTTGTTCAATAAGAGTATCTATTTCGATATTTAAATTGAATATTTCAGAAAGAATGCGAACCGCTTCAGAAGCAGCGCGTGGATCTAAACGAATTGAAGTAGCAAATGGCAATAAACCAAGTGTAGGAAAATTACGTACTTCCATAAAATTTAACATCTGAGCAACAGGACCAATGATAATTCTTTCGTCCTCAAGAGGAGTAGAATCAAGAAGAGATTTAGGAAGTTGGTAAGAAGATGTTTTAACATATCTGAAATTGGAATCGTCTTTTTTAAGTTGGGCATCCAATCCACCTAATAGAATTAATTCTTTGAAGTTTTTTTCAAGAATTATTTCACATACATTACGTAGAAAAACAATTTCATTACCCTGTAAAGGAGGAACTGCAACACGAAGAAATGCCAAATTATCTTGTTTATAGATTTCAAAAGGAGTAACAATTTTACCCGAATTAATTGAAGAAATAGGAGAAAGATAATCAGTTTCAAACACACCTATCCGTTCAGGTTGAAGAGAATTAATTAAGTGATTTAGTGCAAGAAATCCAGTAGAACCTATTCCATGAAAACCAGTAATTAATGATAGGCCTTTTACATCTAAATCGTCGGGAAATAATTTCGCAGAAATCATCAATGATTATATATTTCAGATGACTAAAAATCTTACTGATAATTGAATGAAACTAACCACATTAGGCGCTTCGAGGGAAGTGGGTCGCTCTGCTTTTTTGTTAGAAATTGAGAATAAAAAAATAATATTAGATTACGGAGTACAAATACGACAGCCAATGACATGGCCATTGCATGTTAATCCTAAAGATATTGATGCAATTATATTAAGTCATGCGCATTTGGACCATAGTGGAGGAGTTCCTTCGTTTTATCTGTCGAACAATATTAAGACGTATTGTACAAATCCTACTGCCGAGATTTCTAATCTACTAATAGATGATTTCATCAATCTTTCAAATGATGTGACAAAACAGTATTTGCCATATCAACATCAAGAATTAGAGAAAATGAAGGAGAATATTGTAGACATAGGAATGAATTCAGAATTCAACATAGGAGAAATCAAAGTAAATTTTGTCAATGCAGGGCATATGCCAGGAAGTGTTAGTATAGTTATGGAAGGAGAAGGAAAAAGAGTAGTATATACAGGAGATATTAATTCGTCAGATCAGAATTTAGTTAAAGGAGCAGATACAAAATATGGAGATGTTGATTTACTAATCACAGAAGCTACTTATGGAGTGAATGATCATCCAGATAGAGAAGATGTAGAAAAAGAATTTGTAAGCTTTGCAAAAGATATTACAGAAAGAGGAGGAACTCTTCTAGTACCCGCATTTGCAGTAGGAAGATCTCAAGAAATTGCATGTGTATTAGAATCTCATAATTTTTCATTACCTGTAGCTATGGATGGAATGGCATTGAAAACAAATCAGATTTTATTAAAGAATTTGGAATTTTTAGGTGAGCCAGAGTTATTTAAACGCATGATCAATGGTCTAACTGAAGCAAAAAATTGGAAACAAAGAAAAGAATTAATGAATACACCAGGAGTGATAATAGTTCCAGCAGGAATGATGGTTGGAGGTTTATCCTCTTATTATAAAGGAAATATTGCGATGAATAAAAAAAATGCAATTTCATTAGTTTCGTATCAAGCAGAAGGAACACCGGGAAGAACATTATTGGAAAAGAAGATGATTAGAGTAGATGGAAAATTAAAGAAGATAAAAGGAAAATTTGAACATTTTAATTTTTCGTCACATAGTGGAAGTAAACAACTATTCGAAATGATTGATGGAATAAAAGGAAATCCAACAATAGTTGCAGTACATGGAGAAGAAGAACAAACAACAAGTTTTGTAGAAAAAGTACAGAAAGATTATGGTTATGAGGCAATAGCTCCTGAATTAGGAGACAAAATAATTATTTAATTTTCTGAATCGTCAGGTAATTCAGTACCGAGATACTGATATGTACCAATTTTAAGAACTTTGAGAGATAGAAGAGCACATTTAATTCGAGCGGGGCCCAATGAAGGAGTTCCTAATTCTTCTAACAGTTGATCTTTAGTGAATTTAGACAATTCTTCAACAGTTTTACCCATAAGCATATCGGTGAGTATTGATGCAGATGACTGACTAATCGCACATCCTTCGCCATCAAATTTTATGTCAGAAACAATGTTATTTTCGAGTTTGATATCAATAGAAATTCTATCGCCGCAAACAGGGTTATTATCTTGAGCAGAAATTTCAGAATCAGGAAGTTTACCTTTATTTCTAGGATTTCTATAGTGATCAAGAATAATTTCTTTGTAAATATCTTCGCTCATTAAGTCAATACACTTCTTACTTTTTGTAAACCATTAAATAATTTA
>sequence62
GCGGCTTTACGCTTTGTTACCTTACGTTTTGGTGCGGCTTTACGCTTTGTTGCCTTACGTTTTGGTGCGGCTTTACGTCGAGTAGATCTACGTGGTTTTGCACGTTTCGCCATAATTAGTATATGAATAATCAGTATTTAATACTCGCACACAAGTATTATCATATATTATCAATGAAAAATATAGAAATCATATACAATAGGCTTCGTTCTTCTTATCCACCAATTGATACATCATTAGATTATAAAACTCCATTTCAATTATTGATTGCTACGATTCTATCTGCACAATGCACCGATGAAGTAGTTAACAGAACAACAAAAATTCTTTTTAATGAATATTCAGAACCAGAACATTTTGTAAAAGCAAATATAAATAAAATTAAAAAAATTATTCGGCCTACTGGATATTATTCATTAAAGGCAAATAGAATTAAAAAAACATCAAAGCGTATTGTTGAAATTTTCAATTCAGAAGTTCCAAGCAATATGGAAGATTTATTGACATTAGATGGAGTAGGTAGAAAAACAGCAAATATTGTATTATCAGTAGCATTCAATAAAACGGAGGGAATAGCAGTAGATACTCATGTTAATAGACTAAGCAATAGATTAGGTCTCACAAAGTATTCGAATCCAGAAAAGATTGAAATGGATTTAATGAAGAACTTAAAGAAAGAAAATTGGGATAGATTTTCCATATTATTAATATTGCATGGAAGAAAGGTTTGTCAGGCACGAAAACCAGATTGTGACAACTGTTTATTGAATGATATATGTCCATATTTTGATTCTAAGAAAAAACTGAAGAGTTGACTATATCGGAATAATTTATAGAAGTAATTAATTTTCTTTTTAACATCCAAGAATATATTTCATTAAATGCATTTTCAGAGTATTTCTGCCAAGGTTCCCAATAAGGTATAGAAATGTCAGATATAGTTTCATTAATTATTTGTTGTTGATGTTTTGAGAATTTATTGATAATAAATTGACACTTATTAAGGTAGAATTCTCTGATGTCGTCAGGATTATTATTAATATAATTAATTGATTTGTTTGTTGCATTAATAAAAGACCTGATAATATCAACGTCCATATCATTACGTGAAATCATTAAGGTACCTTTTCTTCTATTAGATTCCATTAGTTTCTTAAGGCCAAGTGATAATGCAAAATCGCAATAGATTCCCATCAAACTAGATGCAGAAGTTTCATTATTCAAGGTAGATAATAGTCGCTCATGTGGATCTCCGAGTTTTAGGAGATTTGAATCTTCTATAGAAAAATATTTTTCAAGATCTTCTATTGTAGTATAATAAGAACCAGTAGATGCTTCAACTGCAATTTTTTTGTTTTTAAGTTCTTGTGGGGAAGAAACGTCAGGTTGTACGTATAAACCGAAACTCCCATTGATTGCAGATTTATTCCAAGGAGAGTAACAAACAATACTAGAATTTTCACTTTCAACTACTCTCGATAAAGATACATATTCAGCGGCGTGATAAAAATCAGAAAGATTCTTTTTTTGCAAGTCAATATACATTTGACTTTTACTTTTCACTTGACTAATAGGAGTTACATTATTGACATTGATTTTGAGGTTTTCTTCTTCGTAGTAACCATTCTTAATACCAATTAATTCAGGTAAAGACCAATAAAACGCATAATCATTGATACTAAGATTGATTATTGTCGAAGTTTGCATAATATAGTTACTATATTACGCAAAACTTTATTAAATTGTTTGGCTCTTTTTCAATTTGTGAACAACAATAAAAGAGTGCCAACTTTAAGTGTAGACCTATTACTTAGTCTACTACTTAGACTTTAAAATTTCACCATTTACAAGTAAAATTTTGGTGAATATGTTGGTATCTCAAGTTCATAAATTTTATAAATTTGTACATAAAGCAACTGGAGAGTATATACAATGAGTAATGAATATCTGATATCAACAGTAGTAGAAAATAAACCAGGTGTTTTGTATAGAACTGCAAACGTATTCAGACAAAGAGGATATAATATCAGGAGTATATCGGTAGGAGAATTACGAGATAATTCAATGTCTAGAATGACATTTTTGATAGATGCCGAAGAAAATGCAATAAATCAACTAGTAAAGGTTATGGATAAACAAACAGATGTAGTAGATGTGAAGATTCTTGATCCAAAGAGATTAATTAAGAAAGAATTAGCGTTGATTAAAATTTATGTAAAAGACCAGAAAATGATACCTAAAATAAGAGATATATCAAATATAGGAACTATAATTGATGAATCAGTAAATTCAGTAGTAATTGAAGTAACTGGAACATCAGAAAAGATTACAGATTTTGTTGAATTAGCTTCAGATTATGGAAAAATAGATATATCTAGAACTGGATTAACAGCTATTGAAAGAGGAGAATGAGATGGGAAACGATAATAAATTAATTAAGATATTTGATACAACGCTCAGAGATGGAGAACAAACTCCAGGAGTTAGTCTTACACCAGAGGATAAATTAAAAATTGCAATTCAATTAGATAAACTTGGAGTAGATACAATAGAAGCAGGATTTCCTATAACATCAAGAGGAGAAGCAGATGCAGTGAAAGAAATTGCGCAAGCAGGATTAAAGAGCGAGATATGCGGATTAGCTAGAGCAGAGCCAAAAGACATTGAAACTGCGTTAAAATGTAATGTTGATTTAGTTCATGTTTTCATAGCAACATCAGACATACATATGGAACATAAGTTGAAAATGGGTAGAAATGAAGTAATAAAAAAAGCGACCGATATGGTGAAATTGGTAAAAGAAAGAGGAGTTCCAGTAGAATTTTCTGCAGAAGATGCATGTAGATCAGATCCAGAATTTTTAATTGAGGTATTTCAGGCAGTAAGTAAAGCAGGAGCAGATAGAATTGATATAGCAGATACAGTAGGAATAATGAATCCAACAACAATGTTTGATCTAGTAACAAAAGTAAGAAAAGTGATAAAAGAACCAATCAGTATGCATTGTCATAATGATTTTGGATTAGCGACCGCAAATTCACTTGCGGGAATGTTGGCAGGAGCAGAAAGAATACATGTTGCAATTA
>sequence63
GAAAATTAGTACGAATATTAGATTTAATTTTATCAATCTGATTGTATTTAGTTGTAAAACAAGATAATTCAAGAGTGAATTCATCGCCATGAAGATCGTGCATTAATACAATAGGACGAGGTTTAGTTTCAACATAATTAGTAATAGTTGCAGATTGAATGAACAATTTTCTAATTTTATCAGCGTTATGAAAGCTACTAGTTCGATAAGATAAAGTAATTAAATAATTTTTATTTTGATTTACTGAAACACTATTATGAAGTAATAAATTATTAGGTATAATTGTAATATTTTGCTCTTGATCAACTATTTTACTAAACATTAAACCAATATTAGATAATATACCTGATATTTCTTTATTATTAATTGAAAGAAAGTCTCCTTGTTTGAACGGTTTCCAGATAAAAATAATTAATCCTGAAAGTAAATTACCAAGAGTATCTTTTGCAATAGCGAAAGTAAGAATAAGTGTAGATAAAACAAGAATAACAATTAATAAATTATTTTCTACATCATAACCAAGTAAACCAATAATAATCCAAAATGAAATAAAACCTATTGACAGTGTAGACATTTTTTGTAATATTTTTAAAGAGAAGACATCCATTTTTCGTTTAACAGATGAATCAGCTAAAGATGATTTAGCAATACGATTAAGAAGGATAGCAGCGACAACTATAGAAAAAATTTGAAATACTGATTGAATGTATGAAATTTGAGAAGAAAAAATAGTAGGTTCAAGATAAACGATTACATTTAAACCAAGACTAATAACAAAAAGAAAAATGGGAAAACGGAGTGGAGCATTATCTTTAGTTTTAAAACGAAGAATGGTACGTCGGGAGTAATAATCTACAAAATATGCTAATATAATGGAAAGAGTAAAAACAATGGCTGGAAGAATTAAATCATTAGAAATTAAAACTAAAGAATTTACCACGTGTATCATACAATGAATATATTAAGTAGATATATGTTTAACTGATAAAAATTCGGATATGATTAAAGAAATAACATCAAAAATTTTTCTAAATAAGAGAGAATGCGGGCCCGGAGGGATTTGAACCCACGACCTCCGGCTGTCCTCAGAATAGAGGGCCGATGCTCTAATCCAAGCTGAGCTACGGGCCCACATTTAGATTAAATTAATCAGATATAATTATTACAAAAAATCAACACGTGAATAGAGATTATCGTAGGAAAGGGTTAATATAATCAACGGTAATATCGTTACATGGAACAAGAAGGATTAGCTTTACATATTGCAAAAAGTGGAAGGCTAATTATTCAGTGCAAATCAAAAAAAGTAAAAGGGAAAAATGTTTTTGATCAACGTGGAAATAAAATTGCAAAAATTTCAGAAATAATTGGACCGGTTAAAGCACCATACATTTCTGCAATTCCTTTAAATGATAAAGCTAAAAGAGTTATAGGTAAGAAAGTGTACATTAAATAATAATAGAATTTGGCCATTCAAAATAGTGAATCAGTTTTTTGTAACTCATGTAGAACACCATTAATTGGAGATATAGAAAGAGGTGAATATGTTTGTCCTGGTTGTGGACTTGTTGGTAATGATAGAATAGTTGATACAGGACCGGAATGGAAAGCAATAGATTCGGAAGATAAAATGAAAAAAGTAAGAACTGGTGCGCCAACGAGTTTAGCATTACATGATAGAGGTTTATCTACACAAATAGGAGATATTGTAAAAGATGGTAATTCAGCAAATAACAAATCAATGGAAAGAATGAAAAAATGGCAACAACGATTAAGAACTTCATCATCTCAAGAAAGAGGATTGGCTAATGTATTAGGAAGAATTAGTGAATTTTCAAGACTTTTGAATTTACCTGATTCGACAAAAGAGACTGCGGCATTAATTTATAGAAAAGCCTTAGGAAATGGAACTGCAAAAAGTAAATCAATAAAAGGAATGGCAGCAGCATCAATTTATCTAGCTTGTAGAAAATGTGGAACAAGTAAATCAATGAGAGAAATATCAGATGTTTCAGGTCTTCCAAAACCAACAATAGCAAAATATTATCGATTAATATTAAAAGATGTAGAACAGGAACATGTTCCATTACATCCATTACAAGGATATATATCGAAATTAGTAAACAAGGCGGAATTAGATCCAAAAATACAGCTATGTGCGATAAGAATGGCAAATCAGATTAATGATACAAAACTTACTAGTGGTAAATCACCAGCAGGGATAGCAGCAGCATTTGTATATATATCATCAGTAATGTTAGGTGAAAAAATACCACAAAGAGAAATAGCAGAATATGCTGATGTAACAGAAGTTACAATCAGGAACAGAACAAGAGAAATTTTAGATAGATACACAATTAGACAAATAATAAAAACAAAATAATTATTAAAGACAAGATTACGATAATAACATTACACGAAGTCCTATGATAAAA
>sequence64
ATAAGGCAATGTTAGGTGGTTTAATTGGAAATGTTTTTCTTGCGGCGACTGGAAAAGTTCCTTTAGAATCAACATCCATAGATGACGAGAAATCAATTAAAACTGCAAAATCATTATTAGAAAAATACCCAGACAAGTTTATGTTAGCAGATGATGTGGCAGTAGAAGAAAATGGAAAACGAGTAGAGAGGTCTTTATCAGAAATTAGCTCTTCAGATAGAATTTTTGATGTTGGGCAGAATACGATTAACAAATACTCGCAACAAATCGATAATGCAGAAAATATTTTCATAACTGGGCCATTAGGAATGTTTGAAAATTCAGAGTTTAGACTTGGAACGACAGAAATTCTTAATAAACTTTCGAATTCAAATGCAAGAACAATAACTAGTGGAGGTCATTTAAGCGCAGTGTTATCACAACTAAAAATAAAAGATAAGATTTATCACGTAAGTACAGCAGGTGGTGCTTTAATTAGATATCTTACTGGTGAAGAATTGCCATTATTAAATGCTTTAAATAACTCTGCAAATAAACATAATAAGTGATGACAAAAGTTGGGTAAACAAGAATTTCCAGCTTGGTTAGCCGAAGAAATTTCTTCGGTAAAAATGAAAAAAGTAGAAACGTTAGAATTAACAGGATATTTATTAGACATTAATAAGAAAGAAAGTAAAATAGATATACAGTTTTATCAACAATTACCTGATGGAAGACAAATTGCAACATTAGTCATTGGAAAAAAAAAGATGTTAAAGGATTTAGAATCTGAACACAATAAATCTAGAGATGCACCAGAATTTAATTTTAAAGTTGTAGTAAATAAAGCATCATTGAGTAATAAAGCAAAAGAATACCTTAGTGAGAATTATGCAATGACTCTAGACAATTTATACGGATTCGAGTTAGAATCATTCAATTTACTCAAATAATTATAGATAATCATTTTACTGATGACTGTCTGATATTTATATATGGCAGAAAGAAGTTCAAGAATTCCTGGATTTTATAAACTAAACGCTAATGAAAGATCAAGTAAGTTGAAGGAATTTGCTAATTTAACAAATGAAGAAATGAGAATTATTGAATCAATGTCTGGAATTGAACTTGATGATGCGGCAAAAATGATAGAAAATACAGTAGGAGGTATTTCGATACCATTAGGCATAGTTACAAATTTTATCATTAATGAAAATGAATATTTGATTCCTTTGGCAACAGAAGAACCATCAGTAATAGCTGCATGTAGTAATGCAGCAGGAATTGGAAGAAAAAAAGGAGGATTTACTGCAAAAAGTAATGGAAATATTATGCGTGCTCAAATTCAACTTATTAAAATAAATAATATTGAATTAGTAAAGAAAGATATTCGAGAGAAAAAGTCTGAATTACTTGAATTAGCTAATGAAAAAACTCCGACATTGTCTTCGATGGGAGGTGGAGCAAAGGACATACAGTTAAAAGAATTAGATACAAAACGGGGAAAGATGTTAATTGTTGAAATATCAATTGATTGTAAAGATGCAATGGGAGCTAATGCGTGTAATACAGTAGCAGAAGCATTATCTGTGAAGATCGAACAAATATCTGGAGCAAAGGCATTATTAAAAATTGTTTCTAATCTTGCCACTGAACGAATGGTTGAGGCATCGGCAACATTTGATAAAGAATTACTTGGTGGAGATCGAGTTGTTGAAGGAATATTAGATGCATCAGAGTTTGCACAGAATGATCCATACAGAGCTGTAACAAGCAATAAAGGAATAATGAATGGAATAACAGCTTTAGCAATTGCAACTGGACAAGATACAAGAGCTATAGAAGCAGCAGTCCATGCGTATGCTTCAATATCAGGTAAATATATACCATTAACAACATGGGAAAAAGATTCGTTAGGAAATTTAATTGGAAGAATAGAAGTACCTATACCTGTAGGAATAGTAGGTGGAGCTTCCTCAGTCCATCCAAGTTCAAAGATTTGTTTAAAAATTCTTAAGGTAAAAACTGCATCTCAATTAGGTGAAATTATAGCTTCAGTAGGGCTTGCACAGAACCTAGCCGCACTTCGAGCATTAGTAGCTGAAGGAATTCAGGAAGGACATATGAAACTTCATGCAAAAAATATAGCTATTTCAGCAGGGGCTAGAGGAAAATTAATAGAACAAATTTCTGAGATTATGATTCAAGAGAAAAATGTCAAGTTTCTACGTGCAAAGGAATTAATTAAGAAATTAGAAAAATAATTTTTCGATGCGGTCACCGGGATTTGAACCCGAGTTATTAACTTGGCAAGCTAACGTATTAGACCAGACTATACGATGACCGCTCCATTTAACTTAATATTTGCCTTCTTTAAGTTTTGAGTTATTGGATAAACAATTATGTGAATATTTTCTATAAAGATTTAGGGCCGGTAGTTCAGCGGTAGAA
>sequence65
AATGATATTATCTGACCAAAAAATGTCCTTACAAACATTCCGTTTAACATTATACCTATTGTGAATACATATATTTTTATTGACATTAATACAGGCGATTTATTTAAAAAAAGCCTTATAGTTTTTTTAATATTCTTTATAGAATTTTTTTTTGATTCTTCTTTTGATGCTTTGACCATTTATATTCAGTCCGCAGGATTAATAGGAATGAATATGACATATAAACAATATGCAACAATTCACAACTTCTACGCTTGATATAAATGAAATAGCAAAAATTGTAGATAATGGAGGAATAATTGCTTATCCGACTGATACGGTATATGGTCTTGGATGTAATCCATACATTCCTGATTCTGTAACTAAAATATTTGAAATTAAATTACGTACTAACAAACCTTTACCTTTATTATGCTCATCAATCGAATTTGCTTCAAAAATTGCCTCCTTTGATTCAATTTCCTTGAAACTTGCCGAAGAATTCTGGCCTGGCCCACTAACTATACTCGTTCCTATTACGGATGATTCCTTAAAGACCCTGACTTGTGGCTCTAATTTTATTGGTTTACGAGTACCTGACAACGTTGTTACTCTATCATTACTCTCTAAATGTGACGGGTATCTTGTTGGAACAAGTGCTAATATCTCTGGTTCTGGATCTAATTATTATGCATCATCTGTAATATCCCAGCTTCCAAACATAGATGCCATTCTAGTCGACGATATTAAAAATAAATCTAAAGAATCTACTATTATTAAAGTTGAAAATAATGATATCACAATTATTCGACAAGGCAGCTTAGATTCTCAATCCATAAATAACATCTTATAGAGAATTAATTGAAATATTACGTGACTCTAATAATTCTTCAATTATTTCTAATGAATAATCTCCATTATGAAATTCTGATACGTAACTCGCAGCAGCTGCATTAGCAAGATTCAATCTATTATTAGTCGATAACTCTTTTTTAAATGCAAGAACATTTACTGCATTCCAAACATCTCCTGCTCCAGTTAATATCTTTGGTTTTATGGAAAATGATTCAACAAACTGTACATCGTCCTGCACTGCAGAACATGAACCTAATGGTGTATGAATATCAATCACTGTATCTAATATTGACGATAATTCCAAAGCTGTTTCCTTAATTTCTTTAATTGAATAATCTGCACTAATCTTTCTAATACCTAAAAATTTACTTAATACCTGACATTCATTTTCGTTAAGACTTATTATATCAATAATTTTGTTATTCACTACATTATCAATTAATTCTTGTAATCTATCAGTCGACGATGATAAGTCCGCAAAATCTAATAACTTTATACTGTTCTTTGCAATATTGAAAACATTACCAACTAGTTGATTCCCATTTTTATTTGACGCCCAATTTGATATTATTACGATATCTGATTCTCGAATTACGTCTAAATAATTGTCTATTATTACTTTTCCATCAAATTCTTCTATTCCTCCAACATCACTAATCATAATATTTGAATCATTTTTATAATCAGTTTCTAATGCAATTGTAAATCCTGGTCTTCCATTTATCATATTAATTTTTATATTTGTAAATTTCTCAAATCGTAAATCCAATATTCTCTTTGTAAATTCGTCTCCAATAACAAATAATTGTGTTTCACTTCCAAATTTAACAAGAGAATATGCAATATTTGTTGCATTACCTCCAACAATTTCTTTTTGTTCAATTCCTCTTATACTTCCTCCTCCTACTAACGCTTTTGCTTTTGATTGTTTTACTAATTCATCTAAATTCTTTACTTTTACTATTCTATCAATAAAAACATCAGCTAATGTTGTTGTTTTAATATCGCTAAAAATTGTTTGTAATTTATTATGCGGCAATTTTTCTCAGTACATTTAACATTAATAATAAAAGTGGGATTTCTAGCAAGAAAAATACTGGATTCTGACCTGCAGTAAAATAGAAATTCAGTAATATTAGTCCGCAAATCATAAAGAAAATCATTGTAAATAAAAATAATACTACTTTTATCCATATATTATTCCTAATATCTTCAATATTCATTAAATTACTAACGTAATTGATATTAAATTATGTTTTGTTTAATAATATTATGACTGCTAACAATAATCCCAAATCTGATGATATACTAAAGAAAATTTTTCAGTTACAAACTGACTATACTTCTCTTCTAAAATTGGATCGTTATCCTAAAAAACAAGACGAACGAATTTCTGTTTTGTGTACTGCTATAATTCATGAAACTATTGAATTACAACGACTAACATCCTGGAAATGGTGGAAAAAATCTACTCCTCTTGACATCGAACTTGCAAAAGAAGAACTC
>sequence66
GCTGATCAAATAAAAATAGATGGTCGTATAAGAAAAGACCCTAATTATCCTGTTGGTCTTATGGACGTCGTTGAAATTACCAAAACCGATTCAGTTTATCGCCTTGTTCCATCTAAAACATTACTTACTCCTATTATAATACCTGCAAAAGAAAAAAATACTAAATTATGTAAAGTAATCAATAAGAAATCTATAGATAAAGATAACTTTCAATATTCTCTTCACGACGGCCGTACACTTAATACCAATTCTTCTACTAATGTTCCTGTTGGATCTACATTTAAGATTGAATTACCCTCTCAAAAACTTGAAAAAATTATTGAATTAACGACAAATAGTCTCGTTGTTCTAATTGGTGGACAAAATAAAGGTCTAATTGGTACTGTTAAAGAAATTAAAGAATCTTCATTTTCCCGTCCAAAAATGCTTGATGTTGCTGTTAATAATACAATCATTGAAGTAAAATCTGACCTTGTCATGGTAATTGGTGAAAATACTTCAGAGTTAACAATTCAAGGAGATGAATAATATGGCAAGTCAAATTAATCAAGTCAAACTTACTAAAGTTGTTATAAATATTGGAGTTGGTAAATCTGGTGAACCATTAGAACAGGCTAAGAGAATCATCTTAGAAATATGCGATCAGACTCCTGTTACTACTTATGCTAAGAAATCATATCGTGAACTTGGCGTTCAGAAAAATTCTCCTATTGGTGTAAAAACTACCTTAAGAAAACAGATTGCAGAAGAAACATTAAAGAAACTTTTTATTGCTTGTGGTAATAAAATTGCCAAACGTTCTTTTGATTTAACTGGTAATTTCTCATTTGGTGTTAAAGAACATATTGAAATTCCTGGTACGAAATACGATCCACAGTTAGGAATCTGGGGTATGGATGTCTGTGTATCCTTAGAAAAAACTGGTTATGGTGTAAAAAGAAGACAAATTCGACCAAGTACTATTGGGAAGAACCAACAAGTTAGTCAAGATGAAGCAATTAACTTTGCAAAAGAACATTTCGGGATTGTTGTGGAGGAATAAATATGGCAATAAAAATTAAACAAAGATATCCTACTTGGAGACATAAAGACGGTTCATTTAGAAAATTTGGTAAAGGCGCACGTTCATGCGTTCGTTGTGGTAGATATTCTGGTATAATTCAAAAATATGGTCTTAATTTATGTAGACAATGTTTTCGCGAACAAGCTGTTAAAATAGGATTTCGTAAATACGATTAGGTGATATATATGCCCGCACAAAATACCCTTGCTAATCTCTTTTCAAATCTTCAAAATGCCGAATTACGAAATAAAAATGAATGTTTAGTAATTCCTTCATCAAAGCTAATTATTGATACCCTTAATACTATGAAAGCAAATAATTACATTGGCGAATTTGAAGTAATTGATGATAAATTAGGCGGTAAAATTAGAATACAATTACTTGGTAAAATTAATCGATGTGGAATTGTTTCACCACGATTTTCTGTTTCTAAAACTGATTATTCATTATGGGAACGACGTTTTCTCCCTGCTGTAGGGATTGGAATCTTACTTGTATCTACATCCAAAGGTGTTATGACTCATACAGATGCTGAAAAATTAAATGAAGGAGGCCGATTATTGGGATATGTCTACTGATCGTAATTCCTTGATTCGAGAAATTACTCTACCAGACGGTGTTAATGCACAATTTACAGACGATGTACTTTCAATCACCGGTCCTCTCGGTTCTACTTCTAAAGATTTCAGATTAATTCGTGCTAATGTGAATATTGATTCAAATAAAATTACTATAGAATCTTTTGGGTCTAGAAAGAAACAACGTGCAACATTTGGAACTACTGTTGCTCACGTCAATAATTTAATTATTGGAGTAACGGAAGGATATACTTATAAACTTAAAACTGCATTTGCCCACTTTCCTCTCACTGTAAAAACTGAACCCGGTAAAATCATAGTTGAAAACTTTTATGGCGAACGCGGTAATCGTATTGCTAAAGTTATTGGAGAATCAAATGTATCAGTTAAAGGTGACGAAATAATCATTTCCGGTATTAATATTGAAGAGGTATCACAAACTGCTGCTAATTTAGAACAATCTACCCGTATTAAAAATAAAGATTTACGTGTATATTTAGACGGCATTTATCTATTTGAAAAGGGAAGAGGTAAAGAATGAGTCAAGAAAATAATGATAATGTAGACGTTGATCCAGTTTCTAAGCCTATTACAAAACCTAAGGCAACTACAAAACCTAAAGCAAAGGCAAAACCTAAGGCAACTACAAAACCTAAAGCAAAGGCAAAACCTA
>sequence67
AATGTAATCGATGGTGAAAATTCAGTAATTTGGCAACAAGATGATAATAAATTACATATGCATAAGGCATTAATTTGGTCTATGCTAAAATAAAATAGATATTATAATGCCGTTATATATATAAATAAGCTGTTTATGAATTATAGTATGACAAACATTGAATCTGACAAGCAAAACAGACGAGATTTTATAAAATATGCTGGGGGAGCCGCAGTCGGTCTAGGGATAGGCGGATTAGGATTTCTTAATTCAAATGGAAACCTAGCAGAAGAAAGAGACAAGAATTCCCAATTGCAAACTGACTTGGTGAGTTTGAATGAACAATTAGAAGACCTACAAAGATGGGCAGTATTTGGTGGAGGAAGCAATGTCAAAAACATGCCAAATGTTATTGACAAACAGCCTACGGTAAAAATGGATGAGACGTTTTATTTTGATCAGAAAAGAGCATTCTGTAGAGTGGACAATAATCCAGAAGCTTTCATAATGCCGACATACTTGATGGGTGAGGTTCCTATTGAAGCCAATACATTCTTCATGTTAATGTCGACATCAACACTTCATGTAAAATCGATTGAGGAATCAGAAAACTCAACATGTATTTTAGAAAGTGATTCAGGAGACTGTTTTACTGAAGCATCTGCTGGAGGAAACATATATGGTTCGAGAGTAAAACCTGAACCATTCAAATCAGAGATTGTTGCAGTAGATGGAAAAGCATTTTCCTATACAGCATACTTTGATGAAAACGAAGCACCAATTAATTATGCGATATTCGGTCCAAAGTTTACTTTTACGGGAGAACTAAATATTGGTTCAGTAACTGTAAAGAGAGTGGAACAATTAGCAAAATCACTTCCGAAGTAGAATAATTAATGAACGAGTCTAACAAATGAAAAAAATAGTAATATTGACAATTAGTTTGTTAATATTACTTCCATCATTTGTATTTGGACAGTATCAAGCAATTAATGTATCAGATAATTATACTTTTAATGGTTCAAATAACAATAAAGAAAATTTAAAGTGGGGAGAAGCAAATTTAACTCTTCGAAGATTAGTGAATCAAGCTTATTCAGATAAAATATCAGAATTATCAAATTTAGGAAGTCCTAATGCCAGAGTTATAAGTAATACAGTATGTGATCAGCAATTAGGTTCAAATATTATTGATGAAAGGAATTTATCAGATATGAATTGGGTATGGGGGCAATTCATTTCTCATGACATAGATTTCACTCCAACTGCAGTTTTTGATACAAGGTTACAGGATTTGGAAAGAATTCAAATTATTGCGCCAGAAAATGACCCTCATTATCGAGAAAATCAAACGATGATGTCGGTATTTCGAAGTTTATATGACGTAAGAACAGGATTATCAAAAGAGAATAACCGCGAACAAATAAACACCATTACGCCTTGGTTGGACGGGAGTGTAGTATATGGAACGTCAGAACAACGTGCAAACGAATTAAGAACATTTGAAGGAGGGAAATTAATTACAACAGAACATGAGAAAGGAGATTTATTGAGACTAGCTCCTGCAAATTCAATAGAAGAACAACGAGTAAGAGGATTAGCTTTCTTTTCAGGAGATATAAGAGCAAATGAGAATATTGCATTGACTGCAGTAAATACGTTATTTGTAAGAGAACATAATCGCATTGCTGAAGAAATATTGAATGATAATCCTGAATTCAGTGATGAGGAGGTATTTCAGATGGCAAGAAAAATAAACACGGCAATAATACAGTCAATAACATATAATGAATTCATACCGTCATTAGGGATTGAATTGGAACCGTATGTCGCTTATGATGAATCGGTGAATCCACAAATCTCGCATTTGTTTTCTGTCGTAGCGTTTAGAATTGGACATAGTCAAATAGGGGAACAATTCGTTCTAGTAAATGAAACAGATGTAGAACAGACTATTCCAATGCACGAGGGTTTTTTCAATCCGTCAATTATTCAGAAACATGGAATTGATTCCATAATAAAAGGAATATTTGTAACAAAGCAACAAGC
>sequence68
AAGCATCTAAACAAGAAACAATAAAATATTTAGGAAGAACTGAGAAGATAACATTACAAGATATTCCAAAAGATTATGTTGATGATAAGAACGTAATCAAATTTTTTGCAAAAGAACATAATGGATCATTAAAGAATTATAATCAGTATGTGGAAAAAGTACGTAAAGATTTATTCAAGAGATTAGCAGGTCCTGGACCAGTAAATTTTTCAAAAGTATACGATGAATATAGTGAAGATTTCACAATATTGGAATTTTATGATAAAATAATAAAACACATTTTGTATGATGTAGGAGATTTATGGAGAAGAAATGAATTAATGATAGGAACAGAACATGTAGTTAGTAATAGATTATTAGGAATAATTAGTGAAATGAATAAAAAAGTGCCACAGAAAAAGAAAAGATCGAAATTATTAATATGTAATCCATCTGGAGAACGTCACAATATTGTTTGTAATATGCTCGAATCAATATTAACAAATAAAGGTTATAATGTTTACAATATATCTCCGTCAACACCAAGTAAAGATGTAATCAAATATGTAACAAATATTCAACCAGATATGGTATTAGTATCAATAACACTTCCTGCAAATGTACAAAGTGGAATAAATCTAGTTAAAAACATCTCAAAAGAATATGACAAACCAATAGTTGTAGGAGGTCAGGCTATATTAGAAACAAGTTCAAAGAAATTCCAACCTGCAATATTAATGTCAAATGAAAATTCATTAGATGATAATTTAAAGGAAATTAAAAATTTAGTTCCATCATAATCTAATGCAAAAATGAGAATTTTGTAAATTCAATAAAAGAAGAGATGGGGACGGCAGGATTTGAACCCACGATCTCCCGGTCACTGCTGCTCCAAAGGTACATCATCCAATAAGTCAGTTTTACCTAAATTATACTATTAGCTTCTGGAGCCGTTAGCGGCACTATAAGTGCTGACGCCATAACCGAGCTAGGCTACGTCCCCTCTTACTTGAATTAATATTCAAGTTTAATATATATTGGATGTACTTTTTTTAAATTAAATTGCCGTCTGAGTCTATTATTCCTTTCTTTATACGAGTTGTAGATATAGGAAATCCATCTTTATCGTTAAGAAGGTTAACTATTTCTGCTTTAAGTGGATCTAAACCCTTGGATTTTCTTTCTTTGTTAAGTGAGTCCAAACGATGAGAGTTTTCAGATGTTAGAACTATGATATCAATATCATTAATAGAACTAGCAGGTCCAAAGTAATTATTTAGTTCATAGATACTATATTCAATATGTGGAAAAGAAGATTGAATAAATTTTTCAATATTTAATTTTCGAATTTCATAATTATTTATTACAGTTTTATTTAATTTATTCACAAAATCATCAGAAGAGATTCCAATAATTACTTCGTCAGATATTTTAAATGTAGTCTCTAAAAGATGTTTATGGCCTATATGTAAAATATCAAAGGTTCCACCAACTGCGCCACGTTTGTATTTACTCATTATATTATATAGAATATATTGAGATTTAGATGTATCTTAAAAATGTAAATAGATTTTATATTGAACAAGATAGAATTAGAATCAAATAATGGATAAAATTGAAATAGATGAGAGATATGTAAAAGCAGGAAAGATTGCAGCTACAGTTAGAGAACATTTTAAGAAAAAAGATTTAGTCGGAATGACAGTAAATCAGGTTTGTGAAGAAGTAGAATCAATGACAAGAAAGTTGGGGGCCGAACCAGGTTTTCCATGTGGTGTATCAATCAATAGTGTTACTGCTCATTATAGTGGAGAATTATTTGATGATCAGATAATAAATGATGATGCGGTGATTAAATTAGATCTTGGAGCTCATATTGATGGATATGTAGCAGATACAGCAACAACAATCTGTTATAATCCTGATTATCAAGAATTAACATTAGCAACGGAAACTGCATTAAATAATGCAATA
>sequence69
GTTACCAGTACCAATAGTGATATTGACGGCAGTGTATGCATTTATTGATATTATTGGATTAACGGCGCCGTCTGGAATAGCACATGGAGCACATTTAGCAGGATTATTAGTAGGTTTAGCTTTTGGATTTTATCTGAGGCCATATTTTGGTTATAGAAGACAAAGAGATATAGATTTATAATTATTTTTTTGTGTAAGCACGTTCGCGCCAAACAAAGGTAGAATTTGAATATATTTTGAATACAGAAATTATCATATTAAAAAATAAGATTAAATTCGTAAATGGTTGAAAGAGAACGTATAATTTTGAGTGATTAATATCGGTAAATTCGATCAGGTATGATAGACCCATAAAAATGACAGTAAGAAAAATTAGAACTGAATATGTAATATTGAAAGAGTTTAGGATAAAAAGCAACAAATAAGGCATAATTAGGCCAACAAAAGCTAAAAATATAGACAATAACCCGATTAAGAAATTAGATTTTATGAATGATGCAGAAGTTGCACGTTGTAGAGCATTAACATTATTAGAATAACCTATATTAGAATATGTTGTAACAAAATTACTAGAACGAATCAGTTTTAGATTGTAACCTAATTTTTTAATTTTTTCTCCTAAAGATTTATCTTCAACAAAGGAAGACTTTACACTTTCATGACCACCTATAGTATCGTATACTTGTTTTTTAATTAAGATAAAACCACCTATCAGATATGCAATTGGAGTATGTTTTGAATTTAATAACAAAGGTGAATATAAAATATGTATCATAGAAATTAAAATTGGTAAGATAAGTTTTCCCCAGAAATCGGAACAGATAAGTTTAGGAAGCATTGTAAGCACATCTAGATTATTATTCTGCATGTATGAAAGAGAAGAGATAACAGAATTAGGATGATGTTCTGTATCAGCATCTATAAATAATAAGATAGATCCATTGGAATTTTTATATCCTTCATAACAAGCATAGTTTTTTCCAACCCAATCATTTTTGTCATTAGTTAATTTTATAGCAGAAAATCGAGTGTCAGTTTGACAGAATTTATCAACAAGATCATATGTCTCGTCAGTTGAGTTATCGTCAATTACAATTACTTCAATGTTATCATAACTCTGATTTTTTATTGATTGTAAACAACGTTCTATATTTAATTTCTCATTTCTGGCTGGAATTACAATAGATATTAGAGGAGAAGATAGAAGCTTGTCGTTAGTAATGAGTTTATCAATTTTAAAATAACTGAATATTCGAAAGAGAAGAATAGAAAACCAAGATAATGCAATTAAGGGAATAATAATTTCAAAAAATGTATAAATTATCACATTATTATCAAGAAGTTGAATTATTTATCTGACAAGGTTTATTTATTACTATAGTACAGTGGTAATTATGAGTGAAGATAAATTTCCAGTATCAGGAATAGCATGTGATTTACAAGGAACTATAACCGAATTTGGCAAAGGTGCTGAAGAATTATTCGGATATACCAGAGAAGAACTCGTAGGAAAAGGAAACGTAGGAATGTTTCATATTGAAGCGAATTTAAAGACCCTAGTTCCATTATTACTGCAAACTGCTTCAGAGAAAGGTGAATGGGAGGACGTAGTAGAATTAGTGCGAAA