##gff-version 3
sequence01	MetaGeneAnnotator	CDS	423	2108	.	-	0	ID=MGA_2;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIFGIKLFRKNKNNKIMQQFNSVVNNNLPKGISKYFSTCESVMICGSDHNEYAKESVLFIAGDIFDFPLPSNSISSLNRLLNQNNSFYDSLKNINGRFSLVHFNEKQDRLIIAKDQFGIKSIYYAEFNEGIIFASDLSYIFASKLVQYSFSPQIFLLNSTVRMDAVSDLTWFNGVNQLEPATCLVIGKNNKPKITRYWIPDNQEKLFSEQDMCEMFINSVKLRANFSNQGVLLSGGVDSSAVASVLFKLNKNVSLCMFSFDGLDEKDNIDLVYAKKFLKYYKKTGKTIHIEKKDLYETLKVIVSILKRPLVHGCEIGMYHTYKLMSEIGCKVIYTGQGADIMWGEQDSQYFPILSPNFRVDQHSEYYLKNLLYQNDTADWYYFLINKFYKFFDIEEEQINDMIWNKIFSSYRAYNTDDLFKKPRIHELHRNVAYINHMNDSFTSYFGMKEIPSFQDLNLANASFKLPEFIKNKPNKYFLKPFLKNAFETILPEFILKRKKYGFPAPNINDWKKELTVILKDNSTPFNLKIKNSDLQQMTFSELLFLCTTKIWLEEFKLL;locus_tag=LOCUS_00010;note=WP_011089038.1 asparagine synthetase B (Bradyrhizobium diazoefficiens USDA 110) [pid:23.9%25%2C q_cov:45.6%25%2C s_cov:41.4%25%2C Eval:2.6e-09%2C partial hit],MGA_2
sequence01	MetaGeneAnnotator	CDS	2126	3118	.	-	0	ID=MGA_3;product=esterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932879.1;translation=MNKYRIVENIISESLKSNVLKDSFNRGISILLPSSYHTSKKRYPVIYLLPAFAKNHCFLFQNHCFEQNIANMVEDLINRKKIPEVIIVSVDGNTYYGSSQYINSIGTGKYQDFISKDVVTFIDTKYRTKAKQKNRAIIGKSSGGYGAFISVLKNPEIFSTAGCIAPDSGFEYCYLPFIPISIEIFRKYGGLENFCKKMHSNKSNDAHFMITSSLVAMSSCYSPNLSSKLKFDFICNIETGEIDYKSWEKWKQNDLIEIINEYSESLKKINFITIKTGRYDEYNMHLGSRIIYSKLQKNSLNSKYEEPDCCHFGSEYLFKDIIKEVAEYIE;locus_tag=LOCUS_00020;note=WP_010932879.1 esterase (Chlorobium tepidum TLS) [pid:32.8%25%2C q_cov:95.2%25%2C s_cov:93.5%25%2C Eval:1.5e-45],MGA_3
sequence01	MetaGeneAnnotator	CDS	3111	4421	.	-	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIGCIGHSCVYVKTNKVRLLIDPWLTDRLDRMWVHWPKLDNNLLEESLDVNTIILTHHHCDHHDFNSLRMLSKTAKVFFPASGKNVRVAGSGMGHQAIAYTLQALGFKNIYPLENFVDFNYEDIKISTFPSKVEFPEQSFFIRNNDCSLFVAGDCILHPKTEEFFSKNNPNIDLAFVPTHSTSPHLPLTNRKHDADYSKYIATSQARFKKYCKLLNPKYVVPSALGWKIDATDEENFSWGNHLLFPLTIDQTPELVEDNKVIIMGPGDKVEFKSNNLQPVKLNYDKNKMTKYSEDITFIQNTKIPAFQPSVFNNKEYDNTELLNKFLAKIPGSGYWNRALESNRRFIVRISNKSEDDTFLVNLSSNSIESVGAESMNDFPFTWISSETLKKLLDSSLLIQNSYGLWTSNDMLLSSIFHHPKYYIDHLSNWIKNNE;locus_tag=LOCUS_00030;note=WP_011125412.1 Zn-dependent hydrolase (Prochlorococcus marinus subsp. marinus str. CCMP1375) [pid:26.5%25%2C q_cov:50.5%25%2C s_cov:44.9%25%2C Eval:9.2e-12%2C partial hit],MGA_4
sequence01	MetaGeneAnnotator	CDS	4455	5618	.	-	0	ID=MGA_5;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLMKFKLTKVVLLIFCLNSNCCVIQANEGKNMEKFIKLNIKKIFDRSEIQKINANFPLFVPKNLNKNFILVDALFRPENVSKDYPRSSLKLLITSIDKQNILSIKEFNYDWAPPAYDCPSLWHNHREFKNVEPTNPTPYLIENNILWIGKNYKNQRAASIIKDRTTIELSILKGTFTDYEITDIVKSLVPISNQQRNSLLKSSYTENSFNSGKPTKSVNVPISFWNFPVSDSKLKFQTAYTPEYVKKNFDIKHIQIPISLDYKLDSLFVQHHSEKPDKYSRYTFIYESAKSPGTTISIVQVNKNSPAAPTIPAIPDLTQKFSYESINIDDTKCYYAYRYKNYGPHELLFQHGEYTYLILVKPSSWTTRKWFLNFVNEYLKLYKTNI;locus_tag=LOCUS_00040;note=MGA_5
sequence01	MetaGeneAnnotator	CDS	5998	7341	.	+	0	ID=MGA_6;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O34722;translation=MLPQLGTLSDIYSFREKYCNNIKALEKDIEENLDLAVNSNKLKEFLSDTKNHPMWEIRMSVLKACEKYTNLDDVRDFIYNMTHDSVDIIAFKAIRLSGKIKNDDAVIHLVRISGWPSVFRRSDYLRKPVGIGASLTKKAMLDILGTKDIKELKEKEDKILAPFKEKVKQSKKTPSLNGMIKIPAGKSRIGTYKRDDFRFFYEDYIPEKEVELDEFYIDETPVTNSQYNKFLEDVKKNGPIYGHPDQPDNKDHTPTFVNDKRFNADDHPVVGVDWYDAYAYAKWAGKDLPTELQWEKAARGTENIEYPWGNKWNSEAAYYVENCFGRVIEDLEEWEECLRQFGDDFPIEPVKKVKSFPQGKSPYGVYDMSGNVWEWTKTNFYSKKDMDPNFKNRSLSYYTNKPAAFPVIRGGCCTSLPEMLKTFYRGKDLLTDRHFEIGFRCVVNHTK;locus_tag=LOCUS_00050;gene=yfmG;note=O34722 hypothetical protein (Bacillus subtilis subsp. subtilis str. 168) [pid:34.8%25%2C q_cov:87.9%25%2C s_cov:82.1%25%2C Eval:2.7e-59],MGA_6
sequence01	MetaGeneAnnotator	CDS	7317	8369	.	+	0	ID=MGA_7;product=threonine aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082276.1;translation=MCSKSYKIIDLSTDITTLPSKEMVEFMSTATVGDDCCDGDPSINALKSYVCTMFNVEDAIFLPTATMGNLISFLVVCNPGDIVYSDKTYHAIHLEGGGASAFAGVNFREIVGKNGIFSSSNIKDSFLFGGSGHNFCKPKMVLIEQTTNLGGGVVWSLDALKDISNFSKKHNLWVHIDGARIFNASVATNTKVSKYSSFADSICIDFAKGLGAPVGAMLCGNKEFIEKSKAFRIKLGGGMHKSGFMAKACMFALKNNINRLKIDHDNAKKLAFLLKKIEFLDIEPEKVETNILVFTIKHYSINAILLSKILRARGIFITAIGQNRIRLITSTNIEEKDLNYIYQQIVSVFT;locus_tag=LOCUS_00060;note=WP_004082276.1 threonine aldolase (Thermotoga maritima MSB8) [pid:36.9%25%2C q_cov:94.6%25%2C s_cov:95.6%25%2C Eval:1.3e-58],MGA_7
sequence01	MetaGeneAnnotator	CDS	8383	9660	.	-	0	ID=MGA_8;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFFEINFNWIQYLITHPNKYKALKKVKKFLDQYNVDFPIISSPLLINQKCYNNLCYASNSLIKSQTKILKVLVKENSKKTILKIFGLPGKIEHFVDWNKLLSNRIIGRFDIIISTNNRFKFCEINVDSAINGLKFYDAFEKYFRELNLPFQKGTSSPRSEITKYLKSQIKKGGFTRIIIFSLNFYIVEGSGTIYALFDLIKKTLPEIEVLLVDEKTYPEELLTKEEGRKTLVYRMAIYRDIKNDELLEKIFASGARMISMFENEIRSNKKWFSIFYDLKYQKYLSTNEIEIINKYIPKTYSLSNNNLDYYLENKDKYVFKKNMSYGGLGVFFGSEFSQSDLKKKIVNCEDDWIVQEAVKTKKIILPEDQNYNMRNNSIVLGLFSIFGKHTGMLVRASSNSDVVNVTYGGAKMGWAYPVISTKKW;locus_tag=LOCUS_00070;note=MGA_8
sequence01	MetaGeneAnnotator	CDS	9838	10746	.	+	0	ID=MGA_9;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNKKKHSEEYFVDSRNFWWNEDFLNLMGKRWKIHKVKNMLDVGCGTGYWGRQLNKILPRDTNIIGVDQEVEWIKKAESICKNEGLNNRYKYIVGNADKIPFDDNCFDIVTCQTLLIHISNVKDVLKEMTRVLKPGGILVLIEPNNLVCGLTLTSLDLDENIDDIIDTCRFQLICERGKKNLNEGFFSIGDQLPGYLSELKFNDIEVFLSDKCRPIFPPYSSDEQKIIINEVKEWDKKKFWIWDKKDSEKYFKAGGGNIKEFNFLWKKMLTRYHKKFLAGVNSNKYATSGGRMIYCISGIKA;locus_tag=LOCUS_00080;note=P67055 demethylmenaquinone methyltransferase (Listeria monocytogenes EGD-e) [pid:35.5%25%2C q_cov:41.1%25%2C s_cov:50.2%25%2C Eval:8.5e-13%2C partial hit],MGA_9
sequence01	MetaGeneAnnotator	CDS	10749	11990	.	+	0	ID=MGA_10;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011028291.1;translation=MKNYKKIVFITSSGHMLECYDVTLYGFFAVLLSPIFFPSNNFIASMIGTFGAFAAGFIMRPIGGIIFGHIGDKVGRKYSFLLSIVLMTIPTIGIGCLPSYETIGITSPILLILFRLIQGIALGGEYGGATVFINEHIKENKPGFAGSIIVTLGFAGAIIGTILGAIFTQDFMPVWAWRVPFFLGGVFGIIVFYFRIQLQETPEFSSLCSEKNTEYYPIFAVLKKDLKNVLCCAGIGMHTITPFYISVIFINLYYDYKFKISMSNTLAINTGIMFLWVLTLPFAGYIADKFNRKKIMLYSAICTCVVSIPAFYTMLNTDTFLIFFLCQLLISFSSIPYVAVTSSILPLLFPKVSRYSGVAFSFSLGVALCGGTSPLIATTLINSGITIGPAIYLFISGVVGYLSVYFASNYRYN;locus_tag=LOCUS_00090;note=WP_011028291.1 MFS transporter (Streptomyces coelicolor A3(2)) [pid:32.5%25%2C q_cov:97.3%25%2C s_cov:88.3%25%2C Eval:7.4e-64],MGA_10
sequence01	MetaGeneAnnotator	CDS	11999	12811	.	+	0	ID=MGA_11;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNDLLKNINFNEYQYDDLDCASLPMFSGGFVNFGYWKNLQYKNQKIISRETRKSSSINLYKKALEFVGIEKSHTILEAGCGSGVGIPIIAESSPRKIIGLDYFSSQIERAKARNKNFINSNILELINAPAENTGLMTESIDRIISIESIQNFYCANSFIKESARLLKKNGRAIILTVFALSKENAKKINSLKPVGIKRTDHIMPIDEVINYSIPHFNINCIRIGENVFEGYNNYILGLDINHNELWSSNFYNSFKNGEIDYFIVILDKC;locus_tag=LOCUS_00100;note=MGA_11
sequence01	MetaGeneAnnotator	CDS	12947	16639	.	-	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKKELSSKDANGSFLYRGNDIVKLWEQYLKSVNTDLKFYLDSERILASIFTGIAQNHEVALVLNSDNSPYINKDEHSLTLCGEVNYVGANSIDDTNSIKNKLSASIAQIKSYNDIHDTKITNHIIIFPYHAGPLHWNLGKIELVFAEDASIVEAYIGIYEPFGGQASGYDDLIKDINSLDEFQLIKIIRKEPVAKQIKQQYDGTSCGAITAENGKEFLKDKGDGTSLLESVYPPGANELRLKHIDEINEEAFFVAQRDNIAYEATGDKPIDNRYEIIKALRELIQEPENDWIKQVIFSIQQSREDITIRESLDLFKQFLIQIDLASNTDFKISSQILKPNSEFREGAINLIGTLAFNIAHSSKKFSGNNFPNKEQSSMSESKTKIDKRKINTTAPEELGIKQRDSKLQLIKEKLEKNEEFSLDDFKMECEYTYKYAPPQSLNRKLFVESPLFELGKSNNFLFFHMNVVLLQKLNFNLSEVVDSRGNNILHYAIFRHDLDLIKAILLRAKLDGTIGKLVNHRNIDGTSSLGMAFLFEDKDNLAGIEIASIFADTYEYQINNYLNNKAYMDYSSVELIGGTNLLHNVILAASKCTSKAAKQCISKFFKILSKRMLSEQIDDESYCNPNYPTMNPGLLTTGLDGHMISTSHLLEKLKFSSKRVEKVCKEYFRSVLQIYEADQFDDSSGDSEDEDSYAYTYKGMLLEFDEFTKDSLDGHLTAKTVNDNFQRTFDKYSASCGIAPSTVWELISTENKFDQTKWDTFWQTINSNTKEIPSLSHKNAIDSIVVPLFHGVPFMHSQYTNYQRREVVKKLFEINQKLLGKFSGSMTEEEYTLTKEEKILIGIHSRTSTATVGMQSLYEMMVASEEDLERLDEADNKLLKYFTRKDFPTGFKDAMKDYIFNFSSSPIRNFWEKNYLCEGIPRLTIMPDDTIVKYRFPVIATSKAPDHPIRFAIGRNVEGTTRGETPMQPEYIDGHPTHRLAGLVYITLHNLSDLISEHDSHTMIDVNQGLASGNISEGRGAIRFKNQLECDFLGKMDSDRIVAVIPIIYPSMKAGESFEPIYHQSLYGLSPDNRKNSVVSPAKIKKDTDTSPNPDIMSSSGNISGFGKMIIPSVVSTVNGIVVSIAKLKNKFLCTIKENNELIPYEVGFDQDSGQFSKAQNSLISSDLTLIIDRLWRHIVKQLQQPELEDLIPQISTLSINHESDVIGNSEEIEDLISKTGTLSIDKL;locus_tag=LOCUS_00110;note=MGA_12
sequence01	MetaGeneAnnotator	CDS	16977	18446	.	-	0	ID=MGA_13;product=group II intron reverse transcriptase/maturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057003.1;translation=MTVNINSINLTGASSASKWNDLPWNVITKEVKRLQMRIAKAYKLGKIGKVKALQRILSTSFYAKCSAVKRVVSNKGSNTAGVDNILWKSSYQRMKAVYSLKRKGYKTKPLKPVYIPKRDPNSDKRKLLIPCLSDRAMQALWQLALEPIAETVADSNSYGFRPKRSVADAIAQCFILLGRKHSAEWTLEGDIKSCFDRLSHQWLLDNIPMDKCILKKFLKAGFVENGSIHYPIAGTQQGSICSPTLLVITLAGLEDAIKQIDGPHKAHLVAYADDFVICCKDRKMLEERVKPLLESFLNERGLELSRKKTRITHIDDGFDFLGHNIRKYNGKLLIKPSKASIKSFLADIRSTVKSTVGLKTEVLIDTLNPKIRGWCNFFRHVVAKQTFSTIDKEIYLSLKRWMQRRHRRKSIKWKNKKYFRSVGIRNWVFSTKVKDKDGKHQYLDLVSAVKTPIKRHIKIRAVANPYDPEFKDYFEQRKKSGKVLGSCNK;locus_tag=LOCUS_00120;note=WP_011057003.1 group II intron reverse transcriptase/maturase (Thermosynechococcus elongatus BP-1) [pid:50.8%25%2C q_cov:98.6%25%2C s_cov:84.8%25%2C Eval:1.3e-131],MGA_13
sequence01	MetaGeneAnnotator	CDS	18597	18800	.	+	0	ID=MGA_14;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIGFPYGQLSSQAATTKEESYGVSVFRVSNKTCDLGLFSSPVVYIGRDKSCAEVSIQNYIAILAKA;locus_tag=LOCUS_00130;note=MGA_14
sequence01	MetaGeneAnnotator	CDS	19265	20728	.	-	0	ID=MGA_15;product=bifunctional NAD(P)H-hydrate repair enzyme Nnr;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q83CM5;translation=MELISYNKLSLSPIELMERAGKAAYDYMIQNWSKARKIIVVCGSGNNGGDGYVLSKHAFLAGIEVCIWHVGKDSTSAEAKLAADKCKKLQIPIFKDSNKINFSNFDLIVDAFLGIGLQSSILLSDAKDVISIINSASKPVLAIDCPSGINTDTGTPIELAVHADATITFIGIKQGLMTGEAKDYCGKLFCHDLNLPIEMFSTINSECNFYDITDLKSLLPPRKQTAHKNDNGHVLVIGGNFGFAGAAKMAAEGALRCGAGLVSVATKKEHVNGIIATRPEIMAHGIENKDDLLPLLQRSDVIVLGPGLGQDKWAQELFNITIAINKTIILDADGLNLLAKNNMNNLNNLSKIKKRDNWILTPHPGEASRLLSISVDEVQKDRFKAIKKIQKYYGGCTILKGAGSLILGEDKKITICQYGNPGMASGGMGDVLSGVVAAFVAQGAQLEQAAILGTYIHSYAADIASESGERGMLASDLMPVIRKIVNQ;locus_tag=LOCUS_00140;gene=nnr;EC_number=4.2.1.136,5.1.99.6;note=Q83CM5 bifunctional NAD(P)H-hydrate repair enzyme Nnr (Coxiella burnetii RSA 493) [pid:43.8%25%2C q_cov:97.7%25%2C s_cov:95.5%25%2C Eval:7.2e-101],MGA_15
sequence01	MetaGeneAnnotator	CDS	20837	21391	.	-	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYTNVFNKIKEASLFDLYRLNSAISMLLNDSDRLLLIKKQLKVNDQITYFDATQNKSIEATITEIRRTTVVVRNHHNGENYVIPFFMISINSKNTNIYQYQSCNQKHGVDKNQLKVGDIAGFVDSSNEEKYGRVIRLNQKTATLLVNENSKWRVSYKLLFTTIDGESSSYEYQRVIENLKELN;locus_tag=LOCUS_00150;note=MGA_16
sequence01	MetaGeneAnnotator	CDS	21395	21673	.	-	0	ID=MGA_17;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011261491.1;translation=MNKSQFLTHIATNHNCTKAEASRIVDIFTTSVTDILAKGEDISLVGFGSFVVSKIKARAGRNPQTGQIIQIAAYNQPRFKTGKKLKDACNNR;locus_tag=LOCUS_00160;gene=hupB;note=WP_011261491.1 transcriptional regulator (Vibrio fischeri ES114) [pid:51.1%25%2C q_cov:97.8%25%2C s_cov:91.8%25%2C Eval:1.3e-19],MGA_17
sequence01	MetaGeneAnnotator	CDS	21912	27473	.	+	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIYHCSIRIISRDKGRNSVSAAAYRSGSKFVCLKTDSVTGEISELVFDYRSKTGVVYSNIFAPANAPAWVFERNKLWQKVEDSEVRVNSRLSREFEVALPVELTEEQNIALLEEFAKDSLVVRGMIADVNMHYDNPENPHAHIMTTSRMLKELANGEVVLGHKNRDWNKKEMLQSIRLEFAEITNRHLALHGFDTRVSHLSHKDLGIDLIPTIHEGPARYIESAELAAKNHQIKIANAKLIAQHPELVIDRLSINKPVFTEEDISRALAKALTIGVVTNDVNANNAEIRNSKELLQAYAKLMESDKLTNVIDKDLGGNSLYTKTSRLQLEKQYIDKVQQLANSNNHSLELSEPDLEHFSFSERVADKFKQASSNLSQKVGFESKPNYNKSAISLNTEQKQAIMKILDGADISILEGVPGAGKTTAMCEIARQYKKAGYKVIGVAQSSNAALQLATAAGIEAKNSTMWRKNWLEANNKKFELPLRTSYAQEELYQNNKPQIGNKHVMIIDEASMGELTNMDYLLGEASKAGAKVILVGDNNQFAPVGMAGALQKAVSICGSEKLEETRRQIRPEHRKATKLLSNFKVRAALAIYASNDSIVISDSILERDNKLVRDYIDSYLQKSGDSGSSQRREGSEGDKKAKDNLATSKSIVVCTYTNESAQRLNKKLREQLKQAGIIKGKTRTVNIAGKTIELCRGEQVVFARNLNYTGRSGIYNGEVGTVLSVSVVDDLGNAKIKLLVSKSDGRKEKITIDTRTFNNKGNRDNKESKINDSNNDHKQILDYGYAVTAYKLQGATVDQTLALYEKQVGYEAFNVMMTRHRHDVKLYADRKTLIDNIYGRLDQNIDKARHHYQFKEDGDDLALIGLNISINKRANSSFAHDYMEIALKGEDMLIKEYLTVNKKTIDLIREINKQPEFTKLWPEFTKTKEKRNELASKIVNNYDLYKDRLIQLNINYATLEKQSLGNINNYQINERQSKLYQLSEHYGNLIAAIESGNKEKALSSHKQLNLEILENKLNLTIAEDKLEKLKMNQLEIRESISNEQYYRQKLLPEYLTRIYQNPAQEVMNSWQDLAKHNGDFMAAEMVTKNPSLLGKLKGIGFSKWIGFNDKRIDAIANSENIGKRLRQYDASESLEINLKSQLANKNNGYKKSKDLLEHEIDKLTSLLPSRIDQEFIDQCNNLDLDLKKIATSEIFGQIKLQYLQKQYDLESKAELKQQINHYNTKQPPPNKIATYNNQILFSEVKSALTPFNIESIFRDYVHAINPNGKIIKKGNNISCGSLNMDLKLGIWNRFSTGQKGDIFAFVREATSCNIKESLEIVASTVGITSNELKSDAITHSKQLQTDHTKQTIKKAEKNVPQVSIDEWVPYDKVPNTAEKFDYNKHLKFMKKKFELQAIYPYLNNKSELLGYTIRLVNKSDGKKQILPVTYCHNEAKKQDRWQLKSFADNGYKPIYGVEQLGTRQNNGNYNKNTSGTILLVEGEKTVDSAKKLLPEYTVLSWLGGVAAIDKVNWKLLQDRSVVIWPDNDDAGKKAAKNINSMLNKINGYNGRVSIVDTDKLNLPDKWDLADQLPDNLQKGKVQQIITDTIKQTQDKNKTLLKQWQNQLSSKDAINYMEYAIAHGKDEYEHEFLTLKDALYKDTLVIIAANSNLKPESRQETNLIKENIRKIQDLYRKKIDQYERYTISNRNLSNLSEIEQNLIRDITILHQQTLQTNDLANCHKAKIVSTVKDIVKAYKSGLKNKDQTLQISDKQKITCNLYKSITDKTWLKELDKAKAFEKEQIRIVNSINKEIRHFKQYGFVKRDGIRFTSNISYLKHLKNDKQLGLYLKNTDFMTQLDRVKQHDFVKQI;locus_tag=LOCUS_00170;note=WP_010974226.1 Ti-type conjugative transfer relaxase TraA (Agrobacterium fabrum str. C58) [pid:27.4%25%2C q_cov:46.4%25%2C s_cov:62.6%25%2C Eval:3.1e-71%2C partial hit],MGA_18
sequence01	MetaGeneAnnotator	CDS	27626	29092	.	+	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNDKLGRNDPCHCGSGKKYKKCCIDQDESHIVVADFELQRLRKTEGEVVNEHLFPYVEEVLTEDLEEYAWSIFSVDCEWPEEDIDRLYDQMFIPWFLFNWVDEPLDHDIKTNLIAGKTIAENYLITNSNKLSKYQISFMEAMNKTYYSFYIVKNVVPDKQVVLKDIFLETIHVVKERTGTHYLKKGNIVFTRIVTLDDQSICIGMAPYIVSSTSYAKLLEYKKSLEQEVGGKLTPKLLRKKYEWNLLDEYFMIIDQSFTMPVMCNSDGEDMIFHTLHYNLSISAEEAFEKLLPLTDLETKEQLLSEAEKDSNGNIISIEFPWLKTKGIKQSSTIGATILGHITIKESKLIAEVNSEERKSTLEILLSGYLKEVIDTPKISIETMQQKLNSSRDSDDVKSIGKDDIEDMPDIKDYMKDLADKHWEEWFDTTIPALGDKSPRQATKTEEGRELLESLLLHYEQGSKKEDNERVNIFQPNIPYLRLKLGMS;locus_tag=LOCUS_00180;note=WP_003435630.1 protein translocase (Clostridioides difficile 630 (Clostridium difficile 630)) [pid:27.4%25%2C q_cov:40.8%25%2C s_cov:52.1%25%2C Eval:6.9e-11%2C partial hit],MGA_19
sequence01	MetaGeneAnnotator	CDS	29089	29661	.	+	0	ID=MGA_20;product=DNA-3-methyladenine glycosylase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957540.1;translation=MIKRCGWLNQSASELDIKYHDEEWGVPVHDDRLLFEFLILEGAQAGLNWSTILKKRDNYRRSYDNFDSIKIAAYNKAKQQELLQNEGIIRNRLKIAASITNAKAFLEVVKEYGSFDSYIWQFTSNEQKQNKRQRLQDIPISTKESDAMSKDLKKRGFKFVGSTICYAFMQAVGMVNDHTIDCFRHEECLE;locus_tag=LOCUS_00190;gene=tag;EC_number=3.2.2.20;note=WP_010957540.1 DNA-3-methyladenine glycosylase I (Coxiella burnetii RSA 493) [pid:64.3%25%2C q_cov:97.4%25%2C s_cov:86.3%25%2C Eval:1.1e-63],MGA_20
sequence01	MetaGeneAnnotator	CDS	29747	30016	.	+	0	ID=MGA_21;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAKKILRPDSKGRICLGSLAKGVSGYKAIINDATKEIVLKPYSELPYSEKWLFENQHVLDSVKRGLKQSSDKKTIYKGSFTKFINEDE;locus_tag=LOCUS_00200;note=MGA_21
sequence01	MetaGeneAnnotator	CDS	30017	30313	.	+	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFRLLFTEEAENNLSALENDPSKAKRLKSVRKTLGYLEINPKHPSLNTHEYKSLSKQYGIKIFEAYAENKTPQAYRIFWHYGPDKSEITIIAITPHP;locus_tag=LOCUS_00210;note=MGA_22
sequence01	MetaGeneAnnotator	CDS	30377	32353	.	-	0	ID=MGA_23;product=conjugal transfer protein TraD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000009324.1;translation=MLNNFISGGQIFLHKVRMFKQVMLSSMLVSVVVGVLVAGYIKLPDLIAQDYRAAITYVKADMVTGLNLLSPNFVGNNRGAARVDAYYKHGMYKKNILASSVLANGYFKSSYEQVVNVLWSLLLLSIIISGCFLILIFSIWSKFGKFVQEDKNIDGDRILSAKEVRSYLYSANQASDITIADMPLVKDSENQHILITGATGSGKTNLIHNILPQARANNQPAIVIDQTGEMIAKYYDESRGDIIFNPFDDRSKSWDFWKDCCSDNNSLHGINDRLEKFAKILFGFNRNKQNSISSDPFWEESAEVIFTSCVETLLKSNNKSLSTLQQMVRNYPLAKLQKQLAETPAARYLVSSNRNTASSILSVLATSTKPLQYLSDEPDSDKKFSLMEYFKRLDNLDNNSQAGWIFLATKPSQRELTLPLIACMVELAVSFMTDIKINNTRRVWFVIDEISSLGRLPALSWLMSESRKYGGCIIAGMQSINQLFNIYGQYMGSTLFGQFATKFFFRTDEPLIAKMISALCGSYNISKQQKNISFGANEFRDGVSYTAHEKEKMLVQFKDLAKLKTGECFCLLPTPEARLAKLQVPQSDLADLNQGFVSKTHSSQDNGKSQGSLAETASNSKNSKSPSPGKSIKQNTQEEHDKNVQNNGLDEITIEQTY;locus_tag=LOCUS_00220;gene=traD;note=WP_000009324.1 conjugal transfer protein TraD (Escherichia coli O83:H1 str. NRG 857C) [pid:27.6%25%2C q_cov:86.3%25%2C s_cov:75.6%25%2C Eval:7.4e-59],MGA_23
sequence01	MetaGeneAnnotator	CDS	32388	33023	.	-	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFMELWAVVLWWALNLLNFIPITPSFHAFLLNRIDMGQFLYMKYKVGISNNKPVYTNILSCRMRKLSFIQKLVNTINGTVSTITQTKESGKLLFNSLPYLLKNFLSEYMAGFNLDKKYGTKVTVNRNASSARIGTFPENKSTILELTTIPNQNIRFQKLSRFSLDLIGFILLLGFSYNHYVIILSFSCSMQIKIAIYSYFLDFITSEGLK;locus_tag=LOCUS_00230;note=MGA_24
sequence01	MetaGeneAnnotator	CDS	33131	35917	.	-	0	ID=MGA_25;product=conjugal transfer protein TraG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947792.1;translation=MELTIHTYGHIDAMFYVLNGIAMLMGSNLAKLLIQTMSVIAISYYGIKMAYSGSSGRHREYMAKAAGMILMVNALLIPTTSMMVYDHVTKEYEKVDNLPYGFAVPVGYLESFGDLLTGGFEQVFTVPGNNNYRDYGLVFGARLVQQARDWRIQNPEFAGNMDRFIKRCIVMESMIGGRFTPEDLVQSDDIWTLVSTNAGTFRTVLMRDGKASELMNCKEAAKLLANYFTDEINYLQSKYTSSEFARAGRDEDSKIPMGSIDQLNNMLKTNIELAYGSTLGTTETASTLIRQNMMINAISDYSNASDLYGYSRASMVQESSWRIAGNLASEYLPILLTVMKGIIYASFIFMVPMIILSGGGSRYLNYLAIVASLQLWPALNAIINMFIELGSSKMLSSITGGIITHATYSEVGAEIDKIVAVASGLQLSIPFFAFALVQGGVGGFIHLASSITGATASAATQAAGEVTTGNRSLDNIAIGNYQQAQQIAHKTDLNSSYAEDASSWQQMDGTMEKVLASGQTILTGGAGMTASSGTVKFDLASSTHNQLSEGLSTTQSLLQSDQRLFDQAKSNMETNTADYVSHIAEREASGHVFNYEELGEQGKSLQQAVNQVHALRQQNGYSYRQNAESIVRASASGSTPFKPITGIGLSGSIEGSVGASNSSEQSLTDENNLNRENNTNVNYNNLVKAANSESWSKDSSIDKGYSDSIRSSYEEVTRLENSISMRKEQVENYNQALSKVNSDGGTHSRDMYHIVEQRLQDIYGVSQKDAHNMIEAGDTRATNAWQQIVNENVGSVMSEINTGRNNISGEHVDKTLDNFTENYKNQINQNPRDTVKNIASNNGLNPNKAQDYLQKRNNELQQKSNQLINENAVQYKSVKWHNETEMRDIQKQADKYEEDRIGKGGVGTAFGLIDGVGDKSRKNNSNGN;locus_tag=LOCUS_00240;gene=traG;note=WP_010947792.1 conjugal transfer protein TraG (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:22.8%25%2C q_cov:86.2%25%2C s_cov:90.9%25%2C Eval:2.4e-37],MGA_25
sequence01	MetaGeneAnnotator	CDS	35932	37260	.	-	0	ID=MGA_26;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHASPGSFVNVNKGAVLQDQKAGYLTGGSIIMRGPKPKELQPLMLQTPRFAFDACSGSFDARFGGLSYITAHEFSSFLKSVATSTGAYALKMAIKSACPQCEDIMSYLESVARDINGMTLNQCSMAQSIASGTLSALSSSSKQKCMMQSNMLSSSSDLFDATQKCTDDPDTFGGTGEDDELKALLGDEFNLVWKALSQGSSSSNSETNNLKELMMSISGSVIGIKQDGAYHFQNLASLVLSEDLIEQYIGAPGFGGSNIKLYSCNEHHKCLDASVIEVNLKSDETLYGNVSSLLESMVDKIYENAGELTDEEAALVEFSSIPLISLIEMELATKNKSSAASFVGMSEFVEVVCYDVITNYMQQMLQKCKSAVELLEHAQLDNVAIDKFASNVEIVRSFLRDKRFESFKKLQVITQVKHRIAQQQSVFELGFTRFMQSRNIR;locus_tag=LOCUS_00250;note=MGA_26
sequence01	MetaGeneAnnotator	CDS	37567	38337	.	-	0	ID=MGA_27;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKLISLLLFMLFSSNIVFASSFYDSDNCYRGFYWFERNNQYQDATKQTQDKITQITPEEALLSIEARKEQLDAARNVMIELAFRSDVDQEELYKAIREYKELEAKMFNGGLRLASAWQMVNFIYPEFTNLTEEPVNVPANKLKRKLSIEERSNQLKQLAENYSLVLFTRDNCPYSKEFIPIAKRFADVYGFELEISNDEELMSRLGYEAIPTLVAVSTNQDSGFTEIIRGLATTSELEENTLLLVKLLQERQR;locus_tag=LOCUS_00260;note=MGA_27
sequence01	MetaGeneAnnotator	CDS	38324	39427	.	-	0	ID=MGA_28;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSYFTMSIYSFNYLYLFMLLIMFMSIIQPAIASGRFNPGYSCSDTGKVCTDSGSKVVDGFSVTIDCWKWSYNKICNIPSKNDCSKHSHCYSLGQRDCLLRDNYGNCTNMQKEFSCKRWEPTYVESDHIRYGTEDIEGEDKLVCKGLPCIDGNCIDKSYEMDADMMDSVSKLYVLSQGKNDGYNFKIFEGVSRHCSKKIADYCNCCKIFPKGWGKQLGAKCSKDEQILADLRQKNLCEYVGKKNSKSLGVTTVTKHYFCCFSNILEKTIQVQGRKQLGLNFGSGGNPNCRGLTFDELARIDFSKIDFSPVAAEIQMKMVMPDTGDIKGRIETSLPGISEFNNHVPDHPENKVAGVNSRAAGGMLNEEY;locus_tag=LOCUS_00270;note=MGA_28
sequence01	MetaGeneAnnotator	CDS	39424	40464	.	-	0	ID=MGA_29;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMQQYFLLIIISVFVLILICCLLYQKQAFANVKTNINEVTRFLDDEIQNKDQLLDKVEVQKQLGANAIETSSASANIVAIESAEDEASALNSIRAVDLDDAGRSKRIAKEYSFYDEGEFEPDWTKPGNKMHKEDADEIVAATAIKIKELLSKLQEAGVICAQKKGPVQREPVYTIQLKKENQKNTEYDQFFCEEPRNKYRCTNLLRLSCIRKSSGDALPGTIRISVSEMPAHWWLGRGNDGNASYGYTTNLFLIFNTAVMEEVKAKIIEKIGLVDIEVPAQQIMIFGGEQVMYQLNEYGQYGTVQNTWHPNPEGVSDSIRFFYRAQLKAKCEEWEEDWTERCTLQ;locus_tag=LOCUS_00280;note=MGA_29
sequence01	MetaGeneAnnotator	CDS	40461	41069	.	-	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTFLIFIYFTGFSTSSKAENHRDFANDIAIQDTKLTIQNMQKIFSEYFNTGHFNFEHFNSDNENINEFIKPKAKLQIFVSSSMPKTLLQNYAKEATLYDAVLVFRGLPEGSFRALSDLVMSISDDSGSSAAMQIDDEAFAKYKVTTVPTIILSKESAFLDFDSDKARPIYDKVQGNIAIKYALELFADSGELRKEAQGALQ;locus_tag=LOCUS_00290;note=MGA_30
sequence01	MetaGeneAnnotator	CDS	41225	42295	.	-	0	ID=MGA_31;product=conjugal transfer protein TraU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947798.1;translation=MSNINNTRILGKTFHTSIITVWIIALIHPQTSKASLPCAGRFVNPISDVCWSCLLPISIGPLKIGGGSSPSKRDTKNPGNPLCMCIRSNVPVPGITLGFWEPVRLIDITRTPYCMTSLGGLQLGSVDMKKVSSYNRSYSKKRIAHNSFYHVHYYVYPLIWWLELITDLICLEQSTFDVAYLSELDPTWNDEKLQTLLNPEVFLFGNPAAQAACTLDCASATIDKPKDELFWCSGCWGNLYPFSGANADHVGGVQASSLYASRILAKMHRIGLAKETSTSENKFPGPGDKICRKSTALKIKKSQYKLQMVYPKRTKGAIGCWPLGLSDLLYSSWKEYPNDGQDWGYLVWRKKNCCLM;locus_tag=LOCUS_00300;gene=traU;note=WP_010947798.1 conjugal transfer protein TraU (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:46.3%25%2C q_cov:89.0%25%2C s_cov:93.4%25%2C Eval:8.4e-82],MGA_31
sequence01	MetaGeneAnnotator	CDS	42292	42951	.	-	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKERMRTTKSITIQIMIYITYMSLASNCLAKDFGSKGHSYLIAEPPFLEMIEKRLSRVDIDAEQQKMQEKARQKVEEPDSVIGITKAEKDRTFYYDPTYVLGEDIKLPSGKILHKAGTKVNPLEHMSLDRRLFFLNSNNPKQVKWLKTKISNPGKYQDQILEDRIILVSGRPFDLQEELKQEVYFDQLGRITNQLGIKSVPAIAMQYGLKIKIEEVVIE;locus_tag=LOCUS_00310;note=MGA_32
sequence01	MetaGeneAnnotator	CDS	42951	43400	.	-	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVEMEVHDIAKNSAENGNIQNKRTQKYWKHKNILLYLLLGFAIGYFTKNQTTNANTFDISYISQDELIQLEHERIRNQDLTDQQLFFGKLDEVIKLIEQIANEKAGSNNRVVFSQGIVSGNKVKSISHEVHKELVSRYLYQDTYIKIK;locus_tag=LOCUS_00320;note=MGA_33
sequence01	MetaGeneAnnotator	CDS	43375	45897	.	-	0	ID=MGA_34;product=type IV secretion system protein TraC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013087206.1;translation=MLQILDNISNKVSGFCGMDEGYLSHSNAKHVSSLIESSGGDGSNNGDLHNLSDYLSYRYFDKNENLFFLEGGITGFMLEIQPIVGVDDSLIKNLEHFFNDEMPLGSWIQFLLVASHDIDPIINSWRNSRINPHPILQKITDRRANFIKKQSTDFASYDGRLPRNFRIFISYSTKCEITAKNNRSVIGFKNTLLKKLETLNLAPRVCNSTDLINLNRELFEFNYTAANKNDYRHDLLSEQILSAGNRYRLENSKFTNISNNISSRCYYPSSFPKEYSLLGMINLLGDSIRSNVGLPARFVISYVISTNLKSGAQNALIARGNRVIAAAEQWYGRNNRDLKREAIEWQDINDRAKNGERFLGESWQLMISVPDNLLDEVQQSLLSLYRSNDWQLSIVKYFQLPAILSMLPCQQPIYWYTLKKMKLSRICLGSEVIAKLPIHAEWKGVPEPGVLFFGRRGQLFNWNPFYRISSGNYNVCVFGPSGGGKSVFLQELSSSVMAQNTRVFILDIGQSFASMAELLDGEIVQFGKDVKVALNPFAGLKANMDKDDFNNLVKCAKELLIIMCGAKDDRGAAELEKAIIDALEQSKFDLSINEFATYLQNAKSKLLNQYGITLYSYTRDGIYGKYFTADKNKKSAGFKELITIFEFEEIKKDKKLLAIILQILLMEITNQFFTGDRSQRFMIIVDEAWMLLDYAAGFFAEFARTVRKYGGSLVTCVQNFSDLQKTDQHRAILENSTWTLLLKQDEKGLHGFKESEGFKDILPLIRSISLNPGKYSEVLLSATGVNVVGRLVLDEYSNVLYSTDSHDFNYLRRAQEQGINLDNAIEKLVEKKYGSRNGST;locus_tag=LOCUS_00330;note=WP_013087206.1 type IV secretion system protein TraC (Enterobacter cloacae subsp. cloacae ATCC 13047) [pid:23.4%25%2C q_cov:93.0%25%2C s_cov:94.1%25%2C Eval:6.6e-39],MGA_34
sequence01	MetaGeneAnnotator	CDS	45898	46212	.	-	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLIVIIIAVFSVSACSTYPSKFKCGEAKGLGCHRLSDIDKQITSGEIEQIYLKQVYLDKNSKKCRGLFCKKSSADSDLPPLSKNERIRVKMQGSDEYIWLEE;locus_tag=LOCUS_00340;note=MGA_35
sequence01	MetaGeneAnnotator	CDS	46212	47387	.	-	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFTAVILGILVASIMLVHLTKSNIQSSRQAKSNKPPDSTKLDIELATDTIKGDQLWHNHLEEKITQEQKLREKQLNIINESLLDKESAIKSSQDKEFEAIRARLSFTLRELERIKNDNIAVKEELGLMRGNMEEVILPADISKLSVGSEYNISAPVSNFNYIPATSYITGHLLGGIVVSTSVNSASQPVPVVIRLTAGGNLPEDFAVDIKECRLLASAYGDISSERAIIRAEELVCENKLDGLLTSTKVAGVIYGDDGMNGIRGNVVSMSDKHLKNAFLGGVLSGFSKNAKPGEAINISPIGTISNTAKKGFKDRAGDSLLSGSSTAAEKLADYHIRLAENISPVILIPGGSKVDVMITRGVYIGSSDVQDQISNSRSNSKNNNKQKWGK;locus_tag=LOCUS_00350;note=WP_000351840.1 hypothetical protein (Salmonella enterica subsp. enterica serovar Typhi str. CT18) [pid:31.1%25%2C q_cov:52.2%25%2C s_cov:45.4%25%2C Eval:2.4e-24%2C partial hit],MGA_36
sequence01	MetaGeneAnnotator	CDS	47458	48156	.	-	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATKRLFISGLVIIFTVAIIFAAYAPVSLAGKLITAPISKGGINRISAFPYHIKEIIGDKSKYELLSSDDGSNIFIIPKVKLGDKLELAVITSNGAIHDLLLTAGKDSVPAIHLNSSTPNYSRHLSQNKANEQSQILKMISHMSANHLNSYYVQNTNRNIANNLGLKLKQIKTWRFGKLVGAIIDVHNLSRSTKLLKENDFKSLFQRTKAISITGSNILPSQASSQVLIVTG;locus_tag=LOCUS_00360;note=MGA_37
sequence01	MetaGeneAnnotator	CDS	48165	48785	.	-	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKVAAINLGKVTKQRNLFLCFVLVFGLSNLMLSFKLSTAKERIIMVPGIRAEMSITGNSVSESYLEESALLFLSCLLDLTPDIIEHKRDLVLKYTSHSDSKWITGIKEYFNSAIEQHRKFKLSTYFTPKNMSIDTKDMQVVAHGILNSSFGKEGYDSKQMQYLLEFELVGGHLKLKQFRAAGDNDVGEDQLKKTAKKTNNKKLW;locus_tag=LOCUS_00370;note=MGA_38
sequence01	MetaGeneAnnotator	CDS	48776	49060	.	-	0	ID=MGA_39;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRPIEINSCINKEVTVWGLKLFGLIIGGIFGVVVMLRYDFTFSIAGIAGGYMVGSYLSGYLYKGRLQRWIYWHLPVRRLLGGSMLPASWKRLWN;locus_tag=LOCUS_00380;note=MGA_39
sequence01	MetaGeneAnnotator	CDS	49064	49426	.	-	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNFRLIPQLKNLLTLLRPLNLPGLFNRINRMVKIFILTVIANLAFTAHCLAFDLDAGANALLNPMVEVIGAHFGKAVLASCAAGALVAQGDLRTRAIGAGIGGLLAGGMLGGVKAIYGI;locus_tag=LOCUS_00390;note=MGA_40
sequence01	MetaGeneAnnotator	CDS	49430	49843	.	-	0	ID=MGA_41;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKIMTQVDTEENFKAVSSPEDKTAINTSNRSIPNSWYRQIVWDNDKPDSIAMTILAEVMLLHKLYGKLEFHLGYKYFQGKFNYSRNQIRDALVRLERANLLKRDYRTVQIHDRKFNNEMFLILNPEQIKKLQQTGA;locus_tag=LOCUS_00400;note=MGA_41
sequence01	MetaGeneAnnotator	CDS	49947	50258	.	-	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYQVSSPQDKSPQFQYYNNFSKILFAGKWYHLGIMQAKVIKQLYHASLTDSPWIFGKELLYKAGSESIRMRDLFKSQNGWQELIESDHKGNYRLKFPKNIG;locus_tag=LOCUS_00410;note=MGA_42
sequence01	MetaGeneAnnotator	CDS	50516	51673	.	+	0	ID=MGA_43;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010958440.1;translation=MVFIEGARQAGKTTIAKEILKHFELALYLNWDNVKDRTLMLQGQDFVENTKLFTEASSQKPLIIFDEIHKMPNWKNYLKGFYDTYKGKLKIIATGSSKLSIYKKGQDSLMGRYFNYTVHPLSVGELIKQNYEVGTALTSSSIIDENLFQTLFNFGGFPDPFFKRSNNFHNRWVKLRNQQLFAEDIKVVEDIKNIQLLETLAYILKEESNSQLNYSKLAAKIQISDQTVKKWVNMLEIFYYGFTVRPWYKNITRSIIKEPKFYLSDWSNIQDIGKKSENFIACHLKKAVNFWNESGNGEYGIHYLRDKEKREIDFAVTKNDKVWFIAEVKYSNNSSLSKNLEYFQKLTNAEHAFQLVLDMPQKNINCFDFIHPVKIPAKTFLSQLP;locus_tag=LOCUS_00420;note=WP_010958440.1 ATPase (Coxiella burnetii RSA 493) [pid:33.6%25%2C q_cov:92.5%25%2C s_cov:82.8%25%2C Eval:6.3e-54],MGA_43
sequence01	MetaGeneAnnotator	CDS	51681	51854	.	-	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNNENAKITKVEKSDEAECVLNQETNGDIIVAGFGSSDCRNGCKSHLKITKNDVFK;locus_tag=LOCUS_00430;note=MGA_44
sequence01	MetaGeneAnnotator	CDS	52134	52466	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQWVGKFEDGGIGFLLSTKPGRGRQPMVSSGLLEGFSEAVISLQENRNGGRVIGQDIVNLVKEKYAVQYSVSGIYKLLSRMGLSWVSGRSIHPKANLEAQESFKKTLNKL;locus_tag=LOCUS_00440;note=MGA_45
sequence01	MetaGeneAnnotator	CDS	52466	53011	.	+	0	ID=MGA_46;product=transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015887099.1;translation=MEAIPENVKLKDIEIWYEDETRVGQQGSISRTWFIKGKRPRLVRQQQFLNVYIFSAACPTKDKAVGFISPVCNKEAMQIHLDMIAQSVEGHAVILLDGAGWHSANSLVIPSNITLLKLPPYSPELNPKENFWQGLKSKYLSNLVFSSVEHIMDTCEKAWLDFVNIKGNVQKICNRKWASLS;locus_tag=LOCUS_00450;note=WP_015887099.1 transposase (Sinorhizobium fredii NGR234) [pid:43.5%25%2C q_cov:91.7%25%2C s_cov:97.7%25%2C Eval:1.3e-39],MGA_46
sequence01	MetaGeneAnnotator	CDS	53026	53196	.	-	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSYQLYINIKNNVEIKIGKLGRFKFPKGDYIYIGSAKQNIDSRIARHRSKDKKLY;locus_tag=LOCUS_00460;note=WP_012583024.1 hypothetical protein (Dictyoglomus turgidum DSM 6724) [pid:45.3%25%2C q_cov:94.6%25%2C s_cov:39.0%25%2C Eval:5.2e-10%2C partial hit],MGA_47
sequence01	MetaGeneAnnotator	CDS	53201	55465	.	-	0	ID=MGA_48;product=ATP-dependent RecD-like DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8KCL3;translation=MSIVDKQEPEYLSGTIERITYHNSENGFAVLRTKVRGHKDLVTIIGNIPAISVGEYVQCKGVWRNDHNHGLQFKADFLKNMPPNSLYGIEKYLGSGLIKGIGPHFAKRLVSNFGEGVFEVIEEKPELLATTRGIGKVRASSICKNWQEQKIVREIMIFLQSHGVGTTRATRIYKTYGDDAIQIVSENPYRLAKDIRGIGFVSSDLIAKNIGIESDSLIRARAGINHVLFEATSDGHCGLPVEELINRTMKLLEIDRSIIEHALDQELEAGDVVKDKLADNNAIHDTIFLGSYYFYEKNIATMLLELKEEKLPWSDIDTEKALPWVESELEIKLADNQQSALITALKTKVMVITGGPGTGKTTLVNSILNVLAKKNISIKLCAPTGRAAKRLSETTNMEAITIHRLLEFNPRNVGFKHNDQNPINCDYLVIDESSMVDVPLFYSLIRALPKSAALLLVGDVDQLPSVGAGAVLSDIITSGVIPTVKLNKIFRQAASSNIITNAHLVNQGKMPVLTYSSNQSVKAEHEPNDKLADNKTINLQTKPISDFYFVPVNDMEKLPQKLIYLVKDRIPQRFGFDPRDDIQVLCPMQRGGSGARSLNVELQKALNPDYESGISKFGQVFAVGDKVMQLENNYDKEVYNGDIGIIQKLNDEELEAVIKFYDRDVIYDYTDFDQITLAYATTIHKSQGSEYKAVIIPLTMQSYMMLQKNLLYTAITRGKKLVVIVGQKKAIGLAVRNNKGLMRYTKLKEWLKNS;locus_tag=LOCUS_00470;gene=recD2;EC_number=3.6.4.12;note=Q8KCL3 ATP-dependent RecD-like DNA helicase (Chlorobium tepidum TLS) [pid:48.1%25%2C q_cov:98.8%25%2C s_cov:97.7%25%2C Eval:1.3e-203],MGA_48
sequence01	MetaGeneAnnotator	CDS	55670	56224	.	+	0	ID=MGA_49;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSHNSYRGIDTLIVATVRRKSKSLIKKYHYFTESDFDDLQQEFTIVVLNNLDHYNPNKSSLKTFISKIIDNKATDLIRYKKLRYKAELKSDTDLELLMDSISETDDLLGEGSNLNIIEQLEMSFDIGLMCNLLPDHLADLCKLLQTMSINEIVRTTGVSRSTIHRYLKKIKTILIESDFDDYF;locus_tag=LOCUS_00480;note=MGA_49
sequence01	MetaGeneAnnotator	CDS	56885	57385	.	+	0	ID=MGA_50;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNGKETTIQDLLHLPIGRVASYSSFTLYSLLAEVNEQLGQAKRAKSWLEGAMSIKYSTRIKQARTDSDKKTGIVHIEDAGIKISHDIPKKIQWNQKKLSGIVENIAEMGSDPLEYIDISYKVPEHKFISWPKSTQQIFLLARTVRAGNPSYKLSKVDKASEKEAGK;locus_tag=LOCUS_00490;note=MGA_50
sequence01	MetaGeneAnnotator	CDS	57382	57966	.	+	0	ID=MGA_51;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLAAGMETKKIKAQTRAHASLLERFGRYVYLSNAGSNSSDNDNRNNKNYIKNNCWQWMGARNDRGYGVIGNGTRKQGISKAHRIAYELFYFTKLEKDNCICHICDNPACVNPQHLFIGTQADNIADMIAKGRNILPPIRKGKQSNFAKLNDKKIRQIRNLAKDGFSSRKLARKFTVSKTTILQIVKRQSWRHV;locus_tag=LOCUS_00500;note=WP_010926422.1 hypothetical protein (Bordetella bronchiseptica 253) [pid:37.0%25%2C q_cov:70.6%25%2C s_cov:88.6%25%2C Eval:7.1e-18%2C partial hit],MGA_51
sequence01	MetaGeneAnnotator	CDS	57963	60314	.	+	0	ID=MGA_52;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKNTTMYELKNRHLRLVDNNNYNQEQLDPNTENQLLPSKSDIQVFFFVLFSYCDGLIACRSFTEKDCNSDNSKIPEKLPPRNIWIGADEVMAINAYEFAKLSNQAQAACYVIPGTVKASGQAKSSDILQMQTLLIDIDTGNTEAKLELLSKTLGEPTLIVESGGITSEGSKKLHIYWQLIKAVQGEELQQLLNLRYKVALYAGGDLHFKSAHQPIRVAGSIYHKGGNAKLVKIRSYNPVEYTLAELAESVEALANQVDNNLSNDNQLNASSALPINQILINKIYEGGYGEQTRFNHLSKVIGYWIRRHYDGLISKEQVIDEITCYNLANVTPPWPDAKLKQMINGIWNTHINKYKHLSQYGQENHADHSINSITPAIWQDFPPQRKWLIENWLPRGCVTALYGDGGVGKSLLMQQLMTALAVGKSFLGVELKSSSTYAVMCEDDYDEIWRRQAAINSLYGINMQDLSNVRIVSRVGQDNLLINFDNSNNIRYTEFYNKLLSDIVEHNPDLVILDTAADMFSGNENNRLHVRQFIQNACGHIARVTDSAVLLCAHPSENGMQKGNGSCGSTAWNNSVRSRWYLKYADNSSKDNNIKQHSNSRILSRVKSNYSASGREKYLEWKNGAFIWIDVKQTKATKTVSSKIQNGQNSQTQNNKQQERIHFIIHLLEQQALKGKFYLMKQFADKFQNHQKLGGKRSIYDDCSVAATNSVIKFFNNPEHYGIRDDSTSANTNIGFGYICTEDMQIENDNGNKVKILPTHLKNKKTGKKQVIEIVVEERNA;locus_tag=LOCUS_00510;note=MGA_52
sequence01	MetaGeneAnnotator	CDS	60307	60504	.	+	0	ID=MGA_53;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKHITDITSISKKAPKVNQSNVKRETLYNSIVEDIKKKYSYKLSEAEAHEAARNLIDFVRELLK;locus_tag=LOCUS_00520;note=MGA_53
sequence01	MetaGeneAnnotator	CDS	60501	60863	.	+	0	ID=MGA_54;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIEEQMHKFVDIKEDFVNYDRWNGQLPFWGVETFYRKSGGEYQPFKWCPPRLLCRGDDSVYNRPLAKDCHSWFFYDSFSNSLASNEGGHLLQIYFLFGSQKQLVWASSLLLPKLLLFN;locus_tag=LOCUS_00530;note=MGA_54
sequence01	MetaGeneAnnotator	CDS	60880	61350	.	+	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSTDKIKSQNIEEYKHAVILIDKYTTVELSEIEEFCINNNLHAYCVIYNYTLCDTKPYKEIIKYIVSQDKPPVVLIDSNTCLFPQCIMSSTILGTLEEMQLAKIYTYNALSRQKKEDKLELIKQSTFDLLTEATYQLRSIEEMCRDKQKTEKNRGR;locus_tag=LOCUS_00540;note=MGA_55
sequence01	MetaGeneAnnotator	CDS	61353	62936	.	+	0	ID=MGA_56;product=serine recombinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000031832.1;translation=MSLHDRKKAAKAILLARVSSKEQEEGYSIEAQKYRLQEYCMRKGLKVLQIFELVESSTVGTRQKFMEAIKFAKAQKEIIAVVADKVDRLQRSFKESSLLNELINQEKIELHFCTENCVIHKCSTSSDKLMWNMNVVMAQSYVDNLRDNVNRSIAQKLREGQWVSTAPIGYLHIKGGRRQSKIVPDPERAPLIRKLFEEYATGIYTIPQLRKKTKEWGLTNYRGNQGYLGRAHIHAILCNPFYYGVMYYKKGKKHYPHIYEAIIDKELFDKCTAVRKNWNRKPFKWGGIDFMFRGLITCATTGKVVSCETKRKKRADGTIHETVYLGPWNPKDPMKKVYIKEDEIIKQIEEIFKSLYIEPETLAKVIEYVKNSADNERIYYKTRITELNKELTRIKTKLDKLMDFFLEDKISEEEHERKRDDLTSKRTRILMELEEHNNADDNFTENMINVLQIAANAHKTFKVSINEKKKKLIKLVLSRLSLNGQKLEYTLRPPFDEFAKTAKNGEWWAVEDSNFRPLRCQRSALTN;locus_tag=LOCUS_00550;gene=ccrB;note=WP_000031832.1 serine recombinase (Streptococcus pneumoniae R6) [pid:20.9%25%2C q_cov:90.3%25%2C s_cov:91.6%25%2C Eval:7.8e-16],MGA_56
sequence01	Aragorn:1.2.38	tRNA	62871	62947	.	-	.	ID=Aragorn_1;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00010;note=Aragorn_1
sequence01	MetaGeneAnnotator	CDS	63119	63775	.	+	0	ID=MGA_57;product=cytidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD27;translation=MSLEEKANNKNLDFKIALDGPSASGKGLIGNMLAEEFGLKYVQSSIVYRGLAYVCMEDLIDPDNNEAIIRAAENEDIISRIKGVDLNVELIGDFASKISTINSVRTSLTKYLSSLMIDTPRIIMEGRDIGTVVAPDADVKIFISADVEVRAMRRYKQLQLEGKDCILGDVLDLLKKRDVRDSNRSAAPLKAADDALVIDTSKLEPSEVILKIKEFIYR;locus_tag=LOCUS_00560;gene=cmk;EC_number=2.7.4.25;note=Q9ZD27 cytidylate kinase (Rickettsia prowazekii str. Madrid E) [pid:49.5%25%2C q_cov:99.1%25%2C s_cov:97.3%25%2C Eval:1.9e-49],MGA_57
sequence01	MetaGeneAnnotator	CDS	63879	65597	.	+	0	ID=MGA_58;product=30S ribosomal protein S1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD28;translation=MTIKKRFIPQLADVTPATDDFAKMLEKVDTSHVKEGSVVKGQVVETGSEVIVVDVGLKNEGRIPVSEFQLVKDQELPKVGDIVDVFVEKVEGRRGTVLSREKAIREESWVKLEGLFEKGENITGTIFGRVKGGFTVDIDGVVAFLPGSQADVRPIKDPTTIMDIPQPFQILKMDRKLGNIVVSRKAILEEARSEARDEMLSQIKEGDVIDGIVKNITDYGAFVDLGSVDGLLHVTDISWSRINHPSEVLTFGQEIKVMVIKYNEDTKRISLGMKQLDANPWENITEEFPVGKVMSGKVTNIADYGVFIELKDGIEGLVHSSEICWGKTNQNPKKLLNIGQEVDFVILDVDTERHRISLSIKKCQDNPLVKFAEQNPVGSVIKAPIRNITDFGMFVAIDTNTDGMIHESDISWESSGAELLKNFNKGDEVECKVLNIDIEKDRVALGIKQLTEDPYEGSVDQFKKNMVVTCVVVSTNSDGVEVNIDDKASGFIKKIDLSSERSEQKTDRFAEGDRVDAKIISIDKANRRLALSVKALEIDVREKAIKEYGSTDSGASLGDILGAVLEENEAKK;locus_tag=LOCUS_00570;gene=rpsA;note=Q9ZD28 30S ribosomal protein S1 (Rickettsia prowazekii str. Madrid E) [pid:65.2%25%2C q_cov:99.1%25%2C s_cov:99.3%25%2C Eval:3.4e-222],MGA_58
sequence01	MetaGeneAnnotator	CDS	65775	67052	.	+	0	ID=MGA_59;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCX3;translation=MDSIVMQGGKPIIGDIYISGSKNASLPLMTVSLLTDEDLILTNVPKLSDISTMKQLLSNHGTEIGILDNQDSFKLTLSSKNITNFVAPYDIVRKMRASIWVLGPLLARFGKAKVSLPGGCAIGARQVDLHLAVMEALGATIAIENGYIIAESSGRLKGCNFKFSKQSVGATINAILASVLADGESNFSNCAMEPEISDLCHCLNSMGAEIFGVGTPNLKIVGKEKLSGCEYGVLPDRIEAGTYMIAAAATRGNILLKGIKLSILENLVFCMRKSGVYIEEEQGGIRIKHSGDIKPVNISTEPYPGFSTDLQAQFMTLMILANGKSEVQENIFENRFMHVPELCRMGANITIDGNKALVDGVPELKGAEVMASDLRASVSLVIAGLVANGETKIRRIYHLDRGYQSLEQKLANCGADISRITGDTV;locus_tag=LOCUS_00580;gene=murA;EC_number=2.5.1.7;note=Q9ZCX3 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Rickettsia prowazekii str. Madrid E) [pid:60.2%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:4.4e-144],MGA_59
sequence01	MetaGeneAnnotator	CDS	67063	67944	.	+	0	ID=MGA_60;product=bifunctional protein FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD32;translation=MIKEAIIIDGKKIADKILADLKAKIDKDRIDGATPAKLAIILVGNDPASSIYVQNKIKAAAKVGIETTLQKFDENITENELLKRIEHLNQDEEVSGIIVQLPLPKNISKAKVVKSIDPSKDVDGFHPMNVGSLYSPYEHGFVPCTARGCLELIKSCYPVLGGKNIVVIGRSNIVGRPLAALLLKEDCSVTICHSKTINLQAITKQADIVISAVGNPGFLTVDYFNEDAIVIDVGISRVESEDKCELMGDVDFENVKKNVKYITPVPGGVGPMTVAYLLVNTYTAKVNLNDIKR;locus_tag=LOCUS_00590;gene=folD;EC_number=1.5.1.5,3.5.4.9;note=Q9ZD32 bifunctional protein FolD (Rickettsia prowazekii str. Madrid E) [pid:58.4%25%2C q_cov:95.2%25%2C s_cov:96.5%25%2C Eval:1.3e-87],MGA_60
sequence01	MetaGeneAnnotator	CDS	67949	68707	.	+	0	ID=MGA_61;product=3'(2')%2C5'-bisphosphate nucleotidase CysQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597379.1;translation=MDKQLVDELKKVIKGAGRMALDYRETGLQVERKEDDSPVTNADKEISSFIFDHLLKLTPDIPVICEEREPVILDKSETFWLIDPIDGTRSYISNKDSFTVNMAVIENSRALYGFIYQPTIDRLYFTNEKKQFCIEVGGNSVGNNIHDQEGFVAIVSSRSFNEKTATYLKTNDFSEIIAVPSSVKLCMIAEGAGDVYPKFGPTMEWDIAAGHALIRAAGGEISTLDGKVLEYAKEDFENPQFIAVSRKWKEYE;locus_tag=LOCUS_00600;note=WP_004597379.1 3'(2')%2C5'-bisphosphate nucleotidase CysQ (Rickettsia prowazekii str. Madrid E) [pid:45.5%25%2C q_cov:100.0%25%2C s_cov:96.2%25%2C Eval:1.2e-59],MGA_61
sequence01	MetaGeneAnnotator	CDS	68711	70039	.	-	0	ID=MGA_62;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTQKEVSKPGKEELIELIIKNSANIIPLLKQDIKTLSLTQLSQLHEISNLEVSAKKMLGSYASTLTKFSLTGLEMLNSGLKDLDLTDKDKDIVNSIFKQTVLVGVNVASKKLLEPLAESKGFLYNKILSEQTVEVLESVLEFKKSIDKIYPGLSDKIISAAIMAVTALASAYAPPVGLALKTTGILSKAAEYIKTDNLEKTVEKMQTDLGKIRETKQLAEAQELGTKLSKLSEILGVSSESLQKSGINLKNIEAVKEEVTKHQEAADFLVEVCKYVEKQVPNSAKEVEELYDKIGQEAVKDLKSKGASEELIADFEKAYKDSSINAEVVIESSLTKSAKAFDKVVAMQKSAEIMEKSQKNIINNLSKKYPNEKAAISSAANVVDNNVKEKVRGDLKGIAIRMTKGSKAGNLAKNHLGVGMASEIIVKRSQAKEASQARGR;locus_tag=LOCUS_00610;note=MGA_62
sequence01	MetaGeneAnnotator	CDS	70279	71640	.	+	0	ID=MGA_63;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598570.1;translation=MQKKLITSLLILSASNVSAMTLEQALTKGYDYDEQFKTNRTDFLNEIEAFPAALSEFMPRVFAGAEFNDSKIAKRSSVGDPRDAITSDSLRHTQSITLEQPIFNGWSSVSGLKAAQSAFRASRGAFYAKEQDNFLEEINIYLSTVEAKEKYAISKVSVRSNKTQLEAMKEKFKLGESTETEVASAREGLATAEAGQALAYAQYESAKANFERVFGVPAVDIKFPVVPTDIPASLEQLEKKAMAVNPNIDSAMHNTFSNKASENAAKGALLPRVTFRVQNGRTYYNPQQLDNSNINNRSTTSTLSVVVPILERGGAEYSNIRRAKYRTRKSAINHDSVIKQVKARAKSGWSRLDAAKLRIKAAGEAVKAAEVAYEGMVQEEMLGSKTIVDVLRTEERLNKARETRVEARKLLIVAAYEIKSLVGDLTAKSMKLKVNYFSPESEFKKVKRKIVGF;locus_tag=LOCUS_00620;note=WP_004598570.1 membrane protein (Rickettsia prowazekii str. Madrid E) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-107],MGA_63
sequence01	MetaGeneAnnotator	CDS	71643	72083	.	+	0	ID=MGA_64;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDHTNKDNENDSKLEDILSSIKGIIENRGPVVDEQSNGQIVEEEKISDEAVLELTSEVNSINRNISADSQDALISPDAQEKAEIEFKRFAESVVNAEITNDKVDSLDDRVNQIMRPLIKDWLDNNLPRIVEKVVSKELKRIIPKT;locus_tag=LOCUS_00630;note=MGA_64
sequence01	MetaGeneAnnotator	CDS	72114	73646	.	+	0	ID=MGA_65;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQRLLLFISIMLLFAFNANANADANLPALPTDTVVEVVDQQGKEEISLWQKILNFFGFGDKEEAEKAESSENNPYEASDDTNNNVTQYIERTQNVKANISEAGENASQFSDSTGVSTTETKSDNTSKNLDGKFGFDNDSDTESLSIPKGFEDDGPIKLPELPDDIADEIASENMDKKQNLKDTMDDMTNSADKMLSGIPEAASQNNADTSNKMDQMVEEGVNDLKLPDGFDDIKSENTQIPPISKAEISKNTESKQKLEESLKDGDKDIKSNDFPLPQLPIPPGDSDSLKDTSSEPMKETASPTTTSSVSDEESSSIENIDSGNMLGSKNDIKLPIDDGEKVAGSTDAKSSDNKNKSADNKVSDMMLPTPDYASSQNEEPKKQESSIEKFTRVFTNKKSKEIELPKITEEDYNSNEDDSSVRRSSVELDSTQLQFVNNEAQVLILPNDDVVLGELTESARINDMDLYSYIKKFWENYNRVKREPQREVIERFIEEYDENFNQEALLNNE;locus_tag=LOCUS_00640;note=MGA_65
sequence02	MetaGeneAnnotator	CDS	202	921	.	+	0	ID=MGA_67;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIFDKWKGGAKKHGGLFNAMAKQMDDWGRDLDKSLDKPSGVNSVIPEKRKEAENKLKVVANELTGGLVYPEKSEVIKPQTISVVEEVVEEKESVLEVHTINIDEHNLRTAILEYIEHESIDEDVAEAITILIAKKSLSNAEVASKVLNYGDPDINSQVKAWVMNHIDEDLTINKLKLPAALYFVKHSDESDVSKVIKNAGDNVEKFAEALFATEHPELSANVATCLLLGEFDGGLDL;locus_tag=LOCUS_00650;note=MGA_67
sequence02	MetaGeneAnnotator	CDS	972	1184	.	-	0	ID=MGA_68;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKLVVSNIDFKDSGKKDPSKKALRMTRVSLTGKLKKNLLKFVNLASLKLKITMINLYHISPIPVNKKQP;locus_tag=LOCUS_00660;note=MGA_68
sequence02	MetaGeneAnnotator	CDS	1324	2289	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISYPVGIFTQDFIVSTRTISAQSHGLTPYFTMHLPKICDNSTALIFGVLLGIYASSRDNKMMKIFASKGSVLVNLFLSRVFTPVLPIFILGFILKAQHDGLLGVLFKNFVPLLSVIIVLYIGYIGFLYMLVKGFRVNKALRALKNIFPATIIGFSSMSSAAAMPVLIDGATKNSKDKELPKRIVPFITNTHMMGDALAIPLMAMSLYIVEYGHMPSADKYLMFAIGYVLAKFASAGIPGGTILIMTPVLESKLGFTSEMSSIILTTYLLFDPFCTLGSIFGNGAFSMAFEKLKNLALPERVVPESGAVIAEISLGSEVKD;locus_tag=LOCUS_00670;note=WP_011948034.1 sodium:dicarboxylate symporter family protein (Clostridium botulinum A str. ATCC 3502) [pid:24.4%25%2C q_cov:82.9%25%2C s_cov:69.8%25%2C Eval:5.9e-23%2C partial hit],MGA_69
sequence02	MetaGeneAnnotator	CDS	2266	2772	.	-	0	ID=MGA_70;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIMLILGIVFTVLSIFISYYAINNNQEKIDSLNSQSHEGEDKINQLWQKQQELEQRHAISIMLYALVANKQKSDPVRQAAESYVTDTLEHYEITNNNSSYSKIIKSLPDKLKEARSITIERINDLYADKIILETSKISIQKTNELYKIIGLLMQVVGLILVLYFRP;locus_tag=LOCUS_00680;note=MGA_70
sequence02	MetaGeneAnnotator	CDS	3402	4529	.	+	0	ID=MGA_71;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKELCGSDDVPWKKVIRKEGGVFEVKADIWSYEDKVRNYNIIYEKYCSDLESATSERSKLEIIAQYIQDIECVHFFADGNCRMIYLLLNKELLKNDLKPTILLDPNRFDQMSQDNLVKEIIEGQNAFDLFYKTGMPYEDSISDDEIAINIAKVNESDFKIFGDSELSFSQNLEFISRSKTLINKLVEVVRTRKDIVNSKEKLNEYWSGIIKTHIVYEYFQKFHENDEYSKLTCYDVLTKTNYNDISRQLYRSGFMDHLELEDVAYFLEYMNFNHIMDFVYDNNPLLKDNFEIEEVLELILDYINLMEVTCKKYMEEFTIESLSDHQRCHLTFSEQQVIEEISKEELALDVNCVVVFEIETEYKEADVIGSCEQGD;locus_tag=LOCUS_00690;note=MGA_71
sequence02	MetaGeneAnnotator	CDS	4526	4963	.	-	0	ID=MGA_72;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHDFIVATECAIEHDGKFLIIKRPEGVHAGGLLSFPGGKFEASDAIGNDDAAKQAVRREVLEEVGLDLIDPINYVRTSCFPDEKNNKQVLDIIYHCRLEKTKIAVTPSSREVSEYYWLSYEEIINAPNCPVWLKSYMQFIVETIY;locus_tag=LOCUS_00700;note=WP_013097079.1 NUDIX hydrolase (Enterobacter cloacae subsp. cloacae ATCC 13047) [pid:28.8%25%2C q_cov:84.8%25%2C s_cov:71.3%25%2C Eval:4.8e-07%2C partial hit],MGA_72
sequence02	MetaGeneAnnotator	CDS	5001	6815	.	-	0	ID=MGA_73;product=aspartate--tRNA(Asp/Asn) ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE17;translation=MHIFRTHNCSELNKKHVGQKVKLSGWVHRRRDHGNLLFIDLRDHYGITQLVFTDQDLPLKDQASYLRYESVITVEGEVIARDQETVNTSMDTGYIEVSVNSYIVESEAEMLPMIVNTDQEEPEDTRLKYRFLDLRRQKLHDNIMLRSKIIAELRSQMTNSGFTEFQTPILTASSPEGARDFLVPSRLHPGKFYALPQAPQQFKQMLMISGFDKYFQIAPCFRDEDARADRSPGEFYQLDIEMSFVTQEDIFAAIEPMLYEVFNKFGDKKVSKPPFARIPYAEAMLKYGSDKPDTRNPLEISDVTEVFRDAEFSLFKNQIKKGSIVRAIPAPKASDKSRKFFDDMIKFAISEGAGGLGYVQFAEDGEAKGPIAKFLNEEQLEALKKTANIGNGDSVFFSCAKELEAAKLAGKVRVKLGQELELIPNDCFEFCWVTDFPFYEFNEEKQQIDFSHNPFSMPQGGLEILENAKSQEELLDIKAYQYDIVCNGIELSSGAIRNHKPELMYKAFEIAGYSRAEVDKEFGGMIRAFKYGAPPHGGIAPGVDRMVMLIADTVNIREVIAFPMNQQAEDLLMEAPSHVNEAQLRELNIMLSPSVKSKLAKKET;locus_tag=LOCUS_00710;gene=aspS;EC_number=6.1.1.23;note=Q9ZE17 aspartate--tRNA(Asp/Asn) ligase (Rickettsia prowazekii str. Madrid E) [pid:70.4%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:3.5e-257],MGA_73
sequence02	MetaGeneAnnotator	CDS	6894	7742	.	+	0	ID=MGA_74;product=ribonuclease D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597692.1;translation=MQLIDTQKEFNNFCEKLKDHTVIFIDTEFYRRKTYFAKLSIVQIATKNDRIILDMLAVDDYSELKELLANKNVLKVFHAPDQDFDIFYNLFGELPKNIFDTQIAAGVIGMDSVMGYARLCKAMLNIDLDKTMQTANWLERPLKKELLEYAIKDVDYLIPLYRDLSKAINERKLWDTYYARSEKLTDPETYRFSPEKLLKKFTLQGKNSEFRDMLIHFLELRERCAIKNDLPRNFCATDGELVQLCEKLPRNEAELSRIGMHGKALTRGAFKDKLLNLCSGLR;locus_tag=LOCUS_00720;note=WP_004597692.1 ribonuclease D (Rickettsia prowazekii str. Madrid E) [pid:37.7%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:2.6e-53],MGA_74
sequence02	MetaGeneAnnotator	CDS	7968	8465	.	+	0	ID=MGA_75;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDB2;translation=MRNIALVIASIFLFVSTAMASDYPQTDLEKEMDEMGSLLGSEGIVFRPGKEKSTDTRSKIGNVNKYLYKAAIDVLKFAPLASADSNGGTVITEWYSPAGQKDTQFKVNVYIKDELITPEALEVVAFQRNKVDGKWSDDHKPSPIASVLEDKIIRKARDLYLKSSK;locus_tag=LOCUS_00730;note=Q9ZDB2 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:43.8%25%2C q_cov:97.0%25%2C s_cov:92.8%25%2C Eval:1.0e-36],MGA_75
sequence02	MetaGeneAnnotator	CDS	8475	11000	.	+	0	ID=MGA_76;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDB1;translation=MSTLDIEKKWQQKWDKDAAFIPENNSSKPKYYVLEMFPYPSGKFHVGHLRNYAIGDVISRYLLSSGYNVLHPMGWDAFGLPAENAAIANNTHPGDWTYSNIDAMRDQLKSVGLSYDWNRELASCSPDYYKHEQKFFLDLVERGIAYQKESSVNWDPVDNTVLANEQVVDGRGWRSGALVEKRYLKQWFLKITDYADELLQDINKLEDWPENVRTMQRNWIGKSEGARFYFDINGLEDKIEVYSTTPEAIFGATFVAIAYNHPLVQKVAVNDEIKTFIEKCEHTATSESALEKADKECVYTGLYANHPFDENVKIPVVIANFVLMDYGTGAIYGCPAHDQRDYELVQNTEDLDLLQVVHSDKHEFDLDKHAYIYDLDDIMINSSFLDGLTVKEARKKSIERFEELGIGTRETNYRLRDWGVSRQRYWGCPIPIIYCADCGAVPVPDSDLPVELPKDIDFEQTGNPLDHHPTWKHVDCPKCPATAVRETDTLDTFFESSWYFARFCNNESEQMADKDACDYWLPVDQYIGGIEHAILHLLYARFFTKAMSDVGYLSVREPFKRLLTQGMVLHATYKDDEGNWLYPEDVKEDKNGKLVHSKTGNAVTRGKIEKMSKSKLNVIDLESMLATHGADAIRMFVLSDSPAEKDLEWSAAGIDGCKKFITRLEAFVEKLPELQESGTTNKKLQTKIHSTIKYVSEDIMHYRLNKAIARIRELYNAVSEELSNDKVDVESIKESAAIMIQLLNPFIPHVTEELWERMGNTDPLYKTDWPKFDESKLVSDSYTMAIQVKGKLRATHDFGTDLSDDDIKKIAVELPSVSKHIDGAEIRKIIVVPKKIVNIVI;locus_tag=LOCUS_00740;gene=leuS;EC_number=6.1.1.4;note=Q9ZDB1 leucine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:59.2%25%2C q_cov:97.5%25%2C s_cov:97.7%25%2C Eval:2.9e-305],MGA_76
sequence02	MetaGeneAnnotator	CDS	11026	11841	.	-	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKHKIDLNKFPISSPLICSIIISSCAQQYITHIEPTYVESKITDITHFKEIESTIMIDKNTLVLVDIDDTIITSTTHYGSVDFFKKIVRNNAINKNISHEESIIDIYPRWLLSQRIVETELTDQYIHRILDNKKATILGFTARQPIASDITLSQLKKHMIHFKQPKDFHFTKNYGNIRHGTKRVWSYDYKIATMRNGIVFCHDLNPKGKIFNDLITELNKLRENQSLSPITKVIFIDDSKNNLESVQIAADKIGINFYGYHFHKRTATP;locus_tag=LOCUS_00750;note=MGA_77
sequence02	MetaGeneAnnotator	CDS	12135	12956	.	+	0	ID=MGA_78;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNEVNKKIIELKDYNVSMLDDLNCLSQPINNYGIKFLTFRRVYDDGRLVHFANDKDWLLYSFDHQLWQSTSSLKRISKLNADEQFAHVWLPNAHLTDHVYDAMKRHNLWNGLTLYDKRDDYVDLWAFATDQSNTEVMNLYVNELSVIKRFILYLHDKANSLFFPKDVDLSIKVTSEAEVKSAFVNDNKNFVLDSFGINKFYFDAERKNYLTKKEFFCLNLISKGLSFKEIARILNISPRTVESHINSIKLKTDAHFKNDILHKCKYLINMYN;locus_tag=LOCUS_00760;note=MGA_78
sequence02	MetaGeneAnnotator	CDS	12965	14194	.	+	0	ID=MGA_79;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596777.1;translation=MNKSLKKALIAHTLSKYDVFLFGFLASIIKPLFFPTSEFIANLAMFASFAAGYLIRPIGAIYFSHIGDRYGRKDAFMRTVLFMMFPTLIITFLPGYEYIGLAAPIILIASRLVQGFGSGGEFSGVAVYGVELVKKDRGFTGGLIRSVGFLGTAIGTAIASFMTLSFMPSWAWRISFLIGATATLYSYFLRKKMEESKYFEEIKEKNQIEKVPFFTLVKIHKFRIITIFLVSSCAYVFLYFSTIYMNSLYSDKFGFAPTSNLIISTIIMLSWMVITPVSGIIADRIGLLNLLTKTAWFGLFSTPIAFYIAFSNFSYVSIFCLQMFLTICGGMFFGAVPALFKEIFPTEVRYTGTSFSNTLAQATIGSLSPFYASLIVGISGVDSMAGVVVFISIILGLVGLTLCKRYVNG;locus_tag=LOCUS_00770;note=WP_004596777.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:31.1%25%2C q_cov:99.3%25%2C s_cov:97.6%25%2C Eval:1.7e-49],MGA_79
sequence02	MetaGeneAnnotator	CDS	14187	14717	.	+	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDEDGSEILDLVSSDDEVIGRLSREEIYQNNLTNFRTINVFAINNKNEVWFPIRHHKKKLWPNMIDASIGGHVKSGETYIEAFKRESMEEARLDISNMSWKLITKLLPYKDQIGSFSSVYIIFCDDQEIKFNTDDFSGGNWINFNSIDSFLAKNLAVVKPDLPALIDILIKNYTAA;locus_tag=LOCUS_00780;note=Q97LV8 putative Nudix hydrolase (Clostridium acetobutylicum ATCC 824) [pid:36.3%25%2C q_cov:50.0%25%2C s_cov:43.2%25%2C Eval:5.9e-07%2C partial hit],MGA_80
sequence02	MetaGeneAnnotator	CDS	14749	18111	.	+	0	ID=MGA_81;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVQKKYSKDEFYNQKLSNIMGIKFTYREMDVLTCLASKLDEEKTSSILSISSKTIRVYLRNIRIKIGSSSNESILQFIKNSKQYSLILEYYKYINIESIFKKHLRYIGKKINSKMLNVSVKCKSLSANEKSRMQALSEHLKLANVHIEEPSNQNSSLKSISVLNNNALKYNKKDIIIKLDDFDSSGNDQKEIIDFNNNYYESVFCLIKKLLKSSKLDSIHDEYKEDIQGFICLAEDSKVTNQIYLGVILVFTVFCIFLLFNFKFKGSVKSNLPIYNFELKLYRTSIMNQIKKILSGRMGIKKVVLIGIGGSGKTTIARRYAQNSDSTLIWQIDSITKEKTFLSLQQLAFALSKTDAERSELKAILSLENKSIRYGKFMSYLTQKLKKHSNWLLIYDNVESFQSIRKFFPFDANVWGEGKVIITTRDSNISNNIFIPDDNIIFVPELSASDRYTLFSNIIEKGKLKSIDNVERAKRISFLKQVPPFPLDVSVAAHYIKETNISYELYLDYLLKRNKTFILEQEKILSDIGEYSGTRFYIIAACVKQIIKDNPDFKLLLFLISLIDSQNISREILINYKSNIVVDKFIHFLKRFSLITEQALSVNEQGIDSISLHPSSQKIILSFLRAKIDGNEKQMIYNQISKSLTGYMLDAIAKGDIVKIKLIIRHVETFLKNTNADIPIDIKLGNILSDCYMFIGEYGKSEQLLQKILKTKNFQFQNNTEDFTETISYLGSLYRALGKYDEALKYLEESSKLFIDQYGIQNAATQKSLLNLAYAYRDLGKYLKAQDILEKMIDKLKKLRFDNEIEIAKIKGELAYIYKMQGNYEKSLNSFQECLAVLKNFYDANNVKVAWIYINLGILHRNMGNYKKSKDLLDYGHNIFSDHYGKDNVKIAWVLVQKGNIYRDLGIDKDTIGYFERAHDIYKNFYNESHMRRGWSGAYLGVAYLKYGLFKKSIFFLEQSVRMHKKHFGLNHVKTAWILFHLADAYIKTNNLSSAESFLKQADKIYQNFYGKEHAKYANILLVKGYLNFAKGDMKLAEIMYKDALKIYENNSHIKKYLCLEALGDLYSTLAKNSYSQDKKVYLSLNKKAEHYYNQSLAVILNDFPEKSIHIKRIKSKMK;locus_tag=LOCUS_00790;note=WP_013226882.1 tetratricopeptide repeat protein (Amycolatopsis mediterranei U32) [pid:18.6%25%2C q_cov:64.7%25%2C s_cov:82.0%25%2C Eval:2.0e-14%2C partial hit],MGA_81
sequence02	MetaGeneAnnotator	CDS	18248	20533	.	+	0	ID=MGA_82;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRLNKFILFLSAIIALSFSWYFFFGNVPLDIIRSELPLPYSQVTLERKGIINEIVDRFKEQSGIQAIVLQGVGGSGKTTIARQYASKQNYSIIWEINAKNRETIGASFERLIYSVCTTDELKDELKLISNDTDINSKERKLYLFFSKIIRKYDNWLLIYDDVRQFEDIKKYYPYDELVWGNGKVIITTRNSCIKDNTFIPDSNFINIPELTVAEKSKLFKKILPRNIAFLNDIPYEKLLEQIPSFPLDVITAAYYIKEEKIPFSKYLHYIRVNDGQFARFQEEILSNVGNYDQSRYGIISTSVKNLIDNSNNIYQLLLLCMLDTRNIPYNLITKDKSPDIINQINNMLKLALISTEDKARNFISIHKTTQVVMLSTILSSLSDKRIRDISDKVVLDFLEYLKDNLTKSGVFERRLMINHIHKVLENVEILSSESELLLNQALGEYYIRIDEIEKAKEIFQQIVKNNKEFFVKDASRIATSMVLLAICNISHHENSKAKELLIKANEIFRKSDENDNNVAWTLVWLGVIKRNCSNYEKSIDLLKQAIEIYKKNDEQQDLHWANVYLASAYEGIGDFDKSKILLEKARKFFIENNGPEHLRNAWISTYLGKVYTKMGKHEKAEELLNLSHVLHKKFFGERHDKIGWSKENLAYLHKNLGNYRKSKQLANQALNIYYTYKPVNYLALSRTKMILSNVHAANGEYKEAVKFAHESLNDLKRYHGKNYYGEKNTLITKHIKSSIGVLCGFNNVRSKVRHANMTQE;locus_tag=LOCUS_00800;note=MGA_82
sequence02	MetaGeneAnnotator	CDS	20712	24107	.	+	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTHQNKRDELYNLNLREIGGISFTQREIDVLACIVVHNRSEKMIASILSVSPRTIGTHTSNIMKKLGNSTRENIQNIAKKSGKLAYIREYYVHLRVYSMFIKVLQYVGKNLIRQNLNLIVNGSVSKESACNELKKYLEIANINLEFIGSKSKTSYQAVAVYDSNKSEKEAIYLQFEEHISDDEKHSEYVNLYDPDVFYFSVLKLVKFFVDSPRLNKYIDDFHSEYKSIIGLSIAMPEISDLQAKYVVSTRRIVQFSTVIFLVLVFIFLLQNNIVFTQREVIKSDMPLISSSIMIDRKDLLLEMDEKIKSSNPIGVIFLLGIEGSGKTTLARKYASSYSKADVIWEINAESKDSLVKSYNDLAYRLCTNENDINELNIILEDKNQKTKLLAVRSFILKHLERYDSWLFIYEDMNSFDELRRFIPSVSEWRKGAVIINTRNANIQSNHHIHKDNIVKVGTLNDQEKYNLFTNIVGGSRYGSDNVKSFLKNIPPFPLDITVSAYYIKEEKIPYSEYIDVMNVANESVVDIQEDIMRDVGVYKKTRLGILVSSIQKINSINPDFKDLLFFCSLINSESISKELLLNFKDEKVVNDFIFYLKEFSLINIESQDENNKIKSFSIIATSQVVIKNYLKQLLSGVECEKIAKSAVNTFKQYFDNNNDTIEKEKNLVFYKHIESLIKNRELIEPKEVAYFSRLIGVYYVANENCERAKNFLKESLDWYNRYKSGYSAEIAEISVNLGELYLFIGEYESANQFLHVAREIYSKNIKNNECALSWTYALLGYNFRAMENYKQAEIYLTKSLSLHKECRYLSKKARILGYLGSVHRNLGNYDTALNFLIRSNNLIIDTFGEDHFRKYWIDNYLGQVYLCQGRYMKAVKFLESSALNYLKKFGNKDSRTIWAYTWLGSLKGSLGQFEEASDILNKSYVRFTKLYPSKHLTIAWCSNLLGNIYRQLEDYNLAMHHLEEAQEIFGAKLGKNSIKGAWNLLNLGLLYRDQNELDKAEKCLEKALNIYYEKNGHDHKRTAEAMAELGYTKFLQGHVDKGEKMIEEALGVMTKIDHSNRFTMLLKLADINKDKLNKYELSADEKNMLNDQILKYMNSALDIVSSELPPDSYHVIRTKQKIQKYLEINF;locus_tag=LOCUS_00810;note=WP_011144079.1 tetratricopeptide repeat protein (Gloeobacter violaceus PCC 7421) [pid:24.3%25%2C q_cov:17.7%25%2C s_cov:39.8%25%2C Eval:1.9e-07%2C partial hit],MGA_83
sequence02	MetaGeneAnnotator	CDS	24097	25077	.	-	0	ID=MGA_84;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010948164.1;translation=MKNITKIIISILLWIHCSLASETKIITHNINESYINIDSIIEKINSKKVLSLSKEETIKMLYQLNEFDLGRFLLNNRGLNGYWISYLILRGVKNKQVHPLEKWLIQRAPTVLATRERFYIFQDRTKKIVESKSKSHQINIASIPCGLLDDLLTIDFNTKNKINITGIDLDSNSLSMAKINAENYNKNHKIQIIKGDAWNLKFEETFDIILSNGLSIYEKNPDRLVNLYKEFHKALKADGRLITSFITPPPTYSKESPWINVDQEDLKKQISIFADILSVKWREYRTEQETRDLLEKAGFEIDEIIYDSHHIFPTVIVKKSGVKTKS;locus_tag=LOCUS_00820;note=WP_010948164.1 hypothetical protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:38.3%25%2C q_cov:92.3%25%2C s_cov:100.0%25%2C Eval:2.4e-56],MGA_84
sequence02	MetaGeneAnnotator	CDS	25107	28799	.	-	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPTTYFAKLDELYKFHLYEIDNIKFTKREIDIIACIMHNKGEKKIANILSISHRTVGTHQHNIMMKMEVSSRDLIINFIEKSGKSKLIDEYYFNLTILMRFEAKLKLIGENYKTKPINIIINDNMELAKKLCIKSFKKHLQLANIIVCNKDNNNAKLNIHCILKSDNFKESELESVFLKLDKNIEYQSLNTKKIIDFTEKTNYYDSIFALIKAIRDDKQLIKTIKDFDNESLNLANNFNGVTTITQEPLFSRIIVNSLVFKISVFLILLCTIFFLSTINHNQNKQIRYDLVLPHNSFLLERSTTLNRIKSILNNKDIGIVALVGIGGSGKTILARNHAKKHTGDLIWEINAETSKTLLSSFEQLAYAISEDFQDKQRLKNIQNITDLSERRKKLRIYITKHIKNYHNWLFIYDNVNDFREIADFFPHDKQVWGTGQVILTTRNSNIANNGLITEKNVIMVPELKDSEKIDLFKKIIGKSKIKTHSDKNDLNLFTKHIPPFPLDIVTAASYIKNTGISFNEYTKNITYPTNYFEKAQMGFLKNTGYYNNTRYGIITLSIKQLIDEGKDFQDLLLLISLMKSQNIPRDLLVDYKGEIVVHNFLRKIKMYSFILANKEEHRNSYNSFNIHRTVQNISYDFLTKSILPQDYQTILKSQISLFSNYLSKKSNNNTEFSAIKILEGHSEKFLNTTKNSLSKEEQVDLEIELANYYLKTTKFYKAKRLLKKCIKTAELKYGKYSPEVSKIFYLLGVTYYNISEYNKAKEALKESIKINEKLFKIGSIEIAEPLFYLAIIESDIGHNYEAIKLFEPTSIVIQNHYGENHPKTARILMHLAKALYRVGQYNRSEKLLNKALSIYTNAYGAEHPRVAEALCIISSLYRQKGYYDDSIEMLNKALKIRLSEYGDDHVSVAEIKVKFAHTYRHLGKYKLAINCLKNAMTIYKNKYGMNNRVTACTMTYLGHVFWDQGKIDDAIRLLNHASKILVKKHGKEDMYTAWCFLRLGYVLTYAGNNNKAKKFIEEGYKEYGKYYKSNHIERAWADVYLGNFYNRTNNLLLAQSHLEKALKAYQNHFGAQHIRTSWIKKILSDNYNRQGDFAKALKYSKEAYDSYKLHYGATHIKTALALQKMGQIYFFNGILEGENLVRRALAILENRNSTKIYTTLKIIADIELNKAQEYSKNSNNSKAQKHYKIAQEYLDRALLIAKKNLPSDSQLIRIIEEKSAQLASNRAFE;locus_tag=LOCUS_00830;note=WP_011141887.1 hypothetical protein (Gloeobacter violaceus PCC 7421) [pid:29.0%25%2C q_cov:22.4%25%2C s_cov:27.6%25%2C Eval:4.4e-26%2C partial hit],MGA_85
sequence02	MetaGeneAnnotator	CDS	29091	29912	.	+	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFRLYKATSYLVLAFCALNSSSYSYATESSLGKSVVERAKKQITPKLSIDQYIKLQKYAYDYIVNNKYNIKPEKNESGFYRINIKTPDFIDSNLGIEKLRINYWPIDDSNKILAESIHDHPRYFESYILYGGYVHSIYNMHEKSNGEDSEKFNLYRINKLADGTKSFDHLGESYVTKNRDERVKEGKLVIMPTNVVHRVLYSVPGSLSMNIVYNDKTNKDYFYKFVSRSGSKKDVKLTRAKISGEKRDELLNQIEKRLFNSLFQKGHISIN;locus_tag=LOCUS_00840;note=MGA_86
sequence02	MetaGeneAnnotator	CDS	29973	30749	.	-	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNINNKLWSLLLVAILLSACSKTTTIRHHKDFQNQLSKSKTLTILPATVEVVSVDASGKTTRNYDYESLVEDVIIDVLRPKLGQMGYKTKFLSRREIHNNKLSRNVLSFREDYNKKIAELYNAIEWQEEKAQNVNLFLEKYAKEVAKLANSDLVIFVEYHLRAKTSGACTKDFAVAVLSAALVGAAGSQDPAELLSIRIAIINPHNGQFVWSNFARTGFGTFSGAFSKNAQNIETKRLKEIFDTALKALPTRDKLNS;locus_tag=LOCUS_00850;note=MGA_87
sequence02	MetaGeneAnnotator	CDS	30759	31364	.	-	0	ID=MGA_88;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYNNIVVIVTRSMIKKFNNMKNFKISSLLLIAILSLTGCARDLSSTTYTSDSTLNIVLEGIVVSTREIKIKDSDRLSDNTTGAALGGLGGGAIAHSSGGKTGAVVGGAVAGAVVGALGQSALSSAKGTEFIVKVDKSKLSDDYYEGSARMRNAIAAAKATGMITVIQTSEKTKSKKIQVGENVLVIISENRSRVIRDVSK;locus_tag=LOCUS_00860;note=MGA_88
sequence02	MetaGeneAnnotator	CDS	31367	32569	.	-	0	ID=MGA_89;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011260957.1;translation=MFHVFMQENTEYDVVIVGAGAAGLMAAAHSGAKGKQVLLIEHTAKIGEKIRISGGGRCNFTNLNTSSKNFLCSNPHFVKSALSQYTQNDFIRLVESYNIAYHEKTLGQLFCDGSSKQIINMLLEECKKYHVTIKTECSVSDISKNDKFTVKSNFGEFTSNAVVIATGGLSIPKIGASDFGYEIAKKFGHNIIPTAPALVPLTIHEKELEWYTKLRGVSNHSVVSHNKTDFEEAILFTHKGLSGPAILQISSHMNKFENETISINLLPHLNLSEKFIIDKNSKQTVANYLKKYLTNRLVDSLALMNNDFNRAITDLSNEKLFNIAQYIHNFQAPINGSEGYLKAEVTSGGVDTDEISSKTMESKRVPNLYFIGEVLDVTGWLGGYNFQWAWSSGATFGRAL;locus_tag=LOCUS_00870;gene=yhiN;note=WP_011260957.1 oxidoreductase (Vibrio fischeri ES114) [pid:49.5%25%2C q_cov:93.8%25%2C s_cov:95.7%25%2C Eval:2.9e-102],MGA_89
sequence02	MetaGeneAnnotator	CDS	32695	33444	.	+	0	ID=MGA_90;product=SIMPL domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005453781.1;translation=MNDEKCITTKKSCKFEMFFLGLCLAFGLAVGGYFIGQTMYNAKVALNTTDVKGLAVRRVEADLANWTIKFNVATADRDQISLLYKELEEQQKTIINLLKENGLGNDEIQIGVVDHNYYEYRDENQKVVDQSHQLTGSLNIETKNVRLISKVRVAVNKLIAQGINVENRAPRYLFTKLNEIKPDMLREAAKNARIAANEFAQNADANVGGIRSARQGSFTVRDIGETYDDTTKIDKEVRVVTNITFYLID;locus_tag=LOCUS_00880;note=WP_005453781.1 SIMPL domain-containing protein (Vibrio parahaemolyticus RIMD 2210633) [pid:33.6%25%2C q_cov:92.4%25%2C s_cov:95.4%25%2C Eval:3.3e-30],MGA_90
sequence02	MetaGeneAnnotator	CDS	33462	34160	.	+	0	ID=MGA_91;product=putative RNA pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD06;translation=MRIAKFIAASGLCSRRDAEKWIDEGRVEVDGKVLSSPALNISESNIIKVDGKIIESLPETKLWVYYKPLGLITTHSDPEGRPTIFEQLRKLPRVVSVGRLDINSEGILLLTNNGELSRYFEKPENNIERKYKVRVYGRGRSLDIENKKIIIDEIVYRPKSIKLTKKSGANSWYEVVLTEGKNREIRRIFEHFGFEVSRLIRTSYGVYNLGNMQPGEFKEVKINENYRWEAQK;locus_tag=LOCUS_00890;EC_number=5.4.99.-;note=Q9ZD06 putative RNA pseudouridine synthase (Rickettsia prowazekii str. Madrid E) [pid:54.1%25%2C q_cov:94.4%25%2C s_cov:93.6%25%2C Eval:2.5e-66],MGA_91
sequence02	MetaGeneAnnotator	CDS	34129	34692	.	+	0	ID=MGA_92;product=putative methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD05;translation=MRIIAGKHKNRIIPSLKNSNYRPSTTKFREALFSILSSGEFVEHPPYEGANILDLFAGTGSLSFEALSRGAKTITLLDNDKDHLKVAKDFAVKIGEEDNVKFLLASAISLPFAAEQYSLVFMDPPYYNQFVEKSLISLIKNRWLKNKAIIVVEMEKREVFIMPENVSLVKEKIYGNNKLLILRYEQE;locus_tag=LOCUS_00900;EC_number=2.1.1.-;note=Q9ZD05 putative methylase (Rickettsia prowazekii str. Madrid E) [pid:41.3%25%2C q_cov:98.4%25%2C s_cov:97.5%25%2C Eval:3.5e-40],MGA_92
sequence02	MetaGeneAnnotator	CDS	34679	36016	.	+	0	ID=MGA_93;product=DNA repair protein RadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD04;translation=MSKNKKQFACAACGSISGKWMGQCPDCMEWGTISEEVMSASKIAVSKIGNVQTVQSLADEVESTIRTKTPIEELNRVLGGGLVSGSAILIGGDPGIGKSTLLLQLSSSLSQNNMGCLYITGEESINQIKLRGMRLGINDNKTGLLAATNVEDIISTIDKNKQGLDLVVIDSIQTIATGDLSSAPGTVSQIRACSNMLINYAKQNNITLLLACHVNKDGQLAGPKVLEHMVDTVLYFEGDHNNHFRILRSIKNRFGGVNEIGVFEMTSKGLVEISNPSELFLMERENNVSGSAVFAGIEGSRPLLIEIQALIAPTNMATPRRSVVGWDNNRLSMIIAVLGVRFGLNLAAHEVYLSVAGGLRITEPAADLAVAAALISAASNTPLPKGSIFFGEVGLSGEVRKVSQTEARVKEASKLGFEQIYCSTKGHFDGLNQVMHLKQLKGVLQ;locus_tag=LOCUS_00910;gene=radA;EC_number=3.6.4.-;note=Q9ZD04 DNA repair protein RadA (Rickettsia prowazekii str. Madrid E) [pid:61.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-159],MGA_93
sequence02	MetaGeneAnnotator	CDS	36034	36615	.	+	0	ID=MGA_94;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMQYIKKNKDWILINLPALVILIFLIVDPSMHKTMRAWTGYIAVSLLVLLLAINPLKTLFKNIVFLSKISRYRRVVGVAIFTYSVVHLLCYLIKKGGILAAMKYVFHPVIITGLISFTIFIPLAITSNNYFVKKMGHVKWKKLHEKVYIAEFGIIMHMILMGGTARLVGILSFIPLIIIQYMRRLRKKRLNNR;locus_tag=LOCUS_00920;note=P58769 protein-methionine-sulfoxide reductase heme-binding subunit MsrQ (Agrobacterium fabrum str. C58) [pid:28.7%25%2C q_cov:68.9%25%2C s_cov:60.5%25%2C Eval:1.1e-10%2C partial hit],MGA_94
sequence02	MetaGeneAnnotator	CDS	36817	37251	.	-	0	ID=MGA_95;product=RNA polymerase-binding transcription factor DksA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCE1;translation=MEKVVLPEGYKPSESEEYMNPMQLEYFKQKLQNWRLELLDESRETLTHLKEENWNEPDLNDRASVETETTIELRTRDRYRKLIDKIEHTISRIDAGDYGYCEETGEEIGLKRLEARPVATLCIDAQMRHENYEKTHLDEDKLDA;locus_tag=LOCUS_00930;gene=dksA;note=Q9ZCE1 RNA polymerase-binding transcription factor DksA (Rickettsia prowazekii str. Madrid E) [pid:65.5%25%2C q_cov:96.5%25%2C s_cov:97.2%25%2C Eval:7.1e-48],MGA_95
sequence02	MetaGeneAnnotator	CDS	37324	38259	.	-	0	ID=MGA_96;product=tyrosine recombinase XerC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCE0;translation=MIKNCDQEMTRIINNWQDYLSCQRNYSQNTLDSYLNDLNHYLSFLSGYYSTQISIDQIKSVDIRCARSWLSSRTQDNFNLASTARALSSVKNFYKYLEKKFDITCHAIFTVRSPKKPKNLPKALTKSETEISLDNIEMLGDEEWIHYRNKALLTLIYASGLRISEALSITQKHLENTEFIKIVGKGGKERLIPWITESKLLVKKYFKLMPYHIEIDEPIFRGKRGKPLQRSVFNKELMNLRRMLGLPEHLSSHAFRHSFATHLLENGADLRSIQDLLGHKSLSTTQRYTKINHSHLESVYEKAHPGSKNNF;locus_tag=LOCUS_00940;gene=xerC;note=Q9ZCE0 tyrosine recombinase XerC (Rickettsia prowazekii str. Madrid E) [pid:56.8%25%2C q_cov:97.4%25%2C s_cov:99.3%25%2C Eval:8.1e-99],MGA_96
sequence02	MetaGeneAnnotator	CDS	38262	39599	.	-	0	ID=MGA_97;product=tRNA modification GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCI1;translation=MNSIFAQCTAPGKAGVAVFRLSGPESLMALEQLIAQKVDNLEPRKLYFRKIYNPKTKEQIDEAMVVYFIGDSSFTGETSVEIHTHGSLAVIKQMNQVLSSIYGLRLAEPGEFAKRSFINGKMDLTAAEGLADLIDAETELQHRQAIRQLGGGLEKIYDAWRQELLSLISLLEAYIDFPDEDIPDETLKQVATKIDNLITEIMNHLNDNNRGERLRDGLKLAIIGKPNVGKSSLLNFLMKREVAIVSDIAGTTRDVLEGHLDIGGYPIILQDTAGIHTETKDIIEQKGIEKAKQVFQNSDIKIIIYDATENSHKNDDFADLVDENTIVLLNKIDLSKSKIANDLDKRGSLSISVKQNIGLDKLVDRIIEVAENIAKPSDTPQITRARHRSQLEQAITYLTNFSLDDDLVLVTEDIRMTIRSLSNITGKVSVDEILGEIFSNFCIGK;locus_tag=LOCUS_00950;gene=mnmE;EC_number=3.6.-.-;note=Q9ZCI1 tRNA modification GTPase MnmE (Rickettsia prowazekii str. Madrid E) [pid:58.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-142],MGA_97
sequence02	MetaGeneAnnotator	CDS	39693	44498	.	+	0	ID=MGA_98;product=glutamate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596985.1;translation=MGNNLTNKKSLALSELNCKIDDFSTEILDLVSASSKGNLYKKFVERFLMYIPVDYRSRDKIKLFGDFTHEAYDFFLSKPDGIRKIEIIKGDFQNNPSITILISAENRPFIIDSLNSLMFKLALQTIFTFHPVITAVRDDKGALEDIAAHAKNGVHESLVYIKVLGSFDDDELEEIKSEISKIIDLVDYTYDSWQSLLNKLISITTDIVHHKEVYEKANLSAEETLDFLNWLQKNNITFLGAADFDVKTKKLSGTEGVEEIWQDNLDEISTIIEFSESDYYENKLVMLGKINKISPVHRNALVDYILIKKLDNDGEYRGGTIIFGLYGTAIYFQSIKTIPILRGKMNHVLDESGFPMNGYNAKKIKNIIESLPRDILIQIDEDDLYCMCIHMLSSMRSHKLKLFVQKDWSNSFVNIIVFLPRERLTPEVYNEISCYLTDKFDSEIIADDITVVAQNFSHLFATLAVKDSSKLEFDHDEMEKDLIQITTNWSDGLLHKLCEELGEYEGGIRHKQIEPSFPAEYRHKFNADATIDDVHHLEQASESNKVVVNLIKGEGNEYHLKFYSPEISLTLSETLPAIENLGFTAIDEQSFAIKESDDFKYSWIYEFKLSSPIEIEVPFDALKKNIEEALGKMSEGELVSDSLSKMLVLSGFDWRKVKLLKALTRYLHQTGLPYGKGYVQQTLVKHYKYTEKLVDYFTAKFDPKNLSEDKAKSLSDEMQEYLDTVSSSTEDKVLQNMRGVVGAILRTNFYQKKNNKIKNYLSFKFDSSKVPDLPLPHPYAEIFVYSNDFEGVHLRGGKVARGGLRWSDRGEDYRTEVLGLMKSQMTKNTVIVPVGSKGCFYINLVQGGQSREEYMKKVVNCYQNFLRGLLDLTDNLIEGQVVQPKDTVIYDDENPYLVVAADKGTATFSDFANDVSSEYNFWLGDAFASGGSVGYDHKKMGITAKGAWISAQSHFLSMGIDIQTETFTAVGIGDMSGDVFGNGMLLSKYTRLIAAFNHQHIFIDPNPDHVSSYEERLRLFTTPRTRWSDYNLKLISKGGGVFDRSAKILNISPEIKELLDLEVDTIVPDDLIKAILKARVDLLWNGGIGTYIKSSSENNVDIGDKANDALRVNGNQVRAKVIGEGGNLGLSQLGRIEYALSGGIINTDFIDNSAGVDCSDHEVNIKIALNSAVTSGKISMEERNDLLEKMTSSVEDLVLVDNYDQNLAITVLSLSPTLNIESFSQLTRELENEGLLDPEVEFLPNKSELSRRAVAKEGMTRAELSVLLSYSKMSLDADLADSSFTKDEYFESHLYNYFPEMMREKFAEEIKNHPLRNEIIRTVINNKLVNQIGGPVISSIKKETGGHSCDIARAHAVVAEVFDLDNLWDQVAKLDRSIDINIKVEMLSDLVRIMRRGIAWFVRNIKAPINISETIEIYSKQTSELTDIISKLLVGTTKTRFFSRIDHFTSAGADKKLARSVATLEVLVSAFDIIFLAKQMNKKNEDIANLYFECGDLLSIDWLRQSCEAQIDQSFWNRLSVQSLKDDFYDKQRRLIKAILLSSNSNGSVPKLKTWIKNNASDAHIFVSFIEDIKLQEALNLNMIILANKKLEIFLRKLEVS;locus_tag=LOCUS_00960;note=WP_004596985.1 glutamate dehydrogenase (Rickettsia prowazekii str. Madrid E) [pid:53.5%25%2C q_cov:99.4%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_98
sequence02	MetaGeneAnnotator	CDS	44500	44916	.	+	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSKLKEAREEAGYTVEEVAEKLNIRKQYIICLEEGNFEGIPGKVYVEGYTKMYTEFLGIEAPNKIAQNVMQTSEVNVNNNQKVKRKYVVFFSAMMLILVILIYSMIKSSKVQVVEVVEDELIQNIQEQNGNNEEEFD;locus_tag=LOCUS_00970;note=WP_000137461.1 transcriptional regulator (Bacillus cereus ATCC 14579) [pid:30.4%25%2C q_cov:50.0%25%2C s_cov:22.8%25%2C Eval:2.9e-08%2C partial hit],MGA_99
sequence02	MetaGeneAnnotator	CDS	44888	45130	.	+	0	ID=MGA_100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEITKKNLIDLINEIGENIDRLNAKLAKQEGFIEDLKSQNEKLRQNNHETLDQIKEYIEELEQIRSQYVDSNNNIGGEKF;locus_tag=LOCUS_00980;note=MGA_100
sequence02	MetaGeneAnnotator	CDS	45090	45392	.	+	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIVTITLAGRNFKLSCSEDSKPHIEKLAEKLDLELGEMSKSNSSASFEMLLVMTALGLMDERHSRTKESAGEVLEKAEKDHHKQLSALFDELKNVANKF;locus_tag=LOCUS_00990;note=MGA_101
sequence02	MetaGeneAnnotator	CDS	45633	45812	.	-	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQYKLDRDSALAIMGCVDLYSYASVMETSSSRHTQNLRTALAVGRSGPSEPVRIGGVSK;locus_tag=LOCUS_01000;note=MGA_102
sequence02	MetaGeneAnnotator	CDS	46461	47339	.	-	0	ID=MGA_103;product=phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963925.1;translation=MSEFEWSLIELRSESLTEFFTLMPFMAGSIFYMSIIAIGFWLRPGGKTFAQLGALIPISILINLILKNSFAVLRPHEDLHLIDVNSMLGFPSGDIMIATIFWGIIALRWQKTYAIALSVSMVSIIFISRIYLGVHSIADVVGGLAFGLITLIWWRSNFMQNIYHKWLNKHSSSYWGLLLTILCLYFLTAEDDIYSKDFVVATGALIGFGLSLKTISRWHFEPGMFSANHISSIAMSYIMLASLSAVIPTIMINETTKIVSGILEYTLLVFMIYCIFPRLQRAIARKEQSDNQ;locus_tag=LOCUS_01010;note=WP_010963925.1 phosphatase (Clostridium acetobutylicum ATCC 824) [pid:26.8%25%2C q_cov:75.7%25%2C s_cov:75.5%25%2C Eval:2.9e-10],MGA_103
sequence02	MetaGeneAnnotator	CDS	47436	48314	.	-	0	ID=MGA_104;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKKNIVMRKLAQILITICFVMHFNLKVSAGGADIEKEESALLHREKIKQLIQSMRDGNYTNTGGAEAANLLSNKALLKNPSIKDGNSLEIGCGTGAAADFISKGGYNNIWAVDINEKLIEEAKSIYPNVNFTVADVTKLTKTFDDEFFSFIFSFNVAHAVKDKVAMLQRLKAISKEGAILAIFDYYQKDEKTLELFKNLSGKQMFPIELNNLKMMMKILGWEIIEETDITDKYKFWYNALIDKIKHSADMLKASDYTEEEISLSIEKIQYLLDSIESDKLGGIILIAKKI;locus_tag=LOCUS_01020;note=WP_010890768.1 SAM-dependent methyltransferase (Clostridium acetobutylicum ATCC 824) [pid:26.4%25%2C q_cov:63.7%25%2C s_cov:76.4%25%2C Eval:6.0e-08%2C partial hit],MGA_104
sequence02	MetaGeneAnnotator	CDS	48304	48924	.	-	0	ID=MGA_105;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZXW6;translation=MTLKIITIEEQEDRNNSALKNIAEDVEFPLTLEDKELIKEMQDIIFAAEGVGLAAPQVNIRKKIAIIYIPESASLLREDVRTYPIHTIINPEYSPIPEDGFAADFEGCYSVKSVYGKVKRYKSINLKYQDEEGKRIAKKVSGFYARVLQHEIDHLNGILITDRLTPECTQGTFSEMLNLRRESLPKEKREHFDNILRKKNIVINEK;locus_tag=LOCUS_01030;gene=def;EC_number=3.5.1.88;note=Q5ZXW6 peptide deformylase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:58.3%25%2C q_cov:96.6%25%2C s_cov:83.1%25%2C Eval:2.6e-61],MGA_105
sequence02	MetaGeneAnnotator	CDS	49103	49777	.	+	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNLKKLPAIIAVSTMLSSSALADNAFVAVGLNLSTTGIGAEARTPIAEGFYGRLGANYFKYSQKFTDGEINLKGDLTLLSAPIMVDWHPFDDSGFRLSAGVAYNSNKVKAKGTPAQGVTINNVFFTPAQIGSVTAELTLGNAIAGVASVGYDSSFVSNGPLSFHFELGAMYTGKPKLSTSSTGTGGALFLREYKKDADKAFKDVEKYLKFFPILKIGVKYAI;locus_tag=LOCUS_01040;note=MGA_106
sequence02	MetaGeneAnnotator	CDS	50152	50433	.	+	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNAFKTSAFRAFAYEIGRRLSIAMVTRATKWSIKKFNEEPGKNQPKTINKENLLKFEFRDFLTDTDSLSLTDAPDLDGNDTYLPCLFESNL;locus_tag=LOCUS_01050;note=MGA_107
sequence02	MetaGeneAnnotator	CDS	50531	51352	.	-	0	ID=MGA_108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTDLDTSNSSYSSTSSDSKECKSKYKVVVFDFDWSMINCHSHNEAVVAKQLPITLGDSRGLILDGKAYGETVIYPEYDETALEEWATGFFEAKDRFNFTAMQVDFFRELLADGVQVVIASHTKYPKIIDVALVKMGFTLEEIAKIHVICGAPLDEKSGKNEHIDLAMKLAGVESYEDVLLIDDSDMNLHAAGSKNIGVVKVHPMSPFVYDAQIVCGYIEEDDESTDYGSVDDLLTLLKVDFGDREDSEHSEDTVIEIGCCLLLDSSKDGNL;locus_tag=LOCUS_01060;note=MGA_108
sequence02	MetaGeneAnnotator	CDS	51610	53862	.	+	0	ID=MGA_109;product=DNA translocase FtsK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCD4;translation=MRYLRKIFAHSKVRSASLLIIAGLVLASLVSYSSSDPSFNLVTDNSPSNFLLYFGSYLSDILFQFIGLAAYIIPLCAIVWSYLLFRDGELSLSFLRTLSMFVSISFACAGLNLVVIGYLPAGTGGIVGISVWYFSKEYLNISGIEDLLSAAFIITSIFFLILSLGIKFKTYAKIMSSFFRIIGKAISKTGILQKIGSKLGSLDSGKAYYAEGEFASVNTQEESFETPFEQSLATKKRKSPSIAKKAPTPRNIDAGILPPIDLLDDANSQNVKPQSQSELQEKSEKLLSVLQDFGVKGKINEVREGPVVTMYEFEPAAGTKSSRVIGLADDIARSLSAISTRIAVMPGKNALGIELPNKQRMFFRLKELLKTKEFQDPNISLPIVLGKDLGGSPLVADLAKMPHLLVAGTTGSGKSVAINTMIMSLLYRYTPEECRMIMIDPKMLELSAYDNIPHLMTPVVTEPGKAVVALKWAVKEMENRYRLMSHLGVRNIANYNAKLQEAIKKGEILERKIQTGFDPETGKPIHDVVPIDMNNMPFIVVIVDEMADLMLVAGKDIETSIQRLAQMARAAGIHIIMATQRPSVDVITGVIKANFPSRISFKVTSKIDSRTILGEQGSEQLLGMGDMLYMGNSSRILRVHGPFVDDKEVEKVTNFLRENSTPEYISAVTELTDDEQVGGDFSSSSEGGDDMYTQAVNIVRTERKSSISYIQRSLRIGYNRAANLVEEMEKNGILSEPNHSGKREVLLPED;locus_tag=LOCUS_01070;gene=ftsK;note=Q9ZCD4 DNA translocase FtsK (Rickettsia prowazekii str. Madrid E) [pid:58.0%25%2C q_cov:99.6%25%2C s_cov:99.5%25%2C Eval:1.4e-234],MGA_109
sequence02	MetaGeneAnnotator	CDS	53953	54459	.	+	0	ID=MGA_110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKEPEFKVGDRVVYPSHGVGEIVEIESQTIADIKLEVYVISFPHDKMTLRVPVSRAAASGLRTLADKSDVSGVYDILNGKPKRGNKMWSRRAQEYEGKINSGEIEAVAEVVRDLYKNVDNDRSYSERTIYESALNRLASEIAALEKITEAAATEKLVELLKEKLVAA;locus_tag=LOCUS_01080;note=WP_010886193.1 CarD family transcriptional regulator (Rickettsia prowazekii str. Madrid E) [pid:69.2%25%2C q_cov:86.9%25%2C s_cov:72.6%25%2C Eval:1.2e-54%2C partial hit],MGA_110
sequence02	MetaGeneAnnotator	CDS	55073	57514	.	+	0	ID=MGA_111;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596936.1;translation=MLTTKKSESNLFNNTSEDFVPIACHYDENTMLTKNGELLQTIEINGIHSEKISKDLFNLRAVVRKSIAESIDCTKFAFWVHTIRRKADLDDPTEYPNFLTANVHDIWRRKNYWHDKFVNRLYITVVHDAPELKLKNFNSLVNSLSPKIITNFEEKFFSVATQELTRTVDSILEGLSSYGAEKLGIRFEGEECYSDPMFLYRRIMQLNEEDCPVPISDTSKALASHDYTVGSDKLEVIGDSGKKFAAMMSIKEYQEVSAEALDRFLQIPVEMVATEVFYFVDKKEVVPKFEDQNYILGVSGDEQLKKMKGLDKIIDEEDNGVRFCHQQISFMVMGEDLQALDNQVNQASKALSKVGIVHVREDINLEKTFWAQLPANFSFLSRMKPTILDNVAALASLHNFPTGNQYNPWGKAITLLRTEKGTPFFMNFHDENELTTTCIFGEAKAGKTTLLNFLLSEADKFYPTTVYITDDMDSGIYTKARSGKWFQREQNIINPLLCEDSPENREFVFEFFKIITKHYFDPMGETELGLLKLLSENVFELPMENRSLALIFSTVTEGDKGGKALMERVKDFIEDGLYFGVFEGDDPLIITEGDMIAFNLQMFDDANFTKKNYPKEKKLVEQFEYNLNSMRAVKAGVVFSIQNLMKDLGEGPKLFAMDNVDQLINFNYYGPLFEKFSDDMNSINGVFVSTANVDSLLKLQANKVPMEWVNSISTKFILPSEISVKGQDKVIGLDTNELNKLAGLTIPSRMFLIKQNGKSIASELSIGGLPGLTRLFCSGKAERDIYLEVIKEYGDEAPENWVQQLYEEFENIT;locus_tag=LOCUS_01090;note=WP_004596936.1 transporter (Rickettsia prowazekii str. Madrid E) [pid:45.0%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:3.3e-213],MGA_111
sequence02	MetaGeneAnnotator	CDS	57592	60408	.	+	0	ID=MGA_112;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05975;translation=MAGFWDAVGACFTDPCNCGLSDKYRNEYHNGSLARRVKKNYICPPWNKDGGRHDNICLIIKHYPDTPTGYYENICAEEAPDSTYFTPRIRVRGQQCNFLACWTTDNTLDWDGDCVTLASGYGAFPLHRMCARIALPKDDVRDFAQDPGYTNGVHLNSQGATEPDDVIIGSDGQPVTFESPKLCLYRDPAFMSVKEGLSIDFMDLDPNHQSMHKTDKVHPVVEVILFFLSIVTETGTSLADMIGSLFGLLDNGEDGETTFGSVMKDIFSFVGEVISWVGDLIKKFLEEIGQINRAVDDKKYGCVNLPMGPYPPPFCEQVAPFFQVAEVQDICITGSDGSPVASVANSECHVSTLQNNYIRNSVRVGYENLVPLCKNGENPLSTDKCVNIENIGAFASSKGMHTSTARRDIIKHCDSAASGAPCVQSMVPHSCSVSSNGCQDGFRIVYGHNLGGIVTPKQYYRDDLPDCPSSGSAVCQEIWGINRGEFVDISMTFPTHQTAFDVSPLVNNFTLMDKGGRTAYFNSSIVRVSGFNTTFGFRQDPNQICVFEGEFVVGCRDRALIFRPNVYECGASPNPGITCTSSYFAPKFVVSYVAGSDSTSALIEPESVYNPGGINNSINLAGNTFESFVTDDSFVVRPFSGPNSPNPSSLFGRYQDNIPPVSGQTINEDAVYLSGLEYINGKYHVGGKYACLSGSDSTKCPQNPKMCVLSKLLNKNIVQCSIFFSKSIDHGGIKLCSAAQTSTCAAVDSLPRISGGTIPIRSCADNIKCYDGTVELCQISTNPADRINPSPALGSTLSDDQYYNTVVDGPYPTSPSSSAARYDDNNEGVRDKTPVELGLCVAIPQGTCPAENNINADTGNATWPAAQLNQLSRGTCAGGKIPKRYQSDLVRECIANPATKTFNLEPVYRIQRNIFNATYKTYPTNIECVDPPPPPQNP;locus_tag=LOCUS_01100;note=O05975 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:36.5%25%2C q_cov:99.9%25%2C s_cov:85.1%25%2C Eval:7.7e-169],MGA_112
sequence02	MetaGeneAnnotator	CDS	60430	62211	.	+	0	ID=MGA_113;product=outer membrane protein assembly factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389852.1;translation=MYLKLARLIISAFIIVLIYGVQTINAFQSSLKIEIKMENHSSLKNKIKKLAQEIEKTAELYQTSNQRAYWEIEGKKSFLSLLRSEGYYSSTIDVELPSKGENIIIFHIEPWQRYKLSSINIEHSKESNSSVTLPEISKLGLKEGKYAIAEDLILVQEDIMKMIEKDNCLLSLSVSHKAIINHFDDVVDITYIVEAGPRAWVEKVNYKGLKKVKEEYVHKIVNLEKGQCFKRSYVTKARGELQKSGLFATTNPTIPKTTNADGSVPITFNLTERKFRSIKAGVSYGTDLGLGAKFGWENRNYFGSGEDLKVDSFINRDEQIVELNYVEPFYRRRDQKLILGSKFENKKSKAFNNIESSVFGFLERELTPKWSGGFGARFAQSKVKRDVETQHFSLLSTPIYLKLDTRKNILNPRSGHEIRIEAAPFFSVSSKDSPFFKAQISGSRYFGVKTKLSPIIAIRGAYGSILGVRSIKLPINEKFYVGGAQSLRGYEYQLAGELDNKRRPLGGRSFIETSIELRLSMTDTIGVVGFLDSGRSYSAITPNTNLPLMHGAGFGLRYMTDFGPIRADIGFPLKRRKFVDKAFQLYFGIGQSF;locus_tag=LOCUS_01110;note=WP_011389852.1 outer membrane protein assembly factor (Rhodospirillum rubrum ATCC 11170) [pid:30.9%25%2C q_cov:87.0%25%2C s_cov:82.4%25%2C Eval:4.9e-70],MGA_113
sequence02	MetaGeneAnnotator	CDS	62314	65586	.	+	0	ID=MGA_114;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFILKFVVVSVIAFLAVVIPFSLWLNTDEAKQQISGFVENFLEEEFGIDVSIEGLDISLPIIVDASEVSCKDEQGEVINIKNPRINIIPSLMSFWEVTIWSVSADEIRLFKEPQFRISKNNQKSGNRALFNPNIIIKDINFSSIVLDKKFTDQEQDISFSLDSYVMYKSEKQVIDYSLIGQLLSPSIDNFTDNQLEVVGKYDLKKDLVDLRSIKFISQVLNIDGKILADIKKNKLSGIINYNIDNVTKLVPQKIEGLSGSFRGKINLDGSISIPIVKPSGNLDIRLPKNDYFNYYPLAFDGDFRFKPGDIDGSIYFKQGDIEAKGNIRYKDHKLYLKHIRAEAPDFLKTADLMFDTERKIIVGDVSFSDKNLRESSKYFPFLKSGAVDLNFKYSSFDNASQQVKVSGKLKRLNTKYGSFGYVDIDLDILDLWNAKLNDSLLKIRSFNYEDIILKETKLGIKSISDVYNVDCSLVSGQPYPVNLTFNSKIKNDVTSNKLVAKITDLSGELKEVPIKQNSDIDIEIGADQIIKVQNLGIGNGSMNLDAKFGKSKIYANMAIDKAPIIALPDILPDIFDKSLISSDIELSGTNSNPNLEANLKLRDIGFDAKNKNLSMKISSKYKNKQMNLDMRFLKNEKELANSELVLPMKFSLNPWEFSINEKKNFNASLLIHENFDLISFIPMPIGHEASGSLNGNLKAAGTILYPQLSGKINLSNGEYKYKRYGVKFKNIKGDIIADGSSFLLKNIVIEDNFNDKINGSGKFDLKDENKFSLHINTKKFHPLNTRYLQGEVVGNINVSGNSKKALAKGMLDLGPLEIKIPEHFRQNIPSLNISEVIEENDVVVTESENSSYNLDLDIKLNADKQVYVRGWGVDTQLKGKLHITGQAADPIITGSLKSERGRYQEFGKVLNVKEGVLNFDGPISPSPYLNIVGVTNVGDTEIRLVLSGSILNPDISIESSPAHSQETALSKLLFGENPENISTFQALQLADGMRRLSGHGGGFDPLGLGRKILGVDDISFKQDSEDPNKSSVGVGKHLSDKVYFEVESGRSENSTKTKIEVQLTPKISVENVFEPEGNTSLGVNWRFDY;locus_tag=LOCUS_01120;note=MGA_114
sequence02	MetaGeneAnnotator	CDS	65783	68002	.	+	0	ID=MGA_115;product=DNA topoisomerase 4 subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE79;translation=MTKKDLNVENVDFGDAISERYLSYALSTIMSRSLPDVRDGLKPVHRRLLYAMMKLKLDPNSGYKKCARVVGDVIGKYHPHGDTAVYDTLVRLAQEFSLRYPLIDGQGNFGSVDGDNAAAMRYTESRMTEICTLLMEDIDKDTVDFRPTYDDSDSEPELMPAKFPNLLANGTEGIAVGMATSVPPHNLHELCDALIYLIDNQKSATCADMMQFIKGPDFPTGGIIVDSQEGINHAYATGKGSFRVRAKWEKESFSHGLYQIVITEIPYQVQKSKLIERIADLFKEKKIPLVSNIRDESAENIRIVIEPKGRNCSPEMIMESLFKQTPLESRVHLNMNVLSSKGAPQVMNILEVLQEFIAHRKEIITRRTKFRIGKIEDRLEILQALKIAYLNIDEVIRIIREEDDPKKELISKFKINDTQAEAILNIRLRALRKLEEEQINAEHEDLMKEHAELSKILESSRQLWKVVKNELKDIQKRFGSGTELGARKTIFEEVEGAAPVVDISAFIEREPITVICSKMGWIRSMKGHNLDLSSVKYKEGDKQSHVVETYTTDNIIVCSTSGKFFTILADNIARGKGHGESIRLMVDIENHDVVNIIAHKKGQKLLLASNNGKGFIVNSDDLVASTKGGKQVLNVSKDNKCIVCTPAEGDMVAVIGTNRKLVVFGIDELPEMKRGQGVILQKYRDAKLGDAKIFDSNEGLSWNLGAKTRLEKEIMSWRAKRGSIGKIPPTGFPKNNKFN;locus_tag=LOCUS_01130;gene=parC;EC_number=5.99.1.3;note=Q9ZE79 DNA topoisomerase 4 subunit A (Rickettsia prowazekii str. Madrid E) [pid:66.4%25%2C q_cov:99.6%25%2C s_cov:99.7%25%2C Eval:2.6e-297],MGA_115
sequence02	MetaGeneAnnotator	CDS	68246	69634	.	+	0	ID=MGA_116;product=FMN-binding glutamate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010945835.1;translation=MLEFIRPEIQQYFIESDKDGTPFPREIRSLVYQKSKGVRETIAFGTKNNITDVGYQFSYPSLSPKEVPNEKARIIIGGKDCTKPYDASRLNVSGMSFGALSPNAIRALNKGASIGSFAHNTGEGGISPYHLEHGGDLIWQIGTGYFGCRTKDGKFNPEAFEKTAKQDIVKMIEIKLSQGAKPAHGGILPAVKVTEEIAKIRMLEMGKDAVSPPMHSEFSTPIGLLEFVQKLRELSGGKPVGFKLCLGHKTEFMSICKAMIKTGIKPDFITIDGAEGGTGAAPVTFTNRLGTPINEAITFVNNCLVGSNLRDDIKLIASGKVATGYDLVTKIALGADACNAARSMMFALGCIQSLHCNTDACPTGVATQQKVRWSSLHVRDKSVRVANFHKRTVHSFLELVGALGRDNPDDLDPSYIRRYADLGTSKSFAVIYPQLNAGELLDKKSAGVYVDLWNQAKAESFR;locus_tag=LOCUS_01140;note=WP_010945835.1 FMN-binding glutamate synthase family protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:60.0%25%2C q_cov:99.6%25%2C s_cov:87.8%25%2C Eval:9.2e-159],MGA_116
sequence02	MetaGeneAnnotator	CDS	69754	70548	.	+	0	ID=MGA_117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLFLLTSLVLSTNAVASTIAEQKGTHSIILAGGSGKRMKSDLPKVLHKLNGVPLVEHVIKLAKDINSDSICVVTSPNLKDRLSYSGINVAIQDKPKGTGHAVLSAESCLKDKTGDLFILYGDTPNIKPDTLSKMKKVKNAKDAQIAVLGMRPEDTKRYGRIFVNESGYVDRIVEHRDASDEERKNNLCNSGVFLVDLEYLLPLLKDIKNNNAAGEYYLTDIVQIAQNKDLKTVVIEAHEHELLGVNTQEELKAVSQLKEQK;locus_tag=LOCUS_01150;note=Q2RPX0 bifunctional protein GlmU (Rhodospirillum rubrum ATCC 11170) [pid:43.8%25%2C q_cov:86.7%25%2C s_cov:51.6%25%2C Eval:6.4e-43%2C partial hit],MGA_117
sequence02	MetaGeneAnnotator	CDS	70624	71196	.	-	0	ID=MGA_118;product=putative O-phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P9WL55;translation=MQKVILLNGPSSAGKTSIANKLQEANKYNFMQIGIDKVISMMPDHLNDWTGKQSTEGFWWQINLDKNGKTYSKIMLGEFAEKVSNSFFSMTKALLDDGHNVIIDEVCLDQKKANNWQKILSNFDTYYIGIIANLKELEKREKIRGDRMIGSSRSQAEIVHTVGFKYNLMIDTTENTINESSKMILDLLKK;locus_tag=LOCUS_01160;EC_number=2.7.1.-;note=P9WL55 putative O-phosphotransferase (Mycobacterium tuberculosis H37Rv) [pid:29.4%25%2C q_cov:94.7%25%2C s_cov:79.1%25%2C Eval:1.6e-14],MGA_118
sequence03	MetaGeneAnnotator	CDS	196	1392	.	-	0	ID=MGA_119;product=dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDY4;translation=MSVEIKVPALGESVSEATIAKWYKKPGDAVRVDELLLELETEKVTLEVNATAEGVLESIDVEEDATVEVGQVVGKIKEGSAPAAPAPAAPTASAPAPTPAASSTGGKTVDPATTMPPSVQKMVTENKLNPANIPGTGKDGRINKGDVINALSNPGVVSAPALEGGEKPVERIRMSRLRKTIAQRLKESQNTAAILSTFNEIDMTNVIAMRKKHRDEFQEKHGIKLGFMSFFTKAVCSALKQVPSVNAEMEGDDIIYKQYYDIGVAVGTEQGLVVPVVRNADKLSFSGIESEIVSLAVKAREGKLSMKELTGGTFSITNGGVYGSLLSTPIINPPQTGIIGLHATQERPVAIDGKVEIRPMMYIALSYDHRVIDGKDAVTFLVKVKEAIEDPERLLLDM;locus_tag=LOCUS_01170;gene=sucB;EC_number=2.3.1.61;note=Q9ZDY4 dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex (Rickettsia prowazekii str. Madrid E) [pid:60.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-133],MGA_119
sequence03	MetaGeneAnnotator	CDS	1421	4249	.	-	0	ID=MGA_120;product=2-oxoglutarate dehydrogenase E1 component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDY3;translation=MSSDFEQTGFLFGSNSVFIEELYQKYLEDPSSIDPSWVEFFKDQVNFTPMKSTSRIIIKDEPKSDKLGSDKSKSVVTGNTLSENSLRAKFMIMAYREHGHNLANLDPLGLEVKKTHSELKLDIEDFGFSADQLNEEVDITGELSDITICTIGELRDILERTYSGSVAAEFAHVENTEEQRWLYDQLEGAHTHTMFSDEDKKKMLKDLVEVEGFEQYLHTKFPGAKRFSVEGGDASIICLDKVIELSALAGASEAVLGLAHRGRLSTLTKVMKKPYRAVLSEFMGSSAFPSDLGIAGDVKYHMGFSSDKVINENKKIHLSLTPNPSHLEAVNPVVAGKVRAKQDYMGRDRASVVGILVHGDAAFCGQGIVAESLVMSGLKPYDVGGIFHLVINNQIGFTANAYDSRPGRYCTEVAKMVGAPILHVNGDDIEAVVLATQIACNYRSKFKKDVVVDIVCYRKYGHNEGDEPMYTQGLMYNVIKTKPTPGAIYAEKLAKQSTIDNEYFAKLKQEFKAHLDKEFSQVESYKPRAQWLEGHWSGLERKNDEKLVTGVAKSHLKKLTTSLCSIPESFKANKKLLKLFASRTETINKGQPIDWATAEQLAFATLLEDGTPIRITGQDAGRGTFSHRHAVLHSQIDRSIYEPLNNISDKQAFFEIADSNLSEYGVLGFEYGYSLVNPKHLVIWEAQFGDFCNGAQIMFDQFISSAETKWLRMSGLVCLLPNGMEGQGPEHSSARLERFLQLCAEDNMQVVYPTTPASIFHLLRRQVMRNFRKPLMVMSPKSLLRHKLAVSDISELDKGTTFSPVIDEIDSEVKTSSVKKVIFCAGKVYYDLLEKRREAKKNDTAIVRLEQLYPFAEDMIVKVLKKYNKATEYVWAQEEPRNMGCWRFIRAHMEAAFAKAGVKQHLTYAGRSEASSPAVGYMYVHNKQQETLVHEALGLKLK;locus_tag=LOCUS_01180;gene=sucA;EC_number=1.2.4.2;note=Q9ZDY3 2-oxoglutarate dehydrogenase E1 component (Rickettsia prowazekii str. Madrid E) [pid:58.4%25%2C q_cov:99.6%25%2C s_cov:99.0%25%2C Eval:0.0e+00],MGA_120
sequence03	MetaGeneAnnotator	CDS	4517	5116	.	-	0	ID=MGA_121;product=recombination protein RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDA4;translation=MQKNSGPDQLIYLFSKLPGLGTRSARRIVLHLLQDKELRLKGLIEGLEDAANKINICNSCGNVDYSEICGICSDESRSDSLITIVETVAELWALERSGTFRGRYHVLGSNLANSANKDPASLKLPELLERCKNNGTKEIIIATNATLDGQTTAYFITEFFKDVPIKISRLASGIPIGGELDYLDEGTLTAAFESRKEFV;locus_tag=LOCUS_01190;gene=recR;note=Q9ZDA4 recombination protein RecR (Rickettsia prowazekii str. Madrid E) [pid:65.3%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:3.6e-65],MGA_121
sequence03	MetaGeneAnnotator	CDS	5132	5449	.	-	0	ID=MGA_122;product=nucleoid-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCA0;translation=MDIKKLMKQAQTMQKKMQEMQEEIAKKEFEGKSGGGLVSVIMSGSGEMRKVNVDQSLMKEDEKEMLEDLIVAAYNEAKAKADEESKNNMSGAFGDMGGMPPGLNF;locus_tag=LOCUS_01200;note=Q9ZCA0 nucleoid-associated protein (Rickettsia prowazekii str. Madrid E) [pid:52.9%25%2C q_cov:81.0%25%2C s_cov:78.5%25%2C Eval:8.6e-21],MGA_122
sequence03	MetaGeneAnnotator	CDS	5487	7100	.	-	0	ID=MGA_123;product=DNA polymerase III subunit gamma/tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599687.1;translation=MSKKSSTYIPFARKYRPTNFNELLGQEVLVKTLSYCIKNDRLAQAHLLTGIRGVGKTSSARIIAKTVNCTDKKSKNDYIEPCEKCKNCESFNNHSHPDIIEIDAASRTSVDDIREIIESSEYRPLLGTMKFFIIDEIHMLSKSAFNALLKVVEEPPEHVVFIFATTEVQKIPLTVISRCQRYDLRRLTFEELHDLAQNIIKHEKLNFEEEALKIIAIKSEGSARDATSMIDQAASYMHNAGKGDIITAELVGRMLGLLQTSTMIQFAQLIIANDPKSAIKLLKEIYANANSLESFVQGMSDFFAELSKSKIIPNYHNPLFQSYSTEIANILIGTSLSRLTILWQIFSNGTQEIKQSHNELSCTEMLVIKAIYSCNLPTLEEIMDAEVNYAPTSEDHQNTENPKIIASEPEEKFEDIKKTSPTRQTNNDNLQIFDFLKFCHKNKEMDVYYLLLNEVEIDSFASNKMEIAGKIASNMQNKLERILQKWSSSEWKVAIKKRDKVDSLKDKMLEKVKLTGDYQTIKNNFPDANISDIILKT;locus_tag=LOCUS_01210;EC_number=2.7.7.7;note=WP_004599687.1 DNA polymerase III subunit gamma/tau (Rickettsia prowazekii str. Madrid E) [pid:49.4%25%2C q_cov:99.8%25%2C s_cov:93.0%25%2C Eval:1.1e-142],MGA_123
sequence03	MetaGeneAnnotator	CDS	7396	8052	.	-	0	ID=MGA_124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCA2;translation=MLNKTSKSQFYVAKIIFSLFLTLSMQQAIASDVSGEIKTYIRSIKSIAVEFSQSDSNGSKSKGMLIIDKPHKFRCNYYEPFPLVIVGSSNYVSVYDYEMEHLSRIKAEDNIFNFLLVNDIDFENKFEILSAKTMGNKYVLKLKSNDLNKISEISFDKKTKHIKQMKIYEDNNTITLSFGPTKQIKNVAKSLFIMKDPDVFGKPSRLNKKDLEKRFAKI;locus_tag=LOCUS_01220;note=Q9ZCA2 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:45.6%25%2C q_cov:82.6%25%2C s_cov:84.5%25%2C Eval:7.6e-46],MGA_124
sequence03	MetaGeneAnnotator	CDS	8098	9270	.	+	0	ID=MGA_125;product=NAD(P) transhydrogenase subunit alpha part 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P41077;translation=MGIISSINKKYIWKIMKIVALKERAKGEHRVAITPETARLFCMKGYDVFVEKNIGTSANFTDKEYEEVGATVSAIPLEILSDADIVLKVQPTPLVDQYNEIEMTKKEATIIGLLSPYSNSEYLDKALSKGLSAIAMELVPRITKAQNMDVLSSQSNLAGYRAVIEASYYFDRALPMMMTAAGTVNPAKTLILGVGVAGLQAIATAKRLGAIVSAYDVRAATKEQVESLGAKFIYPSEPGGDTEDSSGYAKEVTKDFADIQERFLSGVIDKFDIVITTAQIPGKKAPTLLTKAMVAKMHPGSVVVDMAAISGGNVEDSSIDKVIAKKGVKIIGWSNMASKIASDSSKLYAKNLYNFLEYAIKDNKINFKDDLVEEMLIGMNGQMVNKKFKV;locus_tag=LOCUS_01230;gene=pntAA;EC_number=1.6.1.2;note=P41077 NAD(P) transhydrogenase subunit alpha part 1 (Rickettsia prowazekii str. Madrid E) [pid:61.9%25%2C q_cov:94.9%25%2C s_cov:96.3%25%2C Eval:2.2e-123],MGA_125
sequence03	MetaGeneAnnotator	CDS	9272	9676	.	+	0	ID=MGA_126;product=NAD(P) transhydrogenase subunit alpha part 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P51995;translation=MEEELGKAITEASEISGKAHALATKLQEISIASQAAEQAVSGVDPLVFAVTIFTLACFVGYYVVWKVTPSLHTPLMSITNAISGIIILGAMIASSSPIFGVSSIFGFVAAFFAAINIFGGFVVTERMLEMFKKK;locus_tag=LOCUS_01240;gene=pntAB;EC_number=1.6.1.2;note=P51995 NAD(P) transhydrogenase subunit alpha part 2 (Rickettsia prowazekii str. Madrid E) [pid:57.3%25%2C q_cov:91.8%25%2C s_cov:93.2%25%2C Eval:8.4e-32],MGA_126
sequence03	MetaGeneAnnotator	CDS	9682	11076	.	+	0	ID=MGA_127;product=NAD(P) transhydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE72;translation=MDTQIIEFSYLIAAVCFIFALKGLSSPKTARSGSIVGIIGMAIALIATFNLPNFSHIIPLIITIAAGGIVGTIIARKIAMTAMPQLVAGFHSFVGLAAVLVAYAALLAPHNFSIGISGNLPVGALIEMSLGASIGAITFSGSIIAFGKLQGVIGAKPMKFVGQQYVCLLMTLAIIFLVYKFTNNESLFLFTALVVLSLIIGVLLIIPIGGADMPVVVSMLNSYSGWAAVGIGFTLGNSLLIITGALVGASGGILSYIMCKAMNRSLINVIFGAFQKVDIKSGAEEDDDRVAKVSSAEDAAFMMNKAESVIIVPGYGMAVAQSQHAIKEMTEILKKAGVKVRFAIHPVAGRMPGHMNVLLAEANIDYEDVLELDEINNDFGSTDIALVIGANDVTNPAAKTDESSPIYGMPVLDVGMAKSVLFVKRSMSPGYAGIQNELFFQDNTLMLFGDAKKVVEDIVKSLQE;locus_tag=LOCUS_01250;EC_number=1.6.1.2;note=Q9ZE72 NAD(P) transhydrogenase subunit beta (Rickettsia prowazekii str. Madrid E) [pid:65.1%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.4e-170],MGA_127
sequence03	MetaGeneAnnotator	CDS	11111	12334	.	-	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLTLGNHLSGSASRETKNAIRNTSNLGDSLTTGNNKSVEVVDGFLGSSLRDKEIMLGALAKTTAYSINMLNVADEYLKIIAESFQDCLKIVANASAFSKDKIAVLQKNLDDKREQIAMLTRTAKFDSKILLGGDASAVEVGAGLSSTDKVTVKIKDIGSSKLFRSTIVKQMNDYFASNLGSLQYYQTQQELDRDIDNNVNLLNAASLMNGSGTGPQLLYTEVVAAVMNAVAAKPSLGVLLNDFLPEGLARMKAGGTTAALVVVPADPNVDFTNANQDQLALALPPMAVFTPEISNTFYDNQDLISIGDNDSRLRALDIFTHAINTIRAEQANVANQKTNILEITNALRSSTNAVQQSADSYLKTDYAMTAQEYAQNLRTIVASITALQAANKIPEAAQSLVDSLAK;locus_tag=LOCUS_01260;note=MGA_128
sequence03	MetaGeneAnnotator	CDS	12626	13159	.	-	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRTAIFTLAIFLSLWQTHALANTGDMTMFDFKNQKPEFWKEHLEPEIYNICRENGTERAFSGKYDKFYEKGTYHCNCCGGDFPLFSSDAKYDSGTGWPSFWKPISDSSVTLTEEKRIFSIFGPRIEVSCSRCGAHLGHVFDDGPDDKTGKRFCMNSLALHFVPEGEEAKNSIIEEN;locus_tag=LOCUS_01270;note=WP_010876350.1 peptide-methionine (R)-S-oxide reductase (Methanothermobacter thermautotrophicus str. Delta H) [pid:50.8%25%2C q_cov:72.3%25%2C s_cov:80.8%25%2C Eval:1.3e-33%2C partial hit],MGA_129
sequence03	MetaGeneAnnotator	CDS	13269	13718	.	+	0	ID=MGA_130;product=ribosomal RNA large subunit methyltransferase H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q97DE2;translation=MKIQIISVGKLSSEIAKISDQYQKMTNWQIKNSEIVYSKKLAPTQIKQYEAKLIEDKLTKGAYIIALDLSGKQYSSEEFSVIFSKQMMEGKSIDFIIGGAFGLDGSILNLSNAKLCLSKMTLPHQMAKLMLIEQIYRAQTILDGHPYHK;locus_tag=LOCUS_01280;gene=rlmH;EC_number=2.1.1.177;note=Q97DE2 ribosomal RNA large subunit methyltransferase H (Clostridium acetobutylicum ATCC 824) [pid:40.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-25],MGA_130
sequence03	Aragorn:1.2.38	tRNA	13796	13871	.	-	.	ID=Aragorn_2;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00020;note=Aragorn_2
sequence03	MetaGeneAnnotator	CDS	14089	14826	.	+	0	ID=MGA_131;product=3-deoxy-manno-octulosonate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDF0;translation=MTYSDVAFIIPSRIGSTRLPNKALADIGGKSMIEHVVSRLNAGSASNLYVATDSEEIVEKVSYTGGIAIMTSEDCPTGSDRVYEAFQKIPHNDKIKYIINVQGDMPFVDYRVLEKIIEKLKNTDFDVVTPVVKVGNDIANSDSNVKVVADVNDKALYFSRSVIPHGAEEFLYHVGIYGYKSGALEKFVKLNETQYESVEKLEQLRALENGMSIGVVMSNEIPISVDTHEDLEKAREYYAKLAAKK;locus_tag=LOCUS_01290;gene=kdsB;EC_number=2.7.7.38;note=Q9ZDF0 3-deoxy-manno-octulosonate cytidylyltransferase (Rickettsia prowazekii str. Madrid E) [pid:55.6%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:3.2e-70],MGA_131
sequence03	MetaGeneAnnotator	CDS	14801	15940	.	+	0	ID=MGA_132;product=flagellar P-ring protein 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89I01;translation=MQNWQQKNNKMFMNIRNIIITSLIALLPVMASAKTRIKDIAAVEGVRENLLVGHGLVVGLSGTGDNLKNTVFTKKGLTDFLERLGVNVQGADIKTKNIAAVTVTASLPPFARLGTRIDVKVGALGDAKSLMGGTLLATPLLGADGNVYAVAQGAISLARFTPNSGDVKTKSLSVDTNGYIQSGGIVENEIDFSFGDLQTVKFSLYSPDFATAIRVAGAINDNVPGNTAGALDASTVEVTVPSYRQGDIVEFIAEIEGLEVKPDYKAKIVINESTGTVVIGDKVNIRPVAIAQGNLIVNVGQPDVIDEKYGPDTDEKKRDLVNAFVDSRRGRELHQLNESATLSDLVAGLNKLGVYPRDIINILHNMKSVGALDAVIEVR;locus_tag=LOCUS_01300;gene=flgI1;note=Q89I01 flagellar P-ring protein 1 (Bradyrhizobium diazoefficiens USDA 110) [pid:47.5%25%2C q_cov:94.2%25%2C s_cov:95.2%25%2C Eval:1.3e-83],MGA_132
sequence03	MetaGeneAnnotator	CDS	15942	16616	.	+	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPGIGGGGVANVGKPAEYYQVIDRGKVNSSRDASSSGEVSGSSSVHPNKFGKVLGAQRALNEKQVKARNSVDSRVSRAQLALDKQVARSKASIKPTRADMNSLISASGLTNEQVKQLMGSGSKGSAKGVNTPSGLNDDKIGTNLALKKLAKEMEVQIMAMFFTLIDNARETEPEGGFGEKLFRGQYLTEVVKDSADAELGEIGLAIYRNLVKEDNIKQVRDVRK;locus_tag=LOCUS_01310;note=MGA_133
sequence03	MetaGeneAnnotator	CDS	16603	17076	.	+	0	ID=MGA_134;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGNSNKGNSLSQREIVSNLTKSLKDLITIIEQENALLKAGKISNINVVVEKKVDAIAKFNEAQNDVEDYAKVGGQFDQQSSALKKLKDLFFKLDLAKKDNEILIRSNLEVSDQMIEMYKENKAQETMRQFGYNKDGNVSTDKVKNAMPSVGYSNKV;locus_tag=LOCUS_01320;note=MGA_134
sequence03	MetaGeneAnnotator	CDS	17081	19822	.	+	0	ID=MGA_135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSSLEVANNLGVASSVLGQGSADNLNRLGDPTARKLSASTTVDRLGSSGILRTSLSLTRGTDPLLEKAMRVQVSRLEANNTTTSYLREMQSVIGGSSNSQESVLVTSVNEFFSQAKILESNSGIAMKQSFVDKAETLAKRVTDITSKGVSLQLEADNQMRESIASVNSKAKALFDLNQKLRITTNPIKLHDLRDNLVNDIAKYMDVKVTYEASGSVMLQSKSSGTVLVSGEHYAQFNYPGIQSESKIQNGIDFPPMTMTHFNVDGTKAREPIVFMGGSDDPTLQFSGGQWGSIVELRREILPEMVSAAKVVGRNITKAVNDIHNSGTTFPPKSRFESSMDVYGSQTFDWKPFTIHAVSKNGDPLRGGAGLLNPITIDMSKVPSAQGGGTATLADMVKEINIALDTSPSRDRAAIGAITNGGGAQIAGEYLVNNIQLKSNGPVFGPNNSFTFELDLQGNSHFGSNIEVMGITTSDHPGGANPVNLTNDQLPESFRLDKGVNTATGQPITVNGINAPKQITVDVRVVGDNGQVQRGTITYIVNPNVEVNDRIAIDPATANQGGNFANPAAINGFTSVARAMLVDENGIEIDINANPSARGKLVIQTADASYGLSVEGGLGQIFEFNNMFEFDEVTGEMTVNSRVLSDVNELAIGRVAKGDGIDTVHTVGDAKASATLTFAGGAIANGDTVSVGGQVFTFAAVPVGPNQVLTGGGIVALRDAINNHPDVGGIVRATDAGNVLTIEAKNAGTGGNVIAVATNLVGGATVDLNGGGANAVNAGNLQNGTNKQETSKVFNYTIKPESGEIIEELSNLQFGLVSVQGDGLIPTTEISLSNLATIFTGVLSDKLSAAEIESSIATNVLEQMHNTIQDKFGIKRDEEFIQAIEDGRLMQALARLLSMINNIQVKAEDIIFG;locus_tag=LOCUS_01330;note=MGA_135
sequence03	MetaGeneAnnotator	CDS	19850	20845	.	+	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGALKSSTDILGAGFGSARDIGTTASQLKEAQAAVTNPNKFTSRSDLDQSGLARKFDELQGTLLNVNSQDTTANITKSRLGNEQKALKQVNDIMVRFEQEMSQSNSVAGSKQDKVNRALTELQTALRAQDTSGKYVWGGKDATTDPLSRLDGAGNRVAVSLVNESNVVDGADTSGLITNGYSTNSSNSTIVTVSSQHEVRESFLHPGHDAIAKAIGYLNMVKANADAIDAGGAGAAIYTGQELAAAQREQLDARGALKVQIDTEVKKVEQAFDVNKRDAKDALKENNDLFSANLVERTQQVHNLIVSMAALISVSNVDSKISGILEGLRV;locus_tag=LOCUS_01340;note=MGA_136
sequence03	MetaGeneAnnotator	CDS	20902	22113	.	+	0	ID=MGA_137;product=poly(A) polymerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596689.1;translation=MIVLDRHLEIKSKHFMVIINHLNSNGGNSRLVGGVVRDSFLGSDSSDIDIATDFVPDRVTEILTSYGIKVIPTGIKFGTVTAIIKDESFEVTTLRKDINCDGRHASVEYSNDFAEDAARRDFTINALSYCPIQEKIYDYHGGLADLEARKVVFIGDAAKRVQEDYLRILRFFRFSSRYAKEIDSTGLKICTKFKGHLKSLSQERIKSETDGLMLSVNAPKMLQVMNDYGILSEILPVEDYDLDMHLQALSLSEQFKISLTLPIIYSVLFMHNENVTFSNLMDLKFSKTHANIIMKMHLLTELQDKQDLMYSLKNIWLEEKDFVQYFIFSLLLFEDNQYIYDLYRGLVEREKPIFPVTGDDILILGYQGKDVGRILGYLKKKWIKSDFKDKKSFLLDMVLENEK;locus_tag=LOCUS_01350;note=WP_004596689.1 poly(A) polymerase (Rickettsia prowazekii str. Madrid E) [pid:43.3%25%2C q_cov:98.3%25%2C s_cov:99.5%25%2C Eval:4.7e-84],MGA_137
sequence03	MetaGeneAnnotator	CDS	22103	22933	.	+	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEC9;translation=MKNKILLLVLILFINVNAYAIPKISTSITPIASIVSMLTENNAEISAINVAAGCPHHYQMRPSDKEKIAGAKMLIYIDDYFDGYAAHLASNFKGRVVKISEFESINFIDGEDHKNWHFWLDLDNVLALQEELATIIKSEIPELAKIVDDNMNKAKAKINSLKRLKKHDLASHGEIVVLSDSLAHFVKGMDGSIIKLYQKHSSSLKDFDNLEYILNTDQPQCIALDSLQDPKIYEKYKKKIVQLDTENWKMPNDMSDSSDLFCTKYLKMINQLKTCR;locus_tag=LOCUS_01360;note=Q9ZEC9 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:35.9%25%2C q_cov:98.2%25%2C s_cov:89.0%25%2C Eval:2.1e-47],MGA_138
sequence03	MetaGeneAnnotator	CDS	23476	24033	.	-	0	ID=MGA_139;product=ribosome-recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE08;translation=MDQNLKNELSEKMTKAMDMLDREFSGLRTGRASVHLLDPVIVEVYGSKMPISQVGTVSTPDAKTITVQVWDKAMVKTVEKAIADANLGVNPSSDGQLIRMNLPPLSEERRKELVKIAHKYGENTKIALRNVRRDGMDKLKQMEKGNEISKDEHHTYSDEVQKLTDEFIGKVEANVKSKENEIITI;locus_tag=LOCUS_01370;gene=frr;note=Q9ZE08 ribosome-recycling factor (Rickettsia prowazekii str. Madrid E) [pid:62.1%25%2C q_cov:98.4%25%2C s_cov:97.8%25%2C Eval:9.3e-62],MGA_139
sequence03	MetaGeneAnnotator	CDS	24033	24698	.	-	0	ID=MGA_140;product=uridylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE07;translation=MGERTYGHDPNTLKAIAEDIKEVCEMGVQVCIVVGGGNIYRGVDAANLGMERATGDYMGMLATVINALALQNALEKQGIYTRVQSAIPMTSISEPFIRRRATRHMQKGRVVIFAAGIGNPFFTTDSAAVLRAVEMKCDYIFKGTNVDGVYDKDPNKNKDAKKHHEITYTDVLRDNLKVMDMAAIAVARENNLPIKVFSIKQRGNFAKVLKDQGEYTIIRGN;locus_tag=LOCUS_01380;gene=pyrH;EC_number=2.7.4.22;note=Q9ZE07 uridylate kinase (Rickettsia prowazekii str. Madrid E) [pid:65.1%25%2C q_cov:98.6%25%2C s_cov:90.1%25%2C Eval:1.8e-79],MGA_140
sequence03	MetaGeneAnnotator	CDS	25047	27098	.	+	0	ID=MGA_141;product=NADH-quinone oxidoreductase subunit G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCF6;translation=MPKLTIDGSEIEVEEGLTVMQACEAAGIEIPHFCFHERLKIAGNCRMCLVEMERAPKLIASCAMPVSEGMVIKTDTPKVKKSREGVMEFLLINHPLDCPICDQGGECDLQDQAFKYGKGKNRYTENKRSVKDKNLGPLVKTEMTRCIHCTRCIRFSTEVAGVPEMGAVNRGEHMEIASYLEKTLTSELSGNIIDLCPVGALTSKPYEFTARSWELEKTESIDVMDAVGSNIRVDSRGLEVMRILPKLNEDINEEWLSDKARFSYDGLKVQRIDTPYIRKNGKLVEASWDEAISKIVENIGYIKGESIAAIAGTMVNAESLFLLKKMLGTLGSKNVDANQFGYRIDSTSRSNYLFNSGIAGVEEADICLLVGANPRQVAPVLNARIGKMVRNGYMHVARVGTEDDQTYSIEELGEELASLESILSGKGDFAKKLQDASKPMIIVGDGVLTRSDSHGILSLLHDIAEKYDVVSSEWNGFNILHNHASMVAALDLGFYSGKNGCGTSDILKATKEGKVKTLYLLAADDINVNEIDKDCFVIYQGHHGDASAGRADVILPEAAYTEQDGIFVNMEGRPQYARAAISPPGQARESWDIITYLAKRLDVPIQADSLAAVRDMMAKENIIFANIDEIIPTNFVPFKSSVRLLKKGVQKVEMNYYMTDPISRASVTMARCTKMQSGNEVSS;locus_tag=LOCUS_01390;gene=nuoG;EC_number=1.6.5.11;note=Q9ZCF6 NADH-quinone oxidoreductase subunit G (Rickettsia prowazekii str. Madrid E) [pid:59.8%25%2C q_cov:98.7%25%2C s_cov:97.9%25%2C Eval:4.3e-235],MGA_141
sequence03	MetaGeneAnnotator	CDS	27095	28111	.	+	0	ID=MGA_142;product=NADH-quinone oxidoreductase subunit H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCF7;translation=MIDLFFEYGLPIIYIVAKILLITLPLLLCVAYLTYAERRVIGLMQMRRGPNVVGPFGLLQPIADAVKLMFKEVIVPTPANKIVFILAPMITFILSLIGWAVIPFGAGLVLADINVGVLYVLAISSLGIYGIIMAGWASNSKYAFLGAIRSSAQMISYEVSMGLVIVTVLLVTGTLNLSEIVEYQRTMPLWIQLLLAPMAVVFFISVLAETNRLPFDLPEAEAELVAGYNVEYSSMAFALFFLGEYANMILVSAITVTFFMGGYLPPFNIEFLDIVPGFIWFVIKVAFLLFVFLWIRATLPRYRYDQLMRIGWKFFLPLTLFWVVLVASLLLWTGNLPG;locus_tag=LOCUS_01400;gene=nuoH;EC_number=1.6.5.11;note=Q9ZCF7 NADH-quinone oxidoreductase subunit H (Rickettsia prowazekii str. Madrid E) [pid:79.2%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:5.8e-154],MGA_142
sequence03	MetaGeneAnnotator	CDS	28125	28604	.	+	0	ID=MGA_143;product=NADH-quinone oxidoreductase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCF8;translation=MIKYIKSCALYEIVLGMALTLKYFFKPKVTLNYPYEKSPISPRFKGEHALRRYANGEERCIACKLCEAICPAQAILIESEDRVDGSRRTTRYDIDMTKCIYCGMCQEACPVDAIVEGPNFEFATETHEELLYDKERLLKNGEMWEQELARKLKDDYPYR;locus_tag=LOCUS_01410;gene=nuoI;EC_number=1.6.5.11;note=Q9ZCF8 NADH-quinone oxidoreductase subunit I (Rickettsia prowazekii str. Madrid E) [pid:82.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-76],MGA_143
sequence03	MetaGeneAnnotator	CDS	28610	29230	.	+	0	ID=MGA_144;product=NADH-quinone oxidoreductase subunit J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCG3;translation=MALFFYGFAALIILCSIMVISSRNPVHAVLWLIFAFCNGAGLMVLMGAEFIAMMLIIIYVGAVAVLFLFVVMMLDIKFTELKGAATSEMAFAFFLSAFLFADLVIVVLLGSKVIVPEGNASFAISPDIGNAYAIGRLLYTEFVLPFQTAGVILFVAMIASIALTIRLRPGVKRQKVSRQLARNKENSLATAKLDGKSGLDNLNYDD;locus_tag=LOCUS_01420;gene=nuoJ;EC_number=1.6.5.11;note=Q9ZCG3 NADH-quinone oxidoreductase subunit J (Rickettsia prowazekii str. Madrid E) [pid:48.8%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:3.2e-51],MGA_144
sequence03	MetaGeneAnnotator	CDS	29220	29537	.	+	0	ID=MGA_145;product=NADH-quinone oxidoreductase subunit K;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCG2;translation=MTISEISLEHYLILSSLLFAIGVSGLFMNRKNVITILMSVELMLLAVNINFVAFSVHLQDIVGQVFSIIVLSIAAAEVSIGLAILVLYYRNRGSIEIEDINQMRG;locus_tag=LOCUS_01430;gene=nuoK;EC_number=1.6.5.11;note=Q9ZCG2 NADH-quinone oxidoreductase subunit K (Rickettsia prowazekii str. Madrid E) [pid:74.0%25%2C q_cov:95.2%25%2C s_cov:90.9%25%2C Eval:2.3e-37],MGA_145
sequence03	MetaGeneAnnotator	CDS	29541	31463	.	+	0	ID=MGA_146;product=NADH-quinone oxidoreductase subunit L;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCG1;translation=MELMLKLIVFLPLISGSVNGIFCKKFSNKTASIISSSAIVFAAICAVFVFNKAGIEQDAIHIILTSWININSINVSWAIYVDQLTSIMMLLVTSVSAVVHIYSLGYMSDDKNLPKFLSYLSLFTFFMLALISADNFLQLFFGWEGVGLCSYLLIGYYYEKASANNAAIKAFVVNRVGDFAFIIGIVMIALYTGSLDFEHVFVLAENLAQTDLEILGMNFIVLDVICLMLFLGCMGKSAQIGMHVWLPDAMEGPTPVSALIHAATMVTAGVFLVARCSFMFEYSPSVLQFITIIGGVTCLFAALVAIAQTDIKKIIAYSTCSQLGYMFFACGVSAYHAGVFHLVTHGFFKALLFLSAGSVIHACHEQDIFKMGGLRKKLPITYANFWIGSLAIIGIFPFAGFYSKDLVLESAYAVGGVGSLAFVLGIIAAILTAAYSLKIIMVTFHGKTKLSKKAFDHAHESPKIMNVPLLVLAAGTLFSGMFGHYILNISNPNGFFAGSIFNLNIGDHEHHVSLGIQLLPLIVGISGALFGIYVYISNMSEKIANQMKYTYCVLKHKFFFDEVFDRIFIKTTKHLSNWSRKFDIKIIDRFGPNGFGITARGFSWCMCQIQTGYIFNYAFYIIFAIVVCITVFVAKYLFGA;locus_tag=LOCUS_01440;gene=nuoL;EC_number=1.6.5.11;note=Q9ZCG1 NADH-quinone oxidoreductase subunit L (Rickettsia prowazekii str. Madrid E) [pid:56.8%25%2C q_cov:98.8%25%2C s_cov:98.8%25%2C Eval:4.2e-208],MGA_146
sequence03	MetaGeneAnnotator	CDS	31477	32967	.	+	0	ID=MGA_147;product=NADH-quinone oxidoreductase subunit M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCG0;translation=MSDLPILSISILLPLFSALYITFFISHSKSSRKQIYAMYVAILSSVLTLIATIYLLIRFDPDVQSYQFIEKYSWIKSIGLDFHVGVDGLSVYFVVLTALLTLICIVASLFTIKKNIKEYLLCFLLLESFCIGAFSALNLLLFYGFFEVILIPMYLIIGIWGGEERVYAAVKFFLYTFFGSVFLLIALIYIYGQTGTFEFTELAEKMPLLPLEVQQYLWLATFISFAIKVPMVPFHTWLPDAHVQAPTAGSVMLAGILLKLGGYAFLRVSLPMLPGASEYFSVYVMWISGFAVIYASLVALAQKDMKKMIAYSSVAHMGYVTAGIFSLTISGIGGAVFQMISHGLISSALFLIVGMLYERHHTKEISRYGGVASSMPMLATFFMIAMLGSVGLPGLSGFVGEFLSIVGAFDANPAVGIICAFGVILGAVYMLKLYRCVMFGEVTDSSILSFKDLKKYEVAALVPLIILVIYIGIMPAGIFRSIDIPVESLAGIYDAL;locus_tag=LOCUS_01450;gene=nuoM;EC_number=1.6.5.11;note=Q9ZCG0 NADH-quinone oxidoreductase subunit M (Rickettsia prowazekii str. Madrid E) [pid:64.7%25%2C q_cov:97.0%25%2C s_cov:97.6%25%2C Eval:6.3e-185],MGA_147
sequence03	MetaGeneAnnotator	CDS	32983	34383	.	+	0	ID=MGA_148;product=NADH-quinone oxidoreductase subunit N;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD13;translation=MLNQITMIIPEILLAGLAMTMQIVGVYYKGNSRLVASATAVLSLGVIYYLLFNAPSLTFGFSESFAISERIFLYKALVLGLTVMSLVIYHDLTKIAKSNLRMEFVTLVLLSTVGVFISISARDLILLFCGLELQALSGYALAAFNSKESKSSEAGLKYFVLGALVSGLMLLGISFLYGFSGSMKFNDIRIALNGDLNIGLIVGAVLLLTGILFKLSAAPLHIWTPDVYEGAPISAVTYFSAAQKIGMLVVLINIVDAVIGDYIYISVEIIKIVAILSMIAGALGAIMQVSLKRLMAYSTILNMGYVLVAICLHSPVGNYAAFIYMLIYAVGAMGFFACLVALFGEKSDVATFEDLKGIANQRKSLAGAISIIMFSMIGLPPLAGFFGKYLVFYNAVLQGEIVLALLGVLTSVVAAFYYLKVIKYMYFMEAKEEIQAIATNRGLLMVTVINVAFIMLFFIFAHKNIV;locus_tag=LOCUS_01460;gene=nuoN;EC_number=1.6.5.11;note=Q9ZD13 NADH-quinone oxidoreductase subunit N (Rickettsia prowazekii str. Madrid E) [pid:51.0%25%2C q_cov:96.4%25%2C s_cov:97.8%25%2C Eval:9.7e-124],MGA_148
sequence03	MetaGeneAnnotator	CDS	34390	35151	.	+	0	ID=MGA_149;product=biotin--[acetyl-CoA-carboxylase] ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886314.1;translation=MKLDWLQKYSLFAFDEIDSTNSEALRMANSGAIGDFVILSKIQTGARGTKGRQWESLEGNLHASILLQTEFDLKKNSQLPFLVANAVFEAINHFAKERDIKLDIKLKWPNDVLVDNKKLAGILLESVSLQDKNYVIIGIGVNIDKAPDINRQVICMKDLGFDFENPNDFLNILMAKFEKLYTQWKSDNNFIKTRKDWMRRAYNLNKVIIVDDGLRRISGVFKEIDFDGSMRLQLAGGQYCNVASGEVLFQDDV;locus_tag=LOCUS_01470;note=WP_010886314.1 biotin--[acetyl-CoA-carboxylase] ligase (Rickettsia prowazekii str. Madrid E) [pid:37.5%25%2C q_cov:95.7%25%2C s_cov:96.3%25%2C Eval:4.4e-38],MGA_149
sequence03	MetaGeneAnnotator	CDS	35254	35982	.	+	0	ID=MGA_150;product=tRNA (cytidine/uridine-2'-O-)-methyltransferase TrmJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MD88;translation=MSSETFPIRNISIILVEPQMGENIGATARAMKNFTIADLRIVNPRDGWPNEKAKSMSVGAIEIIENAKIYDSVRESIEDLEYVYAASAVPRDMNVNYVLSRDLDNDMSGYKRLGFMFGRESSGLSNQEISYANKVVTIDTDVNFSSLNIAHAVAVICYEIFQKTNQQRDDLSNFPDLASHSDLDYFYDHLFNVLDKKSFFRTKDKKEHMSLKIRNLFNRIELLSKQEVQTLRGIITTLANDR;locus_tag=LOCUS_01480;gene=trmJ;EC_number=2.1.1.200;note=C3MD88 tRNA (cytidine/uridine-2'-O-)-methyltransferase TrmJ (Sinorhizobium fredii NGR234) [pid:40.9%25%2C q_cov:93.8%25%2C s_cov:84.7%25%2C Eval:3.0e-44],MGA_150
sequence03	MetaGeneAnnotator	CDS	35990	36505	.	+	0	ID=MGA_151;product=co-chaperone protein HscB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8ZCS4;translation=MLEDYFQLLDLQKKYNIDKAELKSKYLSMQIKFHPDRATNEEERRIFLEQSMKLNEAEKVFKDDYLRAEYMLKLAGSKFDDKTLRDAISAQELEEIMEMHEMVDDAEDLDELKQMEQIKLQEKDKMVQELEGYLNENNLAKALDLTVRLKYLTNLVKNIKLKVKNADSRDL;locus_tag=LOCUS_01490;gene=hscB;note=Q8ZCS4 co-chaperone protein HscB (Yersinia pestis CO92) [pid:33.6%25%2C q_cov:76.6%25%2C s_cov:80.5%25%2C Eval:5.8e-12],MGA_151
sequence03	MetaGeneAnnotator	CDS	36483	38294	.	+	0	ID=MGA_152;product=chaperone protein HscA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDW5;translation=MQIVGISEPGETDERDELVVGIDFGTTNSLIAISQDYKAKIIKMENGAELVPSIIGFDSGEVIVGKEANNCSDKVRSIKRLLAKSYSEINSNPNLLNLSSVIYDDNNIPKIELLGAGKVLAEIASEIFKYLKNQAQIELGAELEKAVVSVPAYFDDEARGQVLLAAKLAGLEVIRLISEPTAAAYAYGLSKSTKGSYLVYDLGGGTFDVSILNMHEGVLQVVATGGDNMLGGDDIDYVIAEYISLELAKEMSAELIQSAKKIKEDFSLKSAITMSIEGSEITISKEKYEEIISPIINKTIKIAEEVLSDAEDIELDGVILVGGSTRIAQISDKLQDAFGVCIYNDIDPDRIVALGAAMQAENLTAKSNSLLIDVVPLSVGLELYGGITEKVIMRNTPIPFSVTKEYTTHTDNQNGMKFHVVQGEREMVKDCRSLAHFELTGIRQSKAGKARINVTFAMDADGILSINAVDADTGKTQNIEIKPSHGLDEKSINDILEVAYKNAATDHETRLLVESQEEGKSLIQGIESALEETPEILSDLEHDEMKKAINSLQKAINSDNRDIILLKTDNLNQHAANFIQKHLDKGVDLFLKNRHVDEIKFDK;locus_tag=LOCUS_01500;gene=hscA;note=Q9ZDW5 chaperone protein HscA (Rickettsia prowazekii str. Madrid E) [pid:49.5%25%2C q_cov:97.7%25%2C s_cov:97.8%25%2C Eval:4.1e-149],MGA_152
sequence03	MetaGeneAnnotator	CDS	38307	38645	.	+	0	ID=MGA_153;product=2Fe-2S ferredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDW6;translation=MAAEKIKVIFIEGDQEHEIEALVGLSILEVAHNNDIDLEGACEGSLACATCHVVLEDKIYNMLDEPEEAEEDMLDLAFGLTHTSRLGCQIILTKELDGMRIKLPSATRNINL;locus_tag=LOCUS_01510;gene=fdxB;note=Q9ZDW6 2Fe-2S ferredoxin (Rickettsia prowazekii str. Madrid E) [pid:74.3%25%2C q_cov:96.4%25%2C s_cov:97.3%25%2C Eval:2.0e-41],MGA_153
sequence03	MetaGeneAnnotator	CDS	38754	39668	.	+	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSNVDFSYKDSSIGGFPFSWNISIKEPRIALISQSAAREISAEKAEFCFDYDLKSVSVSLPGAIEYSFNRSESLYNYSLLSEEEVNAEVSFVDSLYKIPGDKKWTAKYIKTIDLRLPDMKAIHENEEIFYVSNSSIKLLQDYADDIDRYRVKVSSDYRSDTSHMKINKAHLLLDFDYVVRNNSDFEYESLENFDHKFSINKFLFRFDNAYLDVVGSLKLARSSLPDGKVKISMMQYRDVVDFVVPEDFIISRSYIKKVIARSTMGSLNKVASNDDDIKFEITFSDKGILIGNLNLLDLNLDK;locus_tag=LOCUS_01520;note=MGA_154
sequence03	MetaGeneAnnotator	CDS	39683	40255	.	+	0	ID=MGA_155;product=putative NADH dehydrogenase/NAD(P)H nitroreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:F0KN77;translation=MRNIDEIFHDRTCSKFLSDPIDKNLLVKIHDLAKLGPTSGNSCPLRIVFVQSEAEKSKLYKCLMEGNIEKTKSAPVTALFAYDEKFYEDMEKINPVAPDLIKFFASSDEVALDTAVRNSTLQAAYFMLAARGAGLDCGPMSGFNNEEIEKEFFAGTSFKINFICNLGYANGVNEHSRLPRWDFDRVCKIV;locus_tag=LOCUS_01530;gene=rutE;EC_number=1.-.-.-;note=F0KN77 putative NADH dehydrogenase/NAD(P)H nitroreductase (Acinetobacter pittii PHEA-2) [pid:43.9%25%2C q_cov:97.9%25%2C s_cov:95.4%25%2C Eval:1.1e-39],MGA_155
sequence03	MetaGeneAnnotator	CDS	40369	40875	.	+	0	ID=MGA_156;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKDTKVEEIVKIINKNTMETDFYLKDSDHLKVADIIKILEVGVSDKSLHISYCDVYAKVCGLAENSEEQKNDIEELKELISAIQDFSKNNNTVYWYDEAENQEKETNASLIGKLAEDSRKVWEEFQLFSAELKVDVSVYDLFSEYNDDNKVESNNQEIDLIGDDA;locus_tag=LOCUS_01540;note=MGA_156
sequence03	MetaGeneAnnotator	CDS	41077	42552	.	-	0	ID=MGA_157;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELSAADAFMLNLLINHGLLRLIYEYATKEIYLIILLLLINFMLLWNKFDTLLDKKRLGPKNFYALRLVSFGVAILLASKLFDVALDKKSYFYMAIESTKAQTKHYPRKAYGPFADILFTVQDIYIEPKPGKIDSSLITDKASKAKNKITNDRSEMPDIIVILNESTFDPSKLDYDFADNLKFSYFQDGKYTKYSGIMNVNTFGGSSWISEYEINTGIPHKSFAGPGYMPFITLVPLTNNSIMSYLRSIGYRVEVLYPVDKNFSLAEEAYTKLGSHNITDIYEFGFEPESWGHIPDKMIADMIIDALDKNPEKPKYIFASTMLNHGPHSSFFPDEIGCSRAMNDQLCSKLNDYISRLQMTNEDQLDLIEKLMNRKKKTIIVNFGDHLPSFEGFSTQLRFTRDIKDYYKTFYHVNANFDIKDKSKYPSLDIAFIPGLVLDMAELNGDTFYKANSIMRKKCKGTMSLCHGQNEDTNNLLESYKSLIVKQLGF;locus_tag=LOCUS_01550;note=WP_011181896.1 phosphoglycerol transferase ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:27.3%25%2C q_cov:65.0%25%2C s_cov:44.9%25%2C Eval:2.4e-19%2C partial hit],MGA_157
sequence03	Aragorn:1.2.38	tRNA	42972	43047	.	+	.	ID=Aragorn_3;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00030;note=Aragorn_3
sequence03	MetaGeneAnnotator	CDS	43078	43614	.	+	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINIKQISFVILGLVIVTAIFGLSKFNIATAAKKDGKKFDDWVVSCSSANKETKTPEVCLLSQQLNLTQDNKQQPIALFQVGYFGPKKELKMIQTLPLGVRIEAGTSIISSKKLIAPGKYTTCTQAGCQAVASISDSDLKTLTSTKENSVAFMNLEGKQITLPISIKGMDKGLKYIK;locus_tag=LOCUS_01560;note=MGA_158
sequence03	MetaGeneAnnotator	CDS	43802	44608	.	+	0	ID=MGA_159;product=putative cytochrome c oxidase subunit 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDC6;translation=MKKLFTAVLTLIISNTCFASKPVPWQIDFQEAASPIMQELHSFHNFLLVLTGAIVLFVLFLIIYVILRFNAKANPIPAKFTHNITIEVIWTVIPIILLVVIAIPSFRLLKLAEHTPPADMTVKVVGSQWFWTYEYPDHDNITFDSYMIQDADLKPGQIRLLEVDNRIVVPQGATIKFLITAADVIHSFAVPALGLKTDAVPGRTNEAWTRIDKLGVYYGQCSEICGVNHGFMPIAIEVVTKEEFEEWVKHAKEKFASNSNKLIYAQNN;locus_tag=LOCUS_01570;gene=ctaC;EC_number=1.9.3.1;note=Q9ZDC6 putative cytochrome c oxidase subunit 2 (Rickettsia prowazekii str. Madrid E) [pid:60.2%25%2C q_cov:97.8%25%2C s_cov:84.0%25%2C Eval:1.6e-89],MGA_159
sequence03	MetaGeneAnnotator	CDS	44618	46204	.	+	0	ID=MGA_160;product=putative cytochrome c oxidase subunit 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O54069;translation=MDKNMTDHAHDTPRGLKRWTLSTNHKDIGSMYIGFSILAGLVGGLFSVLFRLQLATPGSDFLGGDHQFYNVLITAHALIMVFFMIMPALFGGFGNWFVPLMIGAPDMAFPRMNNISFWLIVVSFVLLILSSTVDGGAGTGWTLYPPLSNLSGHPGAAVDMAIFSLHLAGMSSILGSINMIVTIFNMRAPGMSLFKMPLFVWSILLTAFLLVLALPVLAGAITMLLTDRNFGTHFFSPEGGGDPILFQHLFWFFGHPEVYIIILPGFGIASQVISTFSKKPIFGYTGMVCAMVIIGFIGFIVWAHHMFTVGLTYNALLYFTAGTMVIAVPTGIKIFSWIATMWGGSITFKTPMLFSIGFIILFTFGGVTGIVLSNSALDRVLHDTYYVVAHFHYTMSLGALFTAFAGFYYWFGKMSGREYPEWMGKLHFWLTFISVNMTFFPQHFLGLAGMPRRIPDYPDAFAGWNYISTVGSVISFAAALFFVFIVFYTLKFGKKCPPNQWGEGADTLEWTVDSPAPHHTFEKQPVIK;locus_tag=LOCUS_01580;gene=ctaD;EC_number=1.9.3.1;note=O54069 putative cytochrome c oxidase subunit 1 (Rickettsia prowazekii str. Madrid E) [pid:78.7%25%2C q_cov:98.7%25%2C s_cov:97.4%25%2C Eval:5.2e-254],MGA_160
sequence03	MetaGeneAnnotator	CDS	46205	47092	.	+	0	ID=MGA_161;product=protoheme IX farnesyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDI2;translation=MTKAISVNSIALDSGPSVKDYFMLMKPRVMSLVVFTGYCGVHLAPGNIHPVIAFAAILLISIGAGSAAAINMWYDRDIDRIMKRTQKRPIVTGAVNPDEALGFGIVTGVISVLLMALCVNIMSSILLATTILYYVFIYTIWLKRSSIQNVVIGGAAGALPPMIGWAAVTNNVSWESLTLFAIIFMWTPPHSWALALFRVQDYKDCSVPMMPVIKGSLYTKKQMLFYTILMLITCAMPYFLGMAGIVYLIISSILGAIFLAYSILLFRDDNSARAKKLFWYSIIYLFGIFLTLIMF;locus_tag=LOCUS_01590;gene=ctaB;EC_number=2.5.1.-;note=Q9ZDI2 protoheme IX farnesyltransferase (Rickettsia prowazekii str. Madrid E) [pid:60.1%25%2C q_cov:94.9%25%2C s_cov:90.6%25%2C Eval:1.2e-96],MGA_161
sequence03	MetaGeneAnnotator	CDS	47315	47923	.	-	0	ID=MGA_162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC99;translation=MNQLDFSTIMQILFFAILLWFITRSFFSRKSDGNNSSNILIWLLIFLVLIIVYAFRFELDTLKDKVLAVLIPSYSWTNDDGQLVIARHKNGHFYLNAYGKHNQKIPFLIDTGASDIALTKSDAKKLGFDLSKLRYTRQYNTANGISAAAPVRIPQLTIGKKTFYNIEGHVTSGELDISLLGMSLIEDFKDFKITQDMLILSY;locus_tag=LOCUS_01600;note=Q9ZC99 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:53.9%25%2C q_cov:94.6%25%2C s_cov:82.7%25%2C Eval:1.2e-47],MGA_162
sequence03	MetaGeneAnnotator	CDS	48137	48472	.	+	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKTAETDLIAEAPDTEESGGVIFSLPKLVLPGEGMDLEGVLETLLSESGSITPRTIKGEGGVNEVMLGPVLEEIIAHQKPIIEARIGELKEKHEKIVDQLREVEAEKRKF;locus_tag=LOCUS_01610;note=MGA_163
sequence03	MetaGeneAnnotator	CDS	48525	49151	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKVVLSRDLGKELDTIVEDFRILEGMIKAFELGIGTTLPKEITEGDKSEVVDSSASSGGINYKAPIMLKTYQENAGLPGSEDNLEVLRFALVAENLRGMEGQSLISDMLHPLEVVLLNEALHQLKMFPEKTGGVVCDIFVRVDNKISTVDDDSGGTIPETHCIALWKEEGTLFLIDPSNSNFSSPLIEEIKTIWGSDEVIKSIDGVL;locus_tag=LOCUS_01620;note=MGA_164
sequence03	MetaGeneAnnotator	CDS	49170	49436	.	+	0	ID=MGA_165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGRIDGTARDCIDIEVKIILEMSYQTEENAKKKVIARLAETFAQLSTEKKFTKHFIKDSDRQLRELTATSSDIRHMALKVAKAIAGIK;locus_tag=LOCUS_01630;note=MGA_165
sequence03	MetaGeneAnnotator	CDS	49458	49829	.	+	0	ID=MGA_166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKVLNYGTLSVGSGYIERFDAVKIEDEIIEATRDGKNMGLLKSFARGDCNGLIQDGYGSLMRQVLYIANLNDHDEVIKAMLGINPKGLDFYDTSLLGYDHIKHIYTELSGETGIDVVDESST;locus_tag=LOCUS_01640;note=MGA_166
sequence03	MetaGeneAnnotator	CDS	50173	51054	.	+	0	ID=MGA_167;product=epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000684382.1;translation=MHIFITGGRGFVGSALTKFFLKKKYKITILSRNSSDLSDVRIINSTEEISPDETIDVIINLAGSSINKRWSEPYKQQLVKSRLDVTRDLVRLIKSLKTKPKLFISASAIGYYGSQNNEYIDEDSKYIDDFTHELCNLWEKEATKAEKFGVRTCITRLGVVLGKNGGALKEMLPAFKLGVGGKIGSGKQFFSWVHMDDVVNVFNFLIQDKSQTGKYNLTSPNPITNYDFTKELGKTLCRPTIFPLPAFVVKMIFGEMGEKLLLNGAAIYPKKLLDSGYSFKFKTIDLALKDILN;locus_tag=LOCUS_01650;note=WP_000684382.1 epimerase (Bacillus cereus ATCC 14579) [pid:41.1%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:2.5e-62],MGA_167
sequence03	MetaGeneAnnotator	CDS	51087	51800	.	+	0	ID=MGA_168;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073860.1;translation=MKIAIIGASGTIGAAFLEYFLNSSETEKLYLFSRSEVSNQDARIIHRYIDIEDEGSMEKAANTIPNHENLDYIIVSTGILYTDNILPEKSIKDLSYAKFSKLYAVNTIGPALIGKHFIHKLSSNSRSIFAVLSARVGSISDNILGGWYSYRCSKAALNMLIKNFSIEARRKNPNLIAVGLHPGTVESTLSKPFSSNIRSDKIFSPEYSVTKMVRVLENLTYEDSGKLFAWDGSIIDF;locus_tag=LOCUS_01660;note=WP_011073860.1 SDR family oxidoreductase (Shewanella oneidensis MR-1) [pid:39.6%25%2C q_cov:97.9%25%2C s_cov:97.9%25%2C Eval:7.3e-40],MGA_168
sequence03	MetaGeneAnnotator	CDS	51806	53338	.	+	0	ID=MGA_169;product=cryptochrome/photolyase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003020819.1;translation=MRNLIIILGDHLTHEISSLSDIDKTKDIVLMGEFYSEFTFVKHHKKKIAFIISAMRHFADELLDLGINLKYIKLDDKLNKNSLKDHVREIIENDPINQIIITHPSEYRVLQEIENWKNIFDISIDIREDNRFLCTKKEFSDWAGSKKQLRMEFFYREMRKKHNILMNGDEPEGGKWNYDSENRKSPTAKLNIPEKYITKPDQITKDVIQLVEKCFPDHFGDLEPFFFAVSRDDALLVLSDFIKRRLENFGDYQDAMIENEPWMFHSHLSFYLNCGLLTAMDCIKAVEYAYHRNHLPINSVEGFIRQIIGWREYIRGIYWHKMPEYKNENFFGANRKLPKFFWQANSKMNCINQCVKETKANAYAHHIQRLMVTGNFALLSGIDPDKVNGWYLIVYADAYEWVELPNVTGMILFADGGYLASKPYAAGGAYINKMSNYCKNCSYKVSTKNGPKACPFNYLYWNFLAKNRSKLEKNHRLSMMYKLYDKMSQERKEAIEFDSIKFLDEIEYDD;locus_tag=LOCUS_01670;note=WP_003020819.1 cryptochrome/photolyase family protein (Francisella tularensis subsp. tularensis SCHU S4) [pid:59.1%25%2C q_cov:95.7%25%2C s_cov:99.6%25%2C Eval:2.6e-178],MGA_169
sequence03	MetaGeneAnnotator	CDS	53328	54329	.	+	0	ID=MGA_170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIKKQNIAIIGAGIAGLSLANMLNDVVNIEVFEKSRGYGGRVATRYNEDFVFDHGAQFFTVKNEKFKKFIQPLIDKEIVGIWNAKFVEIDGNKITHKKDWNSHYPHYVGVPKMNAICKYLSNNIETNLNIEVKRIEKSNNNKWQLFDSDSNYLGNFDWVICSAPAFQAQELLPLEFAHHDKLQSIKMLGCYALMLSFKNKLNVDWDAALVKNSNLSWISFNSSKPARNSSNAVVALASNSWADENIEADLEIVKTEMLNSLSQIVKFSDQDLLDCNIHRWKYANIGKNNQFKYLLDQDKKLAAIGDWCIQGRIESAFISADQLHNQIIKLIS;locus_tag=LOCUS_01680;note=WP_011122223.1 deoxyribodipyrimidine photo-lyase (Rhodopirellula baltica SH 1) [pid:32.9%25%2C q_cov:95.8%25%2C s_cov:39.8%25%2C Eval:7.2e-40%2C partial hit],MGA_170
sequence03	MetaGeneAnnotator	CDS	54319	55074	.	-	0	ID=MGA_171;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003022442.1;translation=MQKQFHNQNIWIVGASTGIGKEIALYLSKNGANIIVSARSEKPLQDIVRQTKGQHDLALQIDVQSANEVKKAVTKLTKKYDTIDRVIFMAGIYEPTACNQIDIEKAKQIIDVNLTGAVNIVHYCLPFLEKQNKSQLVLCASVAGYSGLPNGQPYSATKAAILNLAESLKTEYLNSALDIKVINPSFVKTRLTDKNKFKMPFIIAPEEAAKEICSKLDSKSFEIHFPKKLSLLLKFLRLLPYSLYFWLVSKI;locus_tag=LOCUS_01690;note=WP_003022442.1 oxidoreductase (Francisella tularensis subsp. tularensis SCHU S4) [pid:45.1%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:5.1e-47],MGA_171
sequence03	MetaGeneAnnotator	CDS	55079	55609	.	-	0	ID=MGA_172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073243.1;translation=MLRFKNLLLLLCLTLLSGCMAINIKNYEDEKPKFDLKEYFSGPLKAWGIIQDWRGNVVTRFDADMKGTWNENEGTLEEEFRYYNGKTQHRTWRITKQDNGNYIGYADDIIDKATGKTLGNAGQWQYVMDVPVDGSTYRIKFDDWMWQMNDGVVVNRSYMKKFGITVAELTIFIQKQ;locus_tag=LOCUS_01700;note=WP_011073243.1 hypothetical protein (Shewanella oneidensis MR-1) [pid:46.1%25%2C q_cov:93.8%25%2C s_cov:90.2%25%2C Eval:1.5e-42],MGA_172
sequence03	MetaGeneAnnotator	CDS	55596	56849	.	-	0	ID=MGA_173;product=sugar:cation symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011338708.1;translation=MNSKESYFKYAILAFPISFAGLPIYIHTPYLYSTEYNISLASLGLIMIILRLFDAFQDPLIGYLSDKYNEQRKLILMGGSLVLILSVFGLFHRPLFNPYIWLIIFIFLATSSYSVLVINYNTLGALCSDNKFERTRITTHREALGLVGLIAASVTPNILQNYFDQKTAFNYYSWIFIIVSCISCLLFFRWYGYKKIIEKKKNKNEKLTKVLVFDILKNKKVFYTIFFVSSFASSIPSVLVLFFIKDVLNLSSYSGLFLLLYFLSGALCMPVWKIISYKFGKMESWITAMLLAVVTFIWAFLLKEGQIVEYSIICLLSGAALGSELSLPPSILADLTDNQKEQITTNFSILAFLTKFALALSSGSILYLLSLNAFVPGQENSASAIYWLSFYYAIIPCIMKVIAIFIALYWRSNNAKI;locus_tag=LOCUS_01710;note=WP_011338708.1 sugar:cation symporter (Rhodobacter sphaeroides 2.4.1) [pid:30.8%25%2C q_cov:95.7%25%2C s_cov:96.5%25%2C Eval:7.0e-46],MGA_173
sequence03	MetaGeneAnnotator	CDS	56850	57374	.	-	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNLIRIFTIILLLLPTYTYAVPKSVEIYIKKPQLVGSGRLKFWMWDVYDAYLYGPNGKYNPSKPFALSIRYLMSFSSKSLTDRTIKEIRGQGYNNKKMLNLWKQKLIDIFPDVEEGSTITAVALGNGSIGFFSGNKSLGYIDSPEFTKRFFDIWIGAKTSEPKLRDKLLNQKK;locus_tag=LOCUS_01720;note=MGA_174
sequence03	MetaGeneAnnotator	CDS	57367	58524	.	-	0	ID=MGA_175;product=cyclopropane-fatty-acyl-phospholipid synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010919303.1;translation=MIRKISKKKFLEKLENIKYGSLDIETFEGEKFHFKGEVPGEKADLKINSWSFVPKLVTTGDIGFAESYRDNQVETSNIQRLLTFALRNSQILDSYIYSSVFGRLIHKFIYFLNTNTISQSRKNIHRHYDLGNNFYSIWLDKSMTYSSGIFGSEQDNLLQAQENKYNRIIENLNNSGTLLEIGCGWGGFINQALSKKDFAAKGITISSEQLHYAKDKLDGNADIALEDYRIQNGRFDNIVSIEMFEAVGKKYWPIYFRKIKELLNTNGKAIIQTITINDDLSEQYQKGSDMIRSYIFPGGMLPSESQFKYYATQSGLKITDIYRFAKDYSKTLDIWQANFNSNIEAIKKLQFDNKFINLWNFYLASCSSCFLLERTNVMQVKLEHA;locus_tag=LOCUS_01730;note=WP_010919303.1 cyclopropane-fatty-acyl-phospholipid synthase (Caulobacter crescentus CB15) [pid:41.8%25%2C q_cov:92.7%25%2C s_cov:89.0%25%2C Eval:1.2e-76],MGA_175
sequence03	MetaGeneAnnotator	CDS	58521	59306	.	-	0	ID=MGA_176;product=DUF1365 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011338709.1;translation=MVAPKILHAKVFHKRFFPRVNQFSYKLYYLIFPISKISELSRNVVFRVNKHGLMSFFEKDHFPTHNFSEWIKNLLLENQLKFEVEEVVLMAMPRVFGYVFNPVSFWFCFDKESNLRAVLAEVRNTFGESHNYLCYNSDKSKIKQSDIICVEKMFHVSPFIERNGFYKFKFLFEEKSKKIGVWIDHYDSEGKKLLATSILGETTIYNTKNLFKCLIFYPLVTIKTILMIHWQALRIFNKGIKYIPLPKQFKERFSTIKNLNK;locus_tag=LOCUS_01740;note=WP_011338709.1 DUF1365 domain-containing protein (Rhodobacter sphaeroides 2.4.1) [pid:32.1%25%2C q_cov:92.0%25%2C s_cov:94.4%25%2C Eval:7.2e-31],MGA_176
sequence03	MetaGeneAnnotator	CDS	59300	60544	.	-	0	ID=MGA_177;product=dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011263589.1;translation=MKIAVIGTGISGLAISYILSKNHQLTIYEKNDYIGGHSRTITPKINEKEVPVDTGFIVFNKKNYPNLVSLFNHLNIEYSESNMSFGVSINSGKLEYGTSNLSSMFAQKHNLFNLQFLLMIKDIFKFYKNAKNYRDTDLTVGKMLEKMKLGEYFKNNFLLPIAASIWSSKSFQILDFPTSTFVNFFDNHGLLSVSNQPQWYSVIGGSKNYVSKLSNSFQDRIHLSRPALSTNRLNEKVEIIDNSGNKELYDNVIFACHSDQTMKIIQDANDEEKNIIGNIKYQKNKIITHTDSSFMPQNKKCWSSWVYLRENDYQNENLCLTYWMNNLQKLNTDKNIFVTVNPKTHPKKDTILDEYEFEHPLFNQKSIEAQKYLHKIQGKDRYWFAGAYSRYGFHEDGILSAIKIAEKMGEKLPW;locus_tag=LOCUS_01750;note=WP_011263589.1 dehydrogenase (Vibrio fischeri ES114) [pid:41.7%25%2C q_cov:99.3%25%2C s_cov:96.5%25%2C Eval:1.7e-97],MGA_177
sequence03	MetaGeneAnnotator	CDS	60947	61666	.	-	0	ID=MGA_178;product=mannose-1-phosphate guanylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391183.1;translation=MIDTIMLFAAGLGNRMRHLTENSPKTLLPILGKPILHHALELCKSYPFKKIVINTHYLSKQVEKSIEDFKEENPDMPQIVIVYEEELLETGGAVKNAHNILGDEPIFTLNTDIVLRAEYNIFEFMLKKWDKDKMDFLLLMQPYEDSVGYSGHGDFDLDQEGKLIRPDKQENYEYMYSGLQILKPGKVAKHPLRIFSLREYYLNSDKVIGLPAHDARWYHATRPEDIIDIEMDMLAHETA;locus_tag=LOCUS_01760;EC_number=2.7.7.13;note=WP_011391183.1 mannose-1-phosphate guanylyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:34.5%25%2C q_cov:97.5%25%2C s_cov:91.7%25%2C Eval:6.9e-30],MGA_178
sequence03	MetaGeneAnnotator	CDS	61672	62655	.	-	0	ID=MGA_179;product=aminoglycoside phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391184.1;translation=MTLQNIDRSKQLKRFVDEYFASTSYSMEPIVGDAGLRDYLRAKTNDASYIIMDCPPSYTSIEPFINIANFLNENDFSAPEIIKSDIKNGFLILQDFGNLSVKDYLLKRGKEEQESTYHASIDLLIQLQETSPPRNLKLFDNDLMLKELSVFTDYYIPHKTGKALSKEELKEFNKIWQDILASQAPLNTSIILRDYHVENMMYLQEKQGIQKLGLLDFQDALIGSPIYDLVSILEDARIDIDRDFALSCTKYYAKKKQVDLQHTLLNYHILGAQRNSRILGVFTRKYLRDKDDTYLQYIPRVLKYLEYDLLHPILEPIKNWLLKTQIM;locus_tag=LOCUS_01770;note=WP_011391184.1 aminoglycoside phosphotransferase (Rhodospirillum rubrum ATCC 11170) [pid:35.2%25%2C q_cov:89.3%25%2C s_cov:82.2%25%2C Eval:1.0e-43],MGA_179
sequence03	MetaGeneAnnotator	CDS	62658	63944	.	-	0	ID=MGA_180;product=ATP-dependent Clp protease ATP-binding subunit ClpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCN1;translation=MTEDSDKKSLHCSFCGKNQFEVKKLIAGPSVFICDECTEICLDIIKEEANETVEEIISSIPTPKEICKTLDDHVIGQDRAKKILSVAVYNHYKRLENLSDDKSEVELFKSNIMMIGSTGSGKTLLAQTLAKTLDVPFTMADATTLTEAGYVGEDVENILLRLLQAADFNVEKAQKGIIYIDEIDKIAKKSENVSITRDVSGEGVQQALLKIMEGTVAYVPPQGGRKHPQQDFIQVDTSNILFICGGAFMGIESIITARSDKSAIGFAANVKTKDDLRNSDILEDLEIEDLVKFGMIPEFIGRLPVVTTLKDLDKEALISILTKPKNAIIKQYQKLFELNEATLSFTEDGLEAVADKALKRKTGARGLRSIIEEMLLENMYNFSDLKNKEVVYNRPTVEDKEKAKIKAKKSAKIAKATKAKSSKNKLAV;locus_tag=LOCUS_01780;gene=clpX;note=Q9ZCN1 ATP-dependent Clp protease ATP-binding subunit ClpX (Rickettsia prowazekii str. Madrid E) [pid:69.6%25%2C q_cov:93.0%25%2C s_cov:93.6%25%2C Eval:2.9e-159],MGA_180
sequence03	MetaGeneAnnotator	CDS	64006	64608	.	-	0	ID=MGA_181;product=ATP-dependent Clp protease proteolytic subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD29;translation=MAYVPIVVEQTAKGERSYDIYSRLLKERIIFVNGEFEDQMANLIVAQLLFLEAENPEKEIYMYINSPGGVVSSGLAIYDTMQYIKPKIATLCIGQACSMGATILLAGEKGMRYALPNSRVMIHQPIGGYRGQATDIEIHAKETMKVKKILHEIYSKHSGKTLAQVEKSMERDNFMSPKEAKDFGLVDKIIENRDLMLVKK;locus_tag=LOCUS_01790;gene=clpP;EC_number=3.4.21.92;note=Q9ZD29 ATP-dependent Clp protease proteolytic subunit (Rickettsia prowazekii str. Madrid E) [pid:75.3%25%2C q_cov:97.0%25%2C s_cov:96.5%25%2C Eval:7.8e-84],MGA_181
sequence03	MetaGeneAnnotator	CDS	64644	65009	.	-	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNKILDKIFIVLAGLLIVFAVAKIYSGYISSEKAKNIESSEQNLDIVMYAKTGCIYCLKAKEFLEMKQLKYKKIELSNNRDLHLKLANQTGQTTVPYIFINNDFIGGFRELQNLENEGKL;locus_tag=LOCUS_01800;note=Q9ZDW1 glutaredoxin-1 (Rickettsia prowazekii str. Madrid E) [pid:41.6%25%2C q_cov:62.0%25%2C s_cov:81.1%25%2C Eval:1.8e-10%2C partial hit],MGA_182
sequence03	MetaGeneAnnotator	CDS	65181	67520	.	+	0	ID=MGA_183;product=ATP-dependent Clp protease ATP-binding subunit ClpA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389862.1;translation=MLSNDLELTLRKALTIASDCKHEYATYEHLLLALSDDKDAKEIFLENGVVLETFKKRLKNYLQHDLAELVDEDVKEAKPTAGFQRIIQRAALHSQASGNKIINGLHVLAEFFFEHEAYALLCLREEGLSRQDVLSYIKKREGGDKDESAKSQTTQITLVENQVKPEDKEKFENFKKEIADKSGEEDDVEKFCVNLNERADTDAIDCLIGRQNEIQRTIEILCRRKKNNAILVGEPGVGKTAIAEGLAIRIVKGDVPDLLKNAVIYSLDIGSLVAGTKFRGDFEERIKNLLEFLKNNKEAILFIDEIHTIIGAGSTNSGATDASNLLKPALGKGELRCIGSTTFKEYHNHFEKDMALVRRFQKIVVEEPDEDSTMEILKGLKGYYEKHHKVVYSDSALKAAIHLSERYINDRHLPDKAIDLIDEAGARSKMDGSGKKTTITNKHIEDLLSSILNIPNIGDKADDISQLKQLSTNLKKCIFGQDQAIDDLCASIKLSKAGLKKGDRPTGCYLFAGPTGVGKTELAKQLAIFNNMKLIKFDMSEFSESSSISKLLGSSPGYVGFDQGGMLTEEVAKYPYSVVLFDEIEKAHPEIFNILLQIMDEGNLTDSTGKHINFMNTMIILTTNIVAEKEKAAIGFSENDKSSSIPALNLDPINQQFSPEFRSRLDNIVLFNPIDRIVDKIVSKNIKELGAQLADKKVRLSVSAGVKKYFVEKCFNNNGARELDRAIDTHIKQAIADEILFGKLRNGGSANVDLSKRNDEFTFKFTPMQKPTKKHLETN;locus_tag=LOCUS_01810;note=WP_011389862.1 ATP-dependent Clp protease ATP-binding subunit ClpA (Rhodospirillum rubrum ATCC 11170) [pid:47.8%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:1.1e-200],MGA_183
sequence03	MetaGeneAnnotator	CDS	67686	68153	.	+	0	ID=MGA_184;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDU1;translation=MKTYSAKPSEIEKKWLIIDAKDIVLGRLASQAAILLRGKHKPTFTPHMDCGDHVVIINAKHVHLSGNKADKKDGKFYYRHTGFPGGIKETTAGKILLGKYPERVVQMAVKRMLSRNKMGNKQFGNLHVYADAEHPHTAQKPVAFDIAEKNTKNKK;locus_tag=LOCUS_01820;gene=rplM;note=Q9ZDU1 50S ribosomal protein L13 (Rickettsia prowazekii str. Madrid E) [pid:71.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-65],MGA_184
sequence03	MetaGeneAnnotator	CDS	68159	68668	.	+	0	ID=MGA_185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVPTLKELEEQAKGAKAPATVASVAEAPKVIQCKSKKSTPNGGGYGTGKRKNSVARVWVKPGKGKITVNNKDFSEYFPRESYRTAILRPFVDTNTTAQYDVVCTTKGGGTTGQAGAIIHGIARALDCISDDFHSILRKNGFLTRDSRVVERKKYGKRKARKSTQFSKR;locus_tag=LOCUS_01830;note=Q9ZDU0 30S ribosomal protein S9 (Rickettsia prowazekii str. Madrid E) [pid:63.7%25%2C q_cov:73.4%25%2C s_cov:77.0%25%2C Eval:3.7e-40%2C partial hit],MGA_185
sequence03	MetaGeneAnnotator	CDS	68754	69176	.	+	0	ID=MGA_186;product=cys-tRNA(pro)/cys-tRNA(cys) deacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004525946.1;translation=MSFEVKTLQESTRTADDAAKAICCVVGQICKSIIFKAKQSNKPVLVLASGINRINEKFIKDFVGEKILNADAEFTREVKGFAIGGIPPIAHRTKIKKVYIDQDLKQYESIWAAAGTPNSVFELNFESLVKMTGGVVVSIK;locus_tag=LOCUS_01840;note=WP_004525946.1 cys-tRNA(pro)/cys-tRNA(cys) deacylase (Burkholderia pseudomallei K96243) [pid:43.9%25%2C q_cov:94.3%25%2C s_cov:77.4%25%2C Eval:1.3e-24],MGA_186
sequence03	Aragorn:1.2.38	tRNA	69355	69431	.	+	.	ID=Aragorn_4;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_4
sequence04	MetaGeneAnnotator	CDS	365	1168	.	-	0	ID=MGA_187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597040.1;translation=MTFPVLGIIAGNGDLPDEIANIYVANGGSCFVASIDKDRSYNGVPCKIFTLGCVGAILEYFEENKVENVIIVGGVQRPDLKSLKVDWGGTALIANIMKQKILGDDNVLTIVMDHINKKGFNVISPLDILAVNNKNLISTKKKPSKNDNSDIEFGAAILKNLGKLDVGQSVIVCDSYTLGIEAAEGTDNLIRRCDLLRKKDKGGVLVKMSKLAQDMRLDVPVIGPDTIFCLAKHGFSGLAIETKGVIVIKPEETQKLLEENNLFLEYI;locus_tag=LOCUS_01850;note=WP_004597040.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:46.6%25%2C q_cov:97.8%25%2C s_cov:98.1%25%2C Eval:1.1e-58],MGA_187
sequence04	MetaGeneAnnotator	CDS	1174	1956	.	-	0	ID=MGA_188;product=acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZED5;translation=MIHKTAIIGDKVKLGKDVKIGPFCVIGDGAIIGDNVELKSHVVMEGRVTIGEGTKIYPFASLCYPQTLKYNGEDSEIVIGKNNTIREYVTIQHGTAGDKMITSIGDNCLFMVGVHIAHNCSVGNNVIFANYASLAGHVEVGDFAILGGLSAVQQFCRVGPHTMVGGISAVVRDLVPYGLASSDRAHLEGLNLVGMNRRGFDKKQSIEASKVVKEIFDENSDIVFNKRIERAKEKYPENKIIQEIIDFLQKDDSRTFCRYK;locus_tag=LOCUS_01860;gene=lpxA;EC_number=2.3.1.129;note=Q9ZED5 acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase (Rickettsia prowazekii str. Madrid E) [pid:57.7%25%2C q_cov:99.6%25%2C s_cov:97.7%25%2C Eval:1.2e-83],MGA_188
sequence04	MetaGeneAnnotator	CDS	1967	2410	.	-	0	ID=MGA_189;product=3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZED4;translation=MTQEKIDINEIMSIIPHRYPFLLIDRVVEIELKKSIIGIKNVTANEPQFTGHFPTRPVMPGVLIIEAMAQLSAVLVAKSMESTDDKEVFFMSIDESKFRKVVEPGDTLKMFAEIIQNRGPVWKFKARAEVDGKVAAEGVFTAMVKNK;locus_tag=LOCUS_01870;gene=fabZ;EC_number=4.2.1.59;note=Q9ZED4 3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ (Rickettsia prowazekii str. Madrid E) [pid:64.1%25%2C q_cov:96.6%25%2C s_cov:97.9%25%2C Eval:1.4e-49],MGA_189
sequence04	MetaGeneAnnotator	CDS	2407	3429	.	-	0	ID=MGA_190;product=UDP-3-O-acylglucosamine N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZED3;translation=MSDRMFFTNLGPHKLSHIAKIVGCEIDSAHEEVLISDIRPLEDADEKSLTFLTNKKYISEFRSCSAAACLVPLDFNEDIDSNIILLKTSNPYYSYSVILDMFYKPGKSIQPSISPTAYISPSAKIGKNCYIGHNVVIEQDAEIGDDCVIESGSFIDYKVKIGNRARIDANVSISCSVIGDDFIALSGARIGQDGFGFSTEKGVHKKIYHTGRVLIGNNVEVGANSTIDRGSMHDTVIEDLCRIDNLVQIGHNAHIKKGAILVAQVGVAGSSKIGSYCALGGQVGVAGHITITDGVQIAGQGGVIQDIKEPGIMGGTPAVPIRDWHKQTIMMKKLIKGKVR;locus_tag=LOCUS_01880;gene=lpxD;EC_number=2.3.1.-;note=Q9ZED3 UDP-3-O-acylglucosamine N-acyltransferase (Rickettsia prowazekii str. Madrid E) [pid:55.6%25%2C q_cov:97.4%25%2C s_cov:96.2%25%2C Eval:1.0e-105],MGA_190
sequence04	MetaGeneAnnotator	CDS	3510	4241	.	-	0	ID=MGA_191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATSISNISLSVTTKVTTTSFVSSKKVFANGEIMLNGKRVNIGGSLESAKRKINQISKFTGIRAEIKTNGNKQRLVLVSFGNNVNINDPKKLLLNLYKAGKINNNDDSFIQVISKNKHSVKINYTTIGSNSKANSLLKNAFNGSDNVKYIKNSAGLVNPLNVINEINPLHEDEGENLMLVPEAIEEDLDYNQFDDYMYEDGGFDFSFSATDIFWGMASAAYEVAKETIDYGYNAASSYLFKDE;locus_tag=LOCUS_01890;note=MGA_191
sequence04	MetaGeneAnnotator	CDS	4330	5538	.	-	0	ID=MGA_192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSASVSTVRVINEGLVSNSSAISRGRGISTSDIFLNGHKIRISGGLRDIARQINRFKAGTSVTAEIHISAKGKERLVLKTNKSKVSIIDKSGALAEYFNAGKMGIGADKLIEITGTSKRNTPEFVYSRYGTKQADNSLHRKLSGHNIEYLGSLNKPAPAAQILEVDEGEVPDLLPEVEQEVDIGPTNEELRIIREAKIRAQLLKAMNEAVERVAIEAAHVLLSKSKTITNKQSGLVASIQKKLMGSGFGETYLRRNGIELGLEIANAIYSKKSFSLSSTYSLTQTKIDDAIDSAIRTTKVNEVKALASGIVDSFKRGGYKVSNSNAGRIKGSIETGLMTNKHITFEDFYFDSRRIGKWISSRIQEEADQKEIGKGKVVLTTKSARVLSTVISRMTKPDYQNV;locus_tag=LOCUS_01900;note=MGA_192
sequence04	MetaGeneAnnotator	CDS	5739	6662	.	-	0	ID=MGA_193;product=methionyl-tRNA formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P50932;translation=MNIIFMGTPDFAVPALQNLISSKEHNVVAVFSQKPKAKGRGMKITKSSIHQLAESHQISVHTPTTLRKAESLELIDSISADIIVVVAYGFIIPKDILESKKYGCLNIHPSKLPKYRGAAPLQRTIIEGEKESAVCIMQMDEGLDTGDIILQEDFALDPRITLQELHDKCAQIGGDLLLKTLDNIETLPRTKQAATGQTYAHKLTKEESRINWRDSAFKIDCMIRGMNPWPGVYFEFENKKIKILEAEYSNIDHAYQAGQIINKSFDIASEKGILHVKSVKPEGKPKMSSEDYLNGNSNIIVGSTIFS;locus_tag=LOCUS_01910;gene=fmt;EC_number=2.1.2.9;note=P50932 methionyl-tRNA formyltransferase (Rickettsia prowazekii str. Madrid E) [pid:59.6%25%2C q_cov:96.7%25%2C s_cov:97.4%25%2C Eval:8.5e-101],MGA_193
sequence04	MetaGeneAnnotator	CDS	6698	7225	.	-	0	ID=MGA_194;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDV8;translation=MGKLEVLTAPDPRLTKKAKPIESVNDNVRKFMDDMLETMYDDHGVGLAANQVGVLQRVIVMDLQEDDDKERPKGFYPLFLANPEIIETSGDIVEADEACMSVPGQRIPVARPERVKVRFLNYNNEIQEIETGGWLARAFQHEIDHLDGKLTFDYLSKLKKDVVLRKLVKIKRLSA;locus_tag=LOCUS_01920;gene=def;EC_number=3.5.1.88;note=Q9ZDV8 peptide deformylase (Rickettsia prowazekii str. Madrid E) [pid:56.1%25%2C q_cov:97.7%25%2C s_cov:97.7%25%2C Eval:3.8e-51],MGA_194
sequence04	MetaGeneAnnotator	CDS	7365	9236	.	-	0	ID=MGA_195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFIRLFLVIFLIIQPLKIYAVEQEKVIECPETIDKNVLKNGWYLWEPYQYNKVSTGGFSLTGMDIKLVKRLSEKVGVEMQYDQVEWGQHQLDLRDGKRDIAAGATYTKARSEYVYFSEPYRYEENSLFMMRDSIKDLDFESVSEFLVQIRLQNFNLGVTKGFIYADPQINLFINDSTNRDIIREYQNDVDALHALIKGDIDGFISDRVVGAAAILNSRATTKIREIQLHVKTPIHLMFSKKSVPLDVVDRYNQAIKEFSGSDEYKDVVKTYLYPVMLLQTIDSQWFYFIGVVGTLAFAISGIAIAAKDNATLFGTFLFAMLPSVGGGIMRDVLINREEVGLFLTPSYMYYILIVVLVGFSSIRLLEYYNKKANEDDVIMKFWDNILVLGDALGQSAFIVTGVSIAIMARIEPIELWGPFFAFLTANGGGILRDLLRKKHYIICLNGAINAEVSIIWGLLFSLYLDINSHNPDPTGIRNAVIVIAAGAFITRMGAYYFKVPNIKFRADTVEITNPEALDVDDEIHNIEELKELEKKKEAEEEAIEAKELKSRNNNDYIDLEKSKPVVDQPKEPTVLEEELPELEEPPRDPVKTQKPAKNIKEDVSEEVKKDDEDEGPKEPPKL;locus_tag=LOCUS_01930;note=WP_004254956.1 membrane protein (Lactococcus lactis subsp. lactis Il1403) [pid:28.2%25%2C q_cov:30.2%25%2C s_cov:84.9%25%2C Eval:1.3e-15%2C partial hit],MGA_195
sequence04	MetaGeneAnnotator	CDS	9696	10976	.	-	0	ID=MGA_196;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCG5;translation=MLDIKWIRDNKEEFDSLLQKRGVKINSDELLTLDEEKRQLTTLIQQFQQSRNAKSKKLGSLKGRKGREFDETKRDVEHINEKLSELSKQLGDSDRYKEIMDNIPNLPVDEVPYGTDESMNKLIREYGEPKELANAKDHYELGKNLGMIDFEQTAKISGSRFVTLKGKLAKLERAIISFMIDVHTEDYGCMEISPPVLVRPDAMYNVGQLPKFSEDSYLTDGENYRLIPTGEVPLTNLVANSIQKREDLPQRYVAYTECFRSEAGSAGKDTKGMFRNHQFGKVELVSITTEEESDAEQERMLSAAEEILKRLEIPYRVMILCTGDMGFSARRTYDLEVWLPGQNKYREISSVSNCGDFQARRMKARYKDFGDNQTKFVHTLNGSGLAVGRTIIAILENYQNEDGSITIPPVLVPYMGGDTKIEKISS;locus_tag=LOCUS_01940;gene=serS;EC_number=6.1.1.11;note=Q9ZCG5 serine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:63.5%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:2.7e-157],MGA_196
sequence04	MetaGeneAnnotator	CDS	10980	11711	.	-	0	ID=MGA_197;product=Sec-independent protein translocase protein TatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCG6;translation=MQKYTLKEHLVEIKKRLLVVFAFFIASALLCYSFREEIFELFLTPLVDLSEKEGRKIIYTGLAEAFFSYIKLSIFSAFSIIIPIICYQIYSFMAPGLLANEKKLVTLILSFSPILFYIGGFFVFYFVMPRAWEFFLSYENSSINIPLVLEARISEYLDLVIQFTFAFGMAFQLPVVMVILGSLGLVGSDSLRRKRRVSIVIIFIVAAIFTPPDVISQIALAIPLLLLYELSIILCKLVEKKRS;locus_tag=LOCUS_01950;gene=tatC;note=Q9ZCG6 Sec-independent protein translocase protein TatC (Rickettsia prowazekii str. Madrid E) [pid:45.7%25%2C q_cov:100.0%25%2C s_cov:96.8%25%2C Eval:1.3e-55],MGA_197
sequence04	MetaGeneAnnotator	CDS	11798	12499	.	-	0	ID=MGA_198;product=colicin V biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599711.1;translation=MMFTVFDIIILTILFASSIMGLYRGMIYITINLLGFIASIFAAIFLYSYVRIIFSGYIANDLVTSIGSGVVSYIFSLIVFTFLSSKIIFLFKEVSQGIFDRFLGFVLGSLRGGLISLLLFSVVAVFTAGTYSGAEKAEDVIYNLEKDKYPEWLKDSVTTPYLETTLKNSIRYIPKDLLDSIDLSKEDKDINQIDEIKKKKHGEVRSVLEIPMDKTLEKNIDELLPDDEDNTEK;locus_tag=LOCUS_01960;note=WP_004599711.1 colicin V biosynthesis protein (Rickettsia prowazekii str. Madrid E) [pid:32.7%25%2C q_cov:85.4%25%2C s_cov:95.4%25%2C Eval:1.8e-27],MGA_198
sequence04	MetaGeneAnnotator	CDS	12496	13098	.	-	0	ID=MGA_199;product=5-formyltetrahydrofolate cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD82;translation=MELKKQLRQKFLDLRKSYKDLSHSIENETIVKNTQEVIDSISFKRNKQTKLVKKTDVLDKNKTVGLYWPMQGEVDIMKLAVKFLSKAALPKIKGTKMYYVKYGYNSKMEKSSFSKLMQPQNENKVEPNIIVIPGLSLSINGDRLGFGAGYYDRYISKKGSREDIIKIGVCFHRDLSEYLPKESHDLTLDYVITDKVIIEI;locus_tag=LOCUS_01970;EC_number=6.3.3.2;note=Q9ZD82 5-formyltetrahydrofolate cyclo-ligase (Rickettsia prowazekii str. Madrid E) [pid:35.5%25%2C q_cov:90.5%25%2C s_cov:97.1%25%2C Eval:1.4e-19],MGA_199
sequence04	MetaGeneAnnotator	CDS	13111	13779	.	-	0	ID=MGA_200;product=DNA polymerase III subunit epsilon;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCJ9;translation=MNIREIVLDTETTGLNPQDGHRIVEIGALEMVNKVLTGKKFHFYINPERDMPSEAYRIHGISSEFLKDKPVFKEIAEEFLDFIEDGKLVIHNAPFDIKFLNYELSLVNLPSLELSEAIDTLIIARKNYPGARVNLDALCRRFKIDNSSRDFHGALLDAALLAEVYVELTGGRQTSFVIGNRESNEIQNDVVNVMAEGNKLVVYPTEEELKKHQEFMEKFIKK;locus_tag=LOCUS_01980;gene=dnaQ;EC_number=2.7.7.7;note=Q9ZCJ9 DNA polymerase III subunit epsilon (Rickettsia prowazekii str. Madrid E) [pid:66.1%25%2C q_cov:98.6%25%2C s_cov:97.8%25%2C Eval:2.4e-79],MGA_200
sequence04	MetaGeneAnnotator	CDS	13776	14342	.	-	0	ID=MGA_201;product=dephospho-CoA kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCK0;translation=MKNIAITGSFASGKSFVLNCLKNMGYMVFSCDDFIREAYKDIKLQDIVIGKIEGLEIFDKKRLSKIIYDDPQPRKELESIIHPIVRSGIREFEEINKNQKFIFTEVPLLFESNFDEYFSYSICVYCSEETRWQRAKERGVSNIDLYNKIKSVQFDQEEKKRRSDFVINSDTNQREIEKSLEKIIKKIA;locus_tag=LOCUS_01990;gene=coaE;EC_number=2.7.1.24;note=Q9ZCK0 dephospho-CoA kinase (Rickettsia prowazekii str. Madrid E) [pid:43.8%25%2C q_cov:89.9%25%2C s_cov:88.5%25%2C Eval:1.1e-36],MGA_201
sequence04	MetaGeneAnnotator	CDS	14342	15160	.	-	0	ID=MGA_202;product=putative pyruvate%2C phosphate dikinase regulatory protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEE1;translation=MKKLTVHLVSESSGQTVKHAANTALAKFSDVEVKKYHWPMTRNLKMLDEVFEKVKAKPGVILYTVSDEGLRDALKKFCFEMKIPCVSVVSKIVKEIAEYIGESADSGVGYTNKFDETYFDKVDAIEYSLRHDDGQMLDDLEEADIILIGPSRTSKTPTSVYLSYNGFKTANIPLVSGCPFPDILPKMNNPVIFGLIINPGRLVEIRESRMNLLQVTENSNYTDIKTIQDECRQVKRICYENNWKVIDVSMRSIEETAAIIMKAYYDQKKGIK;locus_tag=LOCUS_02000;EC_number=2.7.11.32,2.7.4.27;note=Q9ZEE1 putative pyruvate%2C phosphate dikinase regulatory protein (Rickettsia prowazekii str. Madrid E) [pid:58.2%25%2C q_cov:98.5%25%2C s_cov:98.2%25%2C Eval:5.8e-95],MGA_202
sequence04	MetaGeneAnnotator	CDS	15531	16550	.	+	0	ID=MGA_203;product=uroporphyrinogen decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC83;translation=MSNLIKVFQKENKEIPIWLMRQAGRYLPEYMEIRSTVSDFLELCYDSKKATKVTLQPIDRFGFDAAIIFSDILVLPHALGWDVAFKKGEGPVLAKFESEKDLLKLSDSFSKQIENIYDTVSNVRHFLPKNVSLIGFAGSPWTVISYMFEGKGKQDFSVSKRFLYNNYVTALKLFDIISDKTIEYLSNQIEAGAEIVQLFDSWSGMLNGFNYEEFVIKPTKKIVTELNKKYPNVPVIGFPRGSGYNYDNYIKNTNIDAVGVDQFTPVSQMKKWQRNIVVQGNFDPVILLTNREKIKNAVDEILYTVEDDNFIFNLGHGIMPNTDPKNVEYLVNYVREFKK;locus_tag=LOCUS_02010;gene=hemE;EC_number=4.1.1.37;note=Q9ZC83 uroporphyrinogen decarboxylase (Rickettsia prowazekii str. Madrid E) [pid:53.0%25%2C q_cov:97.3%25%2C s_cov:95.7%25%2C Eval:3.5e-106],MGA_203
sequence04	MetaGeneAnnotator	CDS	16528	17598	.	+	0	ID=MGA_204;product=ferrochelatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC84;translation=MSESSKNKKTAIVLFNLGGPDSKKAVKPFLFNLFNDKYIITLPKFLRYFIAWLISSRREKTAQEIYSYLGDKSPILDETKAQADFLEKSLKSSLKSDCRVFICMRHWHPMSDKVVEDITNYGPEEIILLPLYPQFSTTTTLSSIEDFSNKIQKKLPNIFYKTICCYPRNKNFIQSHVDLINKSLEKIEDKDNYRILFSAHGLPKKIIESGDPYQWQVENTVQGIIDQLPFSRIDYRISYQSRVGPLEWIGPNTEDEIEKAGKEQKELMIVPVAFVSEHSETLVELDIEYKEIADKYSMNYVRVPTLSVNDHFVDSLKNMVVSASNSESSFLYSDEMKRICPGSYTRCPCKTKNKGK;locus_tag=LOCUS_02020;gene=hemH;EC_number=4.99.1.1;note=Q9ZC84 ferrochelatase (Rickettsia prowazekii str. Madrid E) [pid:54.0%25%2C q_cov:97.5%25%2C s_cov:99.7%25%2C Eval:7.3e-102],MGA_204
sequence04	MetaGeneAnnotator	CDS	17603	18040	.	+	0	ID=MGA_205;product=UPF0093 membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC85;translation=MEDYFIWYKTIHVISVISWMAAIFYLPRLFVYHSKVELGSEMDKTFQIMERRLLKIIMTPAMLLTYIFGLLTAYVYGVVALGVWFHIKMLAVLGLTIMHGFCAKWVKDFAKGENNHSEKFYRMANEVPTILMILAVTMVIVKPFE;locus_tag=LOCUS_02030;note=Q9ZC85 UPF0093 membrane protein (Rickettsia prowazekii str. Madrid E) [pid:59.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-51],MGA_205
sequence04	MetaGeneAnnotator	CDS	18239	18991	.	-	0	ID=MGA_206;product=N-acetylmuramoyl-L-alanine amidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013530945.1;translation=MLLNSNFSSPNFLKRSQKIEYVILHFTEMPFKEALARLCDTSSEVSAHYLIKENGEIFQLVKDENVAWHAGKSSWHKKDKLNQNSIGIELDNLGNKDFTKDQMDSCIELCKDLAQKYNIPKENFIGHSDVAPERKIDPGIFFNWKLLSEQGFGMWHEVEPISMNISLYEFGVIGKNIGNIQSKFRKLGYNIDITEIFDKQTNFVIRAFQSKFCPQIIKDLGLEHYNNFESKYIWDSHSDNVLNDLVKSMS;locus_tag=LOCUS_02040;note=WP_013530945.1 N-acetylmuramoyl-L-alanine amidase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:42.3%25%2C q_cov:82.8%25%2C s_cov:84.9%25%2C Eval:6.7e-39],MGA_206
sequence04	MetaGeneAnnotator	CDS	19059	19880	.	+	0	ID=MGA_207;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE32;translation=MEQLKVNETESIQSNTHNSTKSEVKSLILVILLALAVRTFCIELFYVPTGSMRATILEGDYIFSTKYDYGYSIYSIPFNPNIFEGRIFDYPPERGDVIIMRPPHNMEQRYIKRLIGLPGDKIEIKNDLIYINDSPIERVEVGIYTSEDNIEYIKFRETLPNNVSYFSYKLKDQPMIFDVDISNYGPKIVEKGRYFFLGDNRDNSGDSRYQLQTVDPRNFIAKGRFILFSTKIPLWDSSSSFFEQIARIGDWISSIRFNRISSSLYISKNNHDK;locus_tag=LOCUS_02050;gene=lepB;EC_number=3.4.21.89;note=Q9ZE32 signal peptidase I (Rickettsia prowazekii str. Madrid E) [pid:52.8%25%2C q_cov:91.9%25%2C s_cov:96.2%25%2C Eval:7.9e-68],MGA_207
sequence04	MetaGeneAnnotator	CDS	19870	20568	.	+	0	ID=MGA_208;product=ribonuclease 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE31;translation=MINKFSKEELNLLEKKLDYKFNDVNFLIEALTHPSMKQIDNTIRDYERLELLGDSILGFLVTEMIFNKYTGYEEGNLAKIKAHVVSSGTLVKIASTIDLSKYLIITPGEENSGGRNNPNNIENAMEALLAAIYLDSNVENVRKIVRRLWKESVDNIDFSAADPKTYLQEFLQKKKLNIPKYELINQEGPVHAPLFTVKVSSNSKSKLGEGKSIKDAEKDAARKLLKLLESER;locus_tag=LOCUS_02060;gene=rnc;EC_number=3.1.26.3;note=Q9ZE31 ribonuclease 3 (Rickettsia prowazekii str. Madrid E) [pid:47.5%25%2C q_cov:93.5%25%2C s_cov:97.3%25%2C Eval:6.7e-51],MGA_208
sequence04	MetaGeneAnnotator	CDS	20572	21477	.	+	0	ID=MGA_209;product=GTPase Era;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE30;translation=MSENIKKSLSVCIVGKPNAGKSTLLNHIIGEKISIVTPKVQTTRSIITGIITFDDVQLVLFDTPGIFEPKKKLEKAMVRCAWSSLGSADMIVLIIDGSAKIDEGVTDIIHRISESGKPITFLLNKTDLKTKYAVENISFLQKVAPKARIFNISALKGKNVSDFLEYLKENTGISGWGYDADDITNLPSRFLATEITREQLFLKLEQELPYNLTVESESWEEQADGSVKINQAIIVSRESHKNMIIGKKGIKIKEIGTEARVNIEKLLGQKVHLFLFVKTRKNWEDNPEFYHTMGLKYQGNH;locus_tag=LOCUS_02070;gene=era;note=Q9ZE30 GTPase Era (Rickettsia prowazekii str. Madrid E) [pid:56.7%25%2C q_cov:97.3%25%2C s_cov:99.3%25%2C Eval:2.5e-89],MGA_209
sequence04	MetaGeneAnnotator	CDS	21474	21866	.	-	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRELAENDTFPPNNEEEMGEPAAIPHPNNYNSDQEETYPRPIGSNLQVLMPGNAVLAEESEDYSPINREIPTNIQLDTFIDLIMSDYFSEQNGNSILAANGIRLKEDFEGILVIGDTIIVVDKDLGESS;locus_tag=LOCUS_02080;note=MGA_210
sequence04	MetaGeneAnnotator	CDS	21880	22689	.	-	0	ID=MGA_211;product=ribosomal RNA small subunit methyltransferase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05952;translation=MLPSIAKLASKHGIAPLKKFGQNFIFDENLCDKIVQYSSINQDSCVLEIGPGPAGLTRSILKAKPNKLTVIETDSRCIPLLKELQESFPFLEIRHEDALKTSLKELSKTNLDIISNLPYNIGSQLLINWLGEIKHVNSMTLMLQKEVVDRIISKPNNKSYGRLSVICQIICNTYKCFDVSPKAFYPEPKIWSSIVRLTPKPNQPSEEIINQLEKITRLAFSGRRKMIKSSLKSLHSDIDNILKKSGISLQHRAENLSPEDYLNIANNFI;locus_tag=LOCUS_02090;gene=rsmA;EC_number=2.1.1.182;note=O05952 ribosomal RNA small subunit methyltransferase A (Rickettsia prowazekii str. Madrid E) [pid:57.0%25%2C q_cov:98.5%25%2C s_cov:98.9%25%2C Eval:1.6e-81],MGA_211
sequence04	MetaGeneAnnotator	CDS	22691	23578	.	-	0	ID=MGA_212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05951;translation=MKRLISVFLVLFSFNTLADLPDVVAFVNDRPITKYDFEARKKMIVELNNIDISDPGVNSKVTSDILNILIEEELLNQHAEKVGGEVSEEEIDNAILSIEQRNKMPKGGMKAHMKASNLDIESFRKQIKGELIKHNIVNSLSQSVSVSPNEMDIALINSYQDFDIEAWVFTSKSGDEKSKGKMQLLKKRLSSCNKIDDKLFADFADGEKFDRKLTKLPPKTQSVVLDTKVGASSNIYKQGNLFKMVLVCKKDSGVSKNDLNKIESFLSNKKMSKKATKFFKDLKVKSNIKIMMPGL;locus_tag=LOCUS_02100;note=O05951 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:41.2%25%2C q_cov:99.3%25%2C s_cov:99.7%25%2C Eval:1.2e-51],MGA_212
sequence04	MetaGeneAnnotator	CDS	23590	25701	.	-	0	ID=MGA_213;product=LPS-assembly protein LptD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05950;translation=MLRVCKLLLLIYFISPFIACGANSTNNALKAKEVHYDSKNDLITAKGNVFVKMEGYTINAQKIIYDLKDDTIFAEENVQITDRSGRVIKGEKAIFKDKLKKGVIEGFIAKLDENSILAARLAKRLDKNRLSLEKSVFTPCKINCGNKPIWQISSGKTDIDYSKEKITYRHVFFEIYGVPIVYFPYFSHPTPDAKAQSGILGPKILKDDFMIPFYFRAKPNIDFTISPRFSKRYTIFDSEYRHKVEDGSYKINGSYGNPSFRRKGADGESNSSNPGRYHVNAKGDFSRNSINYGFDVQRASDKAFLTNHQEIYDSYLTSRIYTSTVDRRNYFLLEGYHFQDLRDKNSKLKTPFILPSIKTQNVIDLSDDETLLLNVRNNTIIYSEPNELQLARNALELEMMSNMISQGGHMYTLTASNRGDLYVVDFNESKSKKGQQKVWYRNIPEVSAKWRYPLMKSITQKSSIKIEPTAMVVLGRKYEKRFEKFALVDAPKNELSENNIFSTNRFSGIDYHEYGSRFSYGVNSTLSGGPLYIDTFLGQLIYKDNVVERGNSEYVGSARADIFNNTSIFYRFRRDQSLKPIRNEVGFESITEDFIGNVSFAEFHQASRYFADNDVMIESDKASQINMNADYRVQENLWIGGTTKLDITSKSPRVLVRSIRVTYIFDCVSINGVITDNFLNDSLRGVRKTRTKSFSVGLKVLNM;locus_tag=LOCUS_02110;gene=lptD;note=O05950 LPS-assembly protein LptD (Rickettsia prowazekii str. Madrid E) [pid:38.3%25%2C q_cov:95.3%25%2C s_cov:94.8%25%2C Eval:1.2e-139],MGA_213
sequence04	MetaGeneAnnotator	CDS	25754	27094	.	+	0	ID=MGA_214;product=exodeoxyribonuclease 7 large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCP8;translation=MLEDNLTNNLTQTEFSVSEISGKIKWLLENKLGIVKIKGEISGLKVAASGHGYFSLKDNNAVLAATCWRHNLARVNFKLEEGLEVVVTGKITAYAGQSKYQISADHIEPAGSGAFMKILKERRAKLEQEGLFAKDHKQKIPYLPKKIGVITSISGAVIKDIIHRIVDRCHTHLVIWPVAVQGESSADEVSNAIDEFNKLDSDQRPDLLIVARGGGSIEDLWSFNEENVVRSTYNSKIPIISAVGHETDYTLIDLAADVRAPTPTAAAEFAVPVASDLRYTINVLGDRMHTRLNDLLKYYSQKLSNNKRALEQVKNSVENYAQKIDDLSFRLLGSLPNLLKQKSNMLEYFPISRIKPVKIMKYKYLQYKQFDDYLLNKSSTLLNEYQHKLTLNSSLLNSLDYNNVLKRGFAMVSNSEGKYVSKLAEVKQSSVLNIKMQDGAIEVVKK;locus_tag=LOCUS_02120;gene=xseA;EC_number=3.1.11.6;note=Q9ZCP8 exodeoxyribonuclease 7 large subunit (Rickettsia prowazekii str. Madrid E) [pid:53.1%25%2C q_cov:98.9%25%2C s_cov:97.1%25%2C Eval:1.3e-125],MGA_214
sequence04	MetaGeneAnnotator	CDS	27201	28130	.	+	0	ID=MGA_215;product=glycosyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532715.1;translation=MKTSGQIVAILMCTYNGEKFLAEQLDSFLDQTHKNIVLWVSDDGSTDGTLDILKEYQGKFPKDSLNIVKGPGKGSVINFLSILCNPDLKADYYAFADQDDIWEKEKISTALSKVSKFPEDIAVLYGSRTKTVDENGVELGYSTIFPKAPCFKNALVQSIAGGNTMLMNNNAVDIMRKAGPMQVISHDWWAYVLISGAGGWVIYDDYPSLLYRQHGNNQIGANTSWAARVKRLGLLLSGSFREWNNTNVNALLKVKYLLNKENQAILDKFENSRNGGLLHRVVGLWKLGIFRQTFLGNIALAFAIILKKI;locus_tag=LOCUS_02130;note=WP_013532715.1 glycosyl transferase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:43.8%25%2C q_cov:93.9%25%2C s_cov:93.9%25%2C Eval:2.5e-68],MGA_215
sequence04	MetaGeneAnnotator	CDS	28141	29199	.	+	0	ID=MGA_216;product=dTDP-glucose 4%2C6-dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9HU24;translation=MAILVTGGAGFIGANFVLKCIEQLDEPIINLDKLTYAGNLDNLQSIEKEKRHIFIKGDIGDSKLVDDILDKYKPRAVINFAAESHVDRSISTPEEFLQTNVVGTFRLLESAKQYWQQLPIEEKDGFRFLHVSTDEVYGTLEKNEDPFKETNRYQPNSPYSASKASSDHFVRAYYHTYGLPVLTTNCSNNYGPYQFPEKLIPLIIHNALNNKELPIYGDGLQVRDWLFVGDHCSAILSVLDKGDVGEVYNVGGLNEKANIEVVNHICEILDEVKPKSDSSSYKSQITYVKDRPGHDRRYAIDATKIKNSINWSPESTFEDGIRQTVNWYLNNQNWVSRVISGDYSKWIEEQYS;locus_tag=LOCUS_02140;gene=rmlB;EC_number=4.2.1.46;note=Q9HU24 dTDP-glucose 4%2C6-dehydratase (Pseudomonas aeruginosa PAO1) [pid:66.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-142],MGA_216
sequence04	MetaGeneAnnotator	CDS	29196	30095	.	+	0	ID=MGA_217;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003112614.1;translation=MKILLFGSSGQIGAYLQKSLAGMGEIKACSRNECDFADLNQIEKTIIKYKPNIIVNAAAYTNVDKAESEKQKVKAINIDAVEIIAKAAKNLGALLIDYSSDYIFDGTKNAPYVENDKANPMSTYGLAKFQGEEKIRKSGCDHLIFRTSWIYSPNGRNFVNTIINLAREKDKLSIVDDQVGAPTSAEFVAEVTAHCIRRGVNSNNWGTYHLTAGNSVSWYEFAKYILNYLKSRGFTFRLDIDNIVPVSSEDYKSAAVRPKNSILSTELIKKTFELQIPSWETQVEQVLSKIKLKEMDYTS;locus_tag=LOCUS_02150;gene=rmlD;note=WP_003112614.1 NAD(P)-dependent oxidoreductase (Pseudomonas aeruginosa PAO1) [pid:40.5%25%2C q_cov:96.7%25%2C s_cov:97.4%25%2C Eval:6.5e-66],MGA_217
sequence04	MetaGeneAnnotator	CDS	30092	30985	.	+	0	ID=MGA_218;product=glucose-1-phosphate thymidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q888E7;translation=MNRKGIILSGGSGTRLYPVTKGVSKQMLPIYDKPMIYYPLSTLMLAGIQEILIITTREDIDGFKRLMGDGSQWGISLEYAIQDSPDGIAQAFLIGEEFIGDNSCVLALGDNIFFGNNFQNLLKSANDRVDGATIFSYRVHDPERYGVAEFDENGKVLNLVEKPTNPKSHYAVTGLYFYDKNVVQYAKKIKPSDRGELEITDLNKLYLEEEKLSVEIMSRGYSWLDTGTNESMLDSHHFVHTIEKRQGLKIACLEEIAFNNGWIDINMLKKLADEMKKSTYGLYLKQIIDEVGSNAGN;locus_tag=LOCUS_02160;gene=rfbA;EC_number=2.7.7.24;note=Q888E7 glucose-1-phosphate thymidylyltransferase ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:64.7%25%2C q_cov:97.3%25%2C s_cov:97.6%25%2C Eval:1.2e-112],MGA_218
sequence04	MetaGeneAnnotator	CDS	30972	31517	.	+	0	ID=MGA_219;product=dTDP-4-dehydrorhamnose 3%2C5-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015706041.1;translation=MQVTKLSIPEVILIEPRVFADERGFFYESFNHEMFEKATGVKTKFIQDNHSQSKKGVLRGLHYQLPPKAQGKLVRVVRGEAFDVAVDIRKNSPTFGKWVGEFLSEENRKQLWIPPGFAHGFMAMQDGTEFLYKTTDSYSKENERSIIWNDPDINIKWPESSKLNVSEKDKEGQFLKDADLF;locus_tag=LOCUS_02170;note=WP_015706041.1 dTDP-4-dehydrorhamnose 3%2C5-epimerase (Enterobacter aerogenes KCTC 2190) [pid:61.2%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:7.4e-64],MGA_219
sequence04	MetaGeneAnnotator	CDS	31614	32543	.	+	0	ID=MGA_220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRKFLLLGVVVFIITTVATFVLYKKLRKIHNDIRYTIQKIPEKSEHKYSTDSYFDKEKHDIIADPYSRAKFIANIQQSKGLQLEIGPYFTPVLKGDNVRYFDVLDKEGLIEKAKIDKISIENIPHIDYVEPHGDMSVIKQKFDIVFSSHNVEHQVNLVKHFQQVENLLKKGGKFYLAVPDKRYCFDHFIFETPLSMVLATYWENPQNHSLQTILAKCETGHNDSKRHWEDDSGIPVFMDNRECFKQEYINYENANGNYIDAHKWRFTPQSFAFIINELNRMKLVSLKVEKMWETALHSHEFYVVLVKE;locus_tag=LOCUS_02180;note=MGA_220
sequence04	MetaGeneAnnotator	CDS	32557	33390	.	+	0	ID=MGA_221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011266717.1;translation=MGMFMSKKTISTFLSILITLVGLIYDANAHDSIKKIYFEHEGNASDKWINYLDVYDECFSRYIGKNPNLLEIGVQNGGGLQIYSKYLKNAKIYGIDINPEVCKMSLGENIKTFCFDINMKDKFLSNLKDVEFDIIIDDGSHMQDDMINTFEFLFDKLRAGGIYIVEDVHTSYWKSFKGKYKGKNTSVEYFKNLVDYMNFYHIKEDFNSIKVQENLLTQKYIDKYVPWIESITFYDGIIAIKKYKEKKLAPHERIVVGKEQPVVPSIDIAKDAGYYIK;locus_tag=LOCUS_02190;note=WP_011266717.1 hypothetical protein (Pseudomonas syringae pv. syringae B728a) [pid:39.9%25%2C q_cov:83.4%25%2C s_cov:79.5%25%2C Eval:3.9e-38],MGA_221
sequence04	MetaGeneAnnotator	CDS	33414	34322	.	+	0	ID=MGA_222;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003112614.1;translation=MIESRKKKILLFGANGQVGWQLQRSLAPVGELIVCSREDVDIENFDLLRQAIKQYKPNIIVNATAYTNVDMAETEQDKAEKINATAVRIMAEEAKNLSALLVHYSTDYVFDGNSSEAYLECDQTNPISVYGKTKLLGEEHIINSGCAYLIFRTSWVYSSRRKNFIKTIVSLAKEKEQLKVVSDQLGSPTSADYIADVTALCLSRDINKNEYGIYNLTTDGLISWFDLAKFSIELLRNNGVEIKVLSSNILPVKTDDSNFVVKRPKFSKLDSKKLKTIFGINIPSWQHHVKYLLEDVKNNDFL;locus_tag=LOCUS_02200;gene=rmlD;note=WP_003112614.1 NAD(P)-dependent oxidoreductase (Pseudomonas aeruginosa PAO1) [pid:48.3%25%2C q_cov:95.7%25%2C s_cov:97.4%25%2C Eval:1.0e-74],MGA_222
sequence04	MetaGeneAnnotator	CDS	34343	35428	.	+	0	ID=MGA_223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNIVLNLAYYFVAFFHMLLDLLNPLFYSSVRRLNRKIDGKLKFNSKFTVVFVLYQKNYIPFYVQNVLDVFKELQVNCILSVNEDADQSVIDKLKDNCNTLFVRKNFGLDFAAYKDSILQSDFSDCERLIIMNDSIFLFKNGLKKLLLQFLEDKYDVVALGENISAPRWHLQSYLVSFSKKVIQDKDFIGFWKNYKPFTHKKYVIYNGEVALSNLALKKYYKTTKVIFNLDVIINNYKKIEELASKLISNNMFSTYQKEFSENSKGKELQKDPSILNFLEKTNITHSAAFLFKEFSDGSMILKRDIVFKKSFNINEVYQNLNQLNIDIVEKEQVINELKLRGNLSHQGIIDKFLFAIGIK;locus_tag=LOCUS_02210;note=WP_012775568.1 rhamnan synthesis protein F (Streptococcus suis BM407) [pid:26.5%25%2C q_cov:47.6%25%2C s_cov:31.7%25%2C Eval:1.8e-10%2C partial hit],MGA_223
sequence04	MetaGeneAnnotator	CDS	35597	36514	.	-	0	ID=MGA_224;product=elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q92Q54;translation=MAITASMVKELREKTGAGMMDCKKALVEANEDFEAAVDWLRTKGLAAAAKKAGRVAAEGLTAVAIDGTKGSVVEINSETDFVSRNETFQGLVKEVAEIAVNHNDIESLKSAKANSGKTVEEEIVANVATIGENLNLRRMQTVEVSDGVIASYVHNASADGMGKISVIVALESTGDKTKLMEVGKQLAMHVAAAKPQSLNKEGVDPSIIQREKDIFTEQSRASGKPDNIIEKMIEGRIRKFLEEIVLLDQAFVIDGKTKISDVIANLAKELGTSVELKNFVRLEIGEGIEKEESNFADEVAAVAKN;locus_tag=LOCUS_02220;gene=tsf;note=Q92Q54 elongation factor Ts (Sinorhizobium meliloti 1021) [pid:56.2%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:5.8e-94],MGA_224
sequence04	MetaGeneAnnotator	CDS	36555	37466	.	-	0	ID=MGA_225;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE61;translation=MSNLPKVSVGDLLDAGIHFGHKTSRWNPKMAPYIYGTRDNIHIIDLQQTVPLMQIALKQIYETVKNNGKVLFVSSKVQATDLVAEYAEKCGQFYVNNRWLGGMLTNWTTISKSIKKIDNIEKILEDEELVATYTKKEVLDLNRKREKLLKSLAGIRKIGGKPDLIVVIDTNKEHLAITEAVKLNIPVVAVVDSNSDPDNIDYPIPGNDDAIRSIRLYCHLFAEAALAGIQDAMTDSGADAGTAKKLVEGDSLDGVKKIEKVEKVSKAKTEAAPKKAATKVTKAEEAKEEKKPAKKEAKATEKK;locus_tag=LOCUS_02230;gene=rpsB;note=Q9ZE61 30S ribosomal protein S2 (Rickettsia prowazekii str. Madrid E) [pid:69.8%25%2C q_cov:79.9%25%2C s_cov:81.8%25%2C Eval:1.4e-100],MGA_225
sequence04	MetaGeneAnnotator	CDS	37777	38115	.	-	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD62;translation=MSKKQVMQLTDNAAEQVKVLLAERGKPSMGIRVGVKSGGCSGLKYFVEYADEKNPFDEIIQDKGVTVLIDPKALMYLLGTQMDFVSEQFKSGFTFTNPNEKGKCGCGSSFNV;locus_tag=LOCUS_02240;note=Q9ZD62 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:65.1%25%2C q_cov:97.3%25%2C s_cov:99.1%25%2C Eval:1.1e-39],MGA_226
sequence04	MetaGeneAnnotator	CDS	38115	38495	.	-	0	ID=MGA_227;product=iron-sulfur cluster assembly scaffold protein IscU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q57074;translation=MAYSDEVIDHYENPRNVGALDKKDSDVGTGLVGAPACGDVLKLQIKVDDNGMIVDAKFKAFGCGSAIASSSLVSEWVKGKNVDEALEIKNTEIASHLSLPPVKLHCSMLAEDAIKAAVTDYKNKQK;locus_tag=LOCUS_02250;gene=iscU;note=Q57074 iron-sulfur cluster assembly scaffold protein IscU (Haemophilus influenzae Rd KW20) [pid:77.6%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:1.0e-53],MGA_227
sequence04	MetaGeneAnnotator	CDS	38530	39786	.	-	0	ID=MGA_228;product=cysteine desulfurase IscS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD60;translation=MVNLEKLRKKVADSGSKFPIYLDNQATTKTDPRVVDAMLPYFTEKFGNPHSKSHSYAWEAEEACELARTQVANLIGASGKEIIFTSGATESNNMALKGIARFYGSKKKHIVTVVTEHKCVLDTCRHLEQEGFKVTYLPVKPNGIVDLDELKNAINEDTMLVSVMAVNNEIGVIQPLKEIGQICREKGAFFHSDIAQAFGKIPINVDECNIDLASISGHKIYGPNGIGALYIRRKPRVRLAPIFNGGGQERGFRSGTLSTPLSVGLGVAAEIASKEMDKDYVHVKKLFDKFLNKIQSNADEIYLNGDKDQRYHGNLNLSFAYIEGESMILSIKDLAVSSGSACTSSSLEPSYVLRALGVGDDLAHTSIRFGFGRFTTEEEVEYAAELMLSRINKLRELSPLWEMVQEGIDINEIEWAAH;locus_tag=LOCUS_02260;gene=iscS;EC_number=2.8.1.7;note=Q9ZD60 cysteine desulfurase IscS (Rickettsia prowazekii str. Madrid E) [pid:73.5%25%2C q_cov:95.7%25%2C s_cov:97.6%25%2C Eval:3.5e-178],MGA_228
sequence04	MetaGeneAnnotator	CDS	39792	40904	.	-	0	ID=MGA_229;product=cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597730.1;translation=MIYLDHNATTNIRPEVWNKMNELASYGPVNPSSIHSYGQKGKSLLEEARKSIATLLGFESNRRGYQITFTSSGTEANNLIISNFKDHEVFISATEHPSIYVHSKHLKNITIIKVDQNGILDIDDLILKLKKSKSSKKLLSVMLANNETGVIQPLKKICEIAHNHEALVHSDCIQAIGKIDVNMPDLDIDFLSISGHKFGGPMGSAALIARTSIHLEAQIIGGGQERSLRSGTENVPAIAGLGLAAKLAKEELRERHAHMATLQSKLEKMLLESDHSIEIVGSNTERLPNTSLIFNLNKKAETQLIALDLKGVAVSSGSACSSGKSSPSHVLSAMGYTEDKLHSALRISVGTNTKEEDIDKFIGIYNEINK;locus_tag=LOCUS_02270;note=WP_004597730.1 cysteine desulfurase (Rickettsia prowazekii str. Madrid E) [pid:44.8%25%2C q_cov:99.5%25%2C s_cov:97.1%25%2C Eval:1.0e-77],MGA_229
sequence04	MetaGeneAnnotator	CDS	40926	41351	.	-	0	ID=MGA_230;product=putative HTH-type transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P44675;translation=MYMMLTTKSRYAVMAVIEVAARDSKTPIRLADISEKQNIPLNYLEQIFLKLKKASLVRSVKGPGGGYHLNLSSKEISIENIVDAVEENLKMTRCSKDKNCRKNGVNCKTHDLWKGLGRHIREYFANISIDDVISGEINIVN;locus_tag=LOCUS_02280;note=P44675 putative HTH-type transcriptional regulator (Haemophilus influenzae Rd KW20) [pid:49.2%25%2C q_cov:93.6%25%2C s_cov:87.3%25%2C Eval:5.1e-32],MGA_230
sequence04	MetaGeneAnnotator	CDS	41465	42241	.	-	0	ID=MGA_231;product=transport permease protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZED8;translation=MLKHIFTHKYWSGIALLTQISIARRNANTFLGSLWGLIQPFLHITVISFFMSFLLRFEPKVIVTNLVGSLPFWTFIMNGLGNAAESLKVNSAVLKRVLLPKTYFPISDIFANCYTLLYSFAAMYFSLLLFFPEVFTWKIIFIPLLALPLIISVMTSSIVAAYATPYIQDIPQFLSVILGVLYWTIPIIYPYSMVPESKQIFFELNPIYIVIKPMQDLVITSQLPSIFLIVKSWIVCMLVSLISYFIYKKLAKNVIYYL;locus_tag=LOCUS_02290;note=Q9ZED8 transport permease protein (Rickettsia prowazekii str. Madrid E) [pid:53.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-81],MGA_231
sequence04	MetaGeneAnnotator	CDS	42241	42975	.	-	0	ID=MGA_232;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596706.1;translation=MTQEIFVNIENCSLSGIDSIKRVQSLRQLFLSPGKITGAEIPILNNISFSCKTGDRLALIGSNGSGKSSILKLISGIYPPAQGNITVQGKITSIIEMGLGVEPEFTGRQNIKILMLYNNMLDKYNKEFEQKVIDFSELGEKIDQPLKNYSSGMLSRLAFSTCIFQNPDILLLDEVFAAGDGKFITKSLEFMKNKINTVPITILVSHQEEIVKEHCNRCILVKDGRIIKDGRPDEILPLYNSGNY;locus_tag=LOCUS_02300;note=WP_004596706.1 ABC transporter ATP-binding protein (Rickettsia prowazekii str. Madrid E) [pid:63.1%25%2C q_cov:96.7%25%2C s_cov:93.7%25%2C Eval:3.1e-81],MGA_232
sequence04	MetaGeneAnnotator	CDS	43173	44090	.	+	0	ID=MGA_233;product=putative alpha-L-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5E743;translation=MKIGILSRSPKIYSTARLVEAAEERGHEVMVVNPLKCYMNITGNHPDVYYKPKDSQEKLAFDAVVPRIGASATVYGAAVLRQFEVAGVYALNGSVAITRSRDKLRAHQLLARKEVGIPVTSYAHSGNATEDLISSVGGAPLIVKVLESTQGKGVLLAETTKAAESLINAFLSLHADFLVQEFIEESAGADIRCLVIGDRVVAAMKRQGAEGEFRSNLHNGGSAEMVKITPAERAIAVKASKVLGLKVSGVDLVRSNRGPLVLEVNSSPGLEGIEEATGKNIAGNIIEFIEKDIGKTARTQIFMKG;locus_tag=LOCUS_02310;gene=rimK;EC_number=6.3.2.-;note=Q5E743 putative alpha-L-glutamate ligase (Vibrio fischeri ES114) [pid:63.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-106],MGA_233
sequence04	MetaGeneAnnotator	CDS	44100	45116	.	+	0	ID=MGA_234;product=succinylglutamate desuccinylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010958325.1;translation=MQEELVIDGTVIKRGESKRFEIGVSKLYDYTEMTIPVEVIRGQKKGPTIFISAAIHGDEINGVEVIRRLLSRKKLLSNLHGTLIAVPIVNMFGFNRNLRYLPDRRDLNRVFPGTKKGSLAGQIAYKFMKEIVEKCEYGIDLHTGSAHRFNLPQIRAYLDNPEIENLARAFGVPVILHSNYRDGSLRQAAAEKGVKILLFEGGEALRYDEKIIRSAEKGILSILANIGMLKKSLVKTKVPKQREIFCAGSSHWVRAPHSGSMHIRKSVGNKVKKGEILGVISDPFGIEKHFVRARKTGIVIGITMMPLVNNGDALFHVATFNNPRAVADGVANYDEDLG;locus_tag=LOCUS_02320;note=WP_010958325.1 succinylglutamate desuccinylase (Coxiella burnetii RSA 493) [pid:50.8%25%2C q_cov:94.7%25%2C s_cov:92.7%25%2C Eval:3.1e-86],MGA_234
sequence04	MetaGeneAnnotator	CDS	45113	45592	.	+	0	ID=MGA_235;product=ribosomal protein S6 modification protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000660269.1;translation=MSENSLMIGWREWATLPELNVPLIKVKIDTGAKTSALHAYDIKIVKIEGKDFAEFIIHPIQKNDKICRKTVAEIVGMRTIKSSNGHKENRLVIRSPIKIGEYVWDIDITLTNRDIMHHRMLLGRAAMAQVLVDPTKSYCQGVISDQQALVTYEPIIMEE;locus_tag=LOCUS_02330;note=WP_000660269.1 ribosomal protein S6 modification protein (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:48.2%25%2C q_cov:85.5%25%2C s_cov:93.2%25%2C Eval:1.4e-32],MGA_235
sequence04	MetaGeneAnnotator	CDS	45613	46053	.	-	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLSLITKYLTFIFILSLSANALAAKSVSVPIKAGTLTMKDIIEANKDIANSVSSKFVNKSIPGTIVEMNNRKFEIRFFSFEDTTNKLEVGTTFKDYIIQNNLLDLKSIITNPIDGIIFESFSSRSAKLEDKVYFGIGLRLVESD;locus_tag=LOCUS_02340;note=MGA_236
sequence04	MetaGeneAnnotator	CDS	46072	46950	.	-	0	ID=MGA_237;product=ribose-phosphate pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9PP15;translation=MKIISGLSNPDLAARIANELSIELLSTKIDNFHDGELRVQVDGQIGKDIIIVQSTNTPVNDHLMELLLLADTAKRAGAQNITAVIPYFGYSRQDRCTYKNGPISSSLVIKMIEAAGINHVITLDLHSAQLEGMFNIPITNLSTESIFFSAGENKQNTIIVSPDIGGIPRARNYCSLFGMDLAIVNKTRDINNSCLMSEIIGNVENKNCIIVDDIVDGASTLCMATELLINKGAKSVEAIITHAVLSGNAIKKIEKSRVNKIYVTDSIYHKKLSNKFTTFPIHELIGVVIKIK;locus_tag=LOCUS_02350;gene=prs;EC_number=2.7.6.1;note=Q9PP15 ribose-phosphate pyrophosphokinase (Campylobacter jejuni subsp. jejuni NCTC 11168 %3D ATCC 700819) [pid:43.8%25%2C q_cov:99.0%25%2C s_cov:94.5%25%2C Eval:6.6e-63],MGA_237
sequence04	MetaGeneAnnotator	CDS	47029	47697	.	+	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCZ9;translation=MNKILCFDVSNNSCSVAIARGQEILSFKQELAPSVQAEKLIVMIESALKETAMDYSDIDYLAVTVGPGSFTGIRIGLAAAKGILYASGIGGVAITNFEAAFYRLKMQVKEFDSAIIMLNAYRNQLYVQQFFPDGKTLDPVLMDSDSIKSYLEDQPGRVVCTGSGLKEVYDQIKDMSRLVLLPRFPIVRAIHIARYADDKINTGKIDSIEPLYIRPPDAIPPK;locus_tag=LOCUS_02360;note=Q9ZCZ9 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:49.7%25%2C q_cov:79.3%25%2C s_cov:96.2%25%2C Eval:1.6e-38],MGA_238
sequence04	MetaGeneAnnotator	CDS	47874	48569	.	-	0	ID=MGA_239;product=putative outer membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE71;translation=MDFTKKIIFLFATLFALNSTASEYKNSYYEDEGDLLFKIRGFYLNTSAKLTKLPSSVANRPKPKSFAQNGYGIDTATTYFFTDNIAAELSLGFGIIKVKSAALAGASNAFGNGGGNAGTKNEIYYIPATATAQYHIAPFGALRPYVGGGINGTFMHTRSKAIKTANGFGPVIQVGIDFMSKDDTMFTFDVRQYFLKSKVTFKKGFLNSDSNVGSTVVWNPIVISAGFGFKF;locus_tag=LOCUS_02370;note=Q9ZE71 putative outer membrane protein (Rickettsia prowazekii str. Madrid E) [pid:41.3%25%2C q_cov:97.0%25%2C s_cov:96.3%25%2C Eval:6.7e-43],MGA_239
sequence04	MetaGeneAnnotator	CDS	48811	49686	.	+	0	ID=MGA_240;product=S-adenosylmethionine uptake transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE70;translation=MDSKLRMYFVGVSWFILSLISSSINDVISKYAGMRLHSYEITFFRFMFGTITLLPFVFYYGVSTLKTSRPTVHFMRGLLLFLGIAAWTYGLTIAPVTTATVVSFTIPIFVLVLGVFFLSEHIIWQRWLVTIVAFIGLVITLNPSAEDFNPEVLIFIAAAVCFAILDIINKKFVIKETMISMLFYSAIVTAVLALPFALQYWIPPTAEELALLFILGASANLILFFLLKAFAVADATALAPYRYFELVVSASIAYLVFQEVPTEATILGSIVVIPSTLFIIYSEKKQINKNK;locus_tag=LOCUS_02380;gene=sam;note=Q9ZE70 S-adenosylmethionine uptake transporter (Rickettsia prowazekii str. Madrid E) [pid:64.2%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:2.3e-108],MGA_240
sequence04	MetaGeneAnnotator	CDS	49783	51063	.	+	0	ID=MGA_241;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596538.1;translation=MNKRKLVLTSGVANTFEWYDYALFGHFAPIIGQKFFPDSDPSTALLEVFLVFAIGYLMRPIGGIFFGIIGDKLGRKAALSLAIMCMAVPTAAIGFLPTYETLGITSTIAMIVFRMLQGLSMGGALTGSISFVIEHAEKSKRGFFGSISMMSICLGILFGSLVSYFTKSVFSEEQFNLWAWRLPFIIGIVVFFIGVYIKNNTKETPLFEEAKYRGEVVRSPLRVVFQKHWFDMLISILINATGSIIFYLEAIYLISYLKINRGFPDSDVGVLVNSCYILMIFVTLFAGWLSDKIGRRKIFVFNLVFIIIASPFLLNVFESASFGYVVVAQIIIAIMAALYIGPEPALQAEFYPTKVRNTALSVSYNTATSVFGGTTPYIIESLVQNTGTITASVYYIITAAFIGLFALYFYKDRSLQDHKVHIDLED;locus_tag=LOCUS_02390;note=WP_004596538.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:59.2%25%2C q_cov:97.9%25%2C s_cov:99.8%25%2C Eval:8.9e-145],MGA_241
sequence04	MetaGeneAnnotator	CDS	51089	54154	.	+	0	ID=MGA_242;product=bifunctional protein PutA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5ZUU6;translation=MKNSFFTIDFEDERSVIKRVLPNTKFRRAERQLIVANSKKFIETIRDDTSFSIEEFLHRYSLSEDEGVAILGLAEGLLRIPDFSLGSELVNDKLSDKKWANFLFKRTKSFKTIFASFGLYFSGKYSDVVKSKNLIAKIFTKFGQKSFVTILKSAILYLSREFVFSDEMSSALEKCEEYSDYKFAFDLLGESARTLKQSEIYYKQYKNAVKLISDAFPNRDEELYNRPNLSVKLTALYPRFELSKIKDIEQDLFPKVVSLVEEIKNKNLTITFDAEETYRLDAYLLFLEKLLRHKLFQDFEGIGVVVQAYQTKSYECIDHIISLAKELKKKIPIRLVKGAYWDSEIKHAQVQGLKNYPVFTKKDYTDLNYIACAKKILENDEYIYPQFATHNAVTAATVIELAGDKVFEFQKLYGMGNALHKELIDKRGVRIYAPVGTTKDLLAYLMRRMLENGASANFVSKVNSRDISIDEIAYDVNDRVLNLLDNANKIVLPENIYPNRKNGMGYELGYKTNYDYIQEKVASYFDKVHKVGSVINGKESAMVKNSKEGFCPAKNAEKFSTISDCVEAEIKDAINYAKEGFEKWSEVGVEKRAIILEKIAKAFEDNKFELYALLVKEAGKSIHDAINEVIEAIDFCRYYASQAKLIMVERHLPGPTGETNILTMHPRGVFLCISPWNFPFAIFTGQIVAALAAGNTVVAKPSGQTPVIANFAVKLMHKAGLPKAALHLTITSGSNINKYAVSDERVSGVTFTGSCHAAHSINTTLSQRKSGIVPFIAETGGQNAMIVDSSALLEQVTDDVLASAFYSAGQRCSALRMLYIQEEIYDELLEMLKGATELIKIGDTSDFTMDIGPVIDKSAKEALDSHIEDMQKKGHSIYVHPHNGKMKNGYYFYPHIIEVKSINDIPDEKFGPILHITKFKSKNLDKVIDEINNCGFGLTFGVHSRIEEKIEYIRSRVHVGNFYANRSIVGAKVESQPFGGENKSGTGFKAGGPNYLLRFMTERTSSINTTAFGGDVELLNS;locus_tag=LOCUS_02400;gene=putA;note=Q5ZUU6 bifunctional protein PutA (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:42.6%25%2C q_cov:98.8%25%2C s_cov:97.0%25%2C Eval:1.1e-232],MGA_242
sequence05	MetaGeneAnnotator	CDS	2389	3171	.	-	0	ID=MGA_245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWRAKTKADIIREKSKAQKQYKKDLGWNPGYKQTHSVENGAREYREYKEYRRELEEDKKKAKLEKQAKEKAFIKQIASVQEDEEAFTPDALYQAGLSEREEGNGLMAVTRFWQALVCGDGRAAYPLFEMLRDGEGGVTSNVEMAGLFLFIGRICNDSRCIETANLKGMPFDAAEAVASVYAESRDFIVKNGYKITDEIMEARQNAANAALDAFQLKTRSYEETMEHVFSHDSTTNEELLQEVDLSGQDTDHGSKKFCVIL;locus_tag=LOCUS_02410;note=MGA_245
sequence05	MetaGeneAnnotator	CDS	3259	6843	.	-	0	ID=MGA_246;product=putative lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE40;translation=MIRNYIIAILVLLTLSGCTGERCIEADDFGHSIITVSARYPKSDFEGQVGANQVAPWRESGYRVNGRPLTMMVKGWDYGVDRNNGSELSAWCAWFSASGEDDKLSRFCERLQDCQFIDGRMCTRTPDAKIANAPCLFRHGVGLYALIGAKGVDPNQSLSSMRDPTGISMHLGEATSGYTLYDIDKNGKSRQAGGRVYTFASDSEKRQYNDSQLYFKILDKFYDDNSGQYKIVIKSGINRSNPDPISYVTMLVKQFLFGIQGNGEELLPGLKASNADGIFDGNGGVIKNIYMGVVNNQGYRTAVSAMLTLYIMWTALSYLAGNVQLTHTELIVRVMKIAIVSALLSSEYSWDFFNNYLFVYFVGGVQQILEMLMEAGATGPGAPGILAMMIAPQTLSKLFSLLFVDWLGWLYIILFIVALYFVVMVFFNATIIYLSALIAVGMIIVMGPIFVCFLLFGITRSLFENWLKQLISYAIQPVILFTGLIFISMIIREEIYGALGFRICKQSFPKMNTPQLIGEATRATLDFDPGDSIFYWWFPKPLKGEGFTRTPVNIPIPIDHQAQANETGDIRDGFCEAYGCIGSRYIDLPFLDPVKDQRRITQFWNGKFVQLDGLLLIFVALYLLHKFNGTAVSMARFITGTSGNYTNIQNVGDAVNAQTFAKSNAFMASIPGRIKQGAIDGIDRQIGRRALKASGADLSGKSKSEIKALEKKYGQAARNEFSPSTLFDKARIRNLKHEALKGSANKAVLAEVRKNTGLKQSDIDPKANSKYREQLTKKLVDSGIDKKDAKKLSKKLAKRNPKELNNEFARAKYGKEFSKLSDKQKASIKLMTNDRNLRKAANENEKARRFRNAYVNSYAGMSDRGIGIVGKHSSAIRSVEEIRHSAKERQRLKKEKQHQTGEEIYSAVAGVKRGAFTALGGKTQESSFGRTFAGGAYHDINSADPRRMTYAETLAENKEGFARTKLNKTIDQYNKKYGQSVTSPEFLAQAEKNGHPNLETFKTLERQEAKSRVQEALKTSEEPASYGETYLSNYAKDSEMHKLIDNSYKVQEDIFRSDEFISREAEYQTTFELAEERIKDAYAIIDKTDGYNADIPPEELLSTVQEIYEKKGRISHEQISSNMQELEQAMNDFTSSQEVLRQIDQRKVEVSEEIESHVAHINEHRTKAGMEEYHPQQPDLGVRKVRKIEDLRRG;locus_tag=LOCUS_02420;note=Q9ZE40 putative lipoprotein (Rickettsia prowazekii str. Madrid E) [pid:40.2%25%2C q_cov:99.0%25%2C s_cov:98.6%25%2C Eval:6.3e-248],MGA_246
sequence05	MetaGeneAnnotator	CDS	6836	10198	.	-	0	ID=MGA_247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE41;translation=MKFIRSIFIAILLSMQFSVSAMADNDRFTWMDSGMDTLKGLFGCIEVPVFAGMHQASHSLELDNSGNWVSTGVRVEDGKLLQIEWLTKGVLPRPAKYRVLYRIDPRFATPQIFIQKYDFSTKKYVSDFHEFKGGQLLRYQDVAEMTFEQRIIDYNDYFNFNGRNKIPVKKDDVINITMDTTGKFFSSDSQMDRELFGIGEELLSVYTETSVPDNNIFYSDASEFCNSVMTALHPLYLPYCLLFPGKYIDVTTSWTSYIGKMNPLSVPATKWQNMPICPDNSTGMNNSPACKYDLGRGMIFSVAGTEIKNEKQKFIKSPFNGQAFFYHKSDTTGDLDFNSPWSINGMYTTDIQLMSDWQSLIPVIDYNLFYGYMTAIKPSLHMNFLYMGRYLMEIEVGNAAEAVSSDDLRALQVEYYIADTSIPGAGTSGTSIEQDFRGNANDSGYLWLRVINPNPDITGTIQVKTANYTGTTWFSDIVYNHIVKPLRDKFNELSEVIYRKLISNAALQNIARLMLVLYIIIYGLMFLAGATQITVTDIVMRVLKVGVVLALFSETSWTFFSRNLFNVFIDGTEYLMTTVIGTTSSAGNIFGFIDPVIEKYINGNMWALLFIQLLQIHNGLTFFAIMTIYAILIFFRAVLQVIVGYCLAFLGLAVMISIAPFFIILILFERTKGMFDAWISTMFSQMIQPTILLIFFLLIDQIMGDVITRTIVRACWDILIPIKIGLDLNHMSIPISFSFTLPFLPGIPFYVPEVRGIGTMTDFFFAPGTFAMLASSSFLFFALCKLADGLVDYVTLVVQYLTNVLAARQDGKLQSGMNPIKDITSDMGKLVSPVTGAAKGVGNFAKEKLIDQKLSRRATKSDGGPIDYSSAKRNQNEDPTKATKTNTDAKKSDVGKDGDKGAKKGTTKFGSKKPKNLGKEDANQTRTDTNKNTSSKTGVKEDASDKILSAKKKPTIGAHRKGATENISTAQKEANKGSSLSSKSTIGETSTGASSTINQTDVSGSGSSGFQRQDFTQSDYTTGSGSQTTTDGGFGSSTEHGGTGDTSTSSTSSSNIGTDNQTSGMDSSSRSGDSQERSGIDSGSKQVDSHEKPETNNESSSGKKSSTERRTSKKLTGDHD;locus_tag=LOCUS_02430;note=Q9ZE41 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:42.9%25%2C q_cov:77.1%25%2C s_cov:97.4%25%2C Eval:9.0e-204],MGA_247
sequence05	MetaGeneAnnotator	CDS	10203	13526	.	-	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE42;translation=MKSEKLIIIGALTLAAIILMIVLWIIAIIGAMDITDGCLYRYNFDKDMSVSGSSSLMNSVTLKANANYTALSSASSSGLELDPNAYGKWLNTNLRLKSGQKVDIVVKGEVSLCKAYIPAYNLQQNSHLDKDGGLIEIPRVEDKSSAPINLIFDARTDEWRNLTQVFKNDHIVVAIHPDKKSTVGSSTVYNNILKRVESADCTEGKRAYSPICGRYSIWDSGTTYVSTCNWNPTCYQCNCRDVCRGWNLLGWCIKGYETVCDWCGCHENVMGTAPEPYRNDGLYTSPWRADVNALITNFNQDCRNNAGYVLGNWQNEKYFWFSADSATGLLYRFDSNENPTNKKSRGSNFGYSRIDSNQSNLNPGADYRVIRDQIFTASDVAYLQYRNHDVSPYFGDNTGGYVLNIKQTKCRRQNGNSFNDTFSGRGNIQYVIADYGKNPNNDTLTTRNILLDANGSGNITAPGNEDGYLWLRINNAPNDYKDSFGQYRVDFMTSIDQGGFYHDVLEPFFQGFKDKIQGAAEQVFKNMTCYKGISGSGGCTNFFNYIKGLLSLYIMIYGMMFLLGMVQISQTDLVMRVVKIAFVAGLLNDTTFEFFRTYVFDFVTGFTDDIIANMAGYSIFSGSTTISNPFMFLNEVMTKIFLSSTFIAQILALLSMGINGVIYFILIIVALGIVVIVLLRSIAVYLMAFMAITVLIGLTPLFLTFILFERTFYLFDNWVKFMFRYMLEPIVLLAGIIILTQLFTIYLDFVIGYSVCWKCAIPLKIPFPSVQGVTPAFLDVELFCFNWFAPWGFDHRSSQMGLNMQNMVVLIMIVYCMWGYLDFSSNIVARLAGSAGGPSASGMGKGMSGAIEEKALSKVGLDSKSRAQIKAQIKERLQTMESADKKMPLDKGNRNDIKPPSGKESGKGNTSADPKSGVSAPKPNKTDSDNEGLDSGLDATENLSETTSSMSSESSSGGGSKWKSAVSSGAKTAKSGIKMGAKRSSNLGSGSKTSGSKTSSNVGSSSTGSSSTGSNTTGSSSIGSSSSSGSSFGNVKPSSSAKRSGVTIGGNKLKSSSIKSKSSSGGSGGLGSSKSTTGKSKVQRSSLESSAKKSSGGNTGSNSEGSS;locus_tag=LOCUS_02440;note=Q9ZE42 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:41.3%25%2C q_cov:79.9%25%2C s_cov:98.0%25%2C Eval:3.2e-201],MGA_248
sequence05	MetaGeneAnnotator	CDS	13526	15820	.	-	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE43;translation=MRVLSKILLVFVQSVLILSAHFANASTFGESCSALPVFDDTAYLVNDTAYGFIQKNIDMKTYVTDACKKGGSEFKFCIKNESSSPDFCTEVTMAIGDTTTLGAISSNPDIGGNPILSNVALEVKAIDNEVCLIMPTSRGMLPLMCRNGEGEELVQPGESEVCRNLGQSCYDGRSKSQSLLSFSGLTIHCLRDTLDKVFYVGDECPRLQDDLVYSALQPFPAFQDAMKMAVRAALMLYVMVYGFRIAMNGEYAHLDKVAMFIMKFILVTYFAVGLGETKFVSGKEVSQNGMTGFALPVLVQLTNDFTEMVFMAGGSQGLCDFDASKYDSGYEFYKVWDAIDCRIGYYLGMQLLYNMGTMLRSVSGTVADGATVGTPANLGDVADEGIEALFAVGTLTFFPVMFGLFMAGQIVVVLMGLLFVVFFVSVLLYFMTAYLVCTITLYVMAYISPIFITMALFDRTKAYFDSWLKIVMSCTLQPAVIGGFIAILLTVYDSAIYGTCEFQRYDYTVGEINFSTFELREPVVDVEKCQESLGYKLMKYYLGQGWEKKIVILFEIPKINDYLNIALSLIYVMIYVFIFYFFIKSVSEFAADLTGGPSVASVTVSPNALIDKAIGLAQAAVSAAKAAIKAKTGDTQGAMEDAKEAKQKLKEDTTSNREATGDKISLDGTKKDGSDAADQISTSMSGGGDKGGGMGGGMPGGGKGGGMSGGMGGGKGGGMGGGMTGGKGGGMSGGKGSGMGGGMGGGKGGSMGGGGGMPTGGGGG;locus_tag=LOCUS_02450;note=Q9ZE43 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:44.2%25%2C q_cov:87.8%25%2C s_cov:99.6%25%2C Eval:2.0e-159],MGA_249
sequence05	MetaGeneAnnotator	CDS	15838	19056	.	-	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNNRETISEKHIGQGILPLGFFRHFLGSLVIVLSFLRARIVAIFLCLVISLGSVSQTFAADEYQAENNVLDTILDTLTNLTCETQGVGNLLRTEFSHTCIPASFFTFAVANIISPGLYANTFLRVYINDKELFPRTCTRGNRIDYYDQKLSFSLCSNTKLAAARVGAIAKSAIVIAKAIFTGKDPWDDIVEAWDIPKADYHNIYRDKREGDSGTMFDIGIIPVLPWKVIKEKDKMCVATQSFAGWIPIGCKYIKEPYPVSIYADFLDLTPEGRGELEKLTSLTTCGNMGGCYKRAHEYSRSSIVMTGPLIECVREMIAKLMISSAVCSFDDVKNVLGSNSRVSSALFQFQQGMHRAVTAMLTLYVIFFGFRIVLSGNVPEKVELVNFAVKFLFVTYFAVGININPGSGNDLDRMDGMIQWVFPFMLDGMNQLAGWIINASPSQLCKFSDVYYPDTLRHLELWDSLDCRISHYLGLDAMQTMMVENATRHHDFSRLDILSFPIPPYIYLLVPAVISGNWTLISLAIMYPLLIISVGAFIVNATVVCMISIVILGVLAPLFVPMYLFNYTKGYFESWVKLLLSFMLQPMVAVTFMTTMLAVFDFGFYGTCKYRYKDFSYSGPGFAVGDSNLANVISPVAGGPRTVRYFFVDQRWEDSYVDEEEIEGCRESLGFILNNPFQFLFDVGKDALTDESMPWIEDTTGEEDKKRFDFLGSIEPSAGMFFGMLEVIFEKIKKLAISLLTACLVLYLMYHFSESLAEFAADMTEGVTLSNMSIKPQTLFKAGMAATAAAGGMSGGAVDKVAQGAGDLKDKISSGRGGAEDKVSTGGGEDAVDSVSTGADAAGSGATDTVSTGADAAGSGAGAAGGGAGSAAGGAAGSGAGAAGGSAAGASGGAAAGSAGGAAAGSAGGAAAGGAAGGTAAGAAGATAGSVVPGAGTAAGGAAGAAAGSAGGAAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGGAAGSAGGGAAGSAAGGAAGSAASQAGKQVAKQALEQVKETAKQAIKDAAKEAINTVKETVEDTVEQVHDSSGIDGSKSKDED;locus_tag=LOCUS_02460;note=Q9ZE44 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:49.7%25%2C q_cov:74.0%25%2C s_cov:70.3%25%2C Eval:3.8e-236%2C partial hit],MGA_250
sequence05	MetaGeneAnnotator	CDS	19056	21476	.	-	0	ID=MGA_251;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599743.1;translation=MFKLLKTAAAKEQHSKKEKAVADFIPYKGHWDKNTILTKTNGLLQVIKVGGFSFETADDEDLDIRKGIRNSLLKNMASGNVTLYFHTVRRRKPLMEKNADYSVDPTVQTSKDFISYLEDEWQRKNSGSDSYFNELYVSILYEPDKEGAAVIEYMFTKLRQKGNKGAWENDMREMHESMNEMTTRVLNTLRDYDTKLLGVKKTKDGVFCELSEFLGTLVNCGDSSPMMVPRNSLDEYLPTNRLFFGTRSIESRGPKGKKFAGVVSVREYGPTTAAGVFDGFLQMPFEFIMTQSFSFSNRTIAINKMQLQQNRMIQAEDKAVSQIAEISQALDMAMSGDIGFGEHHMSLLCMDRDLKALENTLSMAAVELSNCGMQPVRERINMEPSYWGQLPGNLGYIIRRSTINTLNLAGFASMHNYPPGRMDGNHWGEAVTVLDTTSGTPFYFNFHVRDVGHTLIIGPTGAGKTVLMNFLCAQAQKFRPRSFFFDKDRGAEIFVRAMDGVYTVIDPGSNCGFNPLQLDDNGENRAFILEWMKTLVTSHGETLDAEDIKVLTQSIDGNFRLDKRDRKLSNIAPFLGMDGPGTLASRIAMWHSKGSHAKIFDNDEDSIDLGQSRVFGFEMAELLKDPLSLSPVLLYIFHRINISLDGSRTMIVLDEAWALIDNPVFAPKIKDWLKVLRKLNTFVIFATQSVEDATKSQISDTLIQQTATQIFLPNLKATDVYKTAFMLSQREYLLIKTTDPGSRYFLVKQGVNAVIAKVNLAGMDNVINVLSGRADTVVLLDQIIEKHGSDPKKWLPVFYEEVKALG;locus_tag=LOCUS_02470;note=WP_004599743.1 transporter (Rickettsia prowazekii str. Madrid E) [pid:72.4%25%2C q_cov:99.6%25%2C s_cov:99.9%25%2C Eval:0.0e+00],MGA_251
sequence05	MetaGeneAnnotator	CDS	21485	21772	.	-	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:YP_008550181.1;translation=MAGQLSSDPLFVGLTRPSMIFGVSIQYAMLNLMVAVTIFIQKSSVYIIFVAAVVHLIGYLLCFKEPRFMELYLNYAGKCNQCPNKSYWGANSYSA;locus_tag=LOCUS_02480;note=YP_008550181.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:57.4%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:3.9e-29],MGA_252
sequence05	MetaGeneAnnotator	CDS	21907	22821	.	-	0	ID=MGA_253;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011109297.1;translation=MKKSLSYLPSHKIHYIKQVRDIIVSELLNSNKGLVYVILFGSYARGDYVFYKGYDEENDHKYSYISDLDILIVTEKECSEYGRIIKRIDDRLPRIRPFDSSHPDPVPPVSMITHTIEHVNYMLTDNEYFFKDIKKEGVMLYDSGDYKLASPKKFTPAERRAKAIEKFDEYFGRAKAFLEGSRGLGTINSADEFQKNIRAFMLHQVCENAFVAANLVLKDDRRKQHDLVKLQKEAAIYEPEFLHSFPKETPRDKYIFDLIRRAYIDARYKRNYTVTEEELKEMATMSENFLGIAERLCRRKITSF;locus_tag=LOCUS_02490;note=WP_011109297.1 DNA-binding protein (Bacteroides thetaiotaomicron VPI-5482) [pid:34.9%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:1.2e-38],MGA_253
sequence05	MetaGeneAnnotator	CDS	22860	23309	.	-	0	ID=MGA_254;product=outer membrane lipid asymmetry maintenance protein MlaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597050.1;translation=MKQAKLETIVGFVVLIIAFGFFAFAYNVSNASKGSSGYTLIANFQNVDGITEGSDVKLAGIKIGQVGKLVLHDDTYYASVKLLIDDSVSIPVDSRAIVSTSGLLGGKYIRINPGASDDNFVNGDKIKFTQSALNIEDLIGKLMYSLTSK;locus_tag=LOCUS_02500;note=WP_004597050.1 outer membrane lipid asymmetry maintenance protein MlaD (Rickettsia prowazekii str. Madrid E) [pid:53.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.5e-38],MGA_254
sequence05	MetaGeneAnnotator	CDS	23319	23663	.	-	0	ID=MGA_255;product=NADH:ubiquinone oxidoreductase subunit NDUFA12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390193.1;translation=MSFVNSLWVKFFCKQVGVDQFGNKYFVGNSKNYLGKKKRYVLYNGIDDGSKVPAMWHAWLHYLSDELPSENPQENYEWQVDHVQNLTGTKAAYDPSKSKHIKLESYSSWRPKSE;locus_tag=LOCUS_02510;EC_number=1.6.99.3;note=WP_011390193.1 NADH:ubiquinone oxidoreductase subunit NDUFA12 (Rhodospirillum rubrum ATCC 11170) [pid:39.7%25%2C q_cov:97.4%25%2C s_cov:100.0%25%2C Eval:5.4e-15],MGA_255
sequence05	MetaGeneAnnotator	CDS	23667	24119	.	-	0	ID=MGA_256;product=ribonuclease HI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCK3;translation=MNNPKPLVEIYTDGACSGNPGLGGWGALLIFKGKKKEISGYLEDTTNNQMELMAAIEALKILKKSCKVNLYTDSTYVQKGITEWIHSWEKNNWRKRDNSPVKNVELWQKLQQEIEKHDIIWNWVKGHSDNEGNNIADRLAVEAREKARSK;locus_tag=LOCUS_02520;gene=rnhA;EC_number=3.1.26.4;note=Q9ZCK3 ribonuclease HI (Rickettsia prowazekii str. Madrid E) [pid:65.0%25%2C q_cov:93.3%25%2C s_cov:92.1%25%2C Eval:3.8e-50],MGA_256
sequence05	MetaGeneAnnotator	CDS	24124	24627	.	-	0	ID=MGA_257;product=aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597042.1;translation=MSIDYQVLIDQAMLDIVKKILVHAQDEGLKDEQCFYISFRTDYPEVILSKNVKARYPKEITIVLQYQYKNLQVLEDRFSVNIAFSGISETIEVPFSALTGFADPSVNFSLQFRQVAQDKDNDSHIYEATDLLKMQPKSIKKKPKQKEDPKKEAGEVVSIEQFRNKSK;locus_tag=LOCUS_02530;note=WP_004597042.1 aminotransferase (Rickettsia prowazekii str. Madrid E) [pid:38.3%25%2C q_cov:100.0%25%2C s_cov:97.5%25%2C Eval:2.3e-26],MGA_257
sequence05	MetaGeneAnnotator	CDS	25223	26392	.	+	0	ID=MGA_258;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886352.1;translation=MKSRRDFTPVIITFIIIVVEIAISFNSVLLPNIKLDLAISDQIAQSTISIGLFALGGAGIIYGGLADSVGRRPMLICSISIFFISTFAITFAKNIEVFLIGKFAQGLGSGAAWVVGNACLKDIYSGKEYTKIMNYVHAIAGITPAVAPVIGSYLGTIIGWKGCFQILLFCSFIALIKIIVWQKETLLEKKPFCSKTFILNYITVFKERIFIKFLIVKVLCVMLIFVESSNLPLIFIDYMNVKPEYYGLYVLPLFLIYVTGTVISGKYAEKYSEEKIIFYGLVIMIISNLSVLCVFYLKIATPVIIQICKVPCYMGWGFIFGNATSKIVSAVPGKAGVASSIMIALEMIFSSLGITLTGIIFNGTIIPITYSIIATCTICIISMILIRER;locus_tag=LOCUS_02540;note=WP_010886352.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:26.6%25%2C q_cov:79.2%25%2C s_cov:78.0%25%2C Eval:3.8e-30],MGA_258
sequence05	MetaGeneAnnotator	CDS	26402	26920	.	-	0	ID=MGA_259;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q500S9;translation=MILPEVRLQIAPNPIFRQKAFPVKEINSEIKHIVSSMYDIMYENGAVGIGANMVGVLKRVVVVDLQESLQKDPITMINPVITKKSQELQTYEEGSLSYPGIKAMVERPKEIEVKYLDINGKPNSMSAEGWLATVIQHEVDYLDGKVFLDYVSPMKRKMLLKKMEKHIKNNKL;locus_tag=LOCUS_02550;gene=def;EC_number=3.5.1.88;note=Q500S9 peptide deformylase (Pseudomonas syringae pv. syringae B728a) [pid:42.8%25%2C q_cov:92.4%25%2C s_cov:94.0%25%2C Eval:4.8e-30],MGA_259
sequence05	MetaGeneAnnotator	CDS	26917	28101	.	-	0	ID=MGA_260;product=mechanosensitive ion channel protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886197.1;translation=MEELFAIKDVYSLFEGNQLLVMIGVMIIAFYPLLFITKRVVSPSVNKIAKLKGENYEEILVKHRLTNRLVHLFIALYLMFWGDVFHKSELMSEAAIRAKDLIIAVYLIFAIATFLLALINIASDMYKTKAISNRVPIGLHTQIIKIFIVICAMLTTVSTVMGISVSSLFTSIGAAAALLTFVFKDTVLGLMASIQLTFQDIIKVGDWVTLPSYNADGDIEKITITVVVIRNFDKTYTTVPTYAFLTTGVKNWRAMFQAGGRRIKRAISLDMDTVKICSQEDLNKFKKMPCMHDLANDKPELFDAKNSIANITMFRKYAEQYLKANEHIHQQGFTFLVRQLEPTENGIPLQVYIFTKDTKWANHESVQADIFDHLIGIMPEFELKAFQSSLYFNS;locus_tag=LOCUS_02560;note=WP_010886197.1 mechanosensitive ion channel protein (Rickettsia prowazekii str. Madrid E) [pid:41.9%25%2C q_cov:93.7%25%2C s_cov:95.4%25%2C Eval:5.1e-83],MGA_260
sequence05	Aragorn:1.2.38	tRNA	28276	28351	.	+	.	ID=Aragorn_5;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00050;note=Aragorn_5
sequence05	MetaGeneAnnotator	CDS	28469	28621	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQPVEIEKVQTKSVPCKGKEAPYDHPHVYLEIDPKIGYVACPYCGKKFEL;locus_tag=LOCUS_02570;note=MGA_261
sequence05	MetaGeneAnnotator	CDS	28673	29914	.	+	0	ID=MGA_262;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599438.1;translation=MTKKSFAISVLTVFIQYYDYHLFGFLAANIASHFFPADEAITQLINTYFVMAIAMIAKPIGAIVFGKIGDLKGRSNSFRISLIGTASASMILFATPSYESIGLLSCFLLLICRMAICALVTSGSDGVRIYIYEHIPKSKQCLGIGITTLFTLAGSLTASLSAWFFTLNHFPEYSWRFAFLLGGIMGIFVTIAMKITGFKDTTEIKDDINFEEFKNASTKNIVYKNWKLFLLCILLAGGVGSTNQFIIIFFGTYNFEILETIDRSSMQSYITIAIVFYMIFGIISGYFADKFNRYRITLLGSISVIICSTILMLKLSNLVLSPFTYIAITASLPFITMPAAAILKQSIPKSIRYRLFSLSHAIGSVFISAPTALLSTFIYKKTNLAWLPICYFITTILVISFALYFLNKRAIRD;locus_tag=LOCUS_02580;note=WP_004599438.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:27.1%25%2C q_cov:98.8%25%2C s_cov:99.3%25%2C Eval:4.3e-48],MGA_262
sequence05	MetaGeneAnnotator	CDS	29914	31746	.	+	0	ID=MGA_263;product=DNA mismatch repair protein MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC88;translation=MTIKILSNSTINKIAAGEVIERPASVVKELVENSIDAGSTQIDIILECAGKNLIVIKDNGKGMSKDELELAIQRHATSKLDEDDLLNINSFGFRGEALPSIGAISKFKITSQKLDSENAYTLSINGGRIEPTKIANGNVGTIIEVRDLFFATPARLKFLRTDRTELTAITNCVKKIALAHPEISFTLTHDERELLKVRKQSGPDSIKNRISEIMGTEFIENATEISFERGGVVIYGYTSLPTYNKAASDEQHLFINNRPVKDKILNIALKVAYQDYLARDRHPVSVLFLSVNPEQVDVNVHPAKSEVRFHDPNMIRGMVISSIKDALNNSSNRVSTTPSAAAINYMRSTQANSGFRENSTNQGRFSIPSSRQNASSPTVRTDYAMAQAPQVTQRLVESTPQSIVEQDSHNAPQDSIDFPLGAAKAQLHSTYIISQSSDSIIITDQHAAHERIGYEKIKEQIDKNGLIKQRLLIPEIVELSDKSKAEILDENKATLAKLGLTIEKFGEKSIIVSEIPSLVGDINVTNLISDLADHFTSLGENIALTELIEHITETYACHYAIRAGRKLNANEMNELLRQMESTPFSGQCNHGRQTYVELKLKDIEKLFGRK;locus_tag=LOCUS_02590;gene=mutL;note=Q9ZC88 DNA mismatch repair protein MutL (Rickettsia prowazekii str. Madrid E) [pid:55.5%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:2.9e-182],MGA_263
sequence05	MetaGeneAnnotator	CDS	31748	32371	.	+	0	ID=MGA_264;product=octanoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC91;translation=MIDWINLPGLVEYSKSLKIMEDKLEQIILNQASETIYLLEHHDVYTAGTSYKKEELLEDSNIQVIYTGRGGKYTYHGPGQAVIYPLIDLRKTSRKKDVKLYIKNLELAAINTLREFGIDAYTIDGKVGIWTDHQNTPAKLGAIGVRIKKWVTYHGIAVNINTDLQKYKGIIPCGISDFPVTSLYELGIETSTKNFNSIFKKEFEKIF;locus_tag=LOCUS_02600;gene=lipB;EC_number=2.3.1.181;note=Q9ZC91 octanoyltransferase (Rickettsia prowazekii str. Madrid E) [pid:55.3%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:2.2e-60],MGA_264
sequence05	MetaGeneAnnotator	CDS	32371	32934	.	+	0	ID=MGA_265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFKLTLSLIVFTWCTGFFYFISYTKNITNTNRNITQAIVVYGGNKERLYVGAQLLKMGYAPIVYITGDKPKEEYDNFIRVNNLIPAQFIFDHSLTTNNLEAVEDSLDFMKKYELHTARVVINSTQLPRAKIDFASKVPREIKFIPHVVSRKGEKHFKVFIEYFKYSIALLASFVGMENELNLSYS;locus_tag=LOCUS_02610;note=MGA_265
sequence05	MetaGeneAnnotator	CDS	32963	34255	.	+	0	ID=MGA_266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEB1;translation=MQDEYEHLAQELVKSGKLRIDTDYYCNFVRFSDPSLGVNIFLSHEELTNPELLQSTKNHIRKVYSSRNRPISNKKLSSVMIDLNRKVGKLLMVSDELKIQLARIFVQSAHPIVIRWLLLDQVEVFITYSNSIGDVMDIATWKRAGSNSGMQSTDGTNVCIYVSCGGDPFAKNNETNPIYGNGWAALARLQIIAGQEIGHFADIKRDPQGRQITRHSANFSCTQATPHVKAARRNDIERCNNLIRILQKCGIERLIKTENKLKFYDKQKISGTRVWWLKLFAKYYRNQLLAAAQKKKLFFVKRFDREKFIGLSLAAMIEDMQSHLSPIAEVYKREDPEAEEAISCVEALARVPQQVNKWGYLTTRATMHDLYKVYYNEVIPSLIENYQHLTKTRYKRNYNIHKTSFIKKLLTKLRIIGRKGKFEFTEVRDV;locus_tag=LOCUS_02620;note=Q9ZEB1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:55.3%25%2C q_cov:95.1%25%2C s_cov:92.3%25%2C Eval:1.4e-129],MGA_266
sequence05	MetaGeneAnnotator	CDS	34614	35951	.	-	0	ID=MGA_267;product=methylenetetrahydrofolate--tRNA-(uracil-5-)-methyltransferase TrmFO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89L21;translation=MKELNIIGGGLAGSEAAWQAANRGIKVNLYEMRNGQKKTPAHHTDKLAELVCSNSFRNDDISSAIGLLHAEMRKMNSLIIRAADRTKVPAGSALAMDRDLFADMVTKEISNHPNINVIREEINELSSDGAWIIATGPLTSDALSNKIMDLTGEDKLAFFDAIAPIVYKESIDFDIAWFQSRYDKVGPDGDGKDYINCPMNKEQYYNFIDALLDGDKIEFKEWEKDTPYFNGCLPIEVMAERGRDTLRFGPMKPVGLTNPNSPDEKPYAVIQLRQDNALGSLYNIVGFQTKLKYGAQKEVFSMIPGLGNAEFARLGGLHRNTFINSPKLLGSKLELKNQSNVKFAGQITGVEGYVESAAIGLLAGIFSAYEINNKQLTNIPFESAMGSLLSHLTEGADASTFQPMNINFGLVPQLDIRIKSKKERYTALSDRALKALDGWVVENDL;locus_tag=LOCUS_02630;gene=trmFO;EC_number=2.1.1.74;note=Q89L21 methylenetetrahydrofolate--tRNA-(uracil-5-)-methyltransferase TrmFO (Bradyrhizobium diazoefficiens USDA 110) [pid:59.0%25%2C q_cov:98.9%25%2C s_cov:96.8%25%2C Eval:1.1e-148],MGA_267
sequence05	MetaGeneAnnotator	CDS	35951	36820	.	-	0	ID=MGA_268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLSLIVYGATSMMMVLLFIDKMFELRRSKKLNLVILLPAEMLISYIIIVYFNLYNIDKIFEDLDMIYIFKANIIPLFVFCLMVFSFKGFRSKRDNEDYNFNIVIRNMELESLMAFVVFFTLMSIRNGYEVFSLSHQMHSVSSETISFICFSAIVIPVILFKFFLSKRNIHKTNITSLVCLILLFLLLSVLGQNSMFLIINLMFIGVSIMLFFIGNIFILSRKFEGINFTSALAIYALAASMGYYCGYITSDTSEETLGPNGFLISICFVLTSLLLYYLYLFKKLKLYR;locus_tag=LOCUS_02640;note=MGA_268
sequence05	MetaGeneAnnotator	CDS	37352	39412	.	+	0	ID=MGA_269;product=ribonuclease E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596085.1;translation=MKKRIIIDGNFPTETRVVLLDKKNNIENIEFSSANKKQIKGNIYLAKVTRVEPSLQAAFVDYGEEKSGFLPFSEIHPDYYQTLSSDSKSKTIAGNELISPEITSEDLEEKESGNKFHELIDSDDIDISAIEKMVDEKLQSDINITAEEDEVDAISKDSESTEKQFKIQEVIKKGQILLVQASKEERGNKGASLTTYISLAGKYCVLMPNKPSQNGISRKISNHDERKRLKKIINDLAEKGNSCSSVIARTAGAGHTTLEIKKDYDYLARLWNKIREATIKSKAPCFIHQEDGVILKTIRDMFDRNVKEIIVQGKEAYALCQKYMKDVLPSQAKVVKEYKSKAPIFTKFGIEDQLIKLYQPIVHLPSGGYIVINPTEALISIDVNSGKATGERNIEEMALKTNLEAAREIARQSRLRDLSGLLVLDFIDLSETKNRKILERSLWEYFSKDKARIQTAPISTFGLLEVSRQRLRPSFLEMNSNICSHCSGKGIVRADESNSMLILRTIENEIFNGKYDVVNVFGIASSIIYLLNHKREEISFIESKYSIKLNFSIDRDATSDSYSIEKIKLSDKNRTNTAQHSPALQDTSEIYNETEEKSYPKNRRRIDKSKGSSSKKSQEEIENVEENSEKIDQKSSSSEKTKQTSNAKRKRTSKHKKKITKKDTGKTDNSKEKTTSDENTVEPEAS;locus_tag=LOCUS_02650;note=WP_004596085.1 ribonuclease E (Rickettsia prowazekii str. Madrid E) [pid:61.7%25%2C q_cov:87.0%25%2C s_cov:87.6%25%2C Eval:6.6e-207],MGA_269
sequence05	MetaGeneAnnotator	CDS	39439	39945	.	+	0	ID=MGA_270;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKGEKHYLKVAILLVYIFSLTSCGFKPIYKKQLNPTNNFLQSIEIIPISSPDGADYYNHLNNILPPSSSPKYHLETTLSYGKDYSIIQRNSDVLREVVTIKVSYKLIESKTQTLVTSGYFTRLASYSTNFSPYSNQTNQQETQKLLAIMSAEEVRNRVILFFENSKK;locus_tag=LOCUS_02660;note=MGA_270
sequence05	MetaGeneAnnotator	CDS	39942	40925	.	+	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDX5;translation=MKYFASSLSELLQKIKSGSIKSLLIHGINHGFAKTVIEQIANKNNLIISEFDIKEITAGKLQLIANSTNFFKQKELIKINGVKGTLSKEIQKCITENNFEHFICFYSEESLPTSGIRHFFEKGQDIASIGCYYENEDTIAKIILRQCKKYNKNIEEEALFYLKSHLKGDNQIIKSELEKIFSFTHDKSHINKEDVLSTLSADLLASGDEMCIYFAKKEAENFLKEIEKLKDQNKNEVLMIRALIRYYLNIYIVASKIEDGENVDIAIKSLYPPIFFKYLADFKQIIRTHTSKDAIRCLKHLQQAEINYKNNPKTFDLFSLYSNMWSL;locus_tag=LOCUS_02670;note=Q9ZDX5 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:41.2%25%2C q_cov:97.2%25%2C s_cov:98.8%25%2C Eval:8.5e-70],MGA_271
sequence06	MetaGeneAnnotator	CDS	227	733	.	+	0	ID=MGA_272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLVLTLLVAFFAVSASAKQSDRHIALYKPDVREAKKHRTNDLFKSYLELSSFRHKTLAQNVANVNTPGYKANEVEMPEDFDDLIGKGRTSRKISMARTSSRHIGGSKDSSGKFVAQKLKDPYEVKKNGNNVSMAQQISKVSSNKKDYEVAVKGYATLNSLYGTVVGK;locus_tag=LOCUS_02680;note=MGA_272
sequence06	MetaGeneAnnotator	CDS	756	1214	.	+	0	ID=MGA_273;product=flagellar basal-body rod protein FlgC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89I26;translation=MVAVLIGGSIPFSAFADNLKKASAIARHGARFQSERLKIAAENIANEDSTGATPGADAYRRKVIFAENRYDKKLGTNIIKTKKVDVDNSEFIMKFDPHHPAANAEGYVKYPNIVREIERADAAEAQRGYEANLSIMEVTGSLTQKTIEAIGR;locus_tag=LOCUS_02690;gene=flgC;note=Q89I26 flagellar basal-body rod protein FlgC (Bradyrhizobium diazoefficiens USDA 110) [pid:40.0%25%2C q_cov:88.8%25%2C s_cov:95.7%25%2C Eval:4.4e-25],MGA_273
sequence06	MetaGeneAnnotator	CDS	1217	1669	.	+	0	ID=MGA_274;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVDSVGLLAQQSYTQIQDRPKLDVAETPMSRAVSFQDTVERQFNSFANMSPDQILSRIQGAKQAGSAGGAASVTAASNGLSSGIVGNTVKAIRSSVSNHEQTARKSLIGEASLIELLTATTEAKNTMEATVKVRDKFLEAFDKVMNMSM;locus_tag=LOCUS_02700;note=MGA_274
sequence06	MetaGeneAnnotator	CDS	1837	2847	.	-	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEDNYTKQLLHAKRLIDAGDYLEAANIYNSLISIYPEYCNLHCDVASCYINACNQNDNMTYLYMAEEYLNKAITLNPNYGDSYHFYAIIGYYRYNNALRYDNNIVRNATIEYIEKALEINPKNPEYHHTYSLILDTNGQKKQAEKELYQALELDPKYVEGLMTLACNNFNNNKYKLAQTFVDKIFKIDPVNLKNHYLAARISLINRDIKMANWHADAMTNIDPNSEMTNEILATIDVCKNPFIGFCYFIRAKLDYLYFPIRLLLILISFSFVSKYINLSISYIDNFFYNTGEEYYFPGILIMMFPSYFVLFIHNIIEKRVEKRKQKNEFRFSKNF;locus_tag=LOCUS_02710;note=MGA_275
sequence06	MetaGeneAnnotator	CDS	2834	4201	.	-	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLTAFEQSPENETLFRLILEEYQEIEEHTKASSLIKKHIEIISESTTKQLAANTLLADNKIIDLLNLLDGNEPFELILKAKGYAKQEKYGKAYKLYQKAIELNPVLEDKVLELELKTHAMLDKNKQNEEEGSYDENEYSNKEFAFNSYEPVQENDRSIANKVWDVDDKAITFSDIGGLDEVKNQIKRRIILPFKKPSLFQKFRKKAGGGMLLYGPPGCGKTMLAKATAGECDATFFPIAISDVLDMYIGESEKRLSAIFETARQNSPSVIFFDELEAIAATRKHDNHASAANLVSQFLSEMDGFSNNNEAVLIIGATNVPWSIDPAFRRPGRFDRVQFIPPPDQIARIKILNMLISERPCTDDINVEIIAKKTRGFSGADLANLMEIACDLAIDASLDKGVEVDIDEEIIMDALHELQPTTAEWLSTASNYARYANDSGQYNDILKFIDKYGRR;locus_tag=LOCUS_02720;note=WP_011727955.1 ATPase AAA (Mycobacterium smegmatis str. MC2 155) [pid:39.5%25%2C q_cov:65.9%25%2C s_cov:74.1%25%2C Eval:1.0e-61%2C partial hit],MGA_276
sequence06	MetaGeneAnnotator	CDS	4357	4905	.	-	0	ID=MGA_277;product=cytochrome b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000011132.1;translation=MGKNMLKNTENSYGSIAKILHWVIGLFIICLIAVGFIMSSMDPAPEKFELYGMHKAFGVIVLCLVAIRILWRITNATVQATEGVPPILQLAAKAGHLLLYIFMLVMPISGVLMSRFGGYPISVFEIFTIPAASEKSPELAKLFHATHGYAAWGFVILITVHILAALYHHFIRKDDTLVRMIK;locus_tag=LOCUS_02730;note=WP_000011132.1 cytochrome b (Escherichia coli O83:H1 str. NRG 857C) [pid:37.6%25%2C q_cov:95.6%25%2C s_cov:93.1%25%2C Eval:6.6e-28],MGA_277
sequence06	MetaGeneAnnotator	CDS	4907	5650	.	-	0	ID=MGA_278;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012708412.1;translation=MFYGNFSGENKNNFNNSIAAFKHCFKKVYAADNLITFNRNLTFMQDSDFSKSFQENVSNKQEDSLKWRVHTLCWTASHCVNIPGDFVECGVYLGFSMSVVAEYLDFSKVRKKMYLYDTYEGIPDEYNSEQRSNKVYKSNPKIYEQVIQKFAKYKNVIPVKGIVPDSFKTKCPRKISFLHIDMNSSRSEIAALEHLFDKVTKGGIIVFDDFGWMGYDKQTIAEIEWLKNHNHKILELPTGQGMVIKNN;locus_tag=LOCUS_02740;note=WP_012708412.1 methyltransferase (Sinorhizobium fredii NGR234) [pid:33.6%25%2C q_cov:87.9%25%2C s_cov:90.9%25%2C Eval:1.1e-33],MGA_278
sequence06	MetaGeneAnnotator	CDS	5681	7075	.	-	0	ID=MGA_279;product=exopolyphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597373.1;translation=MRSAIMDIGYNAIRAVIYENDNIGAPEIFNSKFKNDILSLLTQEDFDIKHQTYLSIQYLLHIFKQLDVTNIKCVATAVLREHPKAKDFIKFIKNKYNFDIEVISGAEEARLTALGLVAGIRHSNGIAADLGGGSLELVEVSNTEIGKLQSLELGTKVISSKNISNQQTITEIIKNEYGEYNYDNLYLIGGALRFIGRLYIDFMNYPMKNLHNLEISTEDFIYYLDKIKSSSESTKNKIGKRKINNNAILVAKSMISVFKPKNIIVSTYGLKEGVRLESISNYPKEQDIVIEKVKYTCNYHNEKTDFDSYVSIISTLISNEAEISEIMQLSIMLLKLKHKFDKTLHPTAISEFILGSEIPFTHKNRVKLALVLAYSSNFKPSQELIKISKKIISKQEHNNCQIIGNFLCIAEEIDGPVFSKPSFSIKIQNHFLEIVSKEILPRPIFEKICNRLKSIAYSRKMNSN;locus_tag=LOCUS_02750;note=WP_004597373.1 exopolyphosphatase (Rickettsia prowazekii str. Madrid E) [pid:49.8%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:4.5e-129],MGA_279
sequence06	MetaGeneAnnotator	CDS	7218	8966	.	-	0	ID=MGA_280;product=type IV secretion system protein VirD4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597372.1;translation=MGFSSILKTARTIFGHMIVHPFVLLCTLWVSGVFVAFVTNEYNSLGLDLTAIAIAYKWASWLLSSWSQLSFKAYDYLKIKLILALITPLAIVTIYYVRNFNRIKTLEFFKPKEDVYGSASWANQSEIERANLRSKHGMLLGKDSVGYFVADGFQHSLLFAPTGSGKGVGFVIPNLLFWDHSVVVHDIKLENHQLTSGWRAKKGQEIYVWEPSNPDGVTHCYNPIDWVSSKPGQMVDDVQKISNLIMPEKDFWNNEARSLFLGVVLYLIADDTKTKSFGEVVRTMRSDDVVYNLAVVLDTLGDAIHPVAYMNIAAFLQKADKERSGVVSTMNSSLELWANPLIDAATASSDFNIMEFKKKRTTVFVGLTPDNIQRLQKLMQVFYQQASEFLSRKMPDEKEEPYGVMFLLDEFPTLGKMEAFKAGIAYFRGYRVRLFLIIQDTQQLKGTYEEAGMNSFLSNSTFRITFAANNYETANLISQLCGNKTVEQTSYNKPLFFDLNVSTRTQNVSKVQRALLLPQEVITLPRDDQIVLIESFPPIRSKKIKYYEDKFFTSRLLPPTFVPTQTPFDPDAQDSSNDEEQA;locus_tag=LOCUS_02760;note=WP_004597372.1 type IV secretion system protein VirD4 (Rickettsia prowazekii str. Madrid E) [pid:80.3%25%2C q_cov:99.7%25%2C s_cov:98.1%25%2C Eval:3.2e-276],MGA_280
sequence06	MetaGeneAnnotator	CDS	8956	9954	.	-	0	ID=MGA_281;product=type VI secretion protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597371.1;translation=MSYAALETYLLPFKEIFAEDGVNELMINKPGEVWVEKKGDLRVEEVPEIDIDHLLGLGRLVAQSTDQKISEEFPLLSATLPNGYRIQVVFPPAVEPNMAAFAIRKGSTMHLTLDKYAEMGAFDDTSTEEIVDENDAILANYIKKGNIKEFIRHAVQCKKNIIISGGTSTGKTTFTNAALGEIPQDERLITVEDAREVLLPQHPNRVHLLASKGGQGRAKVTTQDLIEACLRLRPDRIIVGELRGAEAFSFLRAINTGHPGSISTLHADAPSMALEQLKLMVMQAGLGMPPEEIKKYILNVVDIVVQLKRGGGGRRYVSEIYFKGVRGEEDGI;locus_tag=LOCUS_02770;note=WP_004597371.1 type VI secretion protein (Rickettsia prowazekii str. Madrid E) [pid:74.6%25%2C q_cov:98.5%25%2C s_cov:97.9%25%2C Eval:5.7e-138],MGA_281
sequence06	MetaGeneAnnotator	CDS	9951	11384	.	-	0	ID=MGA_282;product=VirB10 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597370.1;translation=MAQEENPEQGELPEVEQELSQVATNPKQSMMILVGIVCVFIYIFYNFFISSDNSDKPKDDTPTPTEVAKPVQVSVDSDIPTIPTLPSPPKLEDPTPPPPPPTDTEALPTADSSLPTLPTDSEILPTPDPSTAASTQPSLPFGKVQTEEDDKKLEQKRKSAIFLVAGTPPEKTPEQIQQEADFSYRGDMNLILGRGKMLDAIIETAINTDFGGEIRAIIKRDVYSEWGRNILIPKGSRVFGNYATGIDGAYGRIAIEWTRVDLANGYTLNLSGTGADALGRKGNQGRVDNKFRERLSNSIMRSMLNIALANALDTIVKPQASSQAVANQNVQATNIQNTANATFTQAGLTDQQKRAQICANVLAAITDKTSTAFTQINTACTTPTGTTDADKLTSLMAAITTASNSLLSNSTTNVQETQAQNASKEAFTDISDTVKTIVEEQEFKPTITIDQGTPVKIYVNKDYKFPKAAISKSRRKR;locus_tag=LOCUS_02780;note=WP_004597370.1 VirB10 protein (Rickettsia prowazekii str. Madrid E) [pid:41.5%25%2C q_cov:97.3%25%2C s_cov:95.9%25%2C Eval:3.0e-96],MGA_282
sequence06	MetaGeneAnnotator	CDS	11393	11806	.	-	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597369.1;translation=MIVVRIFLALLLICSSTVGNAYSGEESLTTDSRIKTYVYSPNEVFLLVLHYGFQSHIEFGKNETIETITLGDSFAWKITPLDNRLFIKPMERNIRTNMTIITNKKTYQFDLVSKELESGDEKDLVYVVRFQYPKKSR;locus_tag=LOCUS_02790;note=WP_004597369.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:59.3%25%2C q_cov:99.3%25%2C s_cov:95.5%25%2C Eval:5.5e-44],MGA_283
sequence06	MetaGeneAnnotator	CDS	11793	12524	.	-	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDN8;translation=MLKIKELINKFKNPDGEDKNPAENKENDQAQSVKEIRNWYEERFDNITVQRNLLFILLLVLLCLSIVSIGVVAYVINTKRFDPFVIQIDDTTGMAKIVNPINSQILNGNEALAQYFIKKYVVARETYNPVDFTTLAKKTVRLLSANSIYWEYRGYLRNEEVNPAIKYGQKNTTFLVVKSWSKLNDNKYILRFSINETAQARRIYNKIAVVEFKYIPMELTEKDKDINPLGFQVTGYRVDDDSS;locus_tag=LOCUS_02800;note=Q9ZDN8 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:53.6%25%2C q_cov:90.9%25%2C s_cov:91.4%25%2C Eval:3.5e-69],MGA_284
sequence06	MetaGeneAnnotator	CDS	12715	13446	.	-	0	ID=MGA_285;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886339.1;translation=MKNNKKPAATNKGQYYMYGTHAVLAAAKNKSRNIKQIYCLSKHADELKKKILNVPIEIVQNDFIIKKIGKDQTHQGVIALVNTIFKNGLESADLQQPKAKIAILDQISDPQNIGAIIRSAAAFGIKTIILPNDNTPEENATIAKTACGCLELVDIIKVTNLKNTIDKLKDLGFWIAGLDASGDTNTDTLKNIDKIAFIIGSEGKGMRRLTTKSCDFLVKIPISQDVESLNASNAASIIFYLMK;locus_tag=LOCUS_02810;note=WP_010886339.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Rickettsia prowazekii str. Madrid E) [pid:54.8%25%2C q_cov:94.2%25%2C s_cov:91.9%25%2C Eval:1.5e-59],MGA_285
sequence06	Aragorn:1.2.38	tRNA	13629	13714	.	+	.	ID=Aragorn_6;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_6
sequence06	Aragorn:1.2.38	tRNA	13754	13827	.	+	.	ID=Aragorn_7;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_7
sequence06	MetaGeneAnnotator	CDS	13912	15090	.	+	0	ID=MGA_286;product=elongation factor Tu 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQU6;translation=MAKEKFERNKPHCNIGTIGHVDHGKTSLTAAITKVLAEKGQAEAAKYDEIDGAPEERERGITISTAHVEYETEKRHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPAITVFLNKVDQVDDEELLELVEMEVRELLSEYEFPGDEIPVIKGSALQVLEGGDTKCIDELMDAVDSYIPQPERDTDKPFIMPIEDVFSISGRGTVVTGRIEKGVVNVGDEIEIVGIKDTEKTTCTGVEMFRKLLDSGEAGDNVGVLLRGTKREDVVRGQVLAKPGTITPHTEFEAEIYVLTKDEGGRHTPFFKNYRPQFYFRTTDVTGEVELPAGKEMVMPGDNTKIIVKMISPVAMDEGLRFAIREGGRTVGAGVVSKIIK;locus_tag=LOCUS_02820;gene=tuf2;note=Q2RQU6 elongation factor Tu 2 (Rhodospirillum rubrum ATCC 11170) [pid:79.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-183],MGA_286
sequence06	MetaGeneAnnotator	CDS	15196	15513	.	+	0	ID=MGA_287;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TMC3;translation=MNNQKIKIKLKSFDHRSLEHATGEIVSAVKRTGADVNGPIPLPRHIERFTVIRGPHVDKKSREQFEIRTQKRLVIINYPTPQTVEALRKVDLPAGVDVEIKLVGA;locus_tag=LOCUS_02830;gene=rpsJ;note=E8TMC3 30S ribosomal protein S10 (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:71.6%25%2C q_cov:97.1%25%2C s_cov:100.0%25%2C Eval:1.0e-34],MGA_287
sequence06	MetaGeneAnnotator	CDS	15516	16160	.	+	0	ID=MGA_288;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J5S2;translation=MRTGLIAKKLGMSSMFTEQGDRITLTFLQLEDLQVVGQKTMERDGYNAVVLGSTLKKASRVSKSMKKVFANAKVEPRQILKEFRVSEGNMLEIGAEVKATHFEPGQYVDVSGRSIGKGFAGVMKRHNFGGLEATHGVSISHRSHGSTGQCQDPGKVFKGKKMAGHLGDANVTIQNLQIVEVDAEKGIVIVSGNVPGSKGKYVFIKDAVKKAINA;locus_tag=LOCUS_02840;gene=rplC;note=Q3J5S2 50S ribosomal protein L3 (Rhodobacter sphaeroides 2.4.1) [pid:62.9%25%2C q_cov:98.1%25%2C s_cov:87.5%25%2C Eval:4.9e-74],MGA_288
sequence06	MetaGeneAnnotator	CDS	16195	16815	.	+	0	ID=MGA_289;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCQ6;translation=MKAELVSLEKKVVGEIALNDSIFGLEPRVDIIKRVIDWQRAKARSGTHSVKTVGEVSGTTKKPFKQKGTGNARQGNARGVQRRGGGIAHGPQVRSHDIKLQKKVRKLGLRHALSVKKSEGALHVVDSVSMKQAKTSDLIKSLANFGSGKFFVIDGDVIDNNLKLSAASAVNTNVVPAIGANVYDIISSDHVLISKNALALLEERLK;locus_tag=LOCUS_02850;gene=rplD;note=Q9ZCQ6 50S ribosomal protein L4 (Rickettsia prowazekii str. Madrid E) [pid:60.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-63],MGA_289
sequence06	MetaGeneAnnotator	CDS	16815	17111	.	+	0	ID=MGA_290;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCQ7;translation=MIAKNKYDLIKTPIITEKSTILGEFGKYVFEVSPRANKSSVKKAIEEIFGVKVVSVNISNQKGKVKKFRGFLGRRADTKKAVVTLEKDQTIDLAGGIK;locus_tag=LOCUS_02860;gene=rplW;note=Q9ZCQ7 50S ribosomal protein L23 (Rickettsia prowazekii str. Madrid E) [pid:59.8%25%2C q_cov:93.9%25%2C s_cov:93.9%25%2C Eval:3.1e-23],MGA_290
sequence06	MetaGeneAnnotator	CDS	17111	17935	.	+	0	ID=MGA_291;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCQ8;translation=MALKKYNPTTPSQRGLVRVDKSDLWKGKPHKSLTKGLTKSGGRNNLGRMTSRHRGGGHKRLYRMVDFKRSKLNCPATIERIEYDPNRSAYIALIKYDDGVYSYILAPAKMKAGDKVMSGPDADIRAGNCLPLKNIPVGTIVHNVEMKPGKGGQLARSAGTSVSLVGKDSGYAQIKLASGEVRLVPLECMATIGTLSNADRKNTIIGKAGRSRWLGKRPHVRGVAMNPVDHPHGGGEGKTSGGRHPVSPWGKPTKGKKTRKNKLTSKFIIRRRTK;locus_tag=LOCUS_02870;gene=rplB;note=Q9ZCQ8 50S ribosomal protein L2 (Rickettsia prowazekii str. Madrid E) [pid:72.1%25%2C q_cov:99.3%25%2C s_cov:99.6%25%2C Eval:3.9e-115],MGA_291
sequence06	MetaGeneAnnotator	CDS	17948	18226	.	+	0	ID=MGA_292;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCQ9;translation=MSRSVWKGPFVDGHLLKKVQNAMETGKKEVIKTWSRRSTILPIFVGYTFAVHNGNKFIPVAVSEEMVGRKLGEFAPTRTYYGHGADKKAKRK;locus_tag=LOCUS_02880;gene=rpsS;note=Q9ZCQ9 30S ribosomal protein S19 (Rickettsia prowazekii str. Madrid E) [pid:80.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-41],MGA_292
sequence06	MetaGeneAnnotator	CDS	18240	18590	.	+	0	ID=MGA_293;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCR0;translation=MSNLLAKASIIRLRTSAQKLNLVAASIRNMKASDALVQLTFSPKRIAVDVKKCLQSAIANAENNMGLDIDNLVVTSATVGNSITMKRVRARARGRSARINKPFSNLYITVSEREEK;locus_tag=LOCUS_02890;gene=rplV;note=Q9ZCR0 50S ribosomal protein L22 (Rickettsia prowazekii str. Madrid E) [pid:68.2%25%2C q_cov:94.8%25%2C s_cov:92.4%25%2C Eval:8.2e-35],MGA_293
sequence06	MetaGeneAnnotator	CDS	18592	19239	.	+	0	ID=MGA_294;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCR1;translation=MGQKVNPHGFRVGPTLFKGWESVLYAEKKDYAQKLQQDLKIRSLIMKKYKLAQVSRVVIQRPSNSIVVNIHAKKPGMIIGKSGSDIEKLKKDVQKIASTEVFINIHEVKKPGVDGNIIAQTIAQQLENRVSFRKAMKTAIQNSFKQGAKGIKVACSGRLGGAEIARTEWYREGRVPLHTLRADIDYGTAEANTTYGVIGIKVWVYKGDFGQKNRR;locus_tag=LOCUS_02900;gene=rpsC;note=Q9ZCR1 30S ribosomal protein S3 (Rickettsia prowazekii str. Madrid E) [pid:68.5%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:1.1e-78],MGA_294
sequence06	MetaGeneAnnotator	CDS	19269	19679	.	+	0	ID=MGA_295;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCR2;translation=MLAPKKQKFRKAHKGRVASKSKAGTMLSFGSFGLKSIDGLRVTARQIEAARRAAVRHMKRQGRFFIRIFPDLPVSKKPNEVRMGKGKGSPEYFAVRVSPGRIMFEIEGVSEAVARTALELAAAKLPVRTKIVQRYE;locus_tag=LOCUS_02910;gene=rplP;note=Q9ZCR2 50S ribosomal protein L16 (Rickettsia prowazekii str. Madrid E) [pid:81.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-57],MGA_295
sequence06	MetaGeneAnnotator	CDS	19672	19890	.	+	0	ID=MGA_296;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKSKSEFTSEALAGLSVEKLVEKSAFLKKELFNLRFQKTLGELTNTSRFAKVRKDIARVNTELNKRKAGV;locus_tag=LOCUS_02920;note=Q9ZCR3 50S ribosomal protein L29 (Rickettsia prowazekii str. Madrid E) [pid:62.7%25%2C q_cov:70.8%25%2C s_cov:71.8%25%2C Eval:3.7e-11%2C partial hit],MGA_296
sequence06	MetaGeneAnnotator	CDS	19896	20126	.	+	0	ID=MGA_297;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J5R3;translation=MPKRILQGTVTSAKNDKTVSVKVERTFRHPLYKKTVRKSAKYAAHDAKGRCKVGDKVRIQECRPMSKTKSWMVIED;locus_tag=LOCUS_02930;gene=rpsQ;note=Q3J5R3 30S ribosomal protein S17 (Rhodobacter sphaeroides 2.4.1) [pid:68.4%25%2C q_cov:100.0%25%2C s_cov:95.0%25%2C Eval:8.4e-24],MGA_297
sequence06	MetaGeneAnnotator	CDS	20200	20568	.	+	0	ID=MGA_298;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQX0;translation=MIQMQTVLKVADNSGAKKVMCIKVLGGSGRMISGCGDVIVVSIKSAIPGGKVKKGEVHRALIVRTKKEIKRPDGSTIQFDSNSVVLVNKQNEPIGSRVFGPVPRELRGKGFMKIISLAEEVI;locus_tag=LOCUS_02940;gene=rplN;note=Q2RQX0 50S ribosomal protein L14 (Rhodospirillum rubrum ATCC 11170) [pid:73.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-46],MGA_298
sequence06	MetaGeneAnnotator	CDS	20569	20901	.	+	0	ID=MGA_299;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCR6;translation=MHKLKIKKGDKVQVVTGKNKGKVGDVIKVLPAENRVVVSGVNLAKKHTKPSQTSEGGIIQKELPIHVSNVSHIDPKTNEITKVGYKTLEDGKKVRIAKKSGEIISKEGKK;locus_tag=LOCUS_02950;gene=rplX;note=Q9ZCR6 50S ribosomal protein L24 (Rickettsia prowazekii str. Madrid E) [pid:69.4%25%2C q_cov:98.2%25%2C s_cov:95.6%25%2C Eval:7.9e-38],MGA_299
sequence06	MetaGeneAnnotator	CDS	20901	21443	.	+	0	ID=MGA_300;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCR7;translation=MLSRFKDLYNKQITKSLQDQFKYSNKHQMPKLVKVVVNMGVGDAVSDSKVINHAINDMTAITGQKPYTTYAKKSIATFKLREGMKLGCKVTLRRDRMYEFLERLVIVALPRVKEFRGLSVKSFDGRGNITFGIKEQIVFPEINYDKIDKVRGMDITIVTTAKTDEEAKALLSGFDLPFYN;locus_tag=LOCUS_02960;gene=rplE;note=Q9ZCR7 50S ribosomal protein L5 (Rickettsia prowazekii str. Madrid E) [pid:74.0%25%2C q_cov:98.3%25%2C s_cov:98.9%25%2C Eval:1.8e-75],MGA_300
sequence06	MetaGeneAnnotator	CDS	21466	21771	.	+	0	ID=MGA_301;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCR8;translation=MAKIGSRQRNEKRKRLVKSFSNKRKALKSAVMKKDLPLEERFDLVVKLAKLPRNSAQNRVRNRCALTGRPRGYHRKMGISRNMLRELAAQGLLPGVIKASW;locus_tag=LOCUS_02970;gene=rpsN;note=Q9ZCR8 30S ribosomal protein S14 (Rickettsia prowazekii str. Madrid E) [pid:59.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-29],MGA_301
sequence06	MetaGeneAnnotator	CDS	21801	22193	.	+	0	ID=MGA_302;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCR9;translation=MTMSDNIADMLTRIRNGQKSRLLSVVMPASKLKCAVLDVLVKEGYIAGYTKDDAKGVIDVSLKYSRIGDPAISEIHRVSKPGKRMYSAIADLPGYYNNMGIHILSTPRGVMSDREAKKLNVGGEVICKVF;locus_tag=LOCUS_02980;gene=rpsH;note=Q9ZCR9 30S ribosomal protein S8 (Rickettsia prowazekii str. Madrid E) [pid:65.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-42],MGA_302
sequence06	MetaGeneAnnotator	CDS	22203	22736	.	+	0	ID=MGA_303;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCS0;translation=MSRVGKLPVQVADDIKVEVSGLLVKVQGPKGSLEKEFSGFIAIEYKDSQITVKPLNDSAEAKAMWGTARSIINGMVVGVKDGFKEELEVNGVGYRAAVKGKYLNLTLGKSHNTKIEIPEGIKVETPKQTVILLESHDKHKLGQYVATIRSQRPPEPYKGKGIRRKGEYVQRKEGKKG;locus_tag=LOCUS_02990;gene=rplF;note=Q9ZCS0 50S ribosomal protein L6 (Rickettsia prowazekii str. Madrid E) [pid:61.9%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:5.2e-59],MGA_303
sequence06	MetaGeneAnnotator	CDS	22750	23106	.	+	0	ID=MGA_304;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCS1;translation=MSANNPVFRKRRDRVRTKLRRISDRNRLSVFKSGRHIYAQIIDDSTSKTLVAASTLDKSIRSSAKSNCNIEFAVKVGKLLADRAEEKSIKLVAFDKGGHKYHGVIKALADEARKKLQF;locus_tag=LOCUS_03000;gene=rplR;note=Q9ZCS1 50S ribosomal protein L18 (Rickettsia prowazekii str. Madrid E) [pid:60.4%25%2C q_cov:94.1%25%2C s_cov:94.1%25%2C Eval:2.9e-32],MGA_304
sequence06	MetaGeneAnnotator	CDS	23119	23640	.	+	0	ID=MGA_305;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCS2;translation=MSKNSKSNDLIVEDLVHVNRVTKVVKGGRNFSFAAIVVVGDENGKVGYGNGKAKEVTEARAKATKDARGNMISVPLYQGRTIHHDIIGKSGAAKVILRRAAPGTGVIAGGPLRSIFGRLGVEDIVAKSLGSSNPNAMIAATFDALRNLRSPKNIADRRGKNLTELSVNSEKSE;locus_tag=LOCUS_03010;gene=rpsE;note=Q9ZCS2 30S ribosomal protein S5 (Rickettsia prowazekii str. Madrid E) [pid:66.3%25%2C q_cov:97.7%25%2C s_cov:96.6%25%2C Eval:8.6e-56],MGA_305
sequence06	MetaGeneAnnotator	CDS	23668	23889	.	+	0	ID=MGA_306;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQX8;translation=MTKEKAKAKTKAKASNQIKVTQISSPIGRCSDQKKTLVGLGLNKISATRVLEDTASIRGMVKKVKHLVSVEAV;locus_tag=LOCUS_03020;gene=rpmD;note=Q2RQX8 50S ribosomal protein L30 (Rhodospirillum rubrum ATCC 11170) [pid:61.3%25%2C q_cov:84.9%25%2C s_cov:98.4%25%2C Eval:7.2e-15],MGA_306
sequence06	MetaGeneAnnotator	CDS	23898	24356	.	+	0	ID=MGA_307;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCS4;translation=MKDMKLNTLFNVPGSKKPRKRVGRGIGSGTGKTCGRGVKGQKSRSGVAIKTEGGQMPLIKRLPKRGFNCSKSVDYTAISVADIEVLIGMKRIDATKNINKDTLVSIGYIKSTKTPVKLLGGVEKIEHKLTIELDACSDSAKSVIEKAGGKIL;locus_tag=LOCUS_03030;gene=rplO;note=Q9ZCS4 50S ribosomal protein L15 (Rickettsia prowazekii str. Madrid E) [pid:51.7%25%2C q_cov:98.0%25%2C s_cov:100.0%25%2C Eval:1.7e-32],MGA_307
sequence06	MetaGeneAnnotator	CDS	24372	25661	.	+	0	ID=MGA_308;product=protein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCS5;translation=MQKSKGELSSRILFTLGVLVVCRVGSFIPIPGIDSVALASLAERSQGGILGMFNMLSGGSLERMSIFALAIMPYITASIVIQLMTIAYKPLEEMKKDGEVGRRKINQLSRYLTVLFASFQAYGVTVGLEATVTPHGPVVIIAPLIFKISTITTLVVGTMFLMWLGEQISARGIGNGTSLIIFIGIVSGLPSAIISMFELSRKGAMSPVIVMAICAGVVAMIITIIYFERAQRKVLVQYPKRQVGNKIYGGDSTHMPLKLNTSGVIPPIFASSVLLFPTTISGFSGNDSELMGTISRYLGHGKPLFILSYVALIVFFSFFYTAVVFNSEDTANNLRKNGAYVPGRRPGKNTAEYFDYLLTRLTVVGSMYLSFVCIVPELLMNKYSMAFALGGTSFLIVVNVVLDTFTQIQTHLFSSRYEGLVKKMRLKDK;locus_tag=LOCUS_03040;gene=secY;note=Q9ZCS5 protein translocase subunit SecY (Rickettsia prowazekii str. Madrid E) [pid:73.8%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:3.3e-187],MGA_308
sequence06	MetaGeneAnnotator	CDS	25658	26305	.	+	0	ID=MGA_309;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCS6;translation=MIKNIIILLGLPGSGKGTQGAVLSEELAIPHISTGDILRKMVLEDNKDSKLLAKYMSEGKLVPSNLVNQLVKRFILSDACKGGCILDGYPRNLEQAEYFIENIDANISTIFFDVSDEIVTKRILGRISCASCNKLYNKYFDKPKKEGVCDVCGSTEFVERSDDDEDTIASRLEEYRKNTLPMIEYYKEKGRFFTVHGGESKEKVAEQVASIVKKI;locus_tag=LOCUS_03050;gene=adk;EC_number=2.7.4.3;note=Q9ZCS6 adenylate kinase (Rickettsia prowazekii str. Madrid E) [pid:44.3%25%2C q_cov:97.2%25%2C s_cov:98.6%25%2C Eval:6.3e-53],MGA_309
sequence06	MetaGeneAnnotator	CDS	26366	26734	.	+	0	ID=MGA_310;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCS7;translation=MARIAGVNIPPNKRLVISLTYIFGIGLTAAQKICKNTKLSEDKRVKDLDDQELVKLRTEIEKNFQVEGDLRREVSLNIKKKKDLRTYEGLRHIRRLPVRGQNTHSNARTRKGKAVAIAGKKK;locus_tag=LOCUS_03060;gene=rpsM;note=Q9ZCS7 30S ribosomal protein S13 (Rickettsia prowazekii str. Madrid E) [pid:71.8%25%2C q_cov:90.2%25%2C s_cov:88.0%25%2C Eval:9.8e-41],MGA_310
sequence06	MetaGeneAnnotator	CDS	26751	27134	.	+	0	ID=MGA_311;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCS8;translation=MSPTNKAKKKKKNITLGVVHIKATFNNTIITVTDVQGNVIAGSTAGAHGFKGAKKATPYAAQVTMDKASEDAKEHGLKTVSIKVKGAGSQREAAMRAVFSQNFVVTSITDVSGVAHNGCRAPKRRRC;locus_tag=LOCUS_03070;gene=rpsK;note=Q9ZCS8 30S ribosomal protein S11 (Rickettsia prowazekii str. Madrid E) [pid:72.3%25%2C q_cov:93.7%25%2C s_cov:93.7%25%2C Eval:6.6e-45],MGA_311
sequence06	MetaGeneAnnotator	CDS	27185	28201	.	+	0	ID=MGA_312;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCS9;translation=MSLLNKNWNSLIKPSKIIYDGANDESNVANIKIEPLERGYGLTLGNALRRILLSSLQGAAITAVKIPGVEHEFSAKAGVKEDVVDIILNLKKVAVKMHTAEKKTVRINAKGPCVVTAGMIETGTDVEIMNPDQHICTLSKDADLEMELYCEVGRGYVPAGSNKQDYPIGVIAIDALYSPVKKVSYKVEDTRVGQVTDYDKLIMNIETDASITPEMAIALSARIMQDQLQLFVTFEEEEEEKQEAKEELEYNPILLKKVDELELSVRSRNCLQNDNIVYIGDLVNKTEAEMLRTQNFGRKSLNEIKDVLSKFNLKFGMEITGWPPENIEELAKKYEDPY;locus_tag=LOCUS_03080;gene=rpoA;EC_number=2.7.7.6;note=Q9ZCS9 DNA-directed RNA polymerase subunit alpha (Rickettsia prowazekii str. Madrid E) [pid:63.4%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:1.8e-126],MGA_312
sequence06	MetaGeneAnnotator	CDS	28312	28734	.	+	0	ID=MGA_313;product=50S ribosomal protein L17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCT0;translation=MRHKIKGKKLNRTSSHRKAMFANMAVALVMNEQIKTTVAKAKALRPYIEQLVTKARKGTLSARRDIISRIKDKVAAEKLMSVLATRYKSRPGGYTRVVKAGFRYGDRAPIAYIEFVERDVAAKGCMTPKTENLTEQEIQE;locus_tag=LOCUS_03090;gene=rplQ;note=Q9ZCT0 50S ribosomal protein L17 (Rickettsia prowazekii str. Madrid E) [pid:68.5%25%2C q_cov:88.6%25%2C s_cov:91.2%25%2C Eval:1.0e-45],MGA_313
sequence06	MetaGeneAnnotator	CDS	28745	29167	.	+	0	ID=MGA_314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANHSATKKAIRKTVRKTAINKNRKSRIKTFIKRVVAAVAAGSSEEANKALVEAQSEIMKGVSAKLIKKNTAARKVSRLAKSVKSISGGAKKEAAPKKAVAPKAAPAKAAAKKSTATATKAKTEATKSAPKKAAAKTEEK;locus_tag=LOCUS_03100;note=Q9ZCT1 30S ribosomal protein S20 (Rickettsia prowazekii str. Madrid E) [pid:53.5%25%2C q_cov:61.4%25%2C s_cov:95.6%25%2C Eval:4.3e-20%2C partial hit],MGA_314
sequence06	MetaGeneAnnotator	CDS	29621	30622	.	-	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANKISQILSIVVVMFCFNVIAAAKSTESNMLQSKTKKTKTFSNNSINQISILPYAGIRHDFLQWSFGDNDIPKLSELTWKNKISEIGVEILTEPTHGQFNFMGLVKYGKILDDSENQDSDWDQMGEFSRTFSKVKGNTFDISGAVGISQDRFAKFPYALITHYFGFDYNYNNNRQHGVFSTIDRIPFTSITQPTGQIVPKSKLISTYKYHNFAPWYGINLHYKLNDKLSFAPFIKAYIFGYRAEADWILRDDFAHDPSFKHKVFGAGLSLDAKLLYKATNNLDIFANVGIKRLALINGTKTTFFSDGESHSGKLKDLKILTKTLSIGAKYKF;locus_tag=LOCUS_03110;note=MGA_315
sequence06	MetaGeneAnnotator	CDS	30763	32037	.	-	0	ID=MGA_316;product=citrate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P09948;translation=MNDEFAELKIKDKTVKLPIRKASIGPNVLDVTKLYGETGYFTYDPGFMSTASCTSSITFIEGGEGILRHRGYEIKDLADNKDFLEVSYLLFNGELPNKTEYADFRKKISHHSMVNEQTRNIFGAFRHSAHPMAVILSVVGSLSAFYHDTIDMNTPEGRELCAIRMIAKMPTIAAMTYKYSMGQAFVYPDEDLSFTENFLYMMFGAPNKKFKQNNLISKALDKIFILHADHEQNASTSTVRTTGSSGPNPFACVSAGIASLWGPAHGGANEAVIRMLAEIGSVENIPKFIERAKDKNDPFRLMGFGHRVYKNYDPRAAALKDTCREVLEELGQLKNNPMLAIAMELEKIALNDQYFIDRKLYPNVDFYSGIIYKALGIPPQMFTVLFAVARTAGWVSQWKELWEDPEFKITRPRQLYTGHVSRKV;locus_tag=LOCUS_03120;gene=gltA;EC_number=2.3.3.16;note=P09948 citrate synthase (Rickettsia prowazekii str. Madrid E) [pid:69.2%25%2C q_cov:99.5%25%2C s_cov:96.6%25%2C Eval:6.9e-174],MGA_316
sequence06	MetaGeneAnnotator	CDS	32247	32504	.	+	0	ID=MGA_317;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKCRISEDQARSLNYDIIDSTVEMPFLMRLNSVMQDFILKTKIGFFLYHYDENISCFIGRDGQYLIYDSAHEVENIGAIYFTYGV;locus_tag=LOCUS_03130;note=MGA_317
sequence06	MetaGeneAnnotator	CDS	32544	33386	.	-	0	ID=MGA_318;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596792.1;translation=MDKLQEKLNQLKWLQHAGIEYYCSEKKDSKNSLMNRLKETSKDNSQDKMTNFTINKEKSETKEQPSKIKENGDLTINIAKARKLAESATSLQELKTIVENFDGCALKNFATNTVFCDGQSDAKILLIGEAPGATEDEKGIPFCGESGKLLDKMLNTIGLDREKNVYITNTIFWRPPANRRPTPEEIKICKPFVEKHIELLSPKMIILIGGTATTALLSKKESISYIRKNYYSYTNQYLKKPIFTAALFHPAFLLRSPYKKKDTWYDLLKIRDYIEKEGII;locus_tag=LOCUS_03140;note=WP_004596792.1 uracil-DNA glycosylase (Rickettsia prowazekii str. Madrid E) [pid:50.5%25%2C q_cov:97.1%25%2C s_cov:98.8%25%2C Eval:1.5e-72],MGA_318
sequence06	MetaGeneAnnotator	CDS	33402	34367	.	+	0	ID=MGA_319;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCB4;translation=MTTYKYKIPEHLTGQRLDKALSLLCQESTRSQIQKAIKNNQAVLNNKIISNLSLRVKENDVVEINIIEEMPENIEPSDIPLDIVYEDSDLIVINKNSNMTVHPGAGSYNDTLVNALLYHSKNLSDIGGEIRPGIVHRLDKTTSGLMVVAKNNKSHVDLAAQIESRNLVRKYKALVWGMIKQTEGTIDIPVGRSNSDRKKMTTLKNGGGKSAITHYKVIEIMHGGLFSLVECKLETGRTHQIRVHMSHVGHSIVGDQTYGNNSRKIHGCPEYLKEELLKIDHQALHSFYISFDHPTTKERMEFLQDIPKDYQHLLNFIRKVS;locus_tag=LOCUS_03150;EC_number=5.4.99.-;note=Q9ZCB4 pseudouridine synthase (Rickettsia prowazekii str. Madrid E) [pid:55.3%25%2C q_cov:96.3%25%2C s_cov:98.4%25%2C Eval:2.3e-91],MGA_319
sequence06	Aragorn:1.2.38	tRNA	34237	34330	.	-	.	ID=Aragorn_8;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00080;note=Aragorn_8
sequence06	MetaGeneAnnotator	CDS	34427	35170	.	+	0	ID=MGA_320;product=amino acid ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599765.1;translation=MNKFKILLSIILSTILVSCGDSKDDDTWVVGTSADNPPYEFMQDGEIVGFDVDLMVAIGQHLGKNIEFRNMEFHGLLAALASNNVDMVIAGMSVTPERQKRVTFSVPYTDARIAVLFRREDKFKRSEDLKGKSAGAQLGTIWTLIAHDMSVKYDFRTKALANNLMLVEELKNKRLDALVLEESQAEKFVAKYPELSSFSVKQYGSSFAIAMPKKTELKKNIDHTIKQLKGNGTISALAKKWGIVSEE;locus_tag=LOCUS_03160;note=WP_004599765.1 amino acid ABC transporter substrate-binding protein (Rickettsia prowazekii str. Madrid E) [pid:47.3%25%2C q_cov:96.0%25%2C s_cov:98.3%25%2C Eval:3.2e-57],MGA_320
sequence06	MetaGeneAnnotator	CDS	35160	35630	.	+	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSEEFKAAVGKFPTGVTIISTSYDDKLWGFTANSFNSVSLEPRLISFCLNKEAGSFDVFKETSHFAVSILSSDQASLSAHFASRISDKFDSVEYRIGEYSNAPLLNGAVSFIECKKYNQFECGDHFIFIGEVGKISIDEIKSPLLYFAKSYTEVK;locus_tag=LOCUS_03170;note=WP_014206906.1 flavin oxidoreductase (Acinetobacter pittii PHEA-2) [pid:43.0%25%2C q_cov:95.5%25%2C s_cov:46.5%25%2C Eval:3.8e-27%2C partial hit],MGA_321
sequence06	MetaGeneAnnotator	CDS	35627	36376	.	+	0	ID=MGA_322;product=4-hydroxy-tetrahydrodipicolinate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE14;translation=MSLIKVGISGANGRMGKAIEFVISLKNNKFELIAKLTSSSAEDEVEKSCRACDVIIDFSEPGSLKHLMHYASIFSTKIVIGTTSLESEHFQYIEEAAKNIAVVYAPNTSLGANLLEDLSIRAANMLNGYDAEIIEAHHKYKKDSPSGTALAIGKSIAKTRQIDFDASAVFDRCSRGLRQKDDITFSSIRGGGIFGEHEILFAGDNELISISHKALSRDAFAEGAVYAASWIADRKAGLYSMRDVLGLDK;locus_tag=LOCUS_03180;gene=dapB;EC_number=1.17.1.8;note=Q9ZE14 4-hydroxy-tetrahydrodipicolinate reductase (Rickettsia prowazekii str. Madrid E) [pid:41.3%25%2C q_cov:97.2%25%2C s_cov:98.7%25%2C Eval:9.9e-51],MGA_322
sequence07	MetaGeneAnnotator	CDS	1060	1317	.	+	0	ID=MGA_324;product=BolA family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886244.1;translation=MNRKEIIETKLSVLNPHFLEVVDQSSLHAGHAGNPNGDGESHFAIKIAAKELDDLSMIKQHRIINNILKDEFDNGLHALSINIKP;locus_tag=LOCUS_03190;note=WP_010886244.1 BolA family transcriptional regulator (Rickettsia prowazekii str. Madrid E) [pid:51.2%25%2C q_cov:97.6%25%2C s_cov:98.8%25%2C Eval:3.2e-15],MGA_324
sequence07	MetaGeneAnnotator	CDS	1339	1545	.	+	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDT1;translation=MTQENIIKLLAGANKIARESSNIIKESGANFVEKTVIKGNYVSREEHEQLKQLVLKMQNEINSLKKKK;locus_tag=LOCUS_03200;note=Q9ZDT1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:44.6%25%2C q_cov:95.6%25%2C s_cov:95.6%25%2C Eval:2.1e-11],MGA_325
sequence07	MetaGeneAnnotator	CDS	1548	2528	.	-	0	ID=MGA_326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003092876.1;translation=MFRKIISLIAIIAAVFAWQYNAVGNSKKVKVYISQLVEHPALDATTKGIIQGLSDKGYKDENLELIVESAQGNVSLANQIANKLISKNPDIVVGVATVTAQSFSKYARTGKTKLIFSSVTDPVDAGLVNSVIKPGNNTSGVSNFISLEPQIEMFLKIKPDIKKLGFLYNPGELNSISLIEKLKVICPTYGIELITVSASKTSEVAQSAAKLSSLVDAIFVSNDNTALSAFKTIVKAANNVSIPVFVSDTDIVKDGAVAALGPNQYDLGLQTANMIVSILEGKDINTAPVEFPKKIELYLNPNAAEKVGIKIPKELFESASYLVGKQ;locus_tag=LOCUS_03210;note=WP_003092876.1 hypothetical protein (Pseudomonas aeruginosa PAO1) [pid:40.2%25%2C q_cov:96.6%25%2C s_cov:96.3%25%2C Eval:2.6e-63],MGA_326
sequence07	MetaGeneAnnotator	CDS	2534	2830	.	-	0	ID=MGA_327;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDDHHHDNTVNLAEVLAGIDSISEMEKFLTDLCTRAELKAMKERWKVCQLLSDDKLSYREIHKLTNASLTTIGRVARFLRDEPHGGYRDTLRNIRRE;locus_tag=LOCUS_03220;note=WP_011036977.1 DNA-binding transcriptional regulator (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:53.1%25%2C q_cov:82.7%25%2C s_cov:73.1%25%2C Eval:1.0e-13%2C partial hit],MGA_327
sequence07	MetaGeneAnnotator	CDS	3215	3937	.	+	0	ID=MGA_328;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLEKFLIKPVDEEFYIKDKKYVPVLQKAEKKARLSRRAYLEELILTEYEHELSDPYVVEFIQNIQKLDVPMIVFTTNCSGSFNKIPYLEVWTWTYLFNKNIDLSKSPIGSNQIIFNKYGKKVKGTYPTYYKGLLSANSWDGKNSIQSMLATLFVQKLKYLPDVVYIVHEEESFIKSIEEQFKTVKRDVQVEGFIFSSQKKVNNDLSMKKVQNFWNKLIDKLNKVSRKERNIDEEDPYEQ;locus_tag=LOCUS_03230;note=MGA_328
sequence07	MetaGeneAnnotator	CDS	3927	4781	.	+	0	ID=MGA_329;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKLKLFVCLFVVFINTVSKAEVITTYSVNSSTVQKIEEWIDKDTIILIELDDTLIMPKSKMFSFDSNPYRMFLNNLITLGERSPAYTKAVANWYGQRKVRLVEEGWIDFISRARAKGAKIYGICSMPLYLLNIEEKRLKEIKDLGIIFDSKLNNSEEFEIKKEFPWSARFHKGIIYNGPHSKHEAILELFKIANLSPKKFLTFANVKYEIKLVDKALRKFNMYFKSVLYLGSREVTGRPNEEIVKFQQRQLIENGKWHEDDEASKLLDFRRQQENSGSAEFQ;locus_tag=LOCUS_03240;note=MGA_329
sequence07	MetaGeneAnnotator	CDS	4783	5784	.	+	0	ID=MGA_330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIYLRKVFTRGFYPTKSSNWYKNKGYIGENLQQQFADFLSKQSKEGSRYFKEFQSLSLTRQFIPSGEHELDSVLIIPDSKIAKGKPGLGVYFILFQGRGEYYESRFRDMAKQALATGANIIGFNPKGFHNSSGHTRKLSDLVDDGIAVVTYLLEKGIDHKNIVLQGNSLGSGVQEMVSEHFRLNHGISFRQINGNSFKNLAAVVANHYNAPFLEKFFKIFLKHSGWEINPGLDFYKTGPYKMYLRRKGDRTITGSAEFHSMVDHKADYESSPDGYKETNKWLNERNQIIYTGKQQKDPHEIGLSLFKIDEKEKRSVFYMINKFLEDSKDYL;locus_tag=LOCUS_03250;note=WP_010948184.1 protein SdbC (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:33.1%25%2C q_cov:75.7%25%2C s_cov:59.2%25%2C Eval:1.5e-32%2C partial hit],MGA_330
sequence07	MetaGeneAnnotator	CDS	5796	8630	.	-	0	ID=MGA_331;product=alkaline phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599494.1;translation=MNFNIDIAIVIGFLLVTLVVGMYKGQNIQNIKEFALGNRNFTTVTLVCTIVATWIGGEDFFILISESYTDGLYFILAYSFGILAVILLIGLFFAPRMGEFLGDLSIASAMGRMYGNNVKLITAVAGSIATAGMIAAQFKISGMLFEYTLGISSVYGIAIGASIVTMYSAFGGIKSVSFTDVIQFFMFGAILPTLVLFILGTLDSSNIVIDTISVNNNFDLKQVFDFTSSKSLYYLFIFLWVAVPSFDPAIFQRISMAKDTMQARKSFIISAFVFFALSLIMSWIGVIALAIYPDVAADEIAKHIILDYSYSGLKGLTIAGILAMMMSTADSYINSTSVLFTHDFCSAAGIKIKNELIVSRMIALILGVFSLILAIYSDNLLKLIITTKSFYMPVVSVPFIFSIIGFRSSTKSVLIGMVAGFITVVLWEIFLRESTVDSVIPGMAVNIIFLFSSHYILKQSGGWVGIKDYSTVIQLRRKRKEQFRRYVDLVKEFNLIDLCKESSPKEDVVYLHFGIFSIFSTYFAIYTMPEVAQANYKGIIDFIYPSVFFLATALISYPIWFKSLRQSSLINIIWTFSLFYILICIGSMHVLTSDFSKFQLMTFMLNFIVLAVLVRWPIALLMMVIGTFSSIQFFKFYTGDEIFSGDFSDLQFTIAYLLLFMSTILIIFLKPKQEYQEATEAKVDILEEEVIHLETEVADLNEKVVHYTERVEDQSREIERLGATAQRILNNVNHELRLPVGNVMNFAEMLNDGLGKFSEEQLKDLSDEVYKNSNRLSSMILNMLDLATLDAKKIELNKIMINFGELVRDRVLSCRKIYLEDKKVDFEMRIEENIFISVDPNYMRQTVDNLVINAINFSTEGIIRISVLRKGSVVEFVISDNGIGIPKEDLYDIFTPFKMGSNSESKAEGRGVGLALCKAAVEAHGGSISAESKDGVGAQFRFVL;locus_tag=LOCUS_03260;note=WP_004599494.1 alkaline phosphatase (Rickettsia prowazekii str. Madrid E) [pid:36.7%25%2C q_cov:98.4%25%2C s_cov:97.8%25%2C Eval:1.8e-186],MGA_331
sequence07	MetaGeneAnnotator	CDS	8781	12905	.	-	0	ID=MGA_332;product=DNA-directed RNA polymerase subunit beta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE20;translation=MSQINFYGQLSSTQQFDQIKINIASPEQVRSWSFGEVTKPETINYRTFKPEKEGLFCARIFGPVKDFECLCGKYKRMKYRGVTCEKCGVEVTSSRVRRERMGHIELAAPVAHIWFLKSLPSRISTLLDITMKDLEKVLYFENYVVIEPGMSPLQKGELLSEDAFIKAQDEYGEDSFIAMIGAEVVQKLLSELDLDELSVQLKTELAETASETKKKKIIKRLKLVEDFRSSGNKPEWMVMNVLPVIPPEIRPLVMLDGGRFATSDLNELYRRVINRNNRLRRLLELKAPDIIIRNEKRMLQESVDALFDNGSRGKVVKNANKRPFKSLSDMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPEMKLHQCGLPKKMALELFKPFIYSKLEMYGIATTIKAAKKIVEAEKVEVWDILEEVIREHPVLLNRAPTLHRLGIQAFEPLLIEGKAIQLHPLVCAAFNADFDGDTMSVHVPLSIEAQLEARVLMMSTNNILSPANGKPIISADKDIVLGLYYLTSILDNEPGEGMIFCDIKELEFALHEKVITLHTKIKYRTKILNSEGEFVEALVDTSPGRVLLGKLLPKTENLDFKLLNREMNKKNISAAIDSVYRYCGQKATVIFADKLMELGFKHACQSGISFGMDDMVIPDAKAKFLDETSSLVNEFEQQYLEGLITYGEKFNKVVDAWTACTDKVANKMMEEIAVVDSATDNNEKLNSIHMMAVSGARGSAAQIKQLAGMRGLMTKPSGEIIETPIKSNFKEGLTVREYFNSTHGARKGLADTALKTANSGYLTRRLVDVAQDCIITDEDCGTTDGLEVKTIIDGGEVVVSLSDQILGRTVAIDTFHPVTNELLVSAGDLIDEEKLDKIESSGLDLIKIRSVLTCKTKQGICARCYGRDLATGSLVSKGEAVGVIAAQSIGEPGTQLTMRTFHIGGAATKSTEVSSLEASYDAKVKILGRNLVINSEGLQIVMSRACEVLLVDDKGTERARYKVPYGARLMVDDGYKVEKGQKLAEWDPYTIPIITEKSGKVVFTDMLEGLSIRTTMDDATGISNKIVIESKQYSKGADLRPRIQLNDAKGKTVELSTGLEAKHYLPVGAVLSVEDGVEVSAGDILARIPRESTKTRDITGGLPRVAELVEARRPKDHAVIASVDGRIEFGKDYKSKRRVILHPTDGSEPIEYMLPKGKHVVINEGDFVKRGDMIIDGNPVLQDILKVMGVEALASYMVSEIQAVYRLQGVKIDDKHIEVIIRQMLQKVEITHPGSSTFLAGELVDAKQLEEINEKIVKEGGETARFDPVLQGITKASLQTNSFISAASFQQTTKVLTEASVAGKVDYLQGLKENVIVGRLIPAGTGFYMGMARKQASERDRAVASEQ;locus_tag=LOCUS_03270;gene=rpoC;EC_number=2.7.7.6;note=Q9ZE20 DNA-directed RNA polymerase subunit beta' (Rickettsia prowazekii str. Madrid E) [pid:73.8%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:0.0e+00],MGA_332
sequence07	MetaGeneAnnotator	CDS	13027	17127	.	-	0	ID=MGA_333;product=DNA-directed RNA polymerase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O52271;translation=MPQSLQTSKRVRKNFGKIDLVASIPNLIEIQKKSYEDSFMQLGLSDSERKSKGLQSVLSSIFPIQDPSGSATLEFVKYSFDNPKYDVEECIQRGLSFVAGLKVTLRLSVWEVDEATGAKEIKGIKEQEVYMGDIPFMTKNGTFIINGTERVIVSQMHRSPGGFFYHDDGKTHSSGKFLYSARIIPYRGSWLDVEFDAKDIVYIRIDRKRKLPVTTLLMAIGMSSSEILEEYYEIESFNHTKKGWVKDFDPSAVIVQRLDSDLVNAETDEKLLEVGQKITPRLAKKFAENGLKKILVQNDQLIGSYIGTEVVDSKSGEVFAKLGEQITEETLKGLVTAGEKSISLLKIPSQSDAYIRNTLFADKNQDQDSALIDIFRVLRPGEPATVEAGQMLFESLFFDSSRYDLSEVGRIKLNSRLDLDIDPENTCLTKDDIKAIVKVLVDLKDGKGSVDDIDHLGNRRVRSVGELIENQFRVGLVRMEKSILERMSVVDIDAVMPNDLVNSKVLISVVKEFFSTSQLSQFMDQTNPLSEITHKRRLSALGPGGVSRDRVGFEVRDVHPTHYGRICPIETPEGQNIGLINSMSTFARVNKYGFIESPYRKVKDGYVTDEVVYLSATDEGKYKIAQADMEIAADGKIKAEMVSCRFETGNFISVPPEEVEYIDVTPMQVVSVAASLIPFLENDDANRALMGSNMQRQAVPLITSDAPLVGTGIESVVARDSGAAIVAQNDGVIVEVDAERIVVQTLERKKNGSPEVDIYSLMKYQKSNHNTCINQKPLVKVGQNVKQNEIIADGPAIDQGEIALGRNMLVSFIPWRGYNFEDSILISERIVKDDVFTSIHIEEFEVVARDTRLGPEEITRDMPNVGEEALRNLDEVGIVHIGAEVKPGDILVGKVTPKSESPMTPEEKLLRAIFGEKASDVRDTSLYVPPGAAGTVVEVRVLSRRGVEKDERAITIEKQQIEKMAKDRDDEIEIIDRFVFMRLQKILDGQTIISGPKSVKAGQKIDQKLLETLSKGQYWQLTVEDNAVMSEIEQIKQQYDEKKDELNKRFTSKVDKLQSGDDLPQGALKVVKVFIATKHKLQPGDKMAGRHGNKGVISRIMPEEDMPFLEDGTVIDVVLNPLGLPSRMNVGQILETHLGWAAKQLGNKVGDMLDKYSNNDIDTDSIKDFVGKIYAGSEVAKQVKDLNKEDLIEFCGTLKDGVHFATPVFDGARVEGVKSMLELAGQNPSGQSRVIDGRTGEYFDRSITVGYKYILKLHHLVDNKIHARSIGPYSLVTQQPLGGKSHFGGQRFGEMEVWALEAYGAAFTLQELLTVKSDDVAGRIKVYENIVKGDTNFSSGIPESFNVMIKEFRSLCLNVQLEEGSA;locus_tag=LOCUS_03280;gene=rpoB;EC_number=2.7.7.6;note=O52271 DNA-directed RNA polymerase subunit beta (Rickettsia prowazekii str. Madrid E) [pid:73.0%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:0.0e+00],MGA_333
sequence07	MetaGeneAnnotator	CDS	17395	17769	.	-	0	ID=MGA_334;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MAX1;translation=MADITKIVEDLSSLTVMEAADLSKLLEEKWGVSAAAPAAVAVAPAAAGGEAAAEKTEFDVILASAGEKKIDVIKAVRAITGLGLKEAKALVDGAPSPVKEGASKDEADKAKADLEAAGATVEVK;locus_tag=LOCUS_03290;gene=rplL;note=C3MAX1 50S ribosomal protein L7/L12 (Sinorhizobium fredii NGR234) [pid:61.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-32],MGA_334
sequence07	MetaGeneAnnotator	CDS	17801	18310	.	-	0	ID=MGA_335;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE22;translation=MLRSEKKTFVSDLEEIYQASNSVIITHYHGLTVSELTTLRRSLKENGASFKVVKNTLSKIAASNVKVEHDPEMFSGPTAIAYSEDPVAAAKGVVEFAKANDNLKIVGGIVNDKILDVSSIQQLAKLPSLDQLRGKIVGILQAPASNLARVTQAPAGALARVIQAYAEKN;locus_tag=LOCUS_03300;gene=rplJ;note=Q9ZE22 50S ribosomal protein L10 (Rickettsia prowazekii str. Madrid E) [pid:58.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-48],MGA_335
sequence07	MetaGeneAnnotator	CDS	18335	19021	.	-	0	ID=MGA_336;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE23;translation=MGKKLTAIKKDLDQNKEYSLEEAISLLKKNSFTKFDETLDVAINLGVDPRHSDQMVRGMVSLPAGTGKDVRVAVICKDDKVAEATAAGADLAGSVIIIDDIKAGKIDFDVCIATPDMMGMVGQIARVLGPKGLMPNPKLGTVTADIATAVKNAKSGQVEYRVEKAGIVHVGVGKISFSESDLQKNAQTLIDSVLKAKPSGVKGAYLKKIHVSSTMGPSLKVDISTISQ;locus_tag=LOCUS_03310;gene=rplA;note=Q9ZE23 50S ribosomal protein L1 (Rickettsia prowazekii str. Madrid E) [pid:60.0%25%2C q_cov:98.7%25%2C s_cov:94.5%25%2C Eval:1.8e-77],MGA_336
sequence07	MetaGeneAnnotator	CDS	19058	19489	.	-	0	ID=MGA_337;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE24;translation=MAKKIDGYIKLTIPSGKANPAPPVGPALGQKGVNIMEFCKAFNAATSSLEPGTPVPVVITVYVDKSFEFVTKTPPASFYLKKFAKIPKGAGATKKEPYVGKVTFDDCKEIAKIKMQDLNANDIDAAAKIIAGSAESMGIEVVK;locus_tag=LOCUS_03320;gene=rplK;note=Q9ZE24 50S ribosomal protein L11 (Rickettsia prowazekii str. Madrid E) [pid:63.6%25%2C q_cov:97.9%25%2C s_cov:96.6%25%2C Eval:8.5e-46],MGA_337
sequence07	MetaGeneAnnotator	CDS	19524	20051	.	-	0	ID=MGA_338;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P50056;translation=MSKWYILHTVSGSEKGVKRMIEDQVAKKKMSDFFEEIVVPVVEVPEIKRGKKVLAEKKFMPGYVLIKMKMTDESWHLVKSVPKITGFLGSKTTPQSLSNAEVERVFSQLEAASKTASVSSLYNVGDKVQVIDGPFDSFSGVVEEVDIEGQKLKVSVSIFGKATPIELSFTQVKKN;locus_tag=LOCUS_03330;gene=nusG;note=P50056 transcription termination/antitermination protein NusG (Rickettsia prowazekii str. Madrid E) [pid:55.4%25%2C q_cov:100.0%25%2C s_cov:91.1%25%2C Eval:5.4e-53],MGA_338
sequence07	MetaGeneAnnotator	CDS	20061	20270	.	-	0	ID=MGA_339;product=protein translocase subunit SecE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P50054;translation=MGNMLNKLKPFKFFDQVKQEAKKVVWPEKKELIASASIVVVAVLLFSLACLVLDYGIHNLVRFLLNIGK;locus_tag=LOCUS_03340;gene=secE;note=P50054 protein translocase subunit SecE (Rickettsia prowazekii str. Madrid E) [pid:53.0%25%2C q_cov:95.7%25%2C s_cov:100.0%25%2C Eval:6.2e-14],MGA_339
sequence07	Aragorn:1.2.38	tRNA	20288	20363	.	-	.	ID=Aragorn_9;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00090;note=Aragorn_9
sequence07	MetaGeneAnnotator	CDS	20446	22521	.	-	0	ID=MGA_340;product=elongation factor G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P41084;translation=MSKKLKLSDVRNIGICAHIDAGKTTTTERILYYTGKSHNIGEVHDGGATMDWMEQEQERGITITSAATTCFWNGKRINIIDTPGHVDFTIEVERSLRVLDGAVTVFDGVAGVEPQSETVWRQADKYGVPRMCFVNKLDRAGANFYRCVDMIVDRLGATPLVVQLPIGAEDEFQGVVDLVKMQSVVWKGGDLGAEYTYGEIPADLKDKAEEYRSTLLDTVVEADDEMMEKYLGGEELTEDEIKKCIRKGTIAGQFVPVLCGTAFKNKGVQPLLDAVIDYLPSPIDVPAIKAVDAKTDEEKSVPNSVDGPFAALAFKVMTDPFVGSLTFARIYSGKVTAGSTIVNTVKGQKERVGRMLLMHANDREDIKEAVAGDIVAIAGLKNTTTGDTLCGPDANVILERMEFPEPVIQLAVEPKSTADQEKMSLALSKLASEDPSFRVSSSENGQTNIAGMGELHLEILVDRMKREFKVEANVGAPEVAYRETITASHEVDYTHKKQSGGAGQFARVKIVFEPGEIGSGFTFDSKIVGGNVPKEFIPGVEKGIKQIMETGVVAGYPMIDFKATLIDGAFHDVDSSVLAFEIAAKAAFREGMPQAGAKLLEPLMKVEVITPEEYMGDIIGDLNSRRGSVQGMEPRGNAQIVTASVPLAEMFGYVNTLRSMSQGRAQYSMEFQNYAQVPQQVVDTILSKQGG;locus_tag=LOCUS_03350;gene=fusA;note=P41084 elongation factor G (Rickettsia prowazekii str. Madrid E) [pid:74.7%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:1.6e-309],MGA_340
sequence07	MetaGeneAnnotator	CDS	22528	23010	.	-	0	ID=MGA_341;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P41081;translation=MSRRHAAVKRVISPDTKYNSVLVAKFINHLMRDGKKSLAEKIVYNAFERIEKKHGAEAFKTFTEAMNNVKPYLEVTSVRVGGANYQVPAPVDERRGFALAIRWVIDAAQKRSGRSMIEKLAEELFDAANSRGVAIKKREDTHKMAEANKAFSHFAQRSSR;locus_tag=LOCUS_03360;gene=rpsG;note=P41081 30S ribosomal protein S7 (Rickettsia prowazekii str. Madrid E) [pid:68.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-61],MGA_341
sequence07	MetaGeneAnnotator	CDS	23054	23425	.	-	0	ID=MGA_342;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P41082;translation=MPTNSQLVRFGRKSKIKKSKSPALHNNPFLKGVCVIVKTVTPKKPNSALRKIARVRLSNGEYVNAYIPGEGHNLQEHSAVLVRGGRVPDLPGVKYHIVRGALDTQGVKDRKQGRSRYGTSSKG;locus_tag=LOCUS_03370;gene=rpsL;note=P41082 30S ribosomal protein S12 (Rickettsia prowazekii str. Madrid E) [pid:75.4%25%2C q_cov:99.2%25%2C s_cov:94.6%25%2C Eval:1.4e-47],MGA_342
sequence07	MetaGeneAnnotator	CDS	23923	24174	.	-	0	ID=MGA_343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILEIATEAMTRQQISFVDRLICGHNTYVTKILRPVCALGKDDRQRSISVFAIVRNWSGDREQKGLGILNENFKPANVKPNIA;locus_tag=LOCUS_03380;note=MGA_343
sequence07	MetaGeneAnnotator	CDS	24375	24668	.	+	0	ID=MGA_344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKGGRTYIVGSPSKHTIYLVDDGAVVQHILPADLEKETSAPEEKIAPEGSTPPIDIPIPNGFTPLTGEYLDCPTAAPSNDQETQTDSGLLIFDFEL;locus_tag=LOCUS_03390;note=MGA_344
sequence07	MetaGeneAnnotator	CDS	24767	25228	.	-	0	ID=MGA_345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDS3;translation=MDITPIEIWIAVGLIFILVEFTAIPGIGFLFLGLGSLSTAIAIYYFPEIAAFQIASVGLTSLAWFLLLWWPLKIFIYGKKGKAGSDYFDMVGMRVKVASEEIKPSGLGLVYWSGTTMNARFIDKDTPIKKDEELYVIEVKGNILICSRDKPKD;locus_tag=LOCUS_03400;note=Q9ZDS3 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:43.5%25%2C q_cov:94.1%25%2C s_cov:89.6%25%2C Eval:1.8e-26],MGA_345
sequence07	MetaGeneAnnotator	CDS	25264	25782	.	-	0	ID=MGA_346;product=cytochrome c family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDS2;translation=MSGLELNKIAAAILLASLIAMVVGVVSNILYKPKLEVAQRGYQIEVAEDSASDIPGQPEEPLNIEELMANANAEAGAKTIKKCVACHSFDQGGASKVGPNLWKIVNAQKGKKPGYAYSKAMLAAGGSWDNESLFHFLKRPGKYMPGTKMSFAGIRKPEDIANVIAYLKEKAG;locus_tag=LOCUS_03410;gene=cycM;note=Q9ZDS2 cytochrome c family protein (Rickettsia prowazekii str. Madrid E) [pid:53.3%25%2C q_cov:97.7%25%2C s_cov:96.6%25%2C Eval:4.0e-45],MGA_346
sequence07	MetaGeneAnnotator	CDS	25821	26846	.	-	0	ID=MGA_347;product=tRNA N6-adenosine threonylcarbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RND2;translation=MTLRILGLESSCDDTSAAIVESGPSILSNIVIGQNQEHMIYKGVVPEIAARSHLHNIQTALDRCLDESKLCLRDIDAIAATSGPGLIGGVIVGSMFGKALSSTLKKPFIAINHLEGHALTPRLTDDVPFPYLLLLASGGHCQFVAVEGLGKYRILGQTLDDAIGEAFDKVAKMMNLGFPGGPIIEKLAKSGNSDRFDFPKPLYNQKNCDMSFSGLKTAVKLKINEFENLNNQDESDIAASFQKTVCEVIKRKSKFAMDEYESYHDGRRIVVAGGVAANQEICSVLKELAVKNGYNFVAPPIKLCTDNAAMIAFAGLERLKSGKINRVDFKPRARWNLEEVN;locus_tag=LOCUS_03420;gene=tsaD;EC_number=2.3.1.234;note=Q2RND2 tRNA N6-adenosine threonylcarbamoyltransferase (Rhodospirillum rubrum ATCC 11170) [pid:53.2%25%2C q_cov:99.1%25%2C s_cov:95.6%25%2C Eval:2.4e-99],MGA_347
sequence07	MetaGeneAnnotator	CDS	26856	28037	.	-	0	ID=MGA_348;product=penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886249.1;translation=MKKYYLLILAVIFNSSLSFADSVVRGKVKEASSNYLSNHFMNGSYMFVDENGVIEKGAKGIHSVVSKKSLDADQQMPIASATKTMTAAAILKLQERGKLSVKDTVAKHLNAKSGIWTDNKVPSWADKITIHDMLTHRSGLAEYFMGAEIDVNVPLRSINKQIANFAAGQELSFKPGEKHDYNNTNYVLLGLIIETASGEKAGEFFAKEFFKPLGMKNTKLLGLAETLQHQKDPESMDIPSRYFVTPTGGEPQFNLAKHPFTMTPFTDGGVASTTADLITWHKALHSGKVLSKASYKQMTTGYYDVPCNQGKSKIGYGMYITELESGDKLYHHAGNALAIRSESGCVPNKNLCFAVLSNVMNYVPKEMQDKIDMTKEENQLDIIYYTKHVLKSL;locus_tag=LOCUS_03430;note=WP_010886249.1 penicillin-binding protein (Rickettsia prowazekii str. Madrid E) [pid:42.3%25%2C q_cov:99.2%25%2C s_cov:93.2%25%2C Eval:6.7e-83],MGA_348
sequence07	MetaGeneAnnotator	CDS	28202	30064	.	-	0	ID=MGA_349;product=chaperone protein HtpG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCB9;translation=MTQEKKKFDAEVGKVLHLMINSLYANKEIFLRELISNSSDACDKLRYLSQTDSSLVQGDSELKINISIDKDEKTITIRDNGIGMNREDLLENLGTIAKSGTQGFLDQLSGDSKKDSQLIGQFGVGFYSCFMVADKITVTSRKAGEDKVYIWESDGKGEYTIADSDKDFARGTEMILHIKGEEESFVDHFRVKHIIKSYSDHIAVPIFFTDENNNETQVNSASALWTRSKNEIDEEQYKEFYKSVSHATDDPWLTMHNRNEGIVEFTNLLFVPTSKTFDLFHPDRKCRVKLYIKRVFIADENVDIIPQYLRFLRGVVDSEDLPLNISRETLQHNATLEKIKKSITKRVLSELSKKKESDRDDYLLFWSNFGGVLKEGLCEVTSDHEKLLEVCVFRSAIHDKMISLDEYIANCKEEDKTIYYLSGDDPEKLRNNPQIEGFISKGIDVLLFTDTVDDFWVNVNGRYKEIELKSVTRSDIDLDNQDDTKEDKASKKKDDSKNDAIADYFRDTLGSLVKDVKISKKLTTSPACLAVGDGAMDIRMERYLIEQKQLAGASAKILEINPNHKIVLKIGEGLGKESNHDENAALVHLLYDQACIIEGEPVSDAGAFSKRLNSILEKII;locus_tag=LOCUS_03440;gene=htpG;note=Q9ZCB9 chaperone protein HtpG (Rickettsia prowazekii str. Madrid E) [pid:70.9%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:5.9e-260],MGA_349
sequence07	MetaGeneAnnotator	CDS	30157	30588	.	+	0	ID=MGA_350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNVIVVIITSVLFAISVQANPAHKAKDTIIKPQHGIKNTIEHKKNKTKKSQKKKVDITVKKHRKSNAKSTDWTGKKKARDLVKDKKSVSRGAKKKHEKATKDFHKWSNKTQDSIESGMKRKDSKYQPADPFYNERQGQSGAF;locus_tag=LOCUS_03450;note=MGA_350
sequence07	MetaGeneAnnotator	CDS	30585	30866	.	-	0	ID=MGA_351;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRAEEIFRDIKAKKQKNLLVKVKACAKQNSIDGLITIDQKEYIKVSLKAQPIGGKANKATIELMSKELDLPKSTIDIKAGKASSHKILRFSI;locus_tag=LOCUS_03460;note=Q8UC38 UPF0235 protein (Agrobacterium fabrum str. C58) [pid:41.1%25%2C q_cov:77.4%25%2C s_cov:65.2%25%2C Eval:9.4e-07%2C partial hit],MGA_351
sequence07	MetaGeneAnnotator	CDS	30941	31660	.	+	0	ID=MGA_352;product=lytic transglycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886298.1;translation=MSKVLLLTFLLVSVNSFTSYAKTDPEILESQKCSNVFSYFEKRHKIPKDTLYSISLRETQKAHTKHRIGITWPWTITVNPSGKGYHFKNKTEAVKFAKAQLASGKGSIDVGCMQINLKYHPDAFTSIEQAFSPRRNIAYGAKFLKEKYDQHGDWQKAIGAYHSGSSDKASAYHAGVKQINDSMRMYKKKLADLSSYRYKTTKIATTTKNSEQKEKFLGIGKVQVRVGTLKDNNWFRKVQ;locus_tag=LOCUS_03470;note=WP_010886298.1 lytic transglycosylase (Rickettsia prowazekii str. Madrid E) [pid:43.6%25%2C q_cov:89.5%25%2C s_cov:76.9%25%2C Eval:1.9e-48],MGA_352
sequence07	MetaGeneAnnotator	CDS	31663	32406	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFDLEKLEKNREKSINVIQASSFYKFIHEDIIDRLDPLDKTFDEILIIKPAIEEIITEHLEVVSKNSNIQYITNLDVALPKKKFDLIIFPLGFHWINDTKSFLDQIKLTLKDNGIFICSFPGGGSLRNLRRKLIELEISNKVAHTAHISPFIQLEHITPLLGQSGFVETIIDMEPLELEHNSALDLMKAIKNHGEANILKASAGHSITKKMYQDLKNTEEETFSDYINLITFIAAPKKNTIKLKPGY;locus_tag=LOCUS_03480;note=Q9ZD84 putative methyltransferase (Rickettsia prowazekii str. Madrid E) [pid:48.0%25%2C q_cov:70.0%25%2C s_cov:76.1%25%2C Eval:3.3e-38%2C partial hit],MGA_353
sequence07	MetaGeneAnnotator	CDS	32561	33958	.	+	0	ID=MGA_354;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD83;translation=MQEFDLVVIGGGPGGYTGAIRASQLGMKVACVEQQKTLGGTCLNVGCIPSKALLNFSEKYEEAREHFSEIGIKTNTKLDLKKMMSKKDGIVSDLCKGIEGLFAKNKITKITGTGKILDNNTVEVKNGSKTEKIKAKNILIATGSDIINIPGVEVDEKSIVSSTGALSLPKVPKHLVVIGGGVIGLELGSVWNRLGSKVTVVEFADRIVPSLDKEIGKNFHKILDKQGFEFMLSTKVVKADKKLGGISLTISDVAGSKESKLSCDAVLVAVGRKPNTEGLGLDDAGIILDDRGRININDHFQTNIPNIYAIGDVVRGSMLAHKAEEEAVAAVEMMNGQAGHVNYNLIPSVIYTWPEVASVGATEDDLKKTGVEYKVGKFPFLANSRARSVGNTDGMVKLIACAKTDRVLGAHIIGADAGTLIAEVVAYMEFGGAAEDIARTCHAHPTLNEAIKEAALAVEKRTINI;locus_tag=LOCUS_03490;EC_number=1.8.1.4;note=Q9ZD83 dihydrolipoyl dehydrogenase (Rickettsia prowazekii str. Madrid E) [pid:66.7%25%2C q_cov:97.6%25%2C s_cov:98.9%25%2C Eval:2.6e-169],MGA_354
sequence08	MetaGeneAnnotator	CDS	645	1322	.	-	0	ID=MGA_356;product=7-carboxy-7-deazaguanine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCV2;translation=MLGDNPIRSPEKGDGTHLMVKHIFKTLQGEGLHVGVPSIFIRLGGCNLACDFCDTEFENFEKLAIESIIDKVKNFSLNDKNIRSVGLVIITGGEPFRQPIRLLCEKLIEQDFAIQIETNGTIYRDIPEEVDIICSPKVINGKYSKIRPDLLERITAFKFLISSQKSEYSSVPDLEQAKHNIPVFVQAMDELNHDLNIANKKLAVEIAINNGYRLSYQVHKDLGIE;locus_tag=LOCUS_03500;gene=queE;EC_number=4.3.99.3;note=Q9ZCV2 7-carboxy-7-deazaguanine synthase (Rickettsia prowazekii str. Madrid E) [pid:60.9%25%2C q_cov:100.0%25%2C s_cov:96.2%25%2C Eval:1.7e-75],MGA_356
sequence08	MetaGeneAnnotator	CDS	1326	2414	.	-	0	ID=MGA_357;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCW0;translation=MFYNLLAPYAAKFHIANLFTYISFRSGLAILMSMLICFFMGPRLIVYLRSIQKQGQPIREDGPESHFDKAGTPTMGGLMIILSTTISTLCFANLSNPYIWVSLFVLLMFGVLGFIDDYTKVSKNNYRGISGKTKLIIQFLVSIVAFIVIQKYSKPEFATQIAFPFFKNTLLDIGYFYIPFTMCVIIGSSNAVNLTDGLDGLAIGTIAIAIASFGLISYLVGNSIYANYLQVIHVPKVGELTVLCSAIIGSSLGFLWYNAKPAEIFMGDTGSLALGGVLGTISVITKHELVLCIIGGVFVLETLSVIIQVGYYKKTGGKRIFLMAPLHHHFEKKGWPESKVVIRFWILAIIFALIGLSSLKLR;locus_tag=LOCUS_03510;gene=mraY;EC_number=2.7.8.13;note=Q9ZCW0 phospho-N-acetylmuramoyl-pentapeptide-transferase (Rickettsia prowazekii str. Madrid E) [pid:62.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-131],MGA_357
sequence08	MetaGeneAnnotator	CDS	2404	3786	.	-	0	ID=MGA_358;product=UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05953;translation=MIWDSKSLEKALGVKVAANIEAGQVKFNSRDVNEDDIFIALPGNRDGHEFVDDALSRGARCAIVSSDIPNLDKNKLIKVDDTILALNHLAEYKRRTSKAKFIAVTGTVGKTTTREIIKTMLSEYGNTYSSVKSFNNYLGVPLTLASMPNDTEYAVIELGMNAAGEISNLTNIVTPDIAVITTVSEGHIEFFDSIEAIADAKCEIFEGVDINTGIAIINRDISTYERCIQNIDRAGLRNVQTFGKRVDANVRFLSYELLEDHSVRLNFDVNSEECEIFMPNISMHLASNFAAGFSVVKSLGLDIEKAASAIRSFQPLMGRGKFIEIKHENKNLGIICDYYNSNPQSLKASLQYLQQFVSNKKVAVLGDMGELGDIQDDMHMSIVPSIIEAGVSKLFLVGSVISQIKDSFSGNVEVKLYKNVDELIADNSSNFEDGELLLIKGSRSVKLENLAKSLGVKNVL;locus_tag=LOCUS_03520;gene=murF;EC_number=6.3.2.10;note=O05953 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase (Rickettsia prowazekii str. Madrid E) [pid:43.6%25%2C q_cov:97.8%25%2C s_cov:98.9%25%2C Eval:1.3e-104],MGA_358
sequence08	MetaGeneAnnotator	CDS	3804	5243	.	-	0	ID=MGA_359;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05954;translation=MRLKIEELFREGTVTGVSFDSRKVKAGDAFFAITGDSFDGNEYIDDAFKNGASFVFTDNPSKKGKNIEYFADIRMGLAIAAGIVFQKMPKNLVAVTGTNGKSSVVSYVHQILAKLEKSSACIGTLGIESTEEIPTTSLDNKNSVLTTADPITFRKTLNSLSNAGIENVAFEASSHGLFQRRLGDVKVKSAAFTSFSQDHLEYHQTMDGYLQAKLILFTENLIDGGEAVINSEIMFFDFIRSFLLEKNIPFCTVGNNGDVKIKRNKQSLEGQSICLEYKGKKHEFETNIIGSFQAINLLIASKLVSNLGVEFDQIIKKLPEIEAVPGRLQRITSVENEYQVFVDYAHTPDALEKSLQELKKLQKKPGNLYVVFGCGGDRDELKRPIMGKIASEIADKVIITDDNPRTEDPRKIRGQIAEAAVEAEEIADRKSAIIDTIAKLRKDDILLIAGKGHEDYQIIGKERFKFSDIEIARKAVQKV;locus_tag=LOCUS_03530;gene=murE;EC_number=6.3.2.13;note=O05954 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase (Rickettsia prowazekii str. Madrid E) [pid:46.3%25%2C q_cov:99.0%25%2C s_cov:97.9%25%2C Eval:4.0e-112],MGA_359
sequence08	MetaGeneAnnotator	CDS	5233	7119	.	-	0	ID=MGA_360;product=penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599027.1;translation=MANRNKNILAIFIFYLKKIGVRILKNLLYNALRIRLFIIKIKHFLFSKLKRLPNKLSVKLKDINYSKYYKSLFIWDLRDSATYTRVNIVFIGFVLVFLIISIRLVIVASSDYVNYRKSNKRSYINRYDIIDRNGNLLAVNLPGASLYANPRRVIDSEQSVEKLLSIFPELDRKNLLKKLNGNRSFEWIKRDVTPQEHEKIYNLGMPGFGFEREQKRIYTYGKLLSHVLGYVGRDLGGLAGIEKYFDKFLTGYEPLIENGNQENCLQLSIDVRIQNILSEELERTIKKFSAKGAAGIVVDPNNGEVLALVSKPDFDPHHPGKAEPEQLFNMATQGAYEMGSGMKALTMAIGLDTGATSLTDAYDLTYMKVSGFQLKDYPRPLKGWHSVPYIFLKSSNIGIGQIMLEIGKSSLAEYLKKLGLLERLKIELPERARPLFPNYSRWTDLRMITMSYGYGMSESPAHFMQAMVPIMNGGLLYPLTLIKRDPTKPLVAERVFKEKTSADMRKLMRLVVTKGTGSKAEVKGYYVGGKTGTANVAHAGKYDKTRRVSSFFGVIPATNPKYMVYIIYNEPKGIKETFGFAGGGWVAAPSVGAVIKKLTALYGIEKLDDNSPDVQEISNIEYEINNET;locus_tag=LOCUS_03540;note=WP_004599027.1 penicillin-binding protein (Rickettsia prowazekii str. Madrid E) [pid:54.4%25%2C q_cov:86.6%25%2C s_cov:97.7%25%2C Eval:8.6e-174],MGA_360
sequence08	MetaGeneAnnotator	CDS	7342	7710	.	-	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFVVIIVCLGTIYTLFNIKNNVMAIRAELTEVKKQMRYEADTIHVLKAELAYLTSPSRLKRLNNEYLKLEDTKVAQMISDPRKEKVIFKSHRFAGSKSSKGNTNWRYKKGPTKYLTLASGKK;locus_tag=LOCUS_03550;note=MGA_361
sequence08	MetaGeneAnnotator	CDS	7721	8686	.	-	0	ID=MGA_362;product=ribosomal RNA small subunit methyltransferase H;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCY2;translation=MLEKNTAHITSSAPHCSVLLDEVLEHISLKDNGRYLDCTFGAGGYTKAILQNADCFVTALDQDPTVEKFVSTVKDEFRDKFDFIQTNFAEAKSKLDGKKFDGIVLDLGISSMQVDSAERGFSFMHDGPLDMRMGNDGISAKEFIASASEEEIANVIYKYGEEVQSRQIASSIVKMRAIEPIETTLQLADIVRNAMHYRKSKIDPATKTFQAIRIYVNKELESIEQILSDSDELLKPGGRILVVSFHSLEDSIVKAFFKENSMKKVARSKYSKKPIEIEEGKWLKMITKKPIVPSREEVISNPRSRSARLRVAEKIGGENVV;locus_tag=LOCUS_03560;gene=rsmH;EC_number=2.1.1.199;note=Q9ZCY2 ribosomal RNA small subunit methyltransferase H (Rickettsia prowazekii str. Madrid E) [pid:57.5%25%2C q_cov:93.8%25%2C s_cov:98.4%25%2C Eval:3.5e-92],MGA_362
sequence08	MetaGeneAnnotator	CDS	8693	9163	.	-	0	ID=MGA_363;product=transcriptional regulator MraZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCY1;translation=MNIFLSKYINKIDKKGRVSIPAGYRGALAKENFNGIIVYPSFKNNCIECCSMSRLEELSKIIQNLDPYSDERDAFETIVLGEAVQLQFDSEGRVILPSYLMEQVGISSQGCFVGKGLVFEIWNPDNFEDYRKGAKEIAQGNRSILKNNQNSNKDIS;locus_tag=LOCUS_03570;gene=mraZ;note=Q9ZCY1 transcriptional regulator MraZ (Rickettsia prowazekii str. Madrid E) [pid:60.5%25%2C q_cov:94.2%25%2C s_cov:98.7%25%2C Eval:1.4e-50],MGA_363
sequence08	MetaGeneAnnotator	CDS	9431	10354	.	+	0	ID=MGA_364;product=paraslipin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597449.1;translation=MDALLFILSALAIIALLFMIKIVPQQQAWVLERLGKFDRVLQPGLNILIPIIERVAYKHTLKEQAMDVHAQTAISNDNVTLQIDGVLYVKIIDATAASYGVDNPYYAISQLAQTTMRSEIGKLKLDKTFEERDALNTAIVASINHAAVNWGIQCMRYEIKDIQPPASILEAMELQVAAERQKRARILESEGHRQAQINVAEGEKAQVVLNSEAAYTDQVNRAKGEAEAILFVADATAKGIDIVAESIKNEGGPDAVSLRVAEQYVDAFGKLAQKNNTLILPANVSSPSSFIAQAMTIYDKLQTVKKK;locus_tag=LOCUS_03580;note=WP_004597449.1 paraslipin (Rickettsia prowazekii str. Madrid E) [pid:75.3%25%2C q_cov:96.1%25%2C s_cov:94.9%25%2C Eval:1.4e-124],MGA_364
sequence08	MetaGeneAnnotator	CDS	10428	10766	.	-	0	ID=MGA_365;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKEQHNNKMPKMIYAEYSNDRYSSIDIGGSDGKNIGYVKLGGSNGRIFYTPILEVKKGDKAVIPELDLKFGASRTVLYPGAALEVCGTRNDIYELTTIGSVEELEIFTLGG;locus_tag=LOCUS_03590;note=MGA_365
sequence08	MetaGeneAnnotator	CDS	10826	10993	.	-	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNDSDVYEERVREQEEKDNIAAYNAMANLQWGINSSANNSVDTAGDNEHFEDIQ;locus_tag=LOCUS_03600;note=MGA_366
sequence08	MetaGeneAnnotator	CDS	11056	11301	.	-	0	ID=MGA_367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGAFFKKQCWAGYDPGKRIEPNVIRYNNIELMNLCEENALILRLGTILEITSLGVMRNINELSIIGSSQELLILWKVRKPA;locus_tag=LOCUS_03610;note=MGA_367
sequence08	MetaGeneAnnotator	CDS	11244	11396	.	-	0	ID=MGA_368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIMSKKISEKNSERTTDEENLISGLDLNSEWGRFLRSNVGQVMILVRG;locus_tag=LOCUS_03620;note=MGA_368
sequence08	MetaGeneAnnotator	CDS	11558	11761	.	-	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVHISVHGGNGEKAIRDLKRKMQRELVFRQMKMSRFYEPPSAKRVREKQEAERRIRKNNRRRRLEG;locus_tag=LOCUS_03630;note=Q9ZCU6 30S ribosomal protein S21 (Rickettsia prowazekii str. Madrid E) [pid:56.2%25%2C q_cov:71.6%25%2C s_cov:72.7%25%2C Eval:4.0e-10%2C partial hit],MGA_369
sequence08	MetaGeneAnnotator	CDS	11854	12471	.	+	0	ID=MGA_370;product=ubiquinone biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596292.1;translation=MNNQETKKIALFKKLCNLLDSMQWSIETINEAERQSKLDANYHKLLFPNGQTQLVQEFENWLDTEMLNALEKIEKPKKIREQIALALETRIINLVSKNVILKNSSFFMVPTNILAGNESACQTCDLIWKYAGDKSTDFNYYTKRGLLLPVYLSAKTFYVADNSKDHEKTNEFIKNALDNIINIASFKNRVNLPKMEDIPILRLFS;locus_tag=LOCUS_03640;note=WP_004596292.1 ubiquinone biosynthesis protein (Rickettsia prowazekii str. Madrid E) [pid:41.6%25%2C q_cov:97.1%25%2C s_cov:95.6%25%2C Eval:1.8e-38],MGA_370
sequence08	MetaGeneAnnotator	CDS	12522	15692	.	+	0	ID=MGA_371;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCU4;translation=MTDQKYYPEVKSNVEFPEIENEILKYWEENQIFQKSVDARDATKDSKNNEFIFYDGPPFANGLPHYGHLLTGFVKDAYARYQTTKGKRVERRFGWDCHGLPAEMGAEKELGFSGRIAITEYGIDKFNDHCRSSVMKYSHNWEEYVKRQARWVDFKNSYKTMDKSFMESVLWAFKELYNKGLIYESMRVMPYSWACETPLSNFETRLDNSYRERADKAVTVSFKMDSSPAGAPENCSEYRIMAWTTTPWTLPSNLALAVGSDIDYACIVKDDICYIVGKFALKSYSKELGITEDTKITTIKGHALAKHSYTPLFDYFKDHPNAFKIFTADFVVEGDGTGIVHMAPGFGEDDQVVCQEEGIEIVCPVDNAGKFTSEVPDFEGLQVFDANDPIIIKLKEKGSWIKTEQYIHNYPHCWRTDTPLIYKAVPSWYVKVTAFKDRMVELNQKINWIPGNVKDGLFGKWLENARDWSISRNRFWGTPIPVWQSDDPKYPRIDVYGSIAELEADFGVKVDDLHKPYIDDLVRPNPDDPTGKSMMRRVSDVFDCWFESGSMPYGQAHYPFENKEWFENHFPADFIVEYSAQTRGWFYTLMVLSTALFDRPPFLNCICHGVILDATGQKLSKRLNNYADPLETFEKYGSDALRVTMLSSTVVKGQELLIDKEGKMVFDSLRLFIKPIWNAYNFFCLYANSDSIKAKISYKSDNMLDQYILSKLKLAVESIETNMDAFDSQSAYSAVSDFFEILNNWYIRRSRNRFWKSEKDQDKAAAYNTLYTCLEVMSRAISSLLPLISEHIYLGLTGGIKDNASVHLTNFPVLDEIKVDKKLVSTMDQVQDICSTALFIRSAENIRVRLPLSTLKIITEQSDDFKKFDDLIKDEINIKSIVYDNDLANNADQKLSINFPILGKRLPQKMKDIIKLSKQGEWKFDGNNLTIAGEKLLPEEYSLVLVPRAKQGAKPLSSNQGMIWLDLNITKELENEGIARDIIRLVQQARKDAEFDVSDRIELELKSGLDLKDVLADHSELICSQTLSMISTIGKADFSTQAPLLDNMLEISVRRI;locus_tag=LOCUS_03650;gene=ileS;EC_number=6.1.1.5;note=Q9ZCU4 isoleucine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:66.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_371
sequence08	MetaGeneAnnotator	CDS	16112	19108	.	-	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTTVTMYSKANDTPANNIAAKESWGHKKRENLFINSFVGTSTGGVSYVNSRTRATNDQQGTIVNTGVVSDIGIDGAGLLAVSDSPTGVVKYTRRGDFRQDELGYWKNGADQLLKAWKLDGQGNRPQNSSLLSSLEAVNFANTKGLPVKTSVISIAMNLNSDQKALRGPGPENGFVMQRSANNKATKAADILLPDQVGTRALRFGDAFRFTSSGGDGPKTVTYGGITSANKASNATQVFGASSASATFAFGAVAGPGVLVDGQQLRISIQGGASYTFTAMSGQPTGTNFNSIQSLANAIDKISVLSARVVDDRLYIAPKDASKGLTYQNVGGGTDIINQLGLRNLAPAGPDENRFNSIRSLRDAVNTNQSTDSLLATIEPGDNIKITSLLSTSSLRIESRQVDGNRISRAITNPTNNPAGGGSVFIEARGSGLQAGDIVRITNMNDPRIPDAVYSVGTANENGFTISITGGAAAYTMANADLVVPANATWQIAAGTKAAPIAATIDRADVGGGVQTIRIAAAAHGYNNGDVIYTDGGVFELNIQTVAGAGAVAKTITLPAGYYTVANSNAGDFTIQATDVTAGGGGAGAPGLSFRKIGDNAGGVAGDFDTTVFTTGAGVGSTLVNYHIGSDNHGYAVGGSIRFQDVGGIFDGITLANNTDYTITAINAGVITFDVAGTGAGATLAGGQAALLSAHNARINNHARLFEYFGLDPEKDSSNLANANPLFDVTYNPTNIDKNLTGGNFVSTETFSHPVTVYNSKGSTSTLILHFAKLENNKWAVELAAQADENGIFNIDGLAAPNGLVKYGTISFNQDGTLNVGSIEGFNEAVTINWTDGSEPSSITIDFPNELSEIKTGNVSQVKNPNNVEIVQSDGQAAGTLLKLEVDPQGFIIGTFDSGETRKLYQVPIAIFANVNGLVAGANGTFEISRESGELLLKQAGVGGAGRTLGGVLEASNVDTTEELLKVQELSNTIRANARVAATEFKNISTVLNELNQ;locus_tag=LOCUS_03660;note=Q32ET8 flagellar hook protein FlgE (Shigella dysenteriae Sd197) [pid:27.8%25%2C q_cov:27.6%25%2C s_cov:60.7%25%2C Eval:4.7e-23%2C partial hit],MGA_372
sequence08	MetaGeneAnnotator	CDS	19336	20667	.	+	0	ID=MGA_373;product=glutamate--tRNA ligase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDK3;translation=MTKIITRFAPSPTGKLHIGNVRTALINWLYTKKHGGEFILRMDDTDLARSRDEYKDAIIEDLKWLGLEWDTSFNQLSRLEKYEQAKQELIAKGRLYPCYETPEELDIKRKLQLSRGLPPIYDRAALKLTDQQIKQYQDQGRKPHYRFLINDAEIHWEDMIKGEIKYQGAKLSDPVIVRADGTMTYMLCSTIDDIEYEISHVIRGEDHVSNTAIQIQMFEAMNAAAPVFGHLSLVKSKDDKISKRIGGFDISQLRDVENIEPMTINSFLGLIGSSNTVHACKTMQDLINDFDISTYSKSPTTYMPEELELLNHKIVITYDYSDITEYLKANDLEKVDEKFWLAIRPNLSKISDIKEWWQICHKPEKATGLDGELLSIAAEHLPEEITDTTWKEWTKAIASHSGKKGKELFMPLRLALTGKSSGPELKNLLPLLSREEIIARLSQ;locus_tag=LOCUS_03670;gene=gltX1;EC_number=6.1.1.17;note=Q9ZDK3 glutamate--tRNA ligase 1 (Rickettsia prowazekii str. Madrid E) [pid:60.3%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:1.2e-160],MGA_373
sequence08	MetaGeneAnnotator	CDS	20702	21787	.	-	0	ID=MGA_374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKSKVFPKVLFIIILLVSIAVISGMTKPIERKFNKIQFKSELVRVEEKNLQSQKNNNDLAAQKSVKFARDGIDNIAYVTMVKDEDDIIYKNLVWHFCIGFRKFVIVDNNSTDGTRALIEKFKKQVENKAVVVIIDDPIVEYIQSKIMTGAMRFAHSVWSDLDWVFPVDADEFWYPNIQLKDILSKIPDNQEVIFTLQHNHVPVEEFKDNKKLGVFYKNLNYRLKDLSDGFGKIAVRPGVDVVISQGNHSARTIMHERGLEYAAGNEIGLDMRHFQMRSVFQVEKKYWNGAKANIRAQKLGLINKDHGSHWTAFKKEVDEKGLRQSAADRFNSYVKSKNICIEDPLPMEEAFELFNELISQ;locus_tag=LOCUS_03680;note=MGA_374
sequence08	Aragorn:1.2.38	tRNA	21854	21930	.	-	.	ID=Aragorn_10;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00100;note=Aragorn_10
sequence08	MetaGeneAnnotator	CDS	22104	22973	.	-	0	ID=MGA_375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKREEIVDSAERSRKILKLTKQSMYDRFTDSINLSLAKQNAQKIYEMNPTHEELGYVRETDGLSLLHLAIFSHNPYLVALYRHLGLNPDFHKFESGITPRSLILKTGHLVHGMRNAFFTSDDFLRDAGILKDSTIEKHGRFEIQVLNEDEEAEATKETEAVDASLEAPASAETPGLSMKDSESASRDLLNIFSSKGKRFIVSFEEPECSKSPGPETSLEEQVEVPTRLKSPGPSLQEQTGALKELLDIISSTKVEVELSGKALTKHESSTICKDTYVSPVGDELYIDIV;locus_tag=LOCUS_03690;note=MGA_375
sequence08	MetaGeneAnnotator	CDS	23055	23633	.	-	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKESKKLDLNRIEKLFKLVEKETYVRSKNSIDLKMCKSFAHDVFEMNPTQEELNVTRSADGFSLLHVAINKLNPFMVAVLIYLGANTKIIAKKSGITPEKLMTKIGHLGSNMQEAFYNTEDFLKQYEIVDTTSDVDNSDYVDDYDFDSDLAKALEILKSEAKDIPLRPSSPVPKIDDVIEDVGSLGDSIDN;locus_tag=LOCUS_03700;note=MGA_376
sequence08	MetaGeneAnnotator	CDS	23659	24357	.	-	0	ID=MGA_377;product=putative aldolase class 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD54;translation=MTKEVRQNLSYAYRILGKLGLADHTYTHLSARPDGADYYYIYPFGLRFEEVTPECLLKVALSGEILEGKEYQYNKTGYIIHGSIYRSRHDLNAVYHLHTVPTVAVSAMKEGLMPINQWALHFYGQLAYHEYNSLALDNDTHGNDLVNDLGNKKVIFLRNHGYIACGKTPWEAMFYCHHLEHACRAQIASLSSGVELATPSDVICKKANADLLSFEQDLGMRDWLAWIRWLDS;locus_tag=LOCUS_03710;note=Q9ZD54 putative aldolase class 2 protein (Rickettsia prowazekii str. Madrid E) [pid:60.3%25%2C q_cov:98.3%25%2C s_cov:99.1%25%2C Eval:2.4e-77],MGA_377
sequence08	MetaGeneAnnotator	CDS	24358	25896	.	-	0	ID=MGA_378;product=ATPase AAA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391336.1;translation=MIIKVPSLTFSGIDIVDVDVQVQIEPGIPKFVIVGLADKTIAESKERVRAALSSIGLSFPAKKILINLAPADLIKEGSHFDLAISVGILAAMGAIPYEEVKEYLVLGELSLDGSILPVSGVLPAAMGATARSKGVICSKRNGSEAAWSGNDRILAPDNLLELINHFKGTQSLVSPEAKAAAETKKYPDLSDIKGQKLAKRALEIAAAGGHNLLMFGPPGAGKSMLASRLPGILPELVPTEILECSTIASIAGLINDGSLKTERPYRSPHHSCTSAAMVGGGIGKRVKPGEISLAHNGVLFLDELPEFSSGVIEALRQPLETKEVMISRSGAHIKFPANFQLIAAMNPCKCGYLNDPSKACSKAPICSRNYQSKISGPILDRFDLHIEVGNSDEHFTYDRILNPSNEESSADVAVRVKNARQIQAERYEGYNIRLNNALDGQLLIDYAIPGDEGRDILNEAAKKFGLSMRAYNRVLRVARTIADLAGSKYVNKMHISEALSYRQMDFAKEEVA;locus_tag=LOCUS_03720;EC_number=6.6.1.1;note=WP_011391336.1 ATPase AAA (Rhodospirillum rubrum ATCC 11170) [pid:54.8%25%2C q_cov:97.7%25%2C s_cov:97.6%25%2C Eval:7.2e-152],MGA_378
sequence08	MetaGeneAnnotator	CDS	25917	27245	.	-	0	ID=MGA_379;product=ATP-dependent protease ATPase subunit HslU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDK8;translation=MSSKDKMGLTPAEIVSELDRFIVGQKDAKKAVAVALRNRYRRAQVTEPMRSEIVPKNILMIGTTGVGKTEIARRLAKLAESPFIKIEATKFTEVGYVGRDVESIVRDLVEIAIAYQKEKAKKEVEEKAKLRAIERILDSVVGKSASSETRDKFRVKILDGEISNTEIEISVKDTGPVGGGGFEIPGMPGASMGVLNISDILGKAMGGDKMKQKKLTVEDALEIITSEESEKMIDEEKMVLNAVKAVENDGIVFLDEIDKITSRSEGKGGEVSREGVQRDLLPLIEGTSVVTKYGTIKTDHILFIASGAFHLSKPSDLLPELQGRLPIRVEMSSLTKDDMVKILTEPESSLIKQYVALIETEGVKLEFTEKAIDEIATQAASFNTEIEDIGARRLHTILENILEDVSFGVSEQKEKTIKIDDKFVKNQLDGFIKNRDLAKFIL;locus_tag=LOCUS_03730;gene=hslU;note=Q9ZDK8 ATP-dependent protease ATPase subunit HslU (Rickettsia prowazekii str. Madrid E) [pid:68.9%25%2C q_cov:99.3%25%2C s_cov:98.0%25%2C Eval:6.0e-168],MGA_379
sequence08	MetaGeneAnnotator	CDS	27242	27802	.	-	0	ID=MGA_380;product=ATP-dependent protease subunit HslV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDK9;translation=MTNNSSNAPGLRGTTILCLKKGKDVVIAADGQVSLGNSIMKATARKLRTLSDNKIIAGFAGSTADAFTLFERLEAKLDKHSNQLVRSAVELAKDWRTDKYLRKLEAMLIVADKDNILIVTGNGDVIEPEDDVAAIGSGGLFALSAARALKSVATKLSAEEIARKSMTIAADICVFSNHNIIIEKVV;locus_tag=LOCUS_03740;gene=hslV;EC_number=3.4.25.2;note=Q9ZDK9 ATP-dependent protease subunit HslV (Rickettsia prowazekii str. Madrid E) [pid:73.3%25%2C q_cov:94.6%25%2C s_cov:96.7%25%2C Eval:2.7e-69],MGA_380
sequence08	MetaGeneAnnotator	CDS	27900	28259	.	+	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDL0;translation=MNIYSVYADSSKKDKELILIKQGFSFIAGFFNFFWAIYHRMWSIAIFLLVISFFFSSSTSYIAYCFNIAILFIFGFFASEIQEYYAMKKGYNISDIILATSEEEAEVKYFERTENLKNL;locus_tag=LOCUS_03750;note=Q9ZDL0 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:36.3%25%2C q_cov:95.0%25%2C s_cov:97.4%25%2C Eval:9.6e-20],MGA_381
sequence08	MetaGeneAnnotator	CDS	28266	28622	.	+	0	ID=MGA_382;product=putative HIT-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDL1;translation=MYDKNNIFAKIINGDLPAEKLYEDEKVVAIKDINPAAPIHILVIPKGSFIDFADFVTNSSPEDVAYYFKIIEKIAKENGAKDYRLVSNKGASAGQSVFHFHTHILSGSNNSNLIDKNL;locus_tag=LOCUS_03760;note=Q9ZDL1 putative HIT-like protein (Rickettsia prowazekii str. Madrid E) [pid:48.7%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:6.0e-30],MGA_382
sequence08	MetaGeneAnnotator	CDS	28619	29623	.	+	0	ID=MGA_383;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDL2;translation=MSKKYVVAVIGATGNVGREVLNSLSSRNFPAKEVIAAASSNSVGKEVSFGDSTLKVMQMSELDFNKIDIAFFCAGSAVSEKYAQEAVKNGCTVIDKSSFYRLDKKVPLVVPEANINSLKDFKSGIISNPNCCTIPLAVALKPLDNAAKIKRVVISTYQSVSGAGKAAMDELYNQTKAKFIFEHLNPEVFPEQIAFNLFPHVGDFREDGYSEEEYKIEEELKKIIGEQVNPTVTCVRVPVFVSHSMSVNVEFEKNINAREAEEILEDADGVITYNIENEMKYATPIDAVENDEVFISRIRDDKSRKNSLNLWICSDNLRKGAALNAVQIAEEIIA;locus_tag=LOCUS_03770;gene=asd;EC_number=1.2.1.11;note=Q9ZDL2 aspartate-semialdehyde dehydrogenase (Rickettsia prowazekii str. Madrid E) [pid:57.2%25%2C q_cov:99.7%25%2C s_cov:98.8%25%2C Eval:7.3e-109],MGA_383
sequence08	MetaGeneAnnotator	CDS	29898	31655	.	+	0	ID=MGA_384;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599398.1;translation=MQKKFNQVEDELNPLKLALEKCKTAFKIVFVFAFVINLLMLVTPLYSLQVLDRVIGSGNLNTLLLLSLIIAFVYFVHMLMQIARSFTLIKVGEWLDNTLSPIIFGHSISASATKVNPASSQMLRDFQTLKTFLTSTGINTVFDAPWSIVYIIVLFLIHPYIGFITIAGAVIIVSIAFFNAIATNKTLGEATEFSIKGMGQADIANRNAEAVEAMGMIRNVKKNWAKFNEASLAKQSIASYRNGILSNISGFVRNIMQMAVTGTGAYVVVTTSGQDMTTGGMIASSIIVGRALAPFGNAIGMWKSISGAMKAYKTINESFDKHHERDQAMPIPHVDGHLTVENVYYAAPTPQGMPQPPMPNHILKGVSFALQPGEVLAVIGPSAAGKSTLAKLIVGVWEASSGALRLDGGDVFTWNRENFGEHVGYLPQGIELFSGTIKQNIARMQDKVDPELVIETAKMCGAHEMILRLPDGYDTDIGQGGANLSGGQRQRVGLARAFYGTPKLVVLDEPNANLDEAGEEALANALKEARKKNISVIVISHRPSVLSAVDKVMVIQDGAVASFGTRKEIEGRIKMLKNGTIHINE;locus_tag=LOCUS_03780;note=WP_004599398.1 ABC transporter ATP-binding protein (Rickettsia prowazekii str. Madrid E) [pid:69.8%25%2C q_cov:97.8%25%2C s_cov:98.1%25%2C Eval:4.7e-235],MGA_384
sequence08	MetaGeneAnnotator	CDS	31670	33268	.	+	0	ID=MGA_385;product=HlyD family type I secretion periplasmic adaptor subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599396.1;translation=MPTNKKDKDKLSLEKLKQLEELQKMMIKQTDSKKSAPGKLPKGMPAGLPGMAKKPSIFTPKGLLIAILQGMQNSVKFIDYFIDFVIRKDSSKTNDVVKASRSPVMFGTFVIIFFVIFGLLWASTAPLDSAAYALGTVVSNTKKKSINHPEGGIIKHIYVKLGDKVHEGDKLLEFDETRIKAEYESTLNQYRNLLASEKRLIAEVNGDDEIIYPEFLIKDRSVPYVAKIIETQNSLFRSKNELKTTEQQSSKEKIKQLRKQIEGQTAKIEAVQKTIEVTEDRLEAKRKLYEKGYAQKADVLELEAKLANAKGDTAISETEIARLEQEITRTEIELINLDSKYSANALNELKDAQVNLSQVKEKLFAYEDSLNRVVIRSPVEGIINNLNYFTIGSSIPQQQPILEISPVDDKLIIEAKIEPKNIDSIRIGLESKIRFSAFKSRTTPLFTGKVISLSPDIIIPTQAHPQDPTAGGYYLAQIELNMQEFNEIAETRALTLHPGMQAEVQIITGTRTLLRYLLDPVIDAMFKGFKEK;locus_tag=LOCUS_03790;note=WP_004599396.1 HlyD family type I secretion periplasmic adaptor subunit (Rickettsia prowazekii str. Madrid E) [pid:53.5%25%2C q_cov:88.3%25%2C s_cov:92.6%25%2C Eval:4.5e-136],MGA_385
sequence09	MetaGeneAnnotator	CDS	264	476	.	+	0	ID=MGA_386;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWFAGIGKTDRKFKTEKLRAKDCAEILYQKSLENDSVALVAHGMINYFIEKRLRYRGYKRISKVTTASVL;locus_tag=LOCUS_03800;note=MGA_386
sequence09	MetaGeneAnnotator	CDS	534	1139	.	-	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRRFLFGCFIQFLATINCVFASDLETSIIADLRKPLSSLVEVNDFTLFGNEFKEYYKNQVSPNLDSLYNKIRIIPVNIKGDGRTKEAILVGDTARNSAWGIKNFIAVAAMVNSKWHIMTFKEIKGNISCDKSKCKFDYYWQKLNPKSPNRYIGAMIGYANYGVSGHSFIIQIIGWNRYEDEYYINTISSAIPLRPDNNFE;locus_tag=LOCUS_03810;note=MGA_387
sequence09	MetaGeneAnnotator	CDS	1154	1582	.	-	0	ID=MGA_388;product=universal stress protein UspA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595959.1;translation=MFKNIVIPVDLSDKQSIKVVFPPALNFVNAFDSKIHLVHIMPDFGMKVLEDYLPRNWMKDQKEKYKALFDELIAKYVPEGVEVEFSVGRGAIYDEVINYSEKVNADLIMLSAVRPQFKDYMLGPNASKIVRHSSISVMVIRD;locus_tag=LOCUS_03820;note=WP_004595959.1 universal stress protein UspA (Rickettsia prowazekii str. Madrid E) [pid:55.3%25%2C q_cov:99.3%25%2C s_cov:95.3%25%2C Eval:3.5e-44],MGA_388
sequence09	MetaGeneAnnotator	CDS	1597	2502	.	-	0	ID=MGA_389;product=C4-dicarboxylate ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598587.1;translation=MFFALQSAFAQEGRKIRVGSGSLLEGYYSIGLKLCRYISKANNGIPCEVVPTKGSLENLWLLQRGKIDFAFTLSNLAIDSYEGKGYFATTEPFKNMSQVLKLHSEIFTVIVKDDDNILVFSDLDGKKISNGSPKSDSSVIYNALEAYYDFKKPPTDIELAYEDYAHEFCVGNVDAIMIMAGHPSALVNFITHACESDFVTIDSSKVNQLLKSNPGFHKAILPEGGYPGITKDQDTIGVNAILVTADHVDKKITQNFLDLFPSVVDRFKSSHPALYDIDAEDFRKNFVLPAFLAENVDNKEE;locus_tag=LOCUS_03830;note=WP_004598587.1 C4-dicarboxylate ABC transporter substrate-binding protein (Rickettsia prowazekii str. Madrid E) [pid:45.9%25%2C q_cov:96.0%25%2C s_cov:93.6%25%2C Eval:1.4e-68],MGA_389
sequence09	MetaGeneAnnotator	CDS	2562	3767	.	-	0	ID=MGA_390;product=sodium:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595912.1;translation=MKLWHKVFLGLVLGVFFGIYLPQHVETVKPVGTVFLRLIKMVIVPLLFFSLVSGITGMRDPNSIGRVARKSVLAYLGTTCFAVVFGLGVAHILQPGEGVILDFGQNSEKHFTESSFDLVDYLIEIVPNNVFVAFSESNVLQVVFFSIFTGMIINSLGHAVDPVRDFIHSAAKLVLKMISVIVQLSPYAAFALTAWVIGTQGIEIIFTLGKLFGALLLAFALQYIIFGLIIMVFCKVSPIPFYKKSIEYQMIALSTGSSKASLATTMQVCRQKLGVSESSTSFVLPLGASINMNGLSIKLGMSALFFAQVLGIDLAFGDYIVIILTGTLGSIGGAGIPGAFIIMLPIMLTSVGLPIEGVALLVGIDRVLDLLSTTINITGDATITLVIDSSEGTLDKDMYNS;locus_tag=LOCUS_03840;note=WP_004595912.1 sodium:proton antiporter (Rickettsia prowazekii str. Madrid E) [pid:57.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-133],MGA_390
sequence09	MetaGeneAnnotator	CDS	3814	4128	.	-	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKDCCIVLTTTDSKKNANLIARTLLEDKLVACVQIDKVESFFYYEASYRQANEFRLMIKAPSDNYKAIEKSIKFNHSYRLPQIIKLDIVEGLPDYLKWVCGD;locus_tag=LOCUS_03850;note=WP_004595913.1 divalent cation tolerance protein CutA (Rickettsia prowazekii str. Madrid E) [pid:45.9%25%2C q_cov:94.2%25%2C s_cov:65.8%25%2C Eval:6.2e-19%2C partial hit],MGA_391
sequence09	MetaGeneAnnotator	CDS	4118	4543	.	-	0	ID=MGA_392;product=6-carboxy-5%2C6%2C7%2C8-tetrahydropterin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDY5;translation=MVECTRRIEFDAGHRVMGHENKCKYLHGHRYVLEVTARADELDSLGRVVDFGVLKSVIKEWVDENLDHNVILHQKDKPLGDLIEKGTGQKIYYLQSNPTAENIALHIKYDIIPMLFTKNSFDIIKLRLYETPNAYVEVNGK;locus_tag=LOCUS_03860;gene=queD;EC_number=4.1.2.50;note=Q9ZDY5 6-carboxy-5%2C6%2C7%2C8-tetrahydropterin synthase (Rickettsia prowazekii str. Madrid E) [pid:58.7%25%2C q_cov:97.9%25%2C s_cov:100.0%25%2C Eval:3.0e-48],MGA_392
sequence09	MetaGeneAnnotator	CDS	4552	4950	.	-	0	ID=MGA_393;product=ATP synthase epsilon chain;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCF3;translation=MSNKLLVRIILPSETFLEVETSQVNIPGTEGVFGVLPGHVKLTSAIEIGIASIFNNELETRYYIHGGVVQITGDEVNIVTEYAASIPESNKTTITNEITDLQEELSSEEEGSIEADIILDKIEKHKSLIKFL;locus_tag=LOCUS_03870;gene=atpC;note=Q9ZCF3 ATP synthase epsilon chain (Rickettsia prowazekii str. Madrid E) [pid:35.1%25%2C q_cov:81.8%25%2C s_cov:99.1%25%2C Eval:3.0e-13],MGA_393
sequence09	MetaGeneAnnotator	CDS	4962	6398	.	-	0	ID=MGA_394;product=ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O50290;translation=MKKNEGKITQIISAVVDVKFDGGAQLPNILNALECENNGQKLVLEVAQHIGDSTVRCIAMDSTDGLTRGQVVVDTGDSIRVPVGEETLGRIMNVVGDPVDEQGPIKAKDTSSIYRDAPSFEEQSTDSSILVTGIKVVDLLAPYAKGGKIGLFGGAGVGKTVIIMELINNVAKAHGGYTAFAGVGERTREGNDLYHEMIDSGVINPDKLDESKVALVYGQMNEPPGARARVALTGLTIAEYFRDLDGGQDVLFFVDNIFRFTQAGSEISATLGRIPSAVGYQPTLATDMGGLQERITSTKNGSITSVQAIYVPADDLTDPAPATSFTHLDATTVLSRQIAELGIYPAVDPLDSSSQMLDPKIVGDEHYNVAREVQKVLQTYKSLQDIIAILGMDELSEEDKLIVSRARKIQRFLSQPFHVAEVFTGVSGKFVDLADTIAGFKGLVEGKYDHLPEAAFYMVGTIEEAVEKADKLQSKETA;locus_tag=LOCUS_03880;gene=atpD;EC_number=3.6.3.14;note=O50290 ATP synthase subunit beta (Rickettsia prowazekii str. Madrid E) [pid:82.0%25%2C q_cov:99.0%25%2C s_cov:99.8%25%2C Eval:1.4e-218],MGA_394
sequence09	MetaGeneAnnotator	CDS	6416	6628	.	-	0	ID=MGA_395;product=putative tautomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q88WD0;translation=MPIINIDMIAGRTLDQKRNLVKSVTKAVCESIGTKPERVKIKLNDVEPENYAISGKLIADQEDPFGKKKL;locus_tag=LOCUS_03890;EC_number=5.3.2.-;note=Q88WD0 putative tautomerase (Lactobacillus plantarum WCFS1) [pid:41.9%25%2C q_cov:88.6%25%2C s_cov:96.9%25%2C Eval:4.5e-09],MGA_395
sequence09	MetaGeneAnnotator	CDS	6647	7519	.	-	0	ID=MGA_396;product=ATP synthase gamma chain;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O50289;translation=MSGLKQLRNRVKSIKSTQKITKAMHVVSAAKLKKVKEQAENLNLYSEVLGNIMYDISTGGNLMDLPAKDRMFFSKKLKEMPYLLVVMTSERGLCGGFNSSIIRKVKKDVRAFQKEGKEVKLLVVGKKGRDGLRGKYAKLIEEYYPNPKGNAACMSRQVKNKMIEMIENEEAGACYMYYNKFKNAMTQVMTRRKILPASNTANAKESTVSEYEYEGENLVHEVINLYMSGQINYGLLQNKASEEGARMTAMDNATRNAGELIEKLTLKLNRSRQAIITTELTEIISGAEAV;locus_tag=LOCUS_03900;gene=atpG;note=O50289 ATP synthase gamma chain (Rickettsia prowazekii str. Madrid E) [pid:51.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-73],MGA_396
sequence09	MetaGeneAnnotator	CDS	7532	9067	.	-	0	ID=MGA_397;product=ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O50288;translation=MALNPSEISEILEREIGGIEQLGELQEVGYVITVGDGIAKVYGIDNVQAGEMVEFDSGVKGLALNLESDMVGVVIMGDDRSVRQGDKVKRTGDILQTPVGPAMVGRVVDALGRPIDGKGDIVTKDYSRVEVKAPGIIARKSVHEPVQTGIKAIDALIPIGRGQRELIIGDRQTGKTAIAIDTIINQKPAHLVDNDAEKIFCVYVAIGQKRSTVAQIVKKLEEAGAMEYTVVVSATASDPAPLQFLAPYTGCAIGEYFRDNAKHSLVIYDDLSKHAVAYRQISLLLRRPPGREAYPGDVFYLHSRLLERAAKLSDEKGGGSLTALPIVETQAGDVSAYIPTNVISITDGQIFLESELFYKGIRPAVNVGISVSRVGSAAQIKAIKKVSGSMKLELAQFREMEAFAQFGSDLDVSTQQLIRHGQKLTELLKQPQYSPFVVEEQVVSLYAGVNGYLEKIDATKVRDFEDKLIDDIRLKGESILTSIREEKQLSEENEEKLKTYLRKFVEEFLGN;locus_tag=LOCUS_03910;gene=atpA;EC_number=3.6.3.14;note=O50288 ATP synthase subunit alpha (Rickettsia prowazekii str. Madrid E) [pid:71.9%25%2C q_cov:99.4%25%2C s_cov:99.2%25%2C Eval:1.5e-210],MGA_397
sequence09	MetaGeneAnnotator	CDS	9155	9706	.	-	0	ID=MGA_398;product=ATP synthase subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q74GY3;translation=MSLDLKIVKNYSQALYSDAKKSKVEDKVLEQITVLGQVVSNSSRVMQALCSPIVDSQIKKKILDLVASKLKFEKTTINFLHILVKNSRFSLILEIMENFSKIIAESKGIKYARISSAYNLGKKELDLISGFLESELGKKIDLETNIDSSLIGGAVIEYDCNLIDCSVSGALDRIKKIAVDSKM;locus_tag=LOCUS_03920;gene=atpH;note=Q74GY3 ATP synthase subunit delta (Geobacter sulfurreducens PCA) [pid:26.3%25%2C q_cov:93.4%25%2C s_cov:95.0%25%2C Eval:1.8e-12],MGA_398
sequence09	MetaGeneAnnotator	CDS	9819	11075	.	-	0	ID=MGA_399;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599438.1;translation=MYREYSSYIIAILATIVRYYDYALFGLSASVISKTFMPGSDDSDQMLLFFAVFSLAVVARPLGSVLFGKIGDRVSRVASVKIATIIAAISTSAIALIPGFNSWGWVSVMLLALCRMMFLMSLAGEIDAIKIFVAEKIGKKRRNFAIGVVSFSSQLGVILASVMYHIAISIEELESAWRLNFVLGGFLGIIVIMLRGYLRESQTFLNSKSRMSQEVNSGIGTLVVNNRLKFFLSMMVNGMLGGGYHFLIIFLGTFAANVADVISINQASSSNITLIALYGMGCFISGYLADHINPLKQISFALSLSIICVLIMEFMIGAGVFSFALHRALAFVVPFYSVPCAIKIQSLFPTGIRMRMYSLSHSIGSMVFSSTTPFVCMLIWRWTGMFSMVLGYFLLQLGLLFFVLIYTSRKEYSNFFET;locus_tag=LOCUS_03930;note=WP_004599438.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:45.2%25%2C q_cov:90.0%25%2C s_cov:91.6%25%2C Eval:2.1e-90],MGA_399
sequence09	MetaGeneAnnotator	CDS	11128	11763	.	+	0	ID=MGA_400;product=Holliday junction ATP-dependent DNA helicase RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDE6;translation=MNFEAQPEIFMIGKLKGKIELNNENGQVIVDVSGVGYLAFCSAKTLSKLTPEEYAELLIETHVREDHIHLYGFYNVEEKNTFNILQSVKGVGTRMALAILSELTPEEIGLALSAQDKVVFNNVSGVGKKLAERIITELKDKFITNISGVAPIKTGTALSNSTNDNMNDAVAALVSLGIGKSDAQIRINSILNESPDISINDLIKLGLKNSN;locus_tag=LOCUS_03940;gene=ruvA;EC_number=3.6.4.12;note=Q9ZDE6 Holliday junction ATP-dependent DNA helicase RuvA (Rickettsia prowazekii str. Madrid E) [pid:52.2%25%2C q_cov:95.3%25%2C s_cov:98.5%25%2C Eval:3.7e-50],MGA_400
sequence09	MetaGeneAnnotator	CDS	11773	12810	.	+	0	ID=MGA_401;product=Holliday junction ATP-dependent DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDE5;translation=MAKELLDGNELETDIDFSLRPNYLLDFVGQEHIKSNLNVFIQAASKRNEALDHTLFYGPPGLGKTSLAHIVAKEMGVNFKATSGPTLSKAADLAAILTNLQENDVLFIDEIHRLNTNIEEVLYPAMEDFYLDIIIGEGPAARSVRIDIPKFTLIGATTRLGLLSNPLRDRFGIPLRLNFYNTEELVKVLNRAAELLNTQISQKGAEEIAKRSRGTPRIALRLLKRVRDFASVENKNEIDEKIADSALNRLEVDKAGLDSNDYRYLKFISDNYNGGPVGVETIAAALSEQRDAIEEAIEPYLIQIGLLQRTPRGRVITDNAFSHLGLQPPNRETSKQTNLFTEIEN;locus_tag=LOCUS_03950;gene=ruvB;EC_number=3.6.4.12;note=Q9ZDE5 Holliday junction ATP-dependent DNA helicase RuvB (Rickettsia prowazekii str. Madrid E) [pid:69.4%25%2C q_cov:98.6%25%2C s_cov:99.1%25%2C Eval:8.5e-132],MGA_401
sequence09	MetaGeneAnnotator	CDS	12825	13124	.	-	0	ID=MGA_402;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKDIGARQEGSALEELIAEILLPMSDVIVMKDKDGRISIFKEGIKFGMIQDEAFHLFDKDGEYQKVKRELILDADKLLQEATKSFWYACGKLDFSKHN;locus_tag=LOCUS_03960;note=MGA_402
sequence09	MetaGeneAnnotator	CDS	13404	14582	.	+	0	ID=MGA_403;product=aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RRN4;translation=MQNFHTIDRLPPYVFAEVNKLKAEARKRGKDIIDFGMGNPDAPTPPHIVEKLIESINNPKTHGYSVSRGILGLRKAQSEYYNRRFNVDLDPESEIVATLGSKEGFASTVKAITKPGDTILVPSPSYPIHTFGFIIAEASVRTVPNNASQTTLVQQIKEEIENCSPRPTSVVINYPCNPTAETVSLDFYEEIVSLCKHYGVYILSDLAYCEIYFNDSPPPSILQAKGAKDIAIEFTSVSKTYSMAGWRIGFACGNKKLIHALTRIKSYLDYGAFTPIQIAATAALNGPDDCIIEARQRYKDRRDILVNGLKDAGWEITSPEATMFAWAQIPEKYRHLGSLEFSKLLLEHANVAVAPGIGFGKEGDEFVRIGLVENKKRIRQATKNIRQFLQKH;locus_tag=LOCUS_03970;EC_number=2.6.1.-;note=Q2RRN4 aminotransferase (Rhodospirillum rubrum ATCC 11170) [pid:62.8%25%2C q_cov:98.7%25%2C s_cov:93.5%25%2C Eval:7.2e-146],MGA_403
sequence09	MetaGeneAnnotator	CDS	14598	15134	.	+	0	ID=MGA_404;product=isopentenyl-diphosphate Delta-isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S1C1;translation=MSETLILVDENDKPIGTEEKMKVHIEGLLHRAFSVMIFNSKGQLLVQKRAKSKYHSAKLWANSCCGHPSLDEDNMKAAQRRLQEELGFTCNLIKITELSYSLKLQDGLYEREYTHVFAGIYDGSLELNPDEVSEIKWQTPHNLRRESISKPEQYSRWFNLYLTEYYREIFENNALLSL;locus_tag=LOCUS_03980;gene=idi;note=Q2S1C1 isopentenyl-diphosphate Delta-isomerase (Salinibacter ruber DSM 13855) [pid:44.0%25%2C q_cov:88.8%25%2C s_cov:76.1%25%2C Eval:4.0e-35],MGA_404
sequence09	MetaGeneAnnotator	CDS	15145	15405	.	-	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKKKILTPLNTNIKSATLNKSKKGGEVNLKSLMGSIERDKKITKSSSFAKFKINFSNINEYMQNKPDDVDEIGANEQSSDNADLL;locus_tag=LOCUS_03990;note=MGA_405
sequence09	MetaGeneAnnotator	CDS	15468	16193	.	-	0	ID=MGA_406;product=cell division protein FtsQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDS5;translation=MLHRIIFFIKLWILLFIGLFVFTDYFDSYKEKAKNKFNEFTASYGFVLENIKIEGEEHTSYKDIVQALRVDKGAPIFSVDMEEVKGRLEDTTWIKKAMVERRLPSTIYIAIVERQPIAIWQFKKKLYIIDSEGNRITKHSGEGFAELLHVVGQDANIYASSLLADINVYPNLASKVKSAVRYGNRRWNLHLEQNIIVKMPENSFSEAYEYLHLLNKDKKLFDQNYKMLDLRDPNKYYLEKK;locus_tag=LOCUS_04000;gene=ftsQ;note=Q9ZDS5 cell division protein FtsQ (Rickettsia prowazekii str. Madrid E) [pid:45.8%25%2C q_cov:99.6%25%2C s_cov:89.5%25%2C Eval:1.9e-59],MGA_406
sequence09	MetaGeneAnnotator	CDS	16259	17305	.	-	0	ID=MGA_407;product=D-alanine--D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDS6;translation=MQEFNTIFKEKSIIVDCSNKGKVELKDFIKTDGYVLEECNIANSGDKKFIAVVGAGMSAEREVSFMSSNGIVDSLIELGHYVVFIDMGADISGVITNLRPDAVFNALHGTYGEDGCVPGVLNILRIPYTGPGVLSSSLAFNKKKSHEIFKANGIKIAQAIVVSKSDAIKNDPMPRPYVIKPLSQGSSVGIEIVFDDDDFSFADYEFKYGDEIIVEQYIQGREIQVAVLNGKAMGVLEIELLQGKRFYDYEVKYTEGFANHLLPAPITDNASEKVMKISEHACEIFDCMHGIIRVEFIYNEQEDEFYMLELNTHPGMTPLSICPEIVAENGVSYTDLVDKILQGARFES;locus_tag=LOCUS_04010;gene=ddl;EC_number=6.3.2.4;note=Q9ZDS6 D-alanine--D-alanine ligase (Rickettsia prowazekii str. Madrid E) [pid:59.1%25%2C q_cov:88.5%25%2C s_cov:95.3%25%2C Eval:1.2e-101],MGA_407
sequence09	MetaGeneAnnotator	CDS	17292	18185	.	-	0	ID=MGA_408;product=UDP-N-acetylenolpyruvoylglucosamine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDS7;translation=MNLPKVRGKYKFDYNIAHLTWFKVGGNADILFKPEDSEDLASFLKEKDSNLEVMVLGAGSNIIIRDGGIEGVVVKLGRAFTEIEEQPDGSLAVGAGCLNYNLAKFAATKFIEGFEFLVGIPGTIGGGVVMNAGAYGSEFKDLVISVEAIDIEGNYKNFSCEEIGFSYRKNTLPKDLIFTKVIFKSKSGNSDQIQSKMDEINQKRSETQPITEKTGGSTFANPDGHKAWKLIDEAGLRGYAVGGASMSQKHCNFMINDGTANASDMEDLGELVRKRVKENSGIELNWEIKRVGRNARI;locus_tag=LOCUS_04020;gene=murB;EC_number=1.3.1.98;note=Q9ZDS7 UDP-N-acetylenolpyruvoylglucosamine reductase (Rickettsia prowazekii str. Madrid E) [pid:61.5%25%2C q_cov:98.0%25%2C s_cov:98.3%25%2C Eval:7.8e-104],MGA_408
sequence09	MetaGeneAnnotator	CDS	18206	19657	.	-	0	ID=MGA_409;product=UDP-N-acetylmuramate--L-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDS8;translation=MLLLEMKRKKGTLNTIHFVGIGGIGMSGIAEIMNNLGYSVQGSDLAINNNTRRLEAHGIKVFEGHDASNLKNVSYVVISTAVKNDNPEVVAARKLMIPVIRRAEMLAELMRLKCSVAISGSHGKTTTTSLVACLFEAAGLDPTVINGGVINNKSTNAYLGHGDYLVVEADESDATFIKIPSTIGVITNIDPEHMDYYKDFDTLKAAFKSFIRNLPFYGFGVACIDHPVVRELVDNITERRVITYGIESEDAQIVAYNITSDTYSSTFDIRIKQQNASGDTIIEHITIPTPGKHNVLNALSAIAIGIELDFGLKVIKNGFKNFQGVKRRFTLVGKYNGAEIIDDYAHHPVEIEATLSTAKDVVSKRKGRVISIFQPHRYTRLENLFSDFASCFAKSDKVYILDVFSAGDSPIEGINSKTLVKAINKNSVDAEYLANHEDITPVVATEAREGDIILMMGAGSITTWANQLPEKLEKIDTSTVTVN;locus_tag=LOCUS_04030;gene=murC;EC_number=6.3.2.8;note=Q9ZDS8 UDP-N-acetylmuramate--L-alanine ligase (Rickettsia prowazekii str. Madrid E) [pid:65.4%25%2C q_cov:97.7%25%2C s_cov:95.8%25%2C Eval:1.3e-184],MGA_409
sequence09	MetaGeneAnnotator	CDS	19849	20223	.	-	0	ID=MGA_410;product=holo-[acyl-carrier-protein] synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCX5;translation=MIVGIGTDVVQIDRIERIYNKYKNAFLEKNFHPQECEYFYTLEKSKSISYLAKRFAGKEAIAKAFGSGIGNNLAFKDIAILNDKLGAPYAEIFSDNVEGFIDKKIHISLSDDYPIAIAFAIISQ;locus_tag=LOCUS_04040;gene=acpS;EC_number=2.7.8.7;note=Q9ZCX5 holo-[acyl-carrier-protein] synthase (Rickettsia prowazekii str. Madrid E) [pid:53.3%25%2C q_cov:98.4%25%2C s_cov:96.8%25%2C Eval:1.4e-29],MGA_410
sequence09	MetaGeneAnnotator	CDS	20300	21562	.	-	0	ID=MGA_411;product=protein UmuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011705000.1;translation=MGKVFALVDCNNFFASCERVFKPELNNKPVIVLSGNDGCIVARSNEAKKIGVPMGAPYFKWRSLFEKNGGKAFSSNFQLYGDMSRRVMKILKELAPDVEKYSVDEAFLHLESLVGCDLQSYSVDLCQKVRRWTGIPVSLGLAPTRTLAKIANHMAKKYSRNGVFDIRDKEMRECVLASVAVEEVWGISYNLGKRIRRMGINTALDLSLADLKMIRRSLGVMGEKTALELRGIPCIEFRDTSHRKTIISSRSFEKTIQDLNLIEESVANHIAKAAIRLRKQKCLAGGLMVSMRTNRFSNSKQYKNEYTMMLDAPTDVTNILLVKSRECIKNIFKQGVKYKKTGVMLFDIRSKKNEQRSFFSSSEDLAKNDNLMKLIDNINSDNYSANLYFASQKISNQKRFLHKSDRIKVKSDLHPLPLVI;locus_tag=LOCUS_04050;note=WP_011705000.1 protein UmuC (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:42.8%25%2C q_cov:92.1%25%2C s_cov:92.4%25%2C Eval:1.2e-82],MGA_411
sequence09	MetaGeneAnnotator	CDS	21566	21976	.	-	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEKTDVNFPAIPYYSSKISAGFPFPADDNITGNLDLNKLLVKHEAATFFMQVKSDAMKDAGIWSGDILVVDRSLSAKHGRIVIVAIGEDLLIRRLYNLRNKVLLMPENKEYEPMEINHDIESVIWGVVNYVIHKV;locus_tag=LOCUS_04060;note=WP_010947431.1 SOS error prone mutagenesis protein UmuD (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:50.8%25%2C q_cov:94.1%25%2C s_cov:69.6%25%2C Eval:8.9e-34%2C partial hit],MGA_412
sequence09	MetaGeneAnnotator	CDS	22165	24303	.	-	0	ID=MGA_413;product=GTP pyrophosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389609.1;translation=MEIQEVINNYKSYGTSIDEPVVKKAIEFAIKYHGSQKRASGDPYYYHPLQVAEIIAQMRLDSDSIVTAILHDTIEDTDLTFEDIEKHFSPDVAKLVDGVTKLNKIEFKADTTRQAENFRKLLLAMSDDIRVLLIKLADRLHNMRTIDYISKPEKRKRIALETMEIYAPLAERIGIQQIKIELQDICFRVLNPEVRESIINRFDSIESDKGNYVDQIIKEIKKTVENGGIKAEVYGRRKTPYSTWMKMKQKDVGLDQLYDIIAFRVIVKDVEDCYKVLGIIHSAYKMVPDNFQDFISTPKGNGYQSLHTVVMGPLMQKIEVQIRTQEMHDIAELGVAAHWRYKQGHDDSSDGSKYTWIRELLSILEQTAAPDEFLQNTKLAMYYDQVFCFTPKGNLIALPKGATTVDFAYMVHSDVGNSCVGAKVNGRIVPLRTQLVNGDQVEIITSKNQTASPSWEKFVVTGKARSEIRKVIRSQQYDQYVKLGRNIISKALKVAEISDETKALEKASKFFNKSLNDLLFAIGEGTITREEVVKQVQPKKSKFSSTLSLLKFKRKKTPAESQENSVPIKGLISGMAMHYAKCCHPLPGDKIVGVIHTGSGVTIHTSDCEMLNNFAGMPERIIDLTWDSNTSNIPFVCRVSIVLLNEVSGLSVISTEIARDGGNIINFKITSRNPDYFEMIFDIEVESLEHIEKIINSLRTKKVIQHVERTKY;locus_tag=LOCUS_04070;EC_number=2.7.6.5;note=WP_011389609.1 GTP pyrophosphokinase (Rhodospirillum rubrum ATCC 11170) [pid:54.7%25%2C q_cov:99.4%25%2C s_cov:99.0%25%2C Eval:9.8e-230],MGA_413
sequence09	MetaGeneAnnotator	CDS	24364	25254	.	-	0	ID=MGA_414;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886296.1;translation=MLTVLLGFMAGKWGNVKKDGIASLLFYFVAPIVYFAIPASASLEVSDLGITLVSFIITSCLSCFAFWSYGKLWKDNRVNILAFSAGTCNGGYLGIPIAAMIFDEHTLSIFVLATIGVAIYEAVVGFYFCSRSNANVYDSIIKIIKLPILNAFIVGCAIGLSNFSFPDFLDEFISDMRSTFALLGMVLIGLALANAENMKFNYKFAGATFFSKFIIYPLVFNAFIVADRFFLGWYGVNYHNALQLLCLMPLATSTILLSSLFKLYPEEMAASVLLAMLFSLIYIPAMSSFLLNDIVS;locus_tag=LOCUS_04080;note=WP_010886296.1 permease (Rickettsia prowazekii str. Madrid E) [pid:52.0%25%2C q_cov:99.3%25%2C s_cov:95.1%25%2C Eval:3.8e-90],MGA_414
sequence09	MetaGeneAnnotator	CDS	26083	26472	.	-	0	ID=MGA_415;product=DNA-directed RNA polymerase subunit omega;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q92R52;translation=MARVTVEDCVEEIPNRFELVILASERAKSISSGAPLTVDRDNDKNPVIALREIATKNIDPEVLRESQIVGLQKNNKVDEAPEENLYAEAQESAPEEVDYSSANEDIFSQEIDVSPETEPDFGSSFSEED;locus_tag=LOCUS_04090;gene=rpoZ;EC_number=2.7.7.6;note=Q92R52 DNA-directed RNA polymerase subunit omega (Sinorhizobium meliloti 1021) [pid:47.8%25%2C q_cov:93.8%25%2C s_cov:100.0%25%2C Eval:7.5e-25],MGA_415
sequence09	MetaGeneAnnotator	CDS	26517	26672	.	+	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLTQILQATNFPVIFTIQKHIKNPVNKGGYGRDFYATRKKKPKLTSVNSC;locus_tag=LOCUS_04100;note=MGA_416
sequence09	MetaGeneAnnotator	CDS	26814	31514	.	+	0	ID=MGA_417;product=outer membrane protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q53020;translation=MTNSNFLKKLLATASVVAVSASASSSFANLKQINAGATITNGGGVGIVDTATPPAGAVFNDGDSLSYLGNHTLNTGGVVTIHTIDLNNKNAGAFTVGNNASLSSVINSGGNQKLATTVGNNRTLTLDKNAGLNASGAVATGGVFTHLGPVTLGGGAGGAKLVVNADTTLSEAIIDDSTNNSTIEVNGNVKFDNTIGTGAQAVGTLDVKDNKNATLTKNSNIKVIQIGSGASTIVADDANITSDNIKGSGVDNGSLKFKGKSTVNAQKIGDVAKLNSVELEGAGTVDLANTTDFTATKTTLTHNDAVLKFSNAVNVKTNIVTGTDKKGKVIVAEDTNYEGSFGENGKSLAEVNFSSDKTLTIKEDDSKLYVENVTTSGNNGTGKLDIKSANFEIHSNIGAQGKALNSVKISSNAAGTAATTVKLMDNKSIHASNVDLSATGQANVLELYQNSSITGNVITSTPNTGSLSVKGDSKIDGNIGSNGGSAINQIKFDAAKTLEVTKNDINTNNGIDFAEDGILKLTEDKDININKLVKTKKSATGTGSIIANSATSGKTIEVTAQIGNVAAANNDDALKLLQARGGADIKLSTANAAIKKIDIESQDSSLILNVAGGDFVINNFSHSDGQGTLKLDENATLKAGTNLSSGTKNTLKSVDLGNNKTLTVEDGVNIYTSSAADNGIKSNTAGSGKLIVQGDSIIAGPVGASNGIGGIDVTGANKTATFHDKVNLVADVGLGTDGKLTISKDATAVLGGEFIGTEITGTGVGEGTVKFANNVALAGDTKIQSKIGTTQLETVEIAGKDITFSDAKFDTQNLKFSSNGNTTATFDGFAAGDELRNTTITTTSTTRQHHIALTEGKNQTFDQKVGTEQNKFGNFVLAGDDTITVNEEFYAGVINSKAQEGTVTIAKDGGVALNLGAKDSELKAVNVNESATIYEDVWSKDVVVAAGKTATFKGSISGTNALNLGNNSVADFTGKNVTLDISVTSTNASEGALKFSDGANINKEIGSSGKRIDKVDFVGTNSAAITNINANINADNITVSNQTLRATQNIELNGTTAFNDGSFIDLGTNKLTLKNGNAIVTGTSGVNVTLNNDKVIGSIVVDATGGATNLDTSGATKLLISVDDSVAMLPASDEEYTLIATANGGTATPIGTNIEVNSTGNNFVDWSLTSGGKLVRKNVASTALTSVIGTGDKELLQDALQFVNADNKGKAAEYASELARMDNNRLKESLERSSEQNSVHAVEIASSLLESTNAAINNRMGAFSNHPQPGIQVSSQGVSGVAAGEGDHTMYGAWVSPFYNQTTQKSRGSRAGFKSSTYGATLGFDTQANADLTVGVAGTYAKSDVKHKNFKSGDKTKGDTFAFSIYGVQQLSNNWFLQGHAAYATTKMKNSEKRITATTSETARGEFDVTSYNAELLAGFNYSMGQAIFTPLVGASYTRINNSGYTETGTTNQNLTVSSKATNKFDAVAGLRGQMTTEVNGINVTPEIHGFVRHDLIGKDARTTAKMSGMVNALTPKSAKAIKTTFNVGLGVNAVSGMYEYGAGYDLFAANKTIGHQGTLKVRVNF;locus_tag=LOCUS_04110;gene=ompB;note=Q53020 outer membrane protein B (Rickettsia prowazekii str. Madrid E) [pid:26.1%25%2C q_cov:88.8%25%2C s_cov:85.0%25%2C Eval:8.5e-91],MGA_417
sequence09	MetaGeneAnnotator	CDS	32116	33165	.	+	0	ID=MGA_418;product=glutamine synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q83E31;translation=MSITVAEYIWLDGSKPTGQIRSKTRVISAPDEVSLEDFPEWSFDGSSTQQAHGEDSDCILKPVNFVLDPLENGGDFLVLCEVMNPDGTIHESNKRAVLRRVMEDGGETQDPWMGFEQEYTMFKKNIPLGWPEHGFPGMQGPYYCGVGSEQIFGRELAVKHRDACIDAGIMYYGMNAEVMPGQWEYQIGYRGVPDEDAGALNIADHTWLARWLMHRLSEEYNIHISHENKPVKGDWNGAGMHTNFSTSDIRDPKEGRKAIADAIEKLEKKHTDHIEHYGDKLEERLTGDHETSTIHEFSSGDANRSSSIRIPKPVALKGYGYLEDRRPGANADPYMVAALLVSTICGIKI;locus_tag=LOCUS_04120;gene=glnA;EC_number=6.3.1.2;note=Q83E31 glutamine synthetase (Coxiella burnetii RSA 493) [pid:60.3%25%2C q_cov:98.0%25%2C s_cov:95.5%25%2C Eval:4.4e-128],MGA_418
sequence10	MetaGeneAnnotator	CDS	665	1585	.	+	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSINELIDYLNKCKNKTQISLSNQYIDNEGLKVIAKFMKENSYVRKLVLELNQITDIAPLFKALKDNDTLEYLQLSYNEIADISEIKYLKNTKLKELELDYNNIKDVTPLLELLKVNIGIKKINYIKNNMNGISGLKEVLKINNTLEEFYYGVSRAKFLESMLEVFTPERIKDEMARAKKSSFHEMDEVLVAEIDNMLNENEIAPKKALARVVGNYLLSKLVKGEKFSYEVESRLLKCRKDVDKTLLDGYLKTHFSSLKAVNDLELLNNYNSKLCHFTDLVFNFDPEDKDTIDVMGDLGGSVHKIV;locus_tag=LOCUS_04130;note=WP_010933192.1 Rab family protein (Chlorobium tepidum TLS) [pid:31.0%25%2C q_cov:56.2%25%2C s_cov:15.6%25%2C Eval:3.2e-07%2C partial hit],MGA_419
sequence10	MetaGeneAnnotator	CDS	1617	2903	.	-	0	ID=MGA_420;product=DNA recombination protein RmuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCN3;translation=MILYISIIFSVISFGFLGFSLYRNVKLKLESKFLNESLQDFKEQNASLEEEKFEYVQKIQQLSERLKYQEQMISDFEKLKEESKESTKAVLFELGNELSKQLIEIHKKENRESRENSEKNIQETAKKFNSEFERIVGMVGSLSKEVAQSKDIVDVIKNSLLSPSGAGALAEITLENIMKSSGLRLNTDYRMQYSVQNENQDTLRPDSIVFLPSDRVMIIDAKASKFLVDEVDPKSLAKTMNSHLRSLSGKSYADAVRKNLAVKGNNISNIVTLMFLPTEHAIEKLLDADNEFMNKAWKYNIFPVGPAGLMNMLSFAKFQISEQMMMHNHQKIIEEVQKLMASIGSMAEHSTRLGSSISSVANHYDKFAASFNRNFLSKARNISKMGIEGGLKKTQASLQRFQVIASNSELIEVEAEEEFKKLEEAKLN;locus_tag=LOCUS_04140;gene=rmuC;note=Q9ZCN3 DNA recombination protein RmuC (Rickettsia prowazekii str. Madrid E) [pid:53.0%25%2C q_cov:89.3%25%2C s_cov:89.9%25%2C Eval:2.0e-112],MGA_420
sequence10	MetaGeneAnnotator	CDS	2977	3786	.	-	0	ID=MGA_421;product=ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597196.1;translation=MSQNKQPKIFVIGNEKGGAGKTTCSMHLIIGLLDKGYKIASIDTDSRQHSLTTYINNRKAYNQKNPESKVDMPLHFHLKEVINDSVQEKEKQEKIQFEQVFNMAKNHADFIVIDTPGSHTNLSRIAHSHADTVVTPINDSFIDLDVMAKIDSETLDTSSPSIYSQMLWEQKMERASRDSGSIDWVVVRNRLGSLDAQNKRNVEQALKKLSKRISFKVAPGFSERVIFRELFPHGLTLLDLKKANFTKSFSMSHVAARQELRTFLDSLGV;locus_tag=LOCUS_04150;note=WP_004597196.1 ATPase (Rickettsia prowazekii str. Madrid E) [pid:62.5%25%2C q_cov:98.1%25%2C s_cov:96.6%25%2C Eval:4.4e-87],MGA_421
sequence10	MetaGeneAnnotator	CDS	3773	5287	.	-	0	ID=MGA_422;product=cytosol aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P27888;translation=MLNISFEEKDLFANDAIAVLVNDQLKMDKDLMATDQKFHGLISKTIQNENKFKGKLGQVVALSSTDKDGNVKTIIIVGIGDEAKIKEFQLEEIGGKIYSNAKVAKAKNVGIEINGRVGEFSEEKVSALLGSGAVLAAYKFDKYQTKLKDEEKFDIGDFNIIVGDGEAAYKVFQDKKATAMGVYFARDLVSEAPNVLYPESYAEQIVDKLEPLGVDIEVLGEREMRSLGMGALLGVGQGSARESKLVVMKYNGGGEKQKPVCFVGKGVTFDTGGISLKPPAGMDAMKYDMGGSAAVVGTIKALALRSAKVNAVGVVGLVENMPGANAQRPGDVVSTMSGQTVEVLNTDAEGRLVLCDCMTYLQENFEPECVVDLATLTGAIIISLASTYAGCFANDDGLAENLIKASHATNEKLWRMPLHKDYDEMLKSPIADIANIGNERGAAGSATAAQFIGRFIEDGVKWAHLDIAGVAWDKKGKNPVCPKGAVGFGVRLLNQFVQENYESK;locus_tag=LOCUS_04160;gene=pepA;EC_number=3.4.11.1;note=P27888 cytosol aminopeptidase (Rickettsia prowazekii str. Madrid E) [pid:57.5%25%2C q_cov:99.0%25%2C s_cov:99.6%25%2C Eval:8.4e-161],MGA_422
sequence10	MetaGeneAnnotator	CDS	5508	6908	.	+	0	ID=MGA_423;product=serine endoprotease DegQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015886707.1;translation=MRNFLKIKTALITILFFVYSTNAALPQFSSSEKVPTLAPILKKATPAIVNISIIPKRREATNPLFEDPFFNKFFKDFHQFKQFNYEENDSYNKQQSIGSGVIIDSQKGHIVTNYHVIKNAKEVFVTLKDKKQLKAEIIGTDDATDLALLKIDAQNLDSLPISNSDDLEVGDYVIAIGHPFSLSHTVTSGIVSGLSRSGLGIEGYEDFIQTDASINPGNSGGALINLKGELVGINTVILSAGGIGNIGIGFAIPSNIVTMVTQNLIKFGEVKRGQIGIYTQNITPELAKAFDLSINNGAIISKVNKNSPAEKAGLMEGDVITKVNDKIVNNISDVRNIIGMQSINTKVKINFLRGKDSKTAEVTVGPQTKDTTSSDSLNIDLLDGANFADMTSAHPLYEKVQGVLVTKVKPGSSAWGAGLREKDIIVSVNKKKVTNIAELKKAVTLKKNGILLNVRRGNAALYIIIH;locus_tag=LOCUS_04170;gene=degQ;EC_number=3.4.21.-;note=WP_015886707.1 serine endoprotease DegQ (Sinorhizobium fredii NGR234) [pid:43.3%25%2C q_cov:99.1%25%2C s_cov:94.6%25%2C Eval:2.9e-96],MGA_423
sequence10	MetaGeneAnnotator	CDS	6970	7404	.	+	0	ID=MGA_424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDQLEIYLLLFTDSLVSNFAINNSTELAIFSMKIFSSLYNPYIVLATATCAVVVAFSANYLLGIACYKILAPMNAEESNQDNSKRIEVIRSSKLLPIILLLSGIPFFGKFIILFAGFCRVSFIKAIMIGSFAKFVYYTVTYLIL;locus_tag=LOCUS_04180;note=MGA_424
sequence10	MetaGeneAnnotator	CDS	7415	10072	.	+	0	ID=MGA_425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIFKCSSKNKFIDEVIDFITDNYKGNFPKLKILLPNGLTCSELQHALIKTHGTIILPNIIPISELVAEEEEIFKIPSGQIGAISRLEEKLTLAEVISSYKDLDYDLSQSLRLSPSLAQLFFEFETNNLEFKDIKHLPKLDESEHWNMIYNFLKFAQDKWLSNIKNMQKISRGAYQDQIFKAEINRLMTTPDESLIIAGVVGNNKITNEFIRKALELSNASLILPPFDESAIKNQLPFENPLYKIQKFISNLENKKINIKTLGRSNESIFDKLLYNSSADRYEDNLEYVELDNTFCEAEYIALKCKKQVEDNAKCKIAILAHSQETKEQCSLFLEKYELQFTDLFGRDILTHPAISLILLISELQYSKFSLQSFFAFLSHSEIANDKTLEIKNIIRKHNRLASNLESIAKTINQYATQETNDGFSNLVNFIEASASSNKFHHLLKHTLQTAEKILPNIWKKYSDINAPLSEIINKEWKIQITDIDTFPELLKQILEGGRILESRSNCNIIICKPHDTALINYDLIIISDLNENKYPKSVVANPWLNLQMQKELELDSKISDIGNKLYEFYLNINNKKIILTRAKKSAGMQTIQSPFILHLKYILGNRFISKIAAKLNTRNTEYPKDSCAKSDIFPKQISATDIETLIRSPYNFYIKKILKIRKIDEISDKPNLADFGNFFHQIAEDYTNHFPEKLIEDLSDKYLEEIDIPQYSKNAWKTKIMAIAPELIDFEEKRRKLIQSVHCEIKGTLELNIKGKKVTILAIADRIEVGKQGKAYIMDYKTGAIPTKKDILSGLSPQLIIESIILSENGFNLPVNKIEKIIYIKINSHSPYIKTTEIELSKEDISKHKQGLITLLEHYITTNQYPIEPCIMKYDDYTHFARRV;locus_tag=LOCUS_04190;note=Q9ZDC8 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:32.3%25%2C q_cov:70.1%25%2C s_cov:77.6%25%2C Eval:8.8e-82%2C partial hit],MGA_425
sequence10	MetaGeneAnnotator	CDS	10158	10748	.	+	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNILTAIILTLFINSNIMAKTTENTEEAIFAMGCFWCGAAAFADYKTNKKFPGIISVRAGYTGGDMPAPTYQNHETHKEAVQIIYDPNIISYKRLLDIFWRNIDPFDSKGQFCDKGFSYTSAIYYKNKSQEKFANETKKETENILDKPVVTEILPAKIFYEAEEYHQDYKIKNPIRYKYYTWSCGRAQRLEEIWK;locus_tag=LOCUS_04200;note=WP_011249770.1 peptide-methionine (R)-S-oxide reductase (Thermococcus kodakarensis KOD1) [pid:48.3%25%2C q_cov:85.7%25%2C s_cov:49.7%25%2C Eval:2.7e-41%2C partial hit],MGA_426
sequence10	MetaGeneAnnotator	CDS	10761	11924	.	-	0	ID=MGA_427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKRKKSSEEENSKDNPGLLGKIWGAISRVKNNKVVKILTGSAVSRGISVVLATTGITLGVLALSGVSLGAVAGFVLAPQIAIPFAVASLGVVAIGAAVDTYMVRKTRRLHSESKHLSRHCLAKDVQDKLLEKNPELSRVLEADLYKPEKAGKKSAGTRYLKGSQSKKRSLAANIALNVFKSIAGGVVSVVEGVITRNPAKVIKAVAFTTIGVGSSVSGEMTMSQKRNEFKSHIDGLRNRDDAPGYDSLNELKVAAREQKIQTLALQELVKDPDYKNYSDKQIKEKFKEIREKIEGTEKAIQSRYRIVNFMRNFRRAHNPFSKYNNPKKLTTKIGDIRLKPKKQKNKKNISEKIKRAARKIKIHKNPNSRKRINNKSRKRIANARGR;locus_tag=LOCUS_04210;note=MGA_427
sequence10	MetaGeneAnnotator	CDS	12049	12498	.	-	0	ID=MGA_428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFIKIIFIFLLSNSCVNAQNNYFLKVYLKDQVIDVYDNETLIKKIPCSTGIKHGSTPLGKFYTNYKKEKDKWIEKDGSEIRYYYITRFNKYISFHSLLEGDHFLVDLGNSLYKEGKPSSMGCIRVSKDDAKWIYNLPLGTFVEITDN;locus_tag=LOCUS_04220;note=WP_010965919.1 L%2CD-transpeptidase (Clostridium acetobutylicum ATCC 824) [pid:32.5%25%2C q_cov:81.2%25%2C s_cov:52.0%25%2C Eval:2.4e-09%2C partial hit],MGA_428
sequence10	MetaGeneAnnotator	CDS	12520	13122	.	-	0	ID=MGA_429;product=putative GTP-binding protein EngB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE46;translation=MTNDLGIKIFRREATFVAGVARIDQFPKLYLPQVAFIGKSNVGKSSLINSICRRKNLARVSHTPGRTQQINFFSIANKLLLADLPGYGFAKVSKAQKADWERLMTYYLETSNHLSLVNLLIDSRRGIKDNDIDIMNMLHNFGKHFQIVLTKSDKEKVNEIYIADIKSRLAALGFDDCNIVATSSKNGIGMKELQYSMLQF;locus_tag=LOCUS_04230;gene=engB;note=Q9ZE46 putative GTP-binding protein EngB (Rickettsia prowazekii str. Madrid E) [pid:53.6%25%2C q_cov:96.0%25%2C s_cov:89.3%25%2C Eval:1.0e-51],MGA_429
sequence10	MetaGeneAnnotator	CDS	13119	14810	.	-	0	ID=MGA_430;product=membrane protein insertase YidC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE97;translation=MNYSILNLITAIVLSVAIIFGWQHFYEKPRLEKLAEQTKQYNKTVKTIKENSKQNLEVEVLARSDAIAGVSRVNIKSKSLSGSISLKGLRFDDLTLLSYRQELDENSPPVDLFSPSNSDQGYFAEIGWWSADKSITYPDSSTIWQADKSELSAGQSVNFSWKSPENVLFKVTVSLDDNYMFTIKQATYNQSGRPISTQYYGLINRDYEEKPDNMVNILHQGMVGAVAGELQEFSYDKIKDNKKEKFSLGELNWLGITDKYWLAAFIPDSSEQYSANYNYALKAGRDKYQADFISSSKLIESGGSYELTHHLFAGAKKVALLDKYESEYNIKLFDRAIDFGWFYILTKPIFNAMNFFYKYVGNFGISIMIVTVIIKLLMFTLANKSYRSMKKMKKLQPQMERLKELYADDKARLNQEVMQLYKKEKVNPVSGCLPLLVQIPVFFSIYKVLYVTIEMRHAPFFGWIKDLSAPDPTTIFNLFGLLPFTPPSFLMIGVWPLIMAGSMYLQQKMSPQPADPVQAQVMKFMPLMFLFMFSSFPAGLLIYWSWNNLLSIVQQSYINKLDK;locus_tag=LOCUS_04240;gene=yidC;note=Q9ZE97 membrane protein insertase YidC (Rickettsia prowazekii str. Madrid E) [pid:62.1%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:6.3e-205],MGA_430
sequence10	MetaGeneAnnotator	CDS	14969	16054	.	+	0	ID=MGA_431;product=tRNA-specific 2-thiouridylase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDM1;translation=MDSDKKTIVVAMSGGVDSSVVAAMLHKAGHNVIGITLQLYDYGMALQKQGACCAGQDIYDAKMVADNLGFPHYIFDYESRFKQEVIDDFADSYIRGETPLPCVKCNQSVKFKDLLKAAKELNADALATGHYVQKIENNGVNELHRGKSTAKDQSYFLFSTTQEQLDFLMFPLGGYSKDQTREIAQEFGLEVADKPDSQDICFVPNGNYRDVINKVRPNASAPGRFIHTDGFDLGEHKGIINYTVGQRKGLGIAYGDPIYVIRIDPETNTVYVGPESELIKTQFLLKDINWLASDIDPNNLEVSVKIRSTTPGVRAKIDLMNDDQIKVTLLEQEKAITPGQACVFYHESRVLGGGWITREIK;locus_tag=LOCUS_04250;gene=mnmA;EC_number=2.8.1.13;note=Q9ZDM1 tRNA-specific 2-thiouridylase MnmA (Rickettsia prowazekii str. Madrid E) [pid:65.9%25%2C q_cov:98.1%25%2C s_cov:99.2%25%2C Eval:1.8e-140],MGA_431
sequence10	MetaGeneAnnotator	CDS	16068	17477	.	+	0	ID=MGA_432;product=amino acid permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599391.1;translation=MSFLKKKSFDSVKSAGSTSGLDRTLSALDLILLGLGGIVGTGVFALTGLVASQYAGPAVTLSYAIAGFTCIFVALVYTELATMLPTSGSIYTYSYVAFGEVFAWLVGSLVIVELGFAASAVAGSWSAYIQGMLRSAGYELPLAFSKSPFEGGIINLPALLIVSFVGFMLYLGTKESKKLNNILVFIKMLAIAAFVFFAAPHFEAENWSNFMPNGVDDVLYGASILFFAFTGFGTLASAAEECKNPKRDLTIGIIGSLALATVVYIIVAGVLTGIVPYFELNNAQPLAYALRENGSGIGSTLVATGAVAGMTTVIMVNIYGQSRIFYVIARDGLLPKPLAKLHYRYDSPYITIITFSAIIALLGALVPYGVLAQLSSMGALTDYMIIGVIVVIFRFRYKDVERPFKCPAIFIVAPLALISSFYLLFKQIISKDGQMLLTGKVFILWFVIMFILYAVKKAILKTKQEVQQL;locus_tag=LOCUS_04260;note=WP_004599391.1 amino acid permease (Rickettsia prowazekii str. Madrid E) [pid:60.1%25%2C q_cov:98.9%25%2C s_cov:99.8%25%2C Eval:1.6e-163],MGA_432
sequence10	MetaGeneAnnotator	CDS	17883	19196	.	+	0	ID=MGA_433;product=sodium/alanine symporter protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009873789.1;translation=MSIMDSAFSIITFLDDFYWSYIGWALITLSGIYLTFLSRGLQFRALFNFRTNIKQIYSEGSNKSNDGIHPFKLYFASVGGMVGLGNIVFISTAIMIGGPGSIFWTILASLSGMLLKYSEIYLGVKYRVQNPNGGFNGGPMYFLQQAFKPKFFAYAFAFLLCLYGVEISNFLIIVDRIEYSFEFNRYIIILALLLAVLYSSLGGISRLANICTLIMPVFMIGYMIFSVYIIACNASLLPEFFKTVLVSAFTGHAQIGGFVGSTMIISAYLGISKTVYSGDIGIGYDSIVQSETRIINPKKQATLAIYALFTDTLICILTNTMIGVTGAWHSLNHLVPSDVVARLLSSYIPYSDLFMTLLLFFAGFTTIIAYLAAGTKCAQFINPKYGKTIYLMYAIFAFIFFCNFSQINVMIIMGLLSGLLVLLNVCGILKLRKDIEF;locus_tag=LOCUS_04270;note=WP_009873789.1 sodium/alanine symporter protein (Chlamydia trachomatis 434/Bu) [pid:40.0%25%2C q_cov:99.3%25%2C s_cov:96.2%25%2C Eval:1.3e-93],MGA_433
sequence10	MetaGeneAnnotator	CDS	19222	20784	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKRLGAIFVIMAVAAATGWFYFANKFEKIATEEILPKLQKDESLISIDKDSIVIDKYKFKLTLQDIRIFPKSEFKIHADEITACYNPLSDSIKAQITGNKLTIGEGEMEFYFPSPSHRIDFNRSLINSNFDNFKISVSSKDSSVYFANDDKFISKSDNSKIAISNALDNDMYEMNLKVKIDALQMNPESQFLIKVLNQISSEFAKNGINSKIDGYYYKMLGESGPINYKTEYSVQLGKDHVHSLIASLKGEKDIKEVLENFAFTKELYSIDISESIKNSTINDFGDISFSSDGEKIKAEIDIALNRNYNEGQRKNITEIFKDLLFEGFKLLNNEDASRIENKLTAGDFTKLSEMLADVNKIETIIDVEYDIKSKDLEQEFKFVLNDFKIKSEGEVKDKVYNGTIEIYSPKLITDGMPYIYESGARPILVKLSDNNDDTVNIAAYDKISKNIQENGFSALSTFHKDEELKENSELVTELTFDPNGFKFKINDKGFFEILTDERIANFLENMPTEDEVEVK;locus_tag=LOCUS_04280;note=MGA_434
sequence10	MetaGeneAnnotator	CDS	20786	22030	.	+	0	ID=MGA_435;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDL9;translation=MSNKVAPLRGMKDLLPEDFRVHKYIENTAKKISELYGYEGFATPLLENANIFDRTLGNTSDVISKEMYSFADKKGRIIALRPEFTASIIRAFISNGLKQHLPLKLFSSGPLFRYDRPQEGRQRQFHQLNFEYIGAVGPYSDAETISMASRLLSELGLSNDIILELNSLGCSESREKYQLALVEYFKKYESELSSDSKQRLEKNPLRILDSKDAGDIKLSANAPLITSYYTNDAAKYFDDVKSYLDILKVKYTLNPRLARGLDYYCHTAFEFTTKKLGAQGTILAGGRYDGLTKLMGEEEIPAIGFAAGIERIALMGNFTPKKIRPTVIMPIGDECFDYCINLAQQLRNKNITTTLSSSGKIAKRMQSALNTNAKYVIFVGSDEQEKGLCKLKDLDQNSELEVEISKLADIILKT;locus_tag=LOCUS_04290;gene=hisS;EC_number=6.1.1.21;note=Q9ZDL9 histidine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:54.3%25%2C q_cov:99.3%25%2C s_cov:99.5%25%2C Eval:1.7e-132],MGA_435
sequence10	MetaGeneAnnotator	CDS	22063	23082	.	+	0	ID=MGA_436;product=glycosyl transferase family 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886288.1;translation=MRIFNIMMSRDLGGIQQAYIDYNDALLSQNHEVINIASAKAQINDQLTPAHTLPNLAQWCFLSKIYLGILIQKYKPDIIICHGNRAINFVYGSLKPKNTKIVGVSHNYSYKKLKKCDFIITLSNDLRENLIKHDISQDKLLHLSNMVRIEKPYSPTPYNNPITIGSLGRFVEKKGFAYLIESIKLIKESGHNIRLIIGGDGKEKQNLNQLVSKLNLSKDVDFVGWVSDKDAFFDKIDIFCLPSVSEPFGIIVLEAIEHSKPVVATNSGGPQEIIRHEQDGFITNISSAEDLAKYLTLMIENPERANNMSKSAYDRLKTNYDIKIVAKRLSQILSNLDKK;locus_tag=LOCUS_04300;note=WP_010886288.1 glycosyl transferase family 1 (Rickettsia prowazekii str. Madrid E) [pid:51.0%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:2.3e-89],MGA_436
sequence10	MetaGeneAnnotator	CDS	23083	24345	.	+	0	ID=MGA_437;product=putative zinc protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05945;translation=MTFNSSKLNNGLNIVTYSMPHVNSVSINIIVKVGSRYESEKEAGISHFLEHMAFKGTKTRSAIEIAKEFDSIGGHFNAYTSRENTVYYTKVLKQHTKQAIGILADILQNSLFEEEDIKKELSVISQEIAGVKDCPDDLVFENFYELAYTGHPLGRSILGTYDNIAKFDKNSFQDYINKHYCAENIYISVAGNIDHNEAVSIAQDLFSSFPTKSSRKQEKSRYSGGFKITEKPLEQTTIALGFESVSYKNLEDFYHAQILSIILGGGLSSRLFQTIREKHGLAYGIGSGVNAFCDSGIFSIYAASDHRNVQMMIDKIVEEISKIRENISQEELDRAKAQIESNIYMAEEKTEYKSEEVGKNFALFGKYFPAKQVMDIISATQINDLKSSANKIFNTSPTLATVGDKLDNFNFNNMCDNLLK;locus_tag=LOCUS_04310;EC_number=3.4.24.-;note=O05945 putative zinc protease (Rickettsia prowazekii str. Madrid E) [pid:53.1%25%2C q_cov:95.5%25%2C s_cov:97.3%25%2C Eval:2.0e-120],MGA_437
sequence10	MetaGeneAnnotator	CDS	24409	25047	.	+	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPKKKPKLLDKTLASETLQKIGHKRKNGKTKISELMEDFHENGLLLAMIFFALPVAIPLPYPPGFTTLMGIPLMILSVQMLMGSKKVRLPEKINNYELKNSTLKSISDKIVPIIENIEKYMKPRFDFASSVYCEQFVGLISLIAATAVAIPLFMTNAIPALGITVMALGLMNRDGLIIIAGFIISIVGVVIAIAAVVASWLAIKYLLFSIF;locus_tag=LOCUS_04320;note=MGA_438
sequence10	MetaGeneAnnotator	CDS	25050	25769	.	+	0	ID=MGA_439;product=phosphoribosylaminoimidazole-succinocarboxamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05946;translation=MKEKIYKGTSKTLYQSEEDYALIMSFDDSIKKANKEIINISGKGVINNNISAYIMQQLDMIGVENHFIQKNNMRQQLVQFVDVYPVQIHICTIACGRYVTDFGMEDGFVFESPIIDFRVKNKDLSYPIINEEQILSFGWLSKQELKDLKNKAMRVHDFLSGLFATAGIRLVDIKLEFGRVFNGEDFITMLIDEISPDTCKLWDMETNEKLCYEIVEDDPEKILPAYQEILGRLNINAKL;locus_tag=LOCUS_04330;gene=purC;EC_number=6.3.2.6;note=O05946 phosphoribosylaminoimidazole-succinocarboxamide synthase (Rickettsia prowazekii str. Madrid E) [pid:54.9%25%2C q_cov:97.5%25%2C s_cov:98.7%25%2C Eval:2.3e-78],MGA_439
sequence10	MetaGeneAnnotator	CDS	25951	26568	.	+	0	ID=MGA_440;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDI3;translation=MTKIIKSKYKASRRLGTSIWGDGKDPFHTRNFRPGQHGPTGRVKTSDYGAHLQAKQTVKNHYGRITEKQFRNTFKVAAKMKGNTAENFAGLLESRLDMVVYRMNLAPTIFAARQLVSHCNVRLNGKKVNIPSLRLKEGDKVELKDSAKQIAVYMEAAQKQERTVPEYLTMDPGTMSGEYIRTPMISDIPYPFEPNFGKIIEYYSH;locus_tag=LOCUS_04340;gene=rpsD;note=Q9ZDI3 30S ribosomal protein S4 (Rickettsia prowazekii str. Madrid E) [pid:63.7%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:2.0e-74],MGA_440
sequence10	MetaGeneAnnotator	CDS	26946	27995	.	+	0	ID=MGA_441;product=branched-chain amino acid transport system II carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009873894.1;translation=MVGVNNADNWLAGFIGFFCTGIILPFLGLFVIKLHRGNYESFFGEAGSIAKFAVPLFTLSLLGAFGVIPRCITVAHGGLEFLYHDISLLSFSIIFCISCYVICLNEKWMFSILGKFLTPILLLFLIILIIVGIYSGSPISLDLSATSTNFVNGFFQGYATMDLFAAFFFSSLIFKQIEALVDESSGRSIIKAALGPSIFGALLLGAIYFGFVYLGSHYKHLATDLPGELILPAIANHLLGKNGALFIAIIIIFSCLTTAVALNSIYAKYLCSFKSIGNKKFKKVLLATTALSFIISLLDFDGIAAILGPLLEISYPGLIILTIMSICTRKHQSMKMISFYAVIAFMLIV;locus_tag=LOCUS_04350;gene=brnQ;note=WP_009873894.1 branched-chain amino acid transport system II carrier protein (Chlamydia trachomatis 434/Bu) [pid:27.7%25%2C q_cov:95.7%25%2C s_cov:86.6%25%2C Eval:1.2e-29],MGA_441
sequence10	MetaGeneAnnotator	CDS	28013	28243	.	-	0	ID=MGA_442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDEIEAAKQDAANLIQSVIFTEEHQQMVATISILSGLDNEEFSFIGLSFNSHDMVVELSGDIEGTSFPITTQELE;locus_tag=LOCUS_04360;note=MGA_442
sequence10	MetaGeneAnnotator	CDS	28325	30835	.	-	0	ID=MGA_443;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCN6;translation=MAEFPKKYKFNESEKKWQNFWQEQGVYVWDEKESRENTYVVDTPPPTVSGHLHIGHVYSYTHTDFIVRYQRMKGMNVFYPMGFDDNGLPTERLVEKKRKVKASSMNREEFVAICKDVVESEEEKFQDLFNSIALSVDWNIEYRTISDTSCKISQMSFLDLMQKGQIYRDSQPMLWDPVDQTALAQADIEDKEQTTFMNDIQFTTEDGEPIIIATTRPELLPACVSVFFHPDDERYKELEGKFAISPLFGVKVPLLPDDMVDPEKGTGLVMCCTFGDQTDIQWWRKHSLPTKIIFTKWGTIDEIEFDESCLDVDKAQKFASQIKGLKIKAAREKIIEILKEEGLLLGQTEKTQTVKCAERSGAPLEILTTPQWFIKSVEHKDSMIQKSNELKWYPESMKIKLDSWTQGVALDWCISRQRYFGVPFPVWYSKRQGEEGRALLASVDQLPVDPLRDLPDGYSPDEVEPDKDVMDTWSTSSVSPQLSSHGIANGFMIDEERHNKLFPADLRPQAHEILRTWAYYTILKSHLHQDKLPWKNIMISGWCLAADKSKMSKSKGNIVVPETILEQHGADVVRYWSSSSKLGSDTAYSEDVVKNGKRLVNKLWNAAKFVSQHFDKIPDSDKKLSLEEVKEKITSDFDRYFIAKLSELVVYATGEYEKYEYATAMHKAESFFWSLFCDNYLEITKTRAYDEENNDPSGALSARLTLYHTLKTMLLLFAPVMPHITEEIYQILYSNKSIHARGNWPKLDINFGEVKAKESENLLSVLELVRKVKAQDNLSIKAPIEYIEVQNGQLSDNLIYDLKQVTSSADIRIVNKLSSDSQGLSENDISINVVYD;locus_tag=LOCUS_04370;gene=valS;EC_number=6.1.1.9;note=Q9ZCN6 valine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:63.4%25%2C q_cov:97.6%25%2C s_cov:98.5%25%2C Eval:0.0e+00],MGA_443
sequence10	MetaGeneAnnotator	CDS	30998	31759	.	+	0	ID=MGA_444;product=4-hydroxybenzoate octaprenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCN7;translation=MLAYKNDPSDLLYLLIFMVGSVITRGAGCIINDLFDRNLDKKVARTKNRPIASGAISVKEAIILLFALLLIGLLILLSLNTTSIAIGFIAIFLTTLYPLMKRITYFPQVFLGITINLGCLIGYAVLTDNISIDAMILYFACGFWTVGYDTVYAFMDIKDDKKVGIKSTAIFVENMNYKAIILGLYLTFIFLFAFATWNTVNLFLSIAIILSILGATWIVYTLDITQESNCLVRFKANNYIGFILFLGLLLEKL;locus_tag=LOCUS_04380;gene=ubiA;EC_number=2.5.1.-;note=Q9ZCN7 4-hydroxybenzoate octaprenyltransferase (Rickettsia prowazekii str. Madrid E) [pid:47.6%25%2C q_cov:90.9%25%2C s_cov:81.9%25%2C Eval:4.3e-57],MGA_444
sequence10	MetaGeneAnnotator	CDS	31809	32543	.	+	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE15;translation=MMDYTKAYAGKSQKGFDEGLRSYMLKIYNYMALALLLTGAMAYGTLNFQPLMSLMYSLGPNGEILGQTMLGMIITFAPLGIALFFFMGMGRMSVQTAQVTFWVYAALMGMSLSSLGLMYTGQSLVRTFLICSAVFGSMSLYGYTTKRDLTSMGSFMVMGLIGLIVVSLINLWLQSPAIHFATSFIGVAVFMGLTAWDTQKLKNMYYTSGGGEMGQKMSIMGAFTLYLDFINLFLYLLRFFGDRR;locus_tag=LOCUS_04390;note=Q9ZE15 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:63.3%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.1e-83],MGA_445
sequence11	MetaGeneAnnotator	CDS	421	1707	.	-	0	ID=MGA_447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTAQVVKDSYPDWQVFNGKAAQAVVFSNYAYSQKDEEMQAMADQVPEGYELFLMTDHVQEVGEASFRCVAFMNQNTKEIVFATAGSRFGMDEKGIADIYDDALMVAHNKPRKMNPAQILNDMVLDSLGDKAKEYKFHYTGHSLGAAMAEMQAADMDIKLTKKGLKAEGKGEKDQISAVTFENPGTKPMIEKMYEEAGLPKENISKLNFCEFNNRKNMINSLNEQTGRTYTIIPHSQKERNPSLTQMVFEVVSKIVGSEISPLLGKAIGLLAPGGILDDLKSEHTLDNFNEVFVKKEGKVKGKEGEVISLEEAYTGVKPVKYDKDTAEELSKLKKENGNIGKQTMSMTNADSMTGKITRLVFSNEELKKALAKIAVAVVKEVATSMVDRVMKGKGAKKSLDKAKETEPKPKLELPTVHEVAKASLSK;locus_tag=LOCUS_04400;note=MGA_447
sequence11	MetaGeneAnnotator	CDS	1832	3508	.	-	0	ID=MGA_448;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNTNKLSLKNDQSNILYKDAIKKSITFFSILFFTSLIAVSYLNAVLYANKLVSKIERIKGSSRIGFRDFILTQKNQISCFKRRVSKAKQLKNFSELLCGCSSNIFNISVIDDNRNVIYSESNHSVISALNVYNDKTLGFSFDELKENPNKIFIGDVIEDNILKRKYFFISSGIQNKNIGFNGAVLFRVDVNYLNYKLVPQKNREIFINDSLESNTESEELYNQLTASPTFTFLSKIILSNSTLSTIYYNSSLDKYLKFKYNPQTFKKSFLRNFYISTCVICILLGVLFFLYWRMILLPMKESLMMIQTNKNGKKNIDRLFNIFYNINDFNMNQSALISKQEKEQREQFAKIISIIFSIGSLAHYITSKVEVLKEDIADMSTKNNKKISSVVDFNKRLKSIERTIAVSEKDIRSLTSEYTKFTQLIKNQSREKVCISASELHEAIRIKLESQNHSQTVAMTPNIKFDINVYKSFFITLLDEILNFNKKDLILAEIKICQSKKLQFIFKKINSNFINFQNEQITLCKMLGMYNDIKVSISQDQEIVSIELNFSVYIKN;locus_tag=LOCUS_04410;note=MGA_448
sequence11	MetaGeneAnnotator	CDS	3563	3829	.	-	0	ID=MGA_449;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSERKILGERLKSIRKTAGLSRAEIAREYGFSARSIELWERGQTEIGALKLYEYLNIFKVNYGVEVSINALVNLDSDLMINQKISIK;locus_tag=LOCUS_04420;note=MGA_449
sequence11	MetaGeneAnnotator	CDS	4059	4370	.	+	0	ID=MGA_450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLSNQLKQAKIDKLNEMLKSSIELAFQSLANDIGDQLFDYESLQISLELHQKKYPEEAMNELASSLDDIFLSQMNQLTNKIHNEVSKHINLQEILYKQKIS;locus_tag=LOCUS_04430;note=MGA_450
sequence11	MetaGeneAnnotator	CDS	4446	5534	.	+	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIEIRKIIPPNLSYQYLGQKILCHRSMRFGSPRLDIIKINNKVIANNYGHGGSGWTIGPGSAEYVNQLFINSEHSKKLNYNTPISIIGAGIIGLFTAYDLCKKGFKHITIIADQFEYLVSHNAGGLLAPVSMSNDTQVQKLIDKLGIDAYKFFELIAQGKHKDFRQGASIVPTYFKNKEHSGLEPYVNVVMQPAKDVILDFNNGTTQKMIVYDDGIFIDTSLLMQELKNYLENKVKFEKQKISNFSEIQSNFIINCSGIGAIKLNRDEKLVSVQGHLIILKNQNPKHINHMIFTYLDETTNKHNQNVKRAFYISPKKLSNSSKDDIGVIGGSFIENANYKTPNTEEFEHIINNAKKFYGIT;locus_tag=LOCUS_04440;note=WP_011038761.1 D-amino-acid oxidase (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:32.1%25%2C q_cov:30.1%25%2C s_cov:25.7%25%2C Eval:1.5e-09%2C partial hit],MGA_451
sequence11	MetaGeneAnnotator	CDS	5548	6492	.	+	0	ID=MGA_452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDQYLKLFETNINEVRKIIAVEKIDEDIYKITPKSTTTKSVAIVGITHGEEVAGLHIINEILFRIIEGKINIDRDLYLILGNRKAYLKNQRYTDTDLNRSYWIESKSDKHEEQRALKIKNAIKNCSYVIDIHQTVEDTLFPFFIAPNSSSKLYNWIAYIGSDIAIIQRESSEKITTLSSYVCSQNNYGVTLEVGGNGFDAYQISLGTKIAENIIKSADKQFFQVSKNRQKPSIYKIDYHENYDKGNVKFLKKFVNFENIKKGQVIALKDNKEITAPISGQIVLYPRSWFKKNSTTAPEGIFALVNHKKNFPSI;locus_tag=LOCUS_04450;note=WP_011405419.1 succinylglutamate desuccinylase (Salinibacter ruber DSM 13855) [pid:26.6%25%2C q_cov:72.3%25%2C s_cov:80.5%25%2C Eval:5.5e-10%2C partial hit],MGA_452
sequence11	MetaGeneAnnotator	CDS	6485	7708	.	-	0	ID=MGA_453;product=putative transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCV6;translation=MKVIGQIKPILLYFLISLSTLTETVYSAALPEIADALKTEGGIAQLSTTAYYIGFAFGIFTLGRVSDIYGRRPVVLFGISFYIISTFLISLSTNIEFFITMRVFQAYGASVGSVIAQSMARDSYKGWELSYIYASVSMIMSVVPSIGSAIGGYIVEYYGHWKYVFRFLIILSGTLLLIYIKFLPETNPHIGEGRNNRFYYVLKTALKDKILLSFAFMVGAYNGVCFGFYIQAPFIFIDRLNMPPSDYGKLFLILSVANLLGGLLCKYLIKRFVNIYRIKAIGLCFSTIGCVGLLLGTYLVGPNSSLIFITLMIFVPMAIHLMGHALVVPMLLRNALEDYMKVKGAAGSIFGSLYYMMTAAVSFLISSFHSDTINNYAYLYATLLSICIILYYFTNKWKESEFKPRFR;locus_tag=LOCUS_04460;note=Q9ZCV6 putative transporter (Rickettsia prowazekii str. Madrid E) [pid:45.1%25%2C q_cov:96.6%25%2C s_cov:96.8%25%2C Eval:8.5e-97],MGA_453
sequence11	MetaGeneAnnotator	CDS	7724	8818	.	-	0	ID=MGA_454;product=ribosome-binding ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCV5;translation=MTLKCGIVGLPNVGKSTLFNALTESSNAEAANYPFCTIEPNTGTVSVPDDRLSKLAENAGSAKTIPAFIEFVDIAGLVKGASKGEGLGNQFLSHIREVDAIIHVLRCFEDVDVTHVHGKVDPLEDADVIETELIIADLESVEKRVVNLVKKAKSDKSLLPQVELLEKCKEVLSKGQPVRVLNGKVDAKELKNLQLLTSKPVLFVCNVLENEAAKGNSYSEKVAVMAKEQGANSVIISSKIEEEISTLEDAEEKQEFLESLDLEETGLSKIIKSAYSLLDLNSFFTVGPKEAHAWTFTTGAQAPQAAGIIHTDFEKGFIRAEVISYNELLEVGTETKAKELGKMRVEGKDYVMQDGDVVHFRFNV;locus_tag=LOCUS_04470;gene=ychF;note=Q9ZCV5 ribosome-binding ATPase YchF (Rickettsia prowazekii str. Madrid E) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-134],MGA_454
sequence11	MetaGeneAnnotator	CDS	9055	9339	.	-	0	ID=MGA_455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAEKQADEENVELTLEALYDVPVQVSVVLGGTTMPLSSILKLGKGAVIELERTVGEPIDVFVNNKKVAKGEIVIVDEKIGVTLTEVVINEKDFK;locus_tag=LOCUS_04480;note=Q2RWZ9 flagellar motor switch protein FliN (Rhodospirillum rubrum ATCC 11170) [pid:52.9%25%2C q_cov:90.4%25%2C s_cov:73.9%25%2C Eval:4.6e-22%2C partial hit],MGA_455
sequence11	MetaGeneAnnotator	CDS	9358	10134	.	-	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIKYEKFELEELPKSAVVNSLVHARDQEVDEIINEAVTEHLSKIVDEEDNKTEKSPELPKKDVDDSLESRNMSTENNSQKNEVEIDVEAIKEEFYQKGLEEAKAKYEAIIAENSSNSDLSEKLSQKLSLISQNIDIDSQVTKTSAEAISGIAKKLHLILPANFEEIISNGLIEKLKSFYKDGSIVLTIHPDRYDFCTEVLQSDAIPSKFKENFQIVKDDKLGLDDCILDYDETRLEYNQEQLTAEIDKIIEQLKSAR;locus_tag=LOCUS_04490;note=MGA_456
sequence11	MetaGeneAnnotator	CDS	10155	11174	.	-	0	ID=MGA_457;product=flagellar motor switch protein FliG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RWZ7;translation=MGVTAKDIAKLTGTQKVAIVLLSLTDENATKVFSLMSEDEITDISHAMSHLGAVSPEVIDSVMDQLSTALTGDSMFLGNLQSTERLLEKILDKERVSSLMDEIRGPQGRNTWEKLANVNEELLALYFRNEHPQTAALVLSKISPDHAAKVLSNLPDSFAFEIISRILSLGSVKKEVLERVERILRAEFISSVGKTQKYDSFEMLAEIFNNLDRNSESKFMSMLESNLPDAAVKIKDMMFTFDDLIKIDSKGIQRLLRDVEKSRLTLALKGAPDELKNVLFSSMSQRAAKIIEEDLMALGSVRVKDVDSARADVVAVAKQLIEAGEIDVVLNSDDDEFVT;locus_tag=LOCUS_04500;note=Q2RWZ7 flagellar motor switch protein FliG (Rhodospirillum rubrum ATCC 11170) [pid:46.8%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:2.8e-87],MGA_457
sequence11	MetaGeneAnnotator	CDS	11174	12763	.	-	0	ID=MGA_458;product=flagellar M-ring protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RWZ6;translation=MRLAAAAITLFTFLVMFVVFMTNVSNNEYAVLYTDLDVQDSAKIAEELDNRKIPYQAMFDGSTIKVHKAEVVSARLALAQVGLPNSGSVVGYEIFDKEDSIGATNFSQNIKLIRALEGELSRTISAFDQVSKARVHLVMPQREIFSKERMDPRASVVLKFKGSKRLGKSEIDAISHLVVTSVPGLEMKSVTIVDTKGRALKIGSSEESLNYSNGKNEEIRVTEEARLRKVIVDLLESTIGPGKVKAQVALDMNFDRVVTNSETYDPDGAVVRSVQSIDEREQTPVGSAGGTDASVANNIPGGGGGDDSASKFAIVEKSDQTTNYEISKTVKNYISESGVIKKMSIGILVDGHYKTDPETEETKYTPRSQEDLDKIENLVKVAVGFDDDRSDRIEVINMKFSAELDPFGDDDSDWIKEELPGLFQTLIFAIVVLLVLITVIRPIALKAFEVRKSEEYSGEGGLEGVDIAAGVPGAPGAAVPNAMTAPPADGESPETDAAKVDPIIKVNEIAGSSPQDLVNVLRKWLNEDG;locus_tag=LOCUS_04510;note=Q2RWZ6 flagellar M-ring protein (Rhodospirillum rubrum ATCC 11170) [pid:36.0%25%2C q_cov:99.1%25%2C s_cov:96.9%25%2C Eval:3.7e-90],MGA_458
sequence11	MetaGeneAnnotator	CDS	12851	13207	.	-	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596909.1;translation=MSDEIKQYLDPGKKNLIFIYILYLCGIIVPILPIVGAVFAFANKTNSNKLYQSHYIFAFRSFCFGIAGAFVAMITTFIFIGPILYMLIFVWFVVRSIVALQYLLEEQPHPNPLTFWIK;locus_tag=LOCUS_04520;note=WP_004596909.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:45.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-32],MGA_459
sequence11	MetaGeneAnnotator	CDS	13211	15877	.	-	0	ID=MGA_460;product=aconitate hydratase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCF4;translation=MSKNLESKYAKKQSFDGVDYTIFDVKQAAIDCDFEIEKLPYSLRVLFENVVRNSSDKESLLIFKRWLKERKSTEEINYMPARVLMQDFTGVPAIVDLASMRDAMKTLGDSPHKINPLIPVDLVIDHSVQVDSFGKKTSFAENVSKEVERNKERYQFLKWGQKNFSNFRVVPPGTGICHQVNLESLAQCIYIEEGQEALVYPDTLVGTDSHTTMINALSVLGWGVGGIEAEAAMLGQPLPMILPEVVGFKLSGELESSITATDLVLTITQMLREKGVVGKFVEFFGPGVENLTLADRATVSNMAPEYGATCGFFAIDYETLKYLRLTGREEHNVKVVEEYAKLQGMWRDAHEPEYTDMLELDMSTLTPSLAGPKRPQDRVNLSDMQQNFIDSLEDLAGAGADLSVKHQIAGTENSIGHGDLVIAAITSCTNTSNPSVMIAAGLVAQKANKLGVNVKPWVKTSLAPGSQVVTEYLNKSGLSWDLDKLGFNLVGYGCTTCIGNSGPLDSEIDKVIKDNELAVASVLSGNRNFEGRVHPHVRANYLASPPLVVAYAIAGTVNIDLDKDPIGKTESGDDVYLKDIWPTREEIREHVETSITPEMFAEKYKDVFKGDENWQSIIAEETGTYDWDKSSTYINNPPYFENIDKENQSLADIKEARMLAFFGDSITTDHISPAGVISKTSPAAQFLMDRGVSPAGFNSYGSRRGNHEVMMRGTFANVRIKNLMCKGIEGGVTINQETGKQMSIYDAAMSYKDSKTPLVILAGKEYGTGSSRDWAAKGTNLLGVKAVIAESFERIHRSNLVGMGVLPVAFNSGMTIDDLSLEGNEKISILGINDEIQPYQPLKLFVQRSGGNNETIDVTLQIYTDNEIEYIKHGSILGSVIKNLSEKS;locus_tag=LOCUS_04530;gene=acnA;EC_number=4.2.1.3;note=Q9ZCF4 aconitate hydratase A (Rickettsia prowazekii str. Madrid E) [pid:64.0%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_460
sequence11	MetaGeneAnnotator	CDS	16022	16627	.	+	0	ID=MGA_461;product=cytochrome c biogenesis ATP-binding export protein CcmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCF9;translation=MLSLQSLSFIAQDQKIFQDISLTLFPSSIVYLKGKNGSGKTSLLRMLAGIQKPTSGDITYGKESISINKFDKPFCTYIGHKTGLKQELSVIDNLKYWAQLYNAEELVDAAIIYFQLQEHAYKKCYELSAGNQKKVALSKLITCQSKFWLLDEVDTNLDDANKKLLINLIVSQADSGGIVFISSHNEPEIKTALTINLSDYT;locus_tag=LOCUS_04540;gene=ccmA;EC_number=3.6.3.41;note=Q9ZCF9 cytochrome c biogenesis ATP-binding export protein CcmA (Rickettsia prowazekii str. Madrid E) [pid:53.3%25%2C q_cov:98.0%25%2C s_cov:98.5%25%2C Eval:7.2e-53],MGA_461
sequence11	MetaGeneAnnotator	CDS	16638	17276	.	+	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDQ7;translation=MKAIIKHELKIQNKINNLIKYTAIFLIFCTFSITLINSQENVQAFGIIFSVICIPLAFIGLTHGFIKADIEDGSLESSLASVHAHKIIFAKYIALCICTLISFTLIIPIIFILYNISTENFIAIIFSGIILITLSAALALLTSSVQGYFRTNTNFLSILIMPLIIPNIIISGLFIQTPEDIYLATIMFGINLVIIPPSMYLSSYLLENIYNI;locus_tag=LOCUS_04550;note=Q9ZDQ7 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:41.6%25%2C q_cov:98.6%25%2C s_cov:96.7%25%2C Eval:2.4e-41],MGA_462
sequence11	MetaGeneAnnotator	CDS	17375	17782	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLQMFLGKLKLLLKNPMVIFIYGIMAKWYVMIMVAAIVVTFWVFTGLKNSGFLEEAEKVVSKALDDSKSVARYCVPKIMSFSDFWDCLESPPKYVPTKNEKAFEEGLTDLLDFNSYDQSKDPYADTGSDKSSSAN;locus_tag=LOCUS_04560;note=Q9ZDQ6 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:35.2%25%2C q_cov:63.0%25%2C s_cov:59.9%25%2C Eval:6.0e-14%2C partial hit],MGA_463
sequence11	MetaGeneAnnotator	CDS	17836	18372	.	+	0	ID=MGA_464;product=ubiquinol-cytochrome c reductase iron-sulfur subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDQ5;translation=MSDDTMPDDPDKTTRRDFMTLTASGMTAVGAACAAWPLVDSLNPSADVLALSSIEVDIGHVEPGQTMTVKWRGKPVFITHRTEAQIKEAVDTPLKDLIDPEEDSARVKDGHSKWLVTIGICTHLGCVPLSNKGDYDGWFCPCHGSHYDTSGRIRKGPAPLNLAVPPYEFISDTKIKIG;locus_tag=LOCUS_04570;gene=petA;EC_number=1.10.2.2;note=Q9ZDQ5 ubiquinol-cytochrome c reductase iron-sulfur subunit (Rickettsia prowazekii str. Madrid E) [pid:71.9%25%2C q_cov:93.8%25%2C s_cov:94.4%25%2C Eval:1.7e-70],MGA_464
sequence11	MetaGeneAnnotator	CDS	18375	19613	.	+	0	ID=MGA_465;product=cytochrome b;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O54070;translation=MNKTDSHTTHKKRTGIIGWIDYRLPIFSWLDHFAIYKTPKNLNYMWSMGSIAGIALVIQIVTGIILAMHYTPHVDHAFDSVEKIMRNVNYGWLIRYMHAVGASMFFVAVYLHIFRGLYYGSYKAPRELLWQIGLVIFLAMMATAFMGYVLPWGQMSYWGATVITNLFSAIPVIGDSIVTWLWGGFSVDNPTLNRFFSLHYLLPFIIVGLVILHIWSLHTHGSNNPTGVKLKNEDMVPFHPYYTVKDFVGFGVYFLIFAYFIFYKPNLLGHPDNYIPANPLVTPAHIVPEWYFLPFYAILRAVPSKLGGVLLMFGSIIILFFLPWLDRSKVRSATYRPLYKWAFWAFVIDCLVLGYVGGMPAEEPYITISRIGASYYFFHFLIIVPFIARFEKPLPLPHSVEEEEHMHEDDII;locus_tag=LOCUS_04580;gene=petB;note=O54070 cytochrome b (Rickettsia prowazekii str. Madrid E) [pid:79.2%25%2C q_cov:94.2%25%2C s_cov:97.7%25%2C Eval:5.2e-195],MGA_465
sequence11	MetaGeneAnnotator	CDS	19623	20378	.	+	0	ID=MGA_466;product=cytochrome c;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599373.1;translation=MLKRILTTIIVILISGNCYAAGGAKKPIQMVWPFEGVFGTFDRQAAQRGAQVYLEVCSACHGLNHLYYRNLIDLGFSEAEIKEIASGKLVLDGPDDMGEMFERKAVPSDIFVSPYPNEEAARAANNGAYPADLSLIIKAREDGANYLYSLLTGYQQPPEDVVLMHGLYYNPYFEGGQLAMPAPLATDQVEFMDGTPATIEQMSRDVTIFLQWAAEPEMEHRKSMGLKVMIFLVIFTVFFFIAKKKLWRNVK;locus_tag=LOCUS_04590;note=WP_004599373.1 cytochrome c (Rickettsia prowazekii str. Madrid E) [pid:62.5%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:5.4e-89],MGA_466
sequence11	MetaGeneAnnotator	CDS	20583	21005	.	+	0	ID=MGA_467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIDQCKIIKLNEHVSKTGNLTTFENGELENFFISRIYFLNKLIEKQPRGNHAYLNVSQVIIPISGKISIEVNDGQNSKTIYARESSEGVYIPINIWRKITPLTADTLILVLANKLYKDCKKISNYKEFISHSKNFTGTL;locus_tag=LOCUS_04600;note=MGA_467
sequence11	MetaGeneAnnotator	CDS	21069	21353	.	-	0	ID=MGA_468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVELNVFDTPVILRVNLHSGTIAKAENFPRAKKPAYKIWADFGAEIGGLKTSAQVTLHYVPNDLVGRQIVGCVNLGEKNVAGFKSQFLLVGYT;locus_tag=LOCUS_04610;note=WP_010948249.1 tRNA-binding protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:66.2%25%2C q_cov:85.1%25%2C s_cov:72.1%25%2C Eval:9.6e-28%2C partial hit],frameshifted%2C insertion/deletion at around 21071,MGA_468
sequence11	MetaGeneAnnotator	CDS	21311	21496	.	-	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFKVIGEKTSVRINLSEDLNLVLKMLGAYYRGDNDDKSASVAAPTLMCLLSLTSLIHPLF;locus_tag=LOCUS_04620;note=MGA_469
sequence11	MetaGeneAnnotator	CDS	21460	22206	.	-	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886269.1;translation=MKSVSKDSLVLFDVDDVLISPTDEFNFRNKIRKDLKKEISQNKSKQEVQVIFSDFFLKRKVKLVNENMPKLLKFLKDKKISVSALSSWWTDNFGTIQEMEKQRLKELQQVKISFADLSPFNKGISLTPDKTAHGGTPMIISGIILTALGDKGEVLGLALKSINKKFKRIIFIDDQKKYLEEVEKFCKGHGLDFVGIHYTESWLAPIPEFDFAKEKLRFNILKEEHVWLSAPELQERLWLLKSLVRKPA;locus_tag=LOCUS_04630;note=WP_010886269.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:33.1%25%2C q_cov:96.4%25%2C s_cov:86.5%25%2C Eval:1.1e-30],MGA_470
sequence11	MetaGeneAnnotator	CDS	22370	22939	.	-	0	ID=MGA_471;product=peptidyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCV4;translation=MFLVVGLGNPGAKYNNTRHNIGFIAADILSGRYNFIWSTKSKFNAEIAVGDLEFGKVVLCKPNTFMNLSGASVLPLASFYKLKPENIIVIHDDVDVPLGRVKYKIGGGAGGHNGLKSIDSNIGINYHRIRIGVGRPEDPRYDISDFVLGKFSRDEEEIALITIHKILDILPLLYEGKIEEFKKEISGIK;locus_tag=LOCUS_04640;gene=pth;EC_number=3.1.1.29;note=Q9ZCV4 peptidyl-tRNA hydrolase (Rickettsia prowazekii str. Madrid E) [pid:50.3%25%2C q_cov:97.9%25%2C s_cov:99.5%25%2C Eval:1.1e-49],MGA_471
sequence11	MetaGeneAnnotator	CDS	22939	23583	.	-	0	ID=MGA_472;product=50S ribosomal protein L25;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCV3;translation=MSEVLTLAAEMREELGTGASRALRKRGMVPATIYGAGKEPMSIAVEEKELTKYYRKPQYISQVIQFEIGQKKFKVLPKAIDLHPITEIARHADFVFLENKLQKMEVPVVYANKENCIGIKRGGYFNTVKRSLTLLCPVDNLPRKIEIDVTDMPISTSLKAKEVVLPEGTKLIGDPEFVIASIIGKRGRSTDIDDDSAGQGESEGEAAADKAEEK;locus_tag=LOCUS_04650;gene=rplY;note=Q9ZCV3 50S ribosomal protein L25 (Rickettsia prowazekii str. Madrid E) [pid:61.5%25%2C q_cov:89.7%25%2C s_cov:94.6%25%2C Eval:6.4e-66],MGA_472
sequence11	MetaGeneAnnotator	CDS	23742	23909	.	-	0	ID=MGA_473;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSFSTFEYLPDIKPITTLKSDESTLKNTKLNIAIEISVVFSILLIGYDYLLYQD;locus_tag=LOCUS_04660;note=MGA_473
sequence11	MetaGeneAnnotator	CDS	23872	24738	.	+	0	ID=MGA_474;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886296.1;translation=MSGKYSNVEKDSIASLLFYFVAPIVFFAIPTSANLTFSSLGITLLTFTLCTMLGFFSYWLYGKIWQDSHRNILALSAGTGNSGYVVLPIATVLFDDYTLSIYALGLIGISIYEASIGCYFCARSVTTFKQSVLKVAKLPLLNAFFLGCTMSLMGFKLPDFFDEFVNNMKGAYSILGMVTIGLALSGIKNFKLDVKFTGAAFASKFLFYPILFNVFILLDRFIFGQLDTNYYNALQLLCVAPLATNTIVLASLYKIYPEKVATAVLLSLLFVLIYMPVMSAIFLQNIVI;locus_tag=LOCUS_04670;note=WP_010886296.1 permease (Rickettsia prowazekii str. Madrid E) [pid:61.9%25%2C q_cov:99.3%25%2C s_cov:92.6%25%2C Eval:1.1e-102],MGA_474
sequence11	MetaGeneAnnotator	CDS	24797	25741	.	+	0	ID=MGA_475;product=thioredoxin reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD97;translation=MEKSTIKAKVLIIGSGPAGLSAAIYAARASLEPTLIHGMQPGGQLTITTDVENYPGFAKTIQGPWLMQEMEQQAEHVGTKMVHDYVEKVDLKNKPFKAYTSSGDVYEANSIIISTGAQAKWLGLDSEQEFQGFGVSGCATCDGFFFKGKKVAVVGGGNTAVEEALFLTNHASKVYVIHRRDAFRAEKILQERLFANDKIEVIWDHTLEEVVGEKDPKAVTGIKVKNVKDGEIKDIKCEGVFIAIGHKPNTDMFKDQIKMDEEGYILTAPDSTETNIPGVYAAGDVQDKIYRQAVTAAGTGCMAALQADKFLRGI;locus_tag=LOCUS_04680;gene=trxB;EC_number=1.8.1.9;note=Q9ZD97 thioredoxin reductase (Rickettsia prowazekii str. Madrid E) [pid:67.0%25%2C q_cov:97.5%25%2C s_cov:98.7%25%2C Eval:1.3e-120],MGA_475
sequence11	MetaGeneAnnotator	CDS	25747	27189	.	+	0	ID=MGA_476;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD08;translation=MSKALTEDDLQRKVPANFNAEQMLLGAILINSDLIEQVSEFLKPEHFYEALHQKIYNAIEILNEKGLSATPITVRSMLDKEPLYQEANGDEYLIKLTTLAMVVINPKDYGKIIYDLAIKRSLIQIGEEIVNDAYESTLEQSATEQLETAESKMYHLASEGLNDKGFVAMRDPVAESLDSINRAMKNSDHVTGISTGLVDLDNKLSGFQNSDLVIIAGRPSMGKTAFAINFAFNACKALNAKAKEGEKQPSVGFFSLEMSSEQLASRLLSMMARVDSSNLRSGKVNEEHYNDLRKAASELAEMPFFIDDTPALTISAVRARARKLKRKHNLGIIFVDYLQLMRGSSNSDNRVLEVTEITQGLKAIAKELNIPVIALAQLSRAVEQREDKRPILSDLRESGSIEQDADVVMFLYREEYYLKRKEPAPGDPKYTEWQQKLDKAHNIAEVLVAKHRNGSVGNVQLFYVDKFSSIGNLEKMHTQT;locus_tag=LOCUS_04690;gene=dnaB;EC_number=3.6.4.12;note=Q9ZD08 replicative DNA helicase (Rickettsia prowazekii str. Madrid E) [pid:65.0%25%2C q_cov:98.8%25%2C s_cov:98.1%25%2C Eval:2.5e-175],MGA_476
sequence11	MetaGeneAnnotator	CDS	27207	28289	.	+	0	ID=MGA_477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKPVIFGISGTNLTDDEINLFKENEAIGFILFARNIGTKQQVKDLTTELKALYPHKQTPIFIDQEGGRVARIKPPVAKTLFPSAEHFAINYQSSKIQAKHELKANYIDLMSELKEFGIDSPCAPVCDLRFAGASDVIGDRSFGESPEQVIDLCKTAITGISHAGGIPFIKHIPGHGRAKVDSHFELPIVEDSLEILEETDFAIFRALADEKVWGMTAHIIYEALDPDNTATTSSKAINYIRNNIGFKGTLVSDDICMYALHGSIGKRNAILKRVLNLATQNKQWKEKYAEQLEKTFSFDTYEIGNPIIIEQCEKKLLEIKPVFLESLAKVTRMTLDAGCDIVLHCSGDLEEMQAVCKEL;locus_tag=LOCUS_04700;note=A9CIR0 beta-N-acetylhexosaminidase (Agrobacterium fabrum str. C58) [pid:44.2%25%2C q_cov:74.4%25%2C s_cov:79.0%25%2C Eval:6.8e-55%2C partial hit],MGA_477
sequence11	MetaGeneAnnotator	CDS	28320	28958	.	+	0	ID=MGA_478;product=superoxide dismutase [Mn/Fe];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD15;translation=MTYCDHSNQDEYPFKLPELPYEKDAFEPHFSPETFDYHHGMHHNAYVTNLNNLLEDNKEMLGLDLEQIIKTSHNTNNAIFNNAAQIWNHTFFWHSIKPGAGGAPSDDMLDKIIEDFGSYDKFAKQFKQAAMTQFGSGWAWLVLNENNKLEIVKTANAETPLTDGMSPLIACDVWEHAYYIDFRNKRPDYVSVFLDHMVNWDFASMHMHRAMQ;locus_tag=LOCUS_04710;gene=sodB;EC_number=1.15.1.1;note=Q9ZD15 superoxide dismutase [Mn/Fe] (Rickettsia prowazekii str. Madrid E) [pid:60.6%25%2C q_cov:95.3%25%2C s_cov:96.7%25%2C Eval:1.0e-76],MGA_478
sequence11	MetaGeneAnnotator	CDS	29095	29328	.	+	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKSKTKQKEALTKHTDLTPSEKHFGDVISGLCSVGVPSHSFTSSSLGLGLSLQPPIDKNDQVVMYALGDHTGIAEG;locus_tag=LOCUS_04720;note=MGA_479
sequence11	MetaGeneAnnotator	CDS	29358	29783	.	+	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000779367.1;translation=MNHQLPDFIYNLGNPLGVVLDNESKEYNACDFLLNGERIKFRQAKTTPKKSGQFVTLWKRTKNGPIAPYDINDEFDFVIIRSKNGYFSFPKSVLINQNIVSSKNSGGKRAFRVYLPHETNLNKQAIKTQNWQKKYYITNSS;locus_tag=LOCUS_04730;note=WP_000779367.1 hypothetical protein (Leptospira interrogans serovar Lai str. 56601) [pid:44.4%25%2C q_cov:95.7%25%2C s_cov:83.6%25%2C Eval:6.0e-25],MGA_480
sequence11	MetaGeneAnnotator	CDS	29853	30764	.	+	0	ID=MGA_481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNSITQGSITPIHKYSVYMASTEVTLGGILHAARIPLTGYILSLFQAFCLAKAHRSDNGLFTSFYVSTTVSILKTLTPVGKKVGPMVAIIAQGTLFNLGVLCLGNNIAGHVFGAVLLSFWGFIQPTLFMYLIFGQDLLAGLSTMEQRIDLYIPGFSFQILLIIIVCLKTFLASLAVLLARSSLPIETLIQEKLLSKYNILKQNSKRKNRSALVSIYKDLTNFWYLFSFTIVGLFTWWQQSEAMTVFFIMTNYLAYSIIFFMLLRVLNLQKFSDYLKHLGFNKLSSTVKNTLDSIEDIIFGHC;locus_tag=LOCUS_04740;note=MGA_481
sequence12	MetaGeneAnnotator	CDS	7748	9145	.	+	0	ID=MGA_483;product=cytochrome ubiquinol oxidase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598577.1;translation=MLDLDPVLLARIQFAFTVSFHIVFPAFTIGLASWLAVLEWRWLKTGYQIYQELYKMWIKIFAVCFGMGVVSGVVMSYQFGTNWSVFSDRVGNVIGPLLGYEVLTAFFLEASFLGIMLFGWGRVSKKMHFISTCIVAIGTFISAFWIISANSWMQTPQGFEIGSDGLLYPTSWFEIIFNPSFPYRLVHMLLAAYLTTAFTIGGISAYYLWRNVHVKHAKIMFAMAMLMAVFVAPIQLLAGDAHGLNTLEHQPAKIAAMEGVWETERGAGLRLFAIPDQEGETNHYEIIIPKLASIILTHSLDGEIKGLKEWKPDDRPPVTITFWSFRIMVGIGFAMIFTGLVAVILFFRKKLFETKWFQYWCIAMTPSGFIALLAGWFVTEVGRQPYVAYGIIRTSEGVSPVISEQIAITLLLFIITYLFVFGAGSFYIIKLIRKGPQIANDDEEFYSHSIEASITKKLTTQKVEE;locus_tag=LOCUS_04750;note=WP_004598577.1 cytochrome ubiquinol oxidase subunit I (Rickettsia prowazekii str. Madrid E) [pid:61.3%25%2C q_cov:96.1%25%2C s_cov:98.7%25%2C Eval:4.0e-170],MGA_483
sequence12	MetaGeneAnnotator	CDS	9148	10167	.	+	0	ID=MGA_484;product=cytochrome D ubiquinol oxidase subunit II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886238.1;translation=MLDFSAYIDLPFIWGFIIATAVFLYAALDGFDLGCGIIFPFAPSDKCRDSIMNSIAPFWDGNETWLVLGGGGLFASFPLAYSILMPAFYIPIMLMLLGLIFRGVAFEFRFKASSDHRKIWDVAFHGGSLMAAFMQGIILGNFVQGVEVDGRNFAGGALDWANGFSVIAGLGVVFAYALLGSTWIIMKTNGITQEWARKVASYVLVYVAISMGTISISMPFVEERIIKLWFSMPNFFYLLPIPLLTLVGFIRLWLDLRSDKETRPFVITLILFFLGYLGLGISLYPWIVPFKFTIWQAAASSTSQSILLIGTAIFLPIILCYTAYSYYIFRGKTSSDPMY;locus_tag=LOCUS_04760;note=WP_010886238.1 cytochrome D ubiquinol oxidase subunit II (Rickettsia prowazekii str. Madrid E) [pid:61.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-123],MGA_484
sequence12	MetaGeneAnnotator	CDS	10331	12565	.	-	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQVGNYLPSFEQLMTLYSSYNYFGKESLPITASTSLVDGAMAKYFGTTRHYAGLSGFWGYIAYKAISNLDASEYVSSKYKMPMKLFFALSAISMVWKGNDFLASENQDFSKMLRSASVSAKLFESDQQEVTKVEQAFSKNTFSGLSEIAKNFRALLSNKFLVNLFVKQGVNIAKLIVLEKFLSGLVSNSKLSIYYASNEKDGLQKVFKNLVLSAIRFIIDSGANIFVAKKLSIDEEVSIKVSELVLNEEVTPVVMKLKNDVNSFADDMKSANQTVSSEITHLSQKLIVPYIYANNTPSSDNLSSIIELYPNLILFENVMSSVLSQDNIRALYQYLVGDSSKETTPGPGVGKTVIQTGNGGPTITMQISAEQYAYRNLQDIARCGGNKFMLNQVKKYIYGQNSTNNFDSNFVLSLFEYVRTFFNDAMFFTLLPSLNISSPEDIQKIEILLQRLNSVLQPSTFNGNITTSFGGDSLDTLSRCEKTYKALTNPKQIGIASRGLEKDFSLRIENYNLKNTSISKDMLYIKDLTLKPGYIYAISGKIGTGKTTFLSDIANCLNSGVFESSGTIYYPTVNGKKIPMIFCDPTPFSSPDTTLFERLTYRLPQQYVDSNATSLAKEILDLFKMFGQNSFSEKTLSSKEFKGSTGQGKITILIAAIICKHYLNSPVLFTIDETLANLDRGTFGSVCKIIKSEFEDSIVVSVDHNWENSDGFYDRNIDLSSYAPDNDEVKMGGESSLDLVLVE;locus_tag=LOCUS_04770;note=MGA_485
sequence12	MetaGeneAnnotator	CDS	12648	14147	.	-	0	ID=MGA_486;product=cytochrome c biogenesis protein CcmF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598889.1;translation=MILAFIQILFCSFIIFTSSPFDPLSFTPEEGLGLNPMLQDIALAIHPPLLYTGLVSYIGLFAGGILLLYKPLEKKEILQINKTFSSFALMALTAGIGLGAWWAYRELGWGGYWFFDPVENISLLPWLSAIALHHFILLSMRKDQYISWTIFLSLLCFLLTIYGTFIVRSGIISSIHAFAFSPERGLYIFSICGVLTILSLGVFFWQKSSIPTMPAKYSIKSYGILFGNILWLAALVSLIISLIYPIYCLLIDGTDVVIDPEYFKKVYIPIHIPILILTAITPSLLRTDYTKKILIFVTAITISFGLAKWLNLTFMAQIFSFASAYLLIHSCDYLVQESNYFSRTLQAKSYALFFGHFGFGLLALSITLNVSLSREVEFIGRTGKRIEDQGLVVKLENIKFADSETYFRQIAEFSIESPDNKITILKPENRLYKIENILSQEVDIYSYLFHDTYAVLSQIDKKKIVYAKIHYQPLISFIWLSIALMSFGFMLLLFRKNKQ;locus_tag=LOCUS_04780;note=WP_004598889.1 cytochrome c biogenesis protein CcmF (Rickettsia prowazekii str. Madrid E) [pid:43.8%25%2C q_cov:99.6%25%2C s_cov:78.7%25%2C Eval:6.2e-116],MGA_486
sequence12	MetaGeneAnnotator	CDS	14482	15753	.	-	0	ID=MGA_487;product=hemolysin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598888.1;translation=MLFIVVSFIAALLGLAALISATETAITATSPGLIQKLKSEGNKKAELLLGLLKIKEKVISTLLIGNSIANTLCTTIATGVFIETFGDDMGTLISSIVMSFTIIVFSEVIPKAIAVAKSEKVALMATPVLLVFLKILQPINIALGYITRGFCFIFRIDLKQKVSAADEVRGVIEHHLSEGNVFKDDRDMLGGILDIRNLVIADIMIHRSNIVAINIDTPTDKIIKTVLSSNHTRIPFWEDNHDNIIGILHVRDLLSKIYDTKSKNTEIDVRSLLSDTVFVPDNSLVTQQLQMFREGQTHLACVVNEYGDLQGIITLEDILEEIVGQIYDEHDTGKSKIKAKSENEFIIDGSVPIRDLNREFNWQIPESDATTLAGFIITKMERLPNQGEFLIEKNLKMIVKKKSENRIKTIQVFIQKDTEEKSD;locus_tag=LOCUS_04790;note=WP_004598888.1 hemolysin (Rickettsia prowazekii str. Madrid E) [pid:54.5%25%2C q_cov:99.3%25%2C s_cov:98.8%25%2C Eval:3.4e-128],MGA_487
sequence12	MetaGeneAnnotator	CDS	15871	16800	.	+	0	ID=MGA_488;product=flavin-dependent thymidylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDM6;translation=MTNDSELKELLETKNTTKRVVAPALEEMLYKPIPVLDHGFIRVVDYMGDDSSIVQAARVSYGRGTKKSLQDKGLINYLMRHRHTTPFEMCDIKFHIKLPIFIARQWIRHRTASVNEYSARYSILSNEFYVPKKVNLSAQSTINKQGRSDDELPDDVADKVLALIKDDSEKCYRHYVEMMNEDDQGNIIDENTIGITRELARMNLTLNHYTEWYWKINLHNLLHFLALRADSHAQYEIRVYAQAMLDVVKAWVPYAYEAFVEHSMNGTNISRKGMEVIRQMIDGKEVSQESSGMSKREWSELMAVIENSK;locus_tag=LOCUS_04800;gene=thyX;EC_number=2.1.1.148;note=Q9ZDM6 flavin-dependent thymidylate synthase (Rickettsia prowazekii str. Madrid E) [pid:72.4%25%2C q_cov:93.9%25%2C s_cov:98.6%25%2C Eval:2.0e-126],MGA_488
sequence12	MetaGeneAnnotator	CDS	16873	17793	.	+	0	ID=MGA_489;product=tRNA dimethylallyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD37;translation=MNKAIIICGPTASGKTDFAHKLALKNNGEIVNADSMQLYKQLPIITASPDQKLKDQLPYHLYNFQDIDQELSAAKYVDMASEVIRTISLKGKLPIIVGGSGMYINMLANGYSVIPEIDEEIRRYARLLHKEIGAELFFEELKKLDPKIIKNLNISDTQRTIRAYEVMKQTGKSILDFQKEKNFEPLPDFKFRIIFLLPERNFLYETCNKRLKILFDSGGVEEVKLAYKNFGDIQTTGMKALGVQEIIQYIKGAISLDDVIELASAKTRQYAKRQTTWFKKQIKVDQIINFSSIKEYSEEVESFYLK;locus_tag=LOCUS_04810;gene=miaA;EC_number=2.5.1.75;note=Q9ZD37 tRNA dimethylallyltransferase (Rickettsia prowazekii str. Madrid E) [pid:47.3%25%2C q_cov:96.1%25%2C s_cov:94.5%25%2C Eval:2.1e-75],MGA_489
sequence12	MetaGeneAnnotator	CDS	17994	18587	.	-	0	ID=MGA_490;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLSDLTKKDYFVVSKNDILLNALSDNTDYIFNNYHSINSFEKADILIIDTKEDLDISSLFRANIVINLTKEKILKREIEIQKPFFLQDIVHIISKNAKDTSLFCPINHSWIYNERASVLLSKNSEIVLTNKENDLFKAILISNEFTTDKESLQQTVWDHHRDTESTTIETHIYKLKQKLPKGLLEIKNSNYFLNLN;locus_tag=LOCUS_04820;note=MGA_490
sequence12	MetaGeneAnnotator	CDS	18588	19373	.	-	0	ID=MGA_491;product=UPF0176 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P41087;translation=MDNHENKIAILSFYTFTNINDPAILQPQILLRAKKKFIYGTVLVAPEGLNGSISGKEEDLHYLIKEMRKLTGAKEISVKVNYCDKQPFTKAKVKLKKEIVALKYSDLDVENLKGEYIETKDWDDFIKRDDVITIDTRNNYEVKVGTFEGSVDPKTETFREFPEWTKQNLDMLKDKKVAMFCTGGIRCEKSTALLKDMGVKEVFHLKGGILQYLEDTKNVNNTWKGECFVFDDRGAVSSDLSPSEGFWVEKGQTAKGVSNSK;locus_tag=LOCUS_04830;note=P41087 UPF0176 protein (Rickettsia prowazekii str. Madrid E) [pid:57.4%25%2C q_cov:93.5%25%2C s_cov:98.8%25%2C Eval:4.3e-84],MGA_491
sequence12	MetaGeneAnnotator	CDS	19402	20838	.	-	0	ID=MGA_492;product=putative periplasmic serine endoprotease DegP-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05942;translation=MKILGKLLVYIIILARVSSVSAAAPTQITSFADIIEPLMPSVVNIYTVKYSRQPNPKAASLPEILPLDKFNSFFEQFNVPFSFDDISTNPSTLSLGSGFIVDPDGYIITNDHVVSGSDEIYIKLLDNTEVPARIIGTDPKTDLALLKINVEKKLPAAEFADSSKVRVGDVVIAIGNPLGFGGTVTTGIISSKSRDLGLNQDELVDDFLQTDAAINTGNSGGPLYDIHGKVVGINTSVPDINGGTNIGIGFAIPANTVIDIMKQLKEKGKISRGRLDIGIQEVTQELADAMSLKEASGVLVVNVKPDGTGDQAGLKQGDLITKYNGHPVLNSRKLQLFVADSHIGDKVKLTVIRNSKTVILTAKITEPTEPQEAPQVLEKEDTTQKAGITFSNISPNLRSKLDIDENATGIVIVGVNEQGIVLDLRIGDLILAIDQKNIENIQEFNKIYKEQQSNSERNNVVLLVKRGDYTMFVAIPLK;locus_tag=LOCUS_04840;gene=htrA;EC_number=3.4.21.107;note=O05942 putative periplasmic serine endoprotease DegP-like protein (Rickettsia prowazekii str. Madrid E) [pid:44.3%25%2C q_cov:94.8%25%2C s_cov:91.2%25%2C Eval:3.5e-108],MGA_492
sequence12	MetaGeneAnnotator	CDS	20843	21700	.	-	0	ID=MGA_493;product=protein HflC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE25;translation=MNKLYITIIAVFSTFLLLSASLFTVDQRYTGVIFQFGEAVRIIEEPGLNIKIPLIQNVQFLDKRILDVTAEEKELTASDEKRVIVDAFAKYQIISPVKFIKTVNNYSGANLRLNKILESSMRTVIGRVPLNALLSDQRSDLMLQIRDLVHKEAGTFGIKVIDVRILKSDLPQENSDAIYSRMQTERHKEAKQIRAEGEEEAVRIKSRADKESQIILATAFMDAQKVKGIGDAESARIYNQAYSKDPEFYKFYRSLISYKKSLAKDNTQFVLSPKSEFFKYLKVGK;locus_tag=LOCUS_04850;note=Q9ZE25 protein HflC (Rickettsia prowazekii str. Madrid E) [pid:62.2%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:8.7e-97],MGA_493
sequence12	MetaGeneAnnotator	CDS	21714	22775	.	-	0	ID=MGA_494;product=HflK protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599754.1;translation=MINKLYMQIFKKSPWDDFEGDNEDNIFTKKRKDQFNLNDFNFNFSGKAIFLILAALLLIWMTSGIYKVEEGQQAIVMRFGKFHRVGLPGLNYHLPWPIEKEIIERVDQSRRVEIGYRSTGRARIGGATSARDVKTESLMLTGDENIIELNVDAMWHIKNLAQYTFNIDNPKETVKAAAESAIREVIGNTHITSVLSNKKQAIAVQIEELIQQILDQYESGVEIEQVKLLKAEPPKEVIAAYRDVQTAKADKEKVINESEAYMNDILPKARGESARIIQKAEGYKEEVISKAKGNASRFNAIYRQYAASKDVTKNRLYLETIESILEESDKIIMGGDGMLPHMSVNQKNLFEKK;locus_tag=LOCUS_04860;note=WP_004599754.1 HflK protein (Rickettsia prowazekii str. Madrid E) [pid:55.5%25%2C q_cov:98.0%25%2C s_cov:100.0%25%2C Eval:2.3e-108],MGA_494
sequence12	MetaGeneAnnotator	CDS	22853	23836	.	+	0	ID=MGA_495;product=iron-sulfur cluster carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE27;translation=MTSSNAERIKTLTDKLLFSDGSSVKSRSSDIVINKNSLGFSIDISGIDLKEAETVRQQTISLIEHNENFDKVSIVLTSSRSSKKDEHPKLHVDGVKEIVVVAAGKGGVGKSTVAALLAHKLASEGKKVGIIDADIYGPSIPHMLDLSGKPHVEDKKMIPLENYGISVNSIGFLTEPGASVSWRGPMTSKALYQLLSLTKWDDLDCLIIDTPPGTGDIHLSLLQNYIVDKVIMVVTPQKIAELDVSRAISLYRKFDVPVFGIIENMTHYIDQDSGKEIRFFTGDSSEKISQENDIPVLTKLPITPELSAACDAGIDLKKFTHLLDFNL;locus_tag=LOCUS_04870;gene=mrp;note=Q9ZE27 iron-sulfur cluster carrier protein (Rickettsia prowazekii str. Madrid E) [pid:42.7%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:5.9e-71],MGA_495
sequence12	MetaGeneAnnotator	CDS	23948	24511	.	+	0	ID=MGA_496;product=LemA protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008763440.1;translation=MFIEWMIFLVIGGALFLLIIFYNRLVKLRQNRKNAFSDIDVQLKQRLDLVPQLVSTVKGYAEHESKVFEEVTKMRAQVNPSADVAERAKAEASLSGSLMNLFAVAENYPDLKADISFQRLQTELSDIENKIAAARRYFNNATNEYNTACEQFPSNVIASMMSFKQEEFFDVPDSQREAIEKAPEIKF;locus_tag=LOCUS_04880;note=WP_008763440.1 LemA protein (Bacteroides thetaiotaomicron VPI-5482) [pid:52.2%25%2C q_cov:96.8%25%2C s_cov:98.9%25%2C Eval:2.5e-46],MGA_496
sequence12	MetaGeneAnnotator	CDS	24524	25504	.	+	0	ID=MGA_497;product=protease HtpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q64V41;translation=MKRSDIHKVGIQTSIWNNNLKSAFLLISFPFVIAMMFWGMIFAFQLVAISQDGIFWGDAAHIANDVLLQYWWVVFSGVGIWFAIAWFSHQSLINKDTKARPAVRSETPEIYNILENLCISRGLTMPKLFIIDSPVLNAYASGINQKTYAITLTTGLIEKLEKDELETVIAHELTHIMNRDVRLLIISVIFVGIISLLSEMMVRGVMRSTLYSDNSNRRKGRKGSSGAILAAVVIIILVATIGYSLSILIRFTLSRKREYLADAGAVELTKNSPALIRALQKISGNSHLEDVDSDVQQMMFDNQKSFLGLFATHPPIESRIDVLKNF;locus_tag=LOCUS_04890;gene=htpX;EC_number=3.4.24.-;note=Q64V41 protease HtpX (Bacteroides fragilis YCH46) [pid:46.3%25%2C q_cov:97.5%25%2C s_cov:99.1%25%2C Eval:5.9e-71],MGA_497
sequence12	MetaGeneAnnotator	CDS	25527	25763	.	-	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDNRKEFREIRKNIGQNIHDIRKKKRMTLKKISKLSHISVNLLDQYEIGKNQISLNSMMNIANSLEVSMKEFLNPEK;locus_tag=LOCUS_04900;note=MGA_498
sequence12	MetaGeneAnnotator	CDS	26236	27276	.	+	0	ID=MGA_499;product=phenylalanine--tRNA ligase alpha subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDB5;translation=MLEQILESAREKIKVITNSRSLQDAKVEYLGKSSQVNQEMKKLGKATPEERKTLGQKINKVKQEIQAILDEQTLAVEKAELAERFKNEKLDLTIPARPRSKGSIHPITQCLEELIQVFSKYGFDIKDGPSIEDDWYNFTALNIDENHPARQMHDTFYLNKTDESTKLLRTHTSPIQIRTMQNEEPPYRFIAPGRTYRSDSDLTHTPMFHQIEGMVVDKNIHMGHLKHVIIDFIRKFFEQSNIEVQFRPSFFPFTEPSAEVDIKMSKDDKWLEVLGCGMVHPNVLRNVGIDPEEYQGFAFGLGVERFAMLKYGIRDLRQFFEGDMRWLNHYNFSTLDIPTLAGGLTR;locus_tag=LOCUS_04910;gene=pheS;EC_number=6.1.1.20;note=Q9ZDB5 phenylalanine--tRNA ligase alpha subunit (Rickettsia prowazekii str. Madrid E) [pid:66.4%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:2.0e-133],MGA_499
sequence12	MetaGeneAnnotator	CDS	27273	29654	.	+	0	ID=MGA_500;product=phenylalanine--tRNA ligase beta subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDB4;translation=MRFTLSWLKQFLDTDATLEKIAHTLTMTGLEIEDIDNKSEDLKDFEVAEIIEAKQHPDADKLKVCMVKTKSGMLQIVCGAPNARAGIKVVLANVGTVIPNGNFKIKKSKIRGVESVGMMCSADEIGISGDPDGIIELKNEAVIGDNVAKYLGIDDPVLHINITPNRADALGVYGIARDLAASDIGTLKKLEIPTVDESFDSDVSLANNDEIACPFFAIREIKGLENKESPEWLRNYLDNIGVGSISPLVDVTNYISYTFGQPMHAYDADKISGGLTVETLSESADFKALNDKEYVLESGNIIIRDEREIHCVAGIIGGVNSSCSENTTRVILEAASFNSEYTAKAGRKLQIDTDSRYRFERNVNSEFTLSALDVATDLILSICGGSASKVISTGNAKLPVRTLDFSADFLKSRANVDLDEKEISDILTKLGFVCNIADKTINIIIPSWRYDVSIKEDIVEEIVRIHGYDNLPETPLPAADISRIIPKDQKRISDTKRLLACSGYTEIVTWSFMDSGKAELFSDLKDELKLQNPISSDLDYMRPSILPNLLKVATNNLNRSFHDLSLFEVGPIFENAGDQVINHACAVRVGSTSSKNSHGDSRKFDVFDMKSDIAILLESVGLDINKCQIKNNAPEYYHPTRSASLSLGKNILGYFGQVHPSILKAFEIDIDVMAFELNISNLPYGKDKFGKRPNYIVSDYQKITRDYAFIVDADQPVGEMLNLIRNADKKLVRAVEIFDIYSGANIEDGKKSVALSVSIQDDNKTLEEADIEKINNAIIDGIVQKFGAVLRDS;locus_tag=LOCUS_04920;gene=pheT;EC_number=6.1.1.20;note=Q9ZDB4 phenylalanine--tRNA ligase beta subunit (Rickettsia prowazekii str. Madrid E) [pid:50.1%25%2C q_cov:99.9%25%2C s_cov:100.0%25%2C Eval:1.3e-233],MGA_500
sequence12	MetaGeneAnnotator	CDS	29670	30392	.	+	0	ID=MGA_501;product=DNA alkylation repair protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014538091.1;translation=MKKVAKEIIHQINTGERESSNLMEFLAADFQRILQNTVPEFKFPKQALDVGITKKHKIIAKNLNTQFGFKIFDKLEGHKSDILRGLASYLIGEQDISFKEKLTLSEKLANDSNSGVREWAWIAIRDDFSSNLEDNIKLVIPWTASDKDNIRRFASEISRPRGVWCSHITKLREDPKIGLKILEPLKSDPAKYVQLSVGNWLNDTGKDHPDWVISLCAKWKKESATKETEKICKRALRNLQ;locus_tag=LOCUS_04930;note=WP_014538091.1 DNA alkylation repair protein (Ketogulonicigenium vulgare WSH-001) [pid:45.3%25%2C q_cov:95.0%25%2C s_cov:93.2%25%2C Eval:7.9e-50],MGA_501
sequence13	MetaGeneAnnotator	CDS	770	3427	.	-	0	ID=MGA_503;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDM9;translation=MQLEQFKEKYKYDKATPVMRQFLDVKFANIDCLVLFRMGDFYELFYEDAITAARVLGIALTKRGKTGDDEIAMCGVPYHALENYLNKLLEDGFKVAICDQLETPEEAKKRGGYKAVVNRDVTRIITPGTIIEESLLEAGEPNYLVSIAIAKNNAALSYVDLSTSEIAVISVPEGQIINELARLKPKEILLAEKYRASELASQIGSMLNMRISFQVDSFFAVNKCRKNLLDFYQIKDLGAIGELEEIHISAVGGIIEYISITQKDSLPKLPKPKILNHQKFMTIDAQTRRNLEICLTTSGSMRGSLFDCIDHSVTKSGSRLLYKYLSTPLIDIQGINRRLDLTKYFYEDMSLTNDLRALLKKTGDLERCITRLNMGRSTPKDMLSIKYTIEIAEGIRAAFVAQKGIELPQHIEKLVKPLVGLNDLYESIDSVIKDDAPNITTNGGIVKHEYHPKVKELYGLINNSHVAIEKLRDQYRKETGIDTLKISNNNVLGLFIDITARHANKIFDEKFIHRQTTANSIRYTTAELQELESKIVNAKILVISLEQEIYNELCQKIVIEQSALYKMSESLSLLDVYSNFAYVADENNYVMPEISSDMIFEIKGGRHPIVEKALKKSRESFIRNDCSLESDERVWLLTGPNMAGKSTYLRQNAIIAILAHIGSFVPAESAKIGIIDKIFSRIGAGDDLNKGQSTFMLEMLETSAILAQATHKSLIILDEVGRGTSTYDGVAIAWSVLEYVHDKIRARCLFATHYHELTKMEEVLPALKNYTVAIDDTGESVLFLHKIKRGSADKSYGVHVAQMAGLPKSVIQKAASLLEKFEKESNKSNKKMMKQESYNMNLFEMESSLENPKHKKLFDEFVSIEPDKLSPREALDVLYKLKDIS;locus_tag=LOCUS_04940;gene=mutS;note=Q9ZDM9 DNA mismatch repair protein MutS (Rickettsia prowazekii str. Madrid E) [pid:59.6%25%2C q_cov:99.9%25%2C s_cov:99.3%25%2C Eval:0.0e+00],MGA_503
sequence13	MetaGeneAnnotator	CDS	3820	4080	.	-	0	ID=MGA_504;product=flagellar biosynthesis protein FliQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088555.1;translation=MDPGFVGEIGREAVYVLIMISAPVLILSLVVGLLISLFQALTQIQETTLTFVPKIVTVYFGMLLIMPYMYGKLKVFVDHIMQHIIQ;locus_tag=LOCUS_04950;gene=fliQ;note=WP_011088555.1 flagellar biosynthesis protein FliQ (Bradyrhizobium diazoefficiens USDA 110) [pid:43.6%25%2C q_cov:90.7%25%2C s_cov:89.7%25%2C Eval:6.0e-14],MGA_504
sequence13	MetaGeneAnnotator	CDS	4097	4846	.	-	0	ID=MGA_505;product=flagellar L-ring protein 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89I09;translation=MNNFLTILMSLFLLMSCQDTVDKLKRVGKAPQFENIELPTIEEDEEEIERREAKLRAQHAHMRRTNSLWQPGSTKFFRDSRAWKVGDIIRVVVEIKDNASLNNSTQQNRSGKDALGVPNLFGQEKAIQANLSTTANLGSLVSTSSSRNHSGSGNISRKEDVKTQIAATVTKVLPSGNLVIQGHQEIRVNYELREIKVAGIIRPKDIDSDNSIKTDQMAEARISYGGRGVVSDVQQPRAGSQVIDIISPF;locus_tag=LOCUS_04960;gene=flgH1;note=Q89I09 flagellar L-ring protein 1 (Bradyrhizobium diazoefficiens USDA 110) [pid:39.5%25%2C q_cov:97.6%25%2C s_cov:93.3%25%2C Eval:4.6e-48],MGA_505
sequence13	MetaGeneAnnotator	CDS	4843	5598	.	-	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILVIALIKRCIVRHLKLKNIYRMKSKFLFLPVLLVLLVNTSFADEDFVDSTIQGLLQEKITDSRVIVEQQYNSKSKLTQIKSKKEEIKSIVLEKFDPKFSSYRVQVHYNDGKVDSISGKYISYIMAPIAGKYIKFGEVIQASDITSKKMRLDNFKKGFATEDSEVIGMQAKKYIAVGRMFKLSDISSPPVLKNNDPVNIIYSSGAINLKTVGIALGTGAVGDMIKVKNTSSGAVLLGQIINKNTVQVGGQ;locus_tag=LOCUS_04970;note=MGA_506
sequence13	MetaGeneAnnotator	CDS	5668	6462	.	-	0	ID=MGA_507;product=flagellar basal-body rod protein FlgG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQF5;translation=MASVAMSAAVTGAQAQQLRIDTISNNVANVNTDGYKRMEATFSDLFYVNLKRSGILENAEAAPRPVGVQTGMGTRIIGTFRNMEPGALRQTFHPLDIAITGNGYFAIQLPNGRVGYTRTGAFQRDPETGNIITPDGNSFETAIAIPANIPTETVQIAENGLITAQDPANPAETIEIGQLEIFTFPNESGLEAIGNNLLVETPGSGERIAVEDTTNRFKQAFLETSNVKAVEELTKLIEAQRAYELNTRVISTQDKILETTNQIK;locus_tag=LOCUS_04980;note=Q2RQF5 flagellar basal-body rod protein FlgG (Rhodospirillum rubrum ATCC 11170) [pid:42.2%25%2C q_cov:98.5%25%2C s_cov:99.2%25%2C Eval:1.6e-49],MGA_507
sequence13	MetaGeneAnnotator	CDS	6477	7277	.	-	0	ID=MGA_508;product=flagellar basal-body rod protein FlgF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89I12;translation=MMHIPIHKLSLYILFVLLFELFFLCNAAKANNASYIALSSQIARKTQLEVISNNVANANTVGFEQDAVIFRNVDLKQNSKRNNSFAWAETSYRTGDQGGIRVTNRPTDVAIGGEGYLKVATPRGVRYTLDGSMLINNQGFLVNSSGHPYLSAENEPIEIPDDFQTIDIAQDGTIFVDEEEIAILGVFGFDSTDPIIKEGGNLYAIQGNDRLLEEFTVISGALRESNVNSTLAMAKMIEMQRSYGLTTDLMTNVNETETSSIQRLTK;locus_tag=LOCUS_04990;gene=flgF;note=Q89I12 flagellar basal-body rod protein FlgF (Bradyrhizobium diazoefficiens USDA 110) [pid:34.3%25%2C q_cov:87.6%25%2C s_cov:97.2%25%2C Eval:1.3e-27],MGA_508
sequence13	MetaGeneAnnotator	CDS	7446	7997	.	+	0	ID=MGA_509;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKDTGEKEEEPLTPTEAPDGGQNSGNSDKKKKIKKILLITVPIIITIIGAVYFFFFVIKALKQSEGQEVQQTKEKQQVALESNTYLDIDPITVGLTPSGSKREYLRLDLSLRLSTEQESAAVLTKMPIIKDTLITFLRSLRATDFNSSSSTIYLKEEISKRINKITAPVVIKEVLFQEITVN;locus_tag=LOCUS_05000;note=MGA_509
sequence13	MetaGeneAnnotator	CDS	8009	8974	.	+	0	ID=MGA_510;product=flagellar motor switch protein FliM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RQF8;translation=MIIENMTEEQAKAENAKKKAEEKDSSDLKGIKAVLEQSLQSYDKLPMLEIIFEKFIRQLSTSLRNLTSEPVDVTIADFSSLRFGSYFDSLENPSSIVVFKAVEWENLGLLILENNMIFSFVDILLGGKKNTLQSNSNDPERILTSIEQGLARQISEIILMELSHAFDQISPTTFSFERLENNPNFVTISRPGDAVIVLKLKIEIDEQVKNIELLIPYKTIEPVKEQMQQVFLGDKFGIDQEWERLLSETVHDIDLPVEAVISNKISTVEEIAKLKIGDTFVMDHAKDKDIVVRSGPIPLFTGKIGKVDNKVAINLKNLFEG;locus_tag=LOCUS_05010;note=Q2RQF8 flagellar motor switch protein FliM (Rhodospirillum rubrum ATCC 11170) [pid:40.1%25%2C q_cov:91.6%25%2C s_cov:76.0%25%2C Eval:1.3e-67],MGA_510
sequence13	MetaGeneAnnotator	CDS	9095	9538	.	+	0	ID=MGA_511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKELNASIVKAENNVSEMSELSNVTSAEIKSVINEAKEASSELVAISEVASELSTKLNEQSTKAQNADGADAAPLEEDIYENISSKAGERFTEDDLAPPSDNENATYTNHLKNFIQNIVTKKSDEQSTSLNQTSYYDTLRKINAKK;locus_tag=LOCUS_05020;note=MGA_511
sequence13	MetaGeneAnnotator	CDS	9538	10200	.	+	0	ID=MGA_512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKASLFSPILILLILALFAKASVLFGRIQEQTTYAMDTSTSSILVNTAYAQANGSEKTAQSKKTAEPSSTQIAPIKTEKKKDVINNLTRSEMDLLKELSKRRETLDKEKTDLNVREQVLKATENKIDKKVLELKKLQTQLEDLMKQYEQKENSKILSLVKIYETMKPKDAAKIFNELEMPVLLKVVSNMKEVKVAPVIASMDPAKARELSIELSRQKPID;locus_tag=LOCUS_05030;note=WP_011390465.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:42.3%25%2C q_cov:59.1%25%2C s_cov:54.6%25%2C Eval:4.7e-27%2C partial hit],MGA_512
sequence13	MetaGeneAnnotator	CDS	10325	10768	.	+	0	ID=MGA_513;product=cytochrome c-type biogenesis protein CcmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCW6;translation=MQIKTRNRLTGIIAVLLICASGVYFILSSLNDNIVFFHPPSEIDKIQPNHSKVRVGGLVKVGSIVKHENGKIEFTITDHIADLKIEYKGVLPALFREKQGIVAEGKLITSNLFKANKLLAKHDENYTPPELVKIDLNRKKKAASSYE;locus_tag=LOCUS_05040;gene=ccmE;note=Q9ZCW6 cytochrome c-type biogenesis protein CcmE (Rickettsia prowazekii str. Madrid E) [pid:54.3%25%2C q_cov:87.8%25%2C s_cov:99.2%25%2C Eval:3.2e-27],MGA_513
sequence13	MetaGeneAnnotator	CDS	10894	11604	.	-	0	ID=MGA_514;product=amidophosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012066731.1;translation=MLDGALSSIIDFMLPHRCISCSELTEQGGGLCATCFSKLNFISSPYCKICGFPFEFDIEEKYECGKCISDPPKYDLARSLFNFDPYSKKLIHGFKYNDQTSNAKLFSKLLFSRYKDDFNDIDMIVPVPMNRFKRIFRNYNPPQILGKQLEKLIGKKQVPDLLIKSKWTKPQTSLSQSQRKENLSGSLQINERYNIKNKIILLVDDVRTTGVTSNTCSSILKRAGAKSVKLITIGAT;locus_tag=LOCUS_05050;note=WP_012066731.1 amidophosphoribosyltransferase (Sinorhizobium medicae WSM419) [pid:33.8%25%2C q_cov:94.5%25%2C s_cov:87.2%25%2C Eval:1.2e-31],MGA_514
sequence13	MetaGeneAnnotator	CDS	11607	12767	.	-	0	ID=MGA_515;product=2-octaprenyl-6-methoxyphenyl hydroxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886322.1;translation=MNLNNNITITGCGLSGMISALALASNNIPSTIIEKKSCKDKSFFSDVRTTALTDSSRKFFEEIGIWKKFSDFVGPINDIYVVDNKSPEMLHFASSDLEDGEIMGYLIQNTDFKKILYELVSSNKLINVIQNCSYEIRENTLDGCSLILNDGEEHKSDLLLVCDGRYSTARQQFFSSNIEKTYAQCALTFIVHHVKPHEGTAVEHFMPTGPFAILPLKDQKRSSIVWTIDADMKDLLENLPKDEFKEIVQDNFGEFLGEIEVEGKVAGFPLKAYETNKYFNKRIVLIADTAHVIHPLAGQGLNQGIKDISCFIKLLSEYGITDLMLDQYQTMRKTDNSNMLEITDTINAIFSNKSKILQAGRSLGFQTIEKVTPFKKLLIKYAMGRR;locus_tag=LOCUS_05060;note=WP_010886322.1 2-octaprenyl-6-methoxyphenyl hydroxylase (Rickettsia prowazekii str. Madrid E) [pid:47.6%25%2C q_cov:75.6%25%2C s_cov:95.4%25%2C Eval:1.7e-75],MGA_515
sequence13	MetaGeneAnnotator	CDS	12757	13029	.	-	0	ID=MGA_516;product=monovalent cation/H+ antiporter subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:NP_220933.1;translation=MLNICLILALILSSVIICGAFLQKDIFIKLLFLNTGTSVAALFICFLGSFKVNSSYIDIALIYFLLSVVATNAYLKYFMQKHKKEVEDES;locus_tag=LOCUS_05070;gene=MnhF;note=NP_220933.1 monovalent cation/H+ antiporter subunit F (Rickettsia prowazekii str. Madrid E) [pid:49.4%25%2C q_cov:83.3%25%2C s_cov:91.9%25%2C Eval:2.1e-14],MGA_516
sequence13	MetaGeneAnnotator	CDS	13032	13496	.	-	0	ID=MGA_517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLTKIITYIVFVTIWCSLAGFPTKTVPLLFMIFAPLATLLLTIWIGLLPKKNHFKFSAIIYLGWLLKEVLMSSIAVVRISWRKNMRLQPILEPIETVQKKQVGVVTYANSITLTPGTVTLSTEDNHLLVHALDISFMDDLKEGEMDSRVKEIIE;locus_tag=LOCUS_05080;note=WP_010886219.1 cation:proton antiporter (Rickettsia prowazekii str. Madrid E) [pid:45.8%25%2C q_cov:62.3%25%2C s_cov:93.2%25%2C Eval:8.4e-19%2C partial hit],MGA_517
sequence13	MetaGeneAnnotator	CDS	13486	15051	.	-	0	ID=MGA_518;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595873.1;translation=MSKAEISSEEPVVTTKTIIAFFAMVVGMFMAILDIQIVASSLSVIAAGLSASGDELSWIQTSYLIAEVIIIPITGFSARLLSTRISYFIAAFGFTIMSLLCSLAWNIESMIIFRALQGLFGGAMIPTAFGAIFIIFPKKMHVKVSMVIGLVVTVAPTIGPTLGGYITEVMSWHFMFLLNVIPGIFVCFVVFNYVDFDKPDYKLLDNFDFIGIILMAVSLGALQYVLEEGNKKDWLEDNHILFLSILVVITFIWMIVHELTCKNPIIDLTAFKNKNFSFGCIYSFILGVGLYGTVYLLPLFLFTIAGYNTLQIGITMVITGVFQFISAPLAGRMFDSGVDKRLILAIGFGTFALGCYLNSFLTAESEYWEFFLPQVVRGLALMFCFMPINDLALGTMPKDEVQNASGLYNLTRNLGGAIGLAIINSLIISKSKIYAQGMKENISLTSPQVQERMDFFTQILIGRVDNPELAALQLLDKVVVSESFIIAINNVFVIITILFCLGMILIPFSSMPKDTAGANAH;locus_tag=LOCUS_05090;note=WP_004595873.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:65.4%25%2C q_cov:98.1%25%2C s_cov:98.5%25%2C Eval:8.1e-191],MGA_518
sequence13	MetaGeneAnnotator	CDS	15574	15726	.	+	0	ID=MGA_519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSRRKPEDTIRQSKVGTAGGEADKDTLEITDALSELGLEVDNRPVMSIDK;locus_tag=LOCUS_05100;note=MGA_519
sequence13	MetaGeneAnnotator	CDS	15737	17383	.	+	0	ID=MGA_520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNQIEKKNLETNSSPLKKYKSTFKDVSGSPRTPINLRSYVVKKEKSQKVIKKAKILKFLESVLHLDLQNTLLTDIVFSKDGGSLTVVGRTKLDGTSKQLNHVIPVSFIKNLIDITIKISFSPKLSLKLLSKQLVILAQNQRGFAITSKQLEKEEYSEIKKVAPILSDRKLTTNTDSILLFSPGKKSQLFTTPNKKKVAKDLYPIHNKTFINKSMELFSEAITSTDENTTTIACEALARFIFIICSKGKNISFASAGNTLRYEIRLYKDQNEAKKASDNYDVVKSRELTGLKVEEISKCIRIVNCEGSKIKETPKALDALNSIIYWFNTLDEIPEELVKTYNSKYNSVITLSNSTRDISDYNDPLTEENYDSIIYHHVAKLLYLAFDLKALEDVVFAPVFRGDVTVYPSAKGTRTATYSLVEGDEYREMQLNAETGFKDDSFFRSREKDLKILPQKIVELFIIGTMPFATFVTGFLNSSKKFLPTCFEKLIALAATDYCLKDKELLDFKEATHDIYTSWISGDSILNDSQDTVISLSGDSDFSEFLE;locus_tag=LOCUS_05110;note=MGA_520
sequence13	MetaGeneAnnotator	CDS	17502	17783	.	+	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKELSDIEVSAWKIQFNNIFSLGRGMIEKSICARLLNKDPSKNFSPELKQIFLKTLEEFILENNSHNLQDILDQHTLDILGEELNQCDLTSG;locus_tag=LOCUS_05120;note=MGA_521
sequence13	MetaGeneAnnotator	CDS	17794	18414	.	-	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKASYQGEENSKEQQDPYGKSKIFKAVEESNVKDLAIAIFAGGDVNQCTTYGDSPSQIALCSETIRPNVRSAIVSQLLRANADPNYINPTEEGNSVAMLFFNQLEAVNELHPFVSLLVKHGANLQIKNEAGLTGHDILESKYPSDVLAEVPGFYPIHVNPSEEGTDDSEGVYCIAEGALRLYTTSDYLECLSSLAGQDNQHYSDDF;locus_tag=LOCUS_05130;note=MGA_522
sequence13	MetaGeneAnnotator	CDS	18467	19705	.	-	0	ID=MGA_523;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886345.1;translation=MKFVSKKDFTILLGNAVDHFDTSIYVFIAPTIAPIFFPNDNPIIELILAYSILATSIVTRPLGTYIFGALARLYGPGRALSYSLIGVGFATMCIGCLPDYYDIGFIAPILLILVRMVRDIFASGESAIAKLYILHDKPEKEAFTGSYLYQTSTVFGMVLASSAATLVQYLDIDYAWRICFIFGGVAAVIGYLIRLKILEIKTVKKKSALKFMTSGSLSVLWKHRINLVRIALVNSFSHMTYIIPFVTMNHIVPLVTNIEMKTMMLLSSLVLVFDMLAIPLIGGYIRRFSAEAVMSVASGVLALTIIPLWYFIDSSSIIYISIVRFWIVIWGIVFLCPLNLWNSKQVEGDEKYIVVGMGAALGACTIGKLSPSICLALFHYSNSHIPIGVYILLLFIFVFYITYSNINKKDLD;locus_tag=LOCUS_05140;note=WP_010886345.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:41.2%25%2C q_cov:94.9%25%2C s_cov:94.5%25%2C Eval:2.3e-97],MGA_523
sequence13	MetaGeneAnnotator	CDS	20280	22931	.	-	0	ID=MGA_524;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCA4;translation=MSKLTTQQIRSTFIDYFKNYGHTHVPSSSLVPHNDPSLMFVNSGMVQFKDIFTGVETRDYKRATTSQKSVRAGGKHNDLDNVGYTARHHTFFEMLGNFSFGDYFKEEAIFYAWKLLTENFSIPKEKLYVTVYHDDEEAVSHWKKISGFGDDRIIRIKTSDNFWSMGDTGPCGPCSEIFYDHGDHIPGGLPGTPEEDGDRFIEIWNLVFMQYEQVDKDTRILLPNKSVDTGMGLERISAVVQGVHDNYDIDMFQDLIGHAESIVKVPAKDEALFSYRVIADHLRSSAFLIADGVMPSNEGRGYVLRRIMRRAMRHVHQLGAKEPLMYKLLPKLEDLFGHPYTELTRGEEFIASILKQEEERFKYTLDRGLKLLEDETTSISKGGTLPGEVAFKLYDTYGFPLDLTEDILKKQEISVDHGGFNEHMQIQKERARKSWAGSGESKTDSIWFDIASEFGTTEFLGYSLESAEGKVVSLVQKGEEIQQISDIGAKFTLIANQTPFYGESGGQMGDIGTIESTHCKIEVVDTLKYLGKIMGHVCVLKEGIISKNDEIKMVIDSKYRSDLKMHHSATHILHAVMREVLGRHVTQKGSLVAKDKLRFDFSHPKALTKAEIRLIERKVNEIVSHNSQVSTKLMSADQAIESGAMALFGEKYDSEVRVVSLGPVTEENNPYSFELCGGTHVKRAGDIGAFKIISEGAIAAGIRRVEAVCGEYAFANITEGEELLDKVIDTLKSNKVELVQKVEGLLGAKKNLEKQLEKMHMDRMVLTDAELEQKSKKLDGARLLYVKFDNIDAKMLRMSAENLAKGHDDLVVVYISKNNDKLSIVTAVSKAVSTKYNAGYIAKEASAFVGGSGGGQATLAQAGGTDISKLQHLEDRVVALLSS;locus_tag=LOCUS_05150;gene=alaS;EC_number=6.1.1.7;note=Q9ZCA4 alanine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:62.7%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_524
sequence13	MetaGeneAnnotator	CDS	23197	24747	.	+	0	ID=MGA_525;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQQDTYRLEFFVNLFNNLFHRKNVIVLVGKTGITFSALKKHKVISSIFVDSKDADFQKKYRKFFKKYKNYHIVFLLDDKNCVLKHEIMTILGSIIKSNPVENFIQKNYHPEDIVAHNIYEVTTQNGEVWNTCIASMPFIFPINELLEYVINNSFKYSGIYFLSLEFETIIERILQKTQNTECTNHLQIFATITRASDIRIAVKYKKNIMDEQMIEYPKDKSDMYVQGTIEQTITDKLIYYKSFIEKLNLQTCVITLSDKKLKNLLGTLKFENCKTIAIAGEDITVSKSKKSDRFQDNILLEIFDNFNTHLALNKPLKSITKLSLINSIVFKPLIAIMFGICVTLSAIKYKSIMLQNETTEFNQEYYLLSEKYRDIQKRYPELKNATDLIELYNLENIISKTTITPFDHIKSIFSFDSENLKIKKMYWAINDPQNITLLNNKLNVTIDYQYEGPRHSALHGIEIVNGYANRLKSIFPKQNLKYERNPDDITEIAKKVIIPAKITFEGTIEAEKDAR;locus_tag=LOCUS_05160;note=MGA_525
sequence13	MetaGeneAnnotator	CDS	24737	25369	.	+	0	ID=MGA_526;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCA6;translation=MLDKLIIHLKNIIFFKAVIYIIMTIILFTLIPIFSEDLEDSSIKNKKSYALLQTSKSKLKSIVNFENTILNTKENYEALISKANNQGCLDRTKLTNQIATLNTKYSLFEPIFIRISRQFNNETTQNYASHVKINHYEIKIAFKSKDPVTMLMICNELYKMLPYGSIVTNTSIATYEALTPDIINKLNTKNAPGLLAVKMKIQLREIVYEH;locus_tag=LOCUS_05170;note=Q9ZCA6 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:29.7%25%2C q_cov:98.1%25%2C s_cov:98.6%25%2C Eval:7.0e-25],MGA_526
sequence13	MetaGeneAnnotator	CDS	25359	26372	.	+	0	ID=MGA_527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCA7;translation=MNTDLSLPPGVDPNPFKEYFLEYLGANLSESLCSSVANLLAIDYVGRLESKPDLDFHINECTLRIKKQLGLKVVTDESFSSVMSLFTIAITPERDLDTDDEKAQEQSHDALIDSIIATYFHDLTPEETVIIKSLMKEILNGKDGKEMMIVASSNPKLFYSIVVSAIREKNKLEEVLESVKLHLTQIMSKNKQQIKQQSGLKGLVSKLSLIGGLMLTASTGLVLGGITLPALILPATAAVVKLSPKLGEKAVASHEQEVVSIQKKESNAKINTLHATDKDSRITQSTEKNIEQKVDRAKIKDLAKSVAVSKQNEKIVENKFEKKLQTKIKSKDKGRSI;locus_tag=LOCUS_05180;note=Q9ZCA7 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:26.5%25%2C q_cov:91.7%25%2C s_cov:95.0%25%2C Eval:1.8e-30],MGA_527
sequence13	MetaGeneAnnotator	CDS	26797	27177	.	-	0	ID=MGA_528;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE36;translation=MSNVIKQYEKEQIEKLTEKKEVPEFRAGDTVRVSVRVIDGATERLQAYEGVVIAKRNKGLTSSFVVRKVSHGEGVERRFLTYSPIVAKIDVVKRGVVRRAKLFYLRDLSGKAARIPERKTYSKKKA;locus_tag=LOCUS_05190;gene=rplS;note=Q9ZE36 50S ribosomal protein L19 (Rickettsia prowazekii str. Madrid E) [pid:66.4%25%2C q_cov:92.1%25%2C s_cov:90.6%25%2C Eval:1.7e-40],MGA_528
sequence13	MetaGeneAnnotator	CDS	27236	27934	.	-	0	ID=MGA_529;product=tRNA (guanine-N(1)-)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE37;translation=MNNFHVTILTIFPEMFPGPLGCSLAGKGLKNDLWSMDIINIRDFGLTKHKNVDDVACGGGNGLIMRPDVIGPALDAALDAHPGAKIYYPSPRGQLLNQKVTRNLSKERNIIILCGRFEGIDERVIDEYNVQQISVGDYVLSGGEVAAMTILDSIVRLLPGVLSNQETLKEESFEKESEGLSLIEHPLYTKPVVWRGRKVPEILLSGNHSEIEKWKKSESIRVTKVRQNSFLK;locus_tag=LOCUS_05200;gene=trmD;EC_number=2.1.1.228;note=Q9ZE37 tRNA (guanine-N(1)-)-methyltransferase (Rickettsia prowazekii str. Madrid E) [pid:62.5%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:7.4e-82],MGA_529
sequence13	MetaGeneAnnotator	CDS	27931	28128	.	-	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELIIFGAIVAISIIYGKDSEEFVSLFGMGLEKTVRVFDDESMDCGGGVRHILIQINYYLQKSIV;locus_tag=LOCUS_05210;note=MGA_530
sequence13	MetaGeneAnnotator	CDS	28174	28383	.	+	0	ID=MGA_531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIAKIQDQKPYKRSLCIKKFIKSKMNFPVSIIFFIDLKQRLVYKINHNEFICNSIFGLNLKIDTKEEPW;locus_tag=LOCUS_05220;note=MGA_531
sequence13	Aragorn:1.2.38	tRNA	28442	28518	.	+	.	ID=Aragorn_11;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00110;note=Aragorn_11
sequence13	MetaGeneAnnotator	CDS	28701	29582	.	-	0	ID=MGA_532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886269.1;translation=MNKLSIFIIIVISLIDPVFAKIIETDDSSVIHQELQNLTPEDLVTFDVNGVLFEPEDNVLKSGNKWFVKNFFSTLRQNNPREADRLEGIMLLNYKPVLLDEGIPEIIKDTREHGIKVIALTSGSTGEIGSITSREDLIISRLKSLDIGFTGSFKLSRLFLERIDKEGSRIGRKDGFANDAIFKDGIIFTSRRPKGNILNIFLDKVEFLPKKIIHIDNSIDKISDVRRMCESKNIEFVGIHYVKQYTNSVNSSFDKKTAEKKIEILKTKSLWLSDKVAHCLAHTGFDINYCRSQ;locus_tag=LOCUS_05230;note=WP_010886269.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:23.2%25%2C q_cov:88.1%25%2C s_cov:89.8%25%2C Eval:7.2e-09],MGA_532
sequence13	MetaGeneAnnotator	CDS	29592	30146	.	-	0	ID=MGA_533;product=alanine acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886350.1;translation=MNVQYFFGDFPALDLGNVILREIEESDAQDYFEYMSNNAMEGFLTKENRPNSVEKALEEVKYWGSLFPQKRSIYWAIALKESNKMIGTAGFNLISFPNSRAEISYDLSPEYWGRGVMLKSINGILKFADVALELVRIQATVIIDNERSIKVLERTGFKKEGLLKKYEVVEGEHKDYYMYSRVIK;locus_tag=LOCUS_05240;note=WP_010886350.1 alanine acetyltransferase (Rickettsia prowazekii str. Madrid E) [pid:56.8%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:1.5e-59],MGA_533
sequence14	MetaGeneAnnotator	CDS	466	792	.	-	0	ID=MGA_534;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE83;translation=MNIEITEAAAKRVKELIAKDKKDMVALRVSVDGGGCSGFMYQYALVEKINNDDFILESDGIKVAIDPLSQQFLNDCKIEFIQELGSNFFQITNPNASAKCGCGNSFAV;locus_tag=LOCUS_05250;note=Q9ZE83 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:50.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-27],MGA_534
sequence14	MetaGeneAnnotator	CDS	877	2037	.	+	0	ID=MGA_535;product=deoxyguanosinetriphosphate triphosphohydrolase-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE82;translation=MLKTYACLPENSRGRIHPEKPTPYRNEFERDRDRIIHANAFKRLQYKTQVFVNHEGDHYRNRMTHSMEVSSIARSLSKALGLSDDLAEGVALAHDLGHTPFGHAGEDALNECMKGYGGFSHNAHAFKILTSIEQKYAAYDGLNLTWEVLEGIVKHNGPVYKSDAYSYIFEYDTKHNLDLSKRSSAESQVAALSDDIAYICHDLEDSIKAEIVSYRDLEEIAFVDKYIHDVRSEFHNINDERLIYEVGRKLTHHLIESLLFQTQENIKNHNVKTEEDIRNLDCQLVEFTDTTFKEVKLIKDFLMRKVYKHHRVASVTLQCKNVIRDLFKLYVENIDLLPFSWRNMITESGELAKMSIIADYIAGMTDRFAIKQYQSFYNLNFANTDL;locus_tag=LOCUS_05260;note=Q9ZE82 deoxyguanosinetriphosphate triphosphohydrolase-like protein (Rickettsia prowazekii str. Madrid E) [pid:55.6%25%2C q_cov:99.2%25%2C s_cov:99.7%25%2C Eval:1.6e-126],MGA_535
sequence14	MetaGeneAnnotator	CDS	2034	3767	.	+	0	ID=MGA_536;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE81;translation=MNIFREIGKDLKKIGLQICSDETIWSQSTIEAPKDPLNGDISTNIAMIIASKEGGNPREIALKFKELLSDIPYIAHIEVAGPGFINFTIKADKWHSCIRSILSDDPDFWEVSVGDGEKVNIEYVSANPTGPMHIGHARGAVYGDALANILTKCGYDVTKEYYINDAGSQINTLIESAILRYQEAYSGKAVEIPEGLYPGDYLKDVGNKLAEKYQDKLLDMDISSIKQEVKDFIIDQMMELIKSDLAELDVHHDVFFSEQSLHDGNKIEKSVEILEKKGLIYNGVLPPPKGKIHDKWEEKEQMLFKSSDYGDEQDRPVQKSNGDWSYLAADFAYAKDKIDRGFDRLIYILGADHSGYIKRIKAVISALSNDKVASDIRTSQLVNFVKEGQPIKMSKRSGNFMTVHDVVNEVGKDIIRFIMLTRRNDMALDFDFDKVKEQSKDNPVFYVQYAHVRTKSIIAKAKETISEAYTKFEANNFDLSLLDSEEEIQLIKLLASWPKVLATSAMHREPQRVAYFLIDVASRFHSIWNLGKENKEYRFNTEDNIELTAARLALAESIRKIIAGGFEVIGVTPLDKM;locus_tag=LOCUS_05270;gene=argS;EC_number=6.1.1.19;note=Q9ZE81 arginine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:59.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.0e-205],MGA_536
sequence14	MetaGeneAnnotator	CDS	3779	4360	.	+	0	ID=MGA_537;product=GNAT family acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010970757.1;translation=MLIRHVYGKQIQSYIDDIASLRLKVFKDFPYLYGENIEDEHKYLERYSLSKNSLVILVLDNDKVVGASTALPLSDADSGFKEPFENSVYNIDDIFYFGESVLLREYRGKGIGNQFFQEREKFALSLGYNSFVFCAVNREKNHPLRPINFSDLDDWWSRIGYQPMPSLVCNYSWKEVGSLQEVMNSLTFWQKGL;locus_tag=LOCUS_05280;note=WP_010970757.1 GNAT family acetyltransferase (Agrobacterium fabrum str. C58) [pid:41.3%25%2C q_cov:97.9%25%2C s_cov:93.1%25%2C Eval:1.0e-40],MGA_537
sequence14	MetaGeneAnnotator	CDS	4374	5150	.	+	0	ID=MGA_538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKVVIILLLFGLSFLIFAIRNYFYSPQAQDVVTLLPDDSATKKKPKDPGGLVLPNSDSLVYERLKGGKHKEKKINLLPAPEEPMEIIRRQKVKAKLLDSIDEILDNIEYYENEYIASEKNDTENLDYVVPNVLLLKDDSNLDKNSIYVPGTSLNIIKALESEYKIANINVVDEEEGGYKIQLASAYSQNDAMKKWQDISQKHKKILSDANLIIKKIEGKNERIFFLVMAGSYPSLSHAKLLCKKLSKRKQNCIVTK;locus_tag=LOCUS_05290;note=MGA_538
sequence14	MetaGeneAnnotator	CDS	5219	6874	.	+	0	ID=MGA_539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATTIFENIVDSNFGDKGSSKGVSFGQKTDSSEFRDLVKDKTSQSKIDYSRSGVKTKGESDRVAESLSTKKAQGTKEQVAEETSADSVVNVDTLVTADQSSVSQEVLSTLIPSEETVLVAETEEDIILEEDLDQREEDIVPAIDLLQEQDDEVELSNLIVSDFVDNSVDEESVVVPVALPEITRVADSGNVDKTSASVFADEVVTQSVDIAELPAEDQAIHQSLKTFDLPPGFITDDVSRDIELLTDKVQITPKPDNIQQLEELSSKLDAPVKIVVDGVESGKNTVENTKPIIVAPSLNLALADNTRHGKNVISRMQTSDSDQSAAVISEGEEFVLDNETILPNLGDKDNSGAGQRSSSSLEAFGVVIEQANDETFEIAFKAQDFGSKRSEMPKPAMQVSLAVNEVLNSSSASGKKQITINLHPQTLGAVKVEILSQVGHDGASKVESIKISADKHDTLVMLEERRAELAKSLKEVNGTEEKEAHLQFEMSQDQGKGQGAYFSSLEERNNWMSKFVGLVADDELQTENSSHEVDEYATRGIITEDKVDLVA;locus_tag=LOCUS_05300;note=MGA_539
sequence14	MetaGeneAnnotator	CDS	6881	8845	.	+	0	ID=MGA_540;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAEVRNQGNPLATALMKPKGKAGSNSGVIGAGFSELYKSMGAPRKTPSQLMNTSEDMDKAIKSIDDAMDFATKLMLSAAKNMGMPSEDGNDSKAREMSETAQSIATMMATKASVQAQMQVIEQQKKPAVDLMSLKGKQVEYDNSTKTYYGKPITYNYRVTHNESDPTASVNLTMTIRDERGIPIRTIRQTTKAGEFSFEWDGKDDRGVAVPIKKDKKGVYVAAKNTYTLDLKAEGRKIVGGKSVPFAAKASATLVGEVEAVKIEKGTSTGVVINGKTITRDNIVDVRDMPEPELEVDLTPDLIGRKVDLDFSKAKVKADGSMEVYFKNHVENPGDLTVRVYDEGGKFLTTLTSKKNIGEGVGKVSFSNTNLDAGVYDIKVFVQDKENPANVKDVELSYNESILVAGVSKRYGTVMSVEEKTYDPMHITSVLGNYTTPIEQRRAELIGSEVVYRDDLFKYAPGADPVSFTFKLPEEDAVISTGRMNIYDENTNELVATVNAEYDLNSMLTVGSQAAIIGYLRGTFNTANYSVITGEERVQANRYIKNEIQARRLTIDAPYLEAYNNGQVAMTFPVWNGQDTNGVAVDGNRQLRRDFTPIYSRDGDGSLVAGDTDKQIVVGTVEAVDEVEGELQVHVRGVDGVIPEDLILSTRKV;locus_tag=LOCUS_05310;note=A0A0H3C6U8 basal-body rod modification protein FlgD (Caulobacter crescentus NA1000) [pid:28.8%25%2C q_cov:23.9%25%2C s_cov:59.5%25%2C Eval:2.9e-07%2C partial hit],MGA_540
sequence14	MetaGeneAnnotator	CDS	8951	9211	.	+	0	ID=MGA_541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLTKTYIFDEISKRYFLKIHRSAGFMEPHTKYQLINEDSIPRGASVLSVKIKYGYESSDLEVLEKQFESLSIDPVGVNSDMDCG;locus_tag=LOCUS_05320;note=MGA_541
sequence14	MetaGeneAnnotator	CDS	9420	9803	.	+	0	ID=MGA_542;product=succinate dehydrogenase cytochrome b556 subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P41085;translation=MSRDKNDKTRPISPHLSIYKPQISSVLSIGHRLSGVGLFFALAAFCWWFTMWVFSGFEPCYLECFDNSIVKTILVIASYGFFYHFSTGIRHLVWDTGRWFSIPAINASGWGAVILSIVLTAIFWLCM;locus_tag=LOCUS_05330;gene=sdhC;note=P41085 succinate dehydrogenase cytochrome b556 subunit (Rickettsia prowazekii str. Madrid E) [pid:48.3%25%2C q_cov:91.3%25%2C s_cov:91.1%25%2C Eval:1.8e-26],MGA_542
sequence14	MetaGeneAnnotator	CDS	9814	10197	.	+	0	ID=MGA_543;product=succinate dehydrogenase hydrophobic membrane anchor subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P41086;translation=MKNKYRSDLSKAKNLGSAGSGSGHWWHQRFTAVLLALLTGWVFCFSWEISRSELSGIIEVFKTPYHIVMVTLFVLAGFYHAAIGMQVVIEDYVHCRAARLTLLLITQIFSIVTALAFILAVLYVMTL;locus_tag=LOCUS_05340;gene=sdhD;note=P41086 succinate dehydrogenase hydrophobic membrane anchor subunit (Rickettsia prowazekii str. Madrid E) [pid:38.7%25%2C q_cov:93.7%25%2C s_cov:95.2%25%2C Eval:9.3e-23],MGA_543
sequence14	MetaGeneAnnotator	CDS	10211	11998	.	+	0	ID=MGA_544;product=succinate dehydrogenase flavoprotein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P31038;translation=MTVPYNVINHEFDVVVVGAGGAGLRATFGMAEAGLSTACVTKVFPTRSHTVAAQGGISAALGNMGKDDWRWHMYDTVKGSDWLGDQDAIAYMCKNAPESIIELEHYGVPFSRNKEGKIYQRPFGGMTTEYGKGKAAQRTCAAADRTGHAILHTLYQQALKHEAQFFIEYFATDLIMEDGECKGVLAWNLDDGTLHAFRGHMVVLATGGYGRAYFSATSAHTCTGDGGGMCIRAGLAMQDMEFVQFHPTGIYGAGCLITEGSRGEGGYLVNSEGERFMERYAPSAKDLASRDVVSRSMTMEIREGRGVGEHKDHVYLHLNHLPPEVLEKRLPGISETAKIFAGVDVTKEPIPVLPTVHYNMGGIPTNVHTEVITLKDGKEEVVPGLMAIGEAGCVSVHGANRLGSNSLLDLVVFGRAAAHRAAEVIKSGISHKKLKDDTLAPLLERFDKVRNASGKISVSDLRLKMQKAMQNHAAVFRSDETLKEGKKLIDNIRKEYTDININDRSLIWNSDLVEALELANLLDQAVLTMHAAENRKESRGAHSREDFPDRNDDEWMKHTMIWLEESGEVKIDYKSVTLETNDEEVESVPPAKRVY;locus_tag=LOCUS_05350;gene=sdhA;EC_number=1.3.5.1;note=P31038 succinate dehydrogenase flavoprotein subunit (Rickettsia prowazekii str. Madrid E) [pid:76.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-277],MGA_544
sequence14	MetaGeneAnnotator	CDS	12014	12799	.	+	0	ID=MGA_545;product=succinate dehydrogenase iron-sulfur subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEA1;translation=MAELRLPPNSRVLEGKVHVGLESADSPKKLRIYRYDPDSGENPRVDTYEIDLTKCGPMVLDALIKIKNELDSTLTFRRSCREGICGSCSMNIDGTNTLACTKPIEEISGDIKIYPLPHMEVVKDLVPDMNHFYAQYASIEPWLKTDTPVSKGSERLQSEEDREKLNGLYECILCACCSTSCPSYWWNGEKYLGPAILLQAYRWLADSRDEADGERLHDLEDPFKLYRCHTIMNCTKTCPKGLNPAEAIAEIKKKMVEREGI;locus_tag=LOCUS_05360;gene=sdhB;EC_number=1.3.5.1;note=Q9ZEA1 succinate dehydrogenase iron-sulfur subunit (Rickettsia prowazekii str. Madrid E) [pid:76.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-122],MGA_545
sequence14	MetaGeneAnnotator	CDS	12805	13119	.	+	0	ID=MGA_546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSALSNIRYVFIFILFLGHTFHAFAEVRNRRVISYFVDNIVFQTLYAGGYYTIGVILVLSVFSYFSRKFREIFLSILFAFFGIFLLVFVYEALEDFEFIPPMYS;locus_tag=LOCUS_05370;note=MGA_546
sequence14	MetaGeneAnnotator	CDS	13254	13535	.	+	0	ID=MGA_547;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSVIKKVFKSIFPSRLKAIDSHKHHNKPKLELDKHDQGVMDIMKLMPIIEFYDGNDKSAFLIDPKLLSGFLGPELGGVISDLSNNFDFGFESV;locus_tag=LOCUS_05380;note=MGA_547
sequence14	MetaGeneAnnotator	CDS	13624	14610	.	-	0	ID=MGA_548;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD76;translation=MKKVALSGIQTTGNLHLGNYLGSIQNWLEMQDEFDCYFFLANLHSITVDQNPEELRKATLSSAATYLASGINPEKSIIFMQSDVKEHTELAWMLNCITPIGWLKRMTQFKDKAGKKQDNANTGLFTYPILMAADILLYNADVVPVGDDQKQHLELTRDIAGALNRKFNQEILKIPDPLIQGTATRVMSLRDGTKKMSKSDESDASRINLTDSADIIIKKIKKSKTDSIAEISYDQSERPEISNLINIYSSLAKISKENIVKEYDGVGFAKFKLDLAEIIIEKLSPINNEYQKIITDKTYIKNVLDNGAAKARVTASKTCEKVLDAFGL;locus_tag=LOCUS_05390;gene=trpS;EC_number=6.1.1.2;note=Q9ZD76 tryptophan--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:62.1%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:1.1e-114],MGA_548
sequence14	MetaGeneAnnotator	CDS	14780	15469	.	+	0	ID=MGA_549;product=1-acyl-sn-glycerol-3-phosphate acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886300.1;translation=MVSFFVLLCTPMQLLKAPYGFRYKVSEVFSYIFIYLIWFVCGIEYKIEGKEILPKDGKPYLALANHQSFWENFFMQLIIPKHSWVIKRELEAIPIFGWGIRTVQPIAVDRNNSRSVAQILKEGTKKIESGLSLVMFPEATRVKVDKNVKFKASAAKLAINTNSPIVLIAHNAGLVWPKGFWFKRSGTISVKIIEYIPKEKIAKQDVRELTAYIQETINQEKNKLVELGV;locus_tag=LOCUS_05400;note=WP_010886300.1 1-acyl-sn-glycerol-3-phosphate acyltransferase (Rickettsia prowazekii str. Madrid E) [pid:53.6%25%2C q_cov:96.9%25%2C s_cov:90.5%25%2C Eval:1.2e-65],MGA_549
sequence14	MetaGeneAnnotator	CDS	15587	17152	.	+	0	ID=MGA_550;product=ADP%2CATP carrier protein 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD47;translation=MTDISENSLQTSNAPEVLPPPTKFGKILDYIWPIARSEAPKFLFITLLMFCILGIQNLIRAMKDSVINTMIGTETISFLKFWGVLPAAFLITIVYVKLVSVMKGENIFYLIMSTFLSFFLLFAFFLYPNHELIHLNPDTVKSLVIDYPNFKWFILLLSKWSFSLFYVIAELWPNAIFALLFWQFVNKITTVDESKRFYPLFGLLGQTGLYLSGTFLINLPAMNDYFVKLFDLSLPRSVVSIQIVVSVVAILGMIGLIAFWVLNNKILDVATTENLQFRVKKNQMGIKESLQMIIHSRYIRLITILLFSYGVAINLVEGPWKAEAAQIYKTPTEFAAFVGNYLSYTGILTIIFVLLGSNIVRRLGWLSAAIITPFMVLITGLAFFCVANFDPVATFMMLSFSFTDPVMLAIIIGAIQNVLSKSSKYTLFDSTKEMSYVPLDEQLKTRGKAAADMIGTKLGKSASALLQSMIFVIIPTATYPSISPFLMVVFAIICIIWIWAVIELNKEYKAACSHKGEESIF;locus_tag=LOCUS_05410;gene=tlcD;note=Q9ZD47 ADP%2CATP carrier protein 4 (Rickettsia prowazekii str. Madrid E) [pid:64.2%25%2C q_cov:93.3%25%2C s_cov:94.9%25%2C Eval:9.6e-184],MGA_550
sequence14	MetaGeneAnnotator	CDS	17152	17805	.	+	0	ID=MGA_551;product=glutathione S-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011262281.1;translation=MSQELPILYSFRRCPYAMRARMALHYSEINCELREVSLKNKPDALINISPKATVPVMHLPDGTIIDESLDIIHYAISQNDPEGISNVSKNLQEQIDELIAINDSEFASLLRKYKYFEKHPEESQESYRKKIEANFLTKYEMMLDSNKFLFGKKSIADIAILPFIRQFAFVDEEWFFNSPYKNLINWLNMALESDVFENIILAKHNPWKEGDEPVYFI;locus_tag=LOCUS_05420;note=WP_011262281.1 glutathione S-transferase (Vibrio fischeri ES114) [pid:47.6%25%2C q_cov:96.3%25%2C s_cov:96.7%25%2C Eval:3.5e-43],MGA_551
sequence14	MetaGeneAnnotator	CDS	18011	20671	.	+	0	ID=MGA_552;product=pyruvate%2C phosphate dikinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD55;translation=MNKLIYYFGGGSTEGDASMKDILGGKGANLAQMCKLGLSIPPGFTISTSMCHSNTEKESHFTPKFEEEVRKYISQLEKDTKKEFGSSSNPLLLSVRSGAKISMPGMMDTILNLGMNDDTAKALAAKTNNPRFAYDSYRRFLEMYGNVVLEISSYLFEEVFEKHKGNNNIIKDSDVPVEVLVEVIEDFKNIIQKQIGCSFESDPYLQLKAAIEAVWRSWNCPRAITYRKINNISDDIGTAVNVQSMVFGNKGEDSATGVIFTRDPSNGNKEIFGEFLVNAQGEDVVAGIRTPAAILANDSGDGGSMQECLPKQYDELAKVCSKLEEHFKDMQDIEFTIEEGKLYILQTRSGKRAAAAAIKIAVDMVAEGVISKEEALMRIDPESLNQLLHTAIDYSADPEIIATGLPASPGASSGIAVFSPFDVEELSHHHKVILIRNDTSPEDIKGMHLAEGILTARGGMTSHAAVVARGMGKPCVCGVKGLVVSEKQKLLTTANGYKIKQGDQITIDGSTGKIIVGDVQLIQPKFSDEFKTILEWSDEIKDLNVRANAETALDASVAIKFGAVGIGLCRTEHMFFDNDKIPLVREMIIAQDSEHRQKAIDKLRPLQTVDFKSLFEIMDGLPVNIRLLDPPLHEFLPTEEKDKELLAEALNVSMSVIDHRLHSLHELNPMLGHRGCRLGISFPEIYMMQVQAMLHAIKMLKNEKDIDSKLELMIPLISDVSELIKLKNHIKKTIEEMESKYSIKFDIKLGTMIELPRAALTANKIAEHVEYFSFGSNDLTQTTYGISRDDIGSFLPDYLEQKIFKHDPFIKIDAEGVGELIKIAIDRGKKTNKAITLGVCGEHAGDPSSIDFFHKVGLNYISCSPYRIPIARVAAARSKIKLSKGI;locus_tag=LOCUS_05430;gene=ppdK;EC_number=2.7.9.1;note=Q9ZD55 pyruvate%2C phosphate dikinase (Rickettsia prowazekii str. Madrid E) [pid:64.5%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:0.0e+00],MGA_552
sequence14	MetaGeneAnnotator	CDS	20671	21741	.	+	0	ID=MGA_553;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD21;translation=MSFQDNLNKILERQKELSDKLSSGIAGDEFVKASKEYSELEPIVEKVEKYNKIVSDLDGAKGMLEESGLDSETKDMVEEEIRELNSILPDLEHQVKVALLPKDEADSKSAIIEVRGGTGGEEAALFAADLFEMYQRYSSLRGWKFEILSISEIGVGGYKEASASIKGDGVFSRLKFESGVHRVQRVPATESSGRIHTSAATVAVLPEVEEVDIKIEDKDLRIDTYRASGAGGQHVNTTDSAVRITHIPTGVVVAIQDEKSQHKNKAKALKILRSRVYEEERLAREAERSSSRKGQVGSGDRSERIRTYNFPQGRISDHRINLTLYKINEVMKEGKLDELIEPLIANDEAQRLAEQL;locus_tag=LOCUS_05440;gene=prfA;note=Q9ZD21 peptide chain release factor 1 (Rickettsia prowazekii str. Madrid E) [pid:72.6%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:4.5e-144],MGA_553
sequence14	MetaGeneAnnotator	CDS	22256	22477	.	-	0	ID=MGA_554;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIMKQVGTPIESLPGGISLTLGFAAFTSGLMYKAYKEGDFWAAFSSVTGVGITALAAYNTYALGFYEMSLMR;locus_tag=LOCUS_05450;note=MGA_554
sequence14	MetaGeneAnnotator	CDS	22677	23495	.	-	0	ID=MGA_555;product=putative cytochrome c oxidase subunit 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDX3;translation=MSSKQEHPYHLVDMSPWPILTSFSLLALTMGGVMALHEKPGGSAMAIFGLIAVIFCSWSWWRDIVNEGLVGKHHSEPVRNGLRIGMSLFILSEVMFFFAFFFSYFSASLFPAGILDGFWVVAEGTWPPEGIKTFDPWDIPFINTLILLLSGTTVTWAHHAIEHDNQKDSVTALGLTVLLGITFSMLQAYEYHHAAFKLTDGVYAANFYLATGFHGVHVIVGTIFLAVCYFRARKGHFKAGNGHLGFEFAAWYWHFVDVVWLFLFVFVYVLGR;locus_tag=LOCUS_05460;gene=ctaE;EC_number=1.9.3.1;note=Q9ZDX3 putative cytochrome c oxidase subunit 3 (Rickettsia prowazekii str. Madrid E) [pid:61.0%25%2C q_cov:93.0%25%2C s_cov:91.4%25%2C Eval:2.4e-93],MGA_555
sequence14	MetaGeneAnnotator	CDS	23561	24103	.	-	0	ID=MGA_556;product=cytochrome c oxidase assembly protein CtaG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDM3;translation=MDTKKSNKNIALAMVALFMSMLLLSFASVPIYNLFCKVTGFGGTTQRAKAFIKVEKGARKIKVEFDANVDPKLPWRFIPKHRSANVITGENTLIFYESENFSNRDIIGTSIYNVTPLKAGKYFVKIHCFCFEEQLLRAGQKVLMPVTFYIDPEIENDPEMDDVDRITLSYSFFKVRDVSN;locus_tag=LOCUS_05470;gene=ctaG;note=Q9ZDM3 cytochrome c oxidase assembly protein CtaG (Rickettsia prowazekii str. Madrid E) [pid:66.9%25%2C q_cov:97.8%25%2C s_cov:99.4%25%2C Eval:2.7e-66],MGA_556
sequence14	MetaGeneAnnotator	CDS	24113	24850	.	-	0	ID=MGA_557;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886311.1;translation=MQNKLVIQNISKSYDKRPVLRDINCSLHQGEAVGLFGPNGAGKTTLFSIIMGLIKADLGQMLLNDQDITTLPMYLRARLGIGYLPQESSIFRGLTVKDNIKAILEIVYNDKEEIESKCDELMDEFSIGHLKNKLSPTLSGGERRRLEIARALASNPKFILLDEPLAGIDPIAVRDIKELVSHLKERDIGVLITDHNVRDTLDIVDRAYIIYDGKVLMEGKPTDIVGSSEVREVYLGQTFQTAEKR;locus_tag=LOCUS_05480;note=WP_010886311.1 ABC transporter ATP-binding protein (Rickettsia prowazekii str. Madrid E) [pid:64.6%25%2C q_cov:96.7%25%2C s_cov:93.3%25%2C Eval:7.4e-83],MGA_557
sequence14	MetaGeneAnnotator	CDS	24840	25286	.	-	0	ID=MGA_558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFFRNSIKLILLFIIALQTHAKPPNDKINIKSDHLTIQKTDLSATFNGSVVLTFDDLKLYSSTLKIFYTNTTEKKDIKEIVIPVRLKAIRNCGQEVLFADSGHFDNSTKKLTLKGNVKMLKEGNVLVTDKLVYSAKFEGISSKNNAK;locus_tag=LOCUS_05490;note=MGA_558
sequence14	MetaGeneAnnotator	CDS	25307	25909	.	-	0	ID=MGA_559;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQELSKLRSKTKLVKYIFLSASICVLVSVLVVLYIQKLPTDTESSYQITRNKTKKLSKEYSLNITKSIFEGVSEDLSPYVIIAQNVAKNTSDKYLLDIIKGKYTLPDGEITIKADSGTLDELKKSVILNDNVRILFNSMVFNSDQIIVDLETKDAKSNDKVKVTFEKSKIQADKFKTEDSANTIKFEGNVDSNFDLNGLK;locus_tag=LOCUS_05500;note=MGA_559
sequence14	MetaGeneAnnotator	CDS	25909	26856	.	-	0	ID=MGA_560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD42;translation=MSHLKTAKEAIIEQSEALKILANDIPKDFSNLIDYIMKLEGRVILIGMGKSSYIAKKIAASLASTGTPAFFIHPGEASHGDLGMITEDDMVIMLSNSGETKELFDTVNYCKRYNIKIAAITMKENSTLAQNSDFLLKLPSQKETSSIAAPTTSALMSLSLGDAIVTSLHDAKGFSKEDFKLFHPGGKIGANLLKVADIMRSGDKLPIVGINDEFKSVILTMTEKCLGCAIVGDSQNQMLGIITDGDLRRTIKNDLGNISTGDIMTTQPTSVNTNMLATEALNIMNSKSITALPVIENNKILGIIHIHDILKAGVG;locus_tag=LOCUS_05510;note=Q9ZD42 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:53.9%25%2C q_cov:97.8%25%2C s_cov:96.6%25%2C Eval:3.5e-97],MGA_560
sequence14	MetaGeneAnnotator	CDS	27156	28424	.	+	0	ID=MGA_561;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599197.1;translation=MTNFHSFDLPKQLLDSLDRLKFKQPTPIQEATIPLALDGNDILGSAQTGTGKTAAFGIPLIAKLLSNETGSAVVITPTRELAVQVMKSLEDILGKKSSIKTCLLIGGESMHRQLFQLKRKPRLFVGTPGRMNDHLDRGTLNLKNVNSLVLDEMDRMLDMGFSVQIDAIIKHIPNNRQTLLFSATVPGNIVKLANSYMNKPERISIGAVSSPGENIKHDIIYVSEQEKHGRLVDELNSRDGSVIIFMKTKYGTEKMAKKLSFEGHSAIAIHGDLQHRKRERVIKAFRNKKYRVLVATDVAARGLDIPHIEHVINHDLPQCPEDYLHRIGRTARAGAEGEAICFISKQDQSKWDAIDRLMNPDAKPKSEKGRPSKSFKGKSKNKNNKFKNKFGKKPSNSNKRFNSSKPKRNNGKRKSSGRRAAA;locus_tag=LOCUS_05520;note=WP_004599197.1 DEAD/DEAH box helicase (Rickettsia prowazekii str. Madrid E) [pid:45.4%25%2C q_cov:98.1%25%2C s_cov:96.8%25%2C Eval:3.6e-98],MGA_561
sequence15	MetaGeneAnnotator	CDS	147	311	.	+	0	ID=MGA_562;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKTSRALTTTILSATLIRSPVAQADESVYEYNPAAELTTKFSKGRNIGELNYM;locus_tag=LOCUS_05530;note=MGA_562
sequence15	MetaGeneAnnotator	CDS	516	1796	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYIDARANIYIPQNKRKKLKHNSKKSVEIKGTSIFAISGGHKYESALRGYDIEVGTPLFAFSDSLNEKFGTKVYVDRYSFTAKNVKPIVGTRFRIEQDLGKIWAGDNSYKFHVSAETQFDKVRKRQNFIGLGVKVAFNDKKSSYKKKQSGLRHRMMETVIRDVDIVTESVTEAPATHNFYMGGKEIKKIYYVGSAGGGYSGYGTKENPMSLEQMNSINCDDAVIVVTSIDLNKGGTTISCHDYAKIKEMPQVLNGKENVVLSTTGADKVSITVNGANGISIAAADKQNTKIIVENNQISEVGLKNGEKVSTIQLLEPETTQTVETQIETAREEYQAANDLQTLIINTAQTEIAEIQQEMPTTDREILNQAVRNIAEEVVNQILDEELQEEELALQPQGTFKSGVDRSALSPAQQALYDLITTAE;locus_tag=LOCUS_05540;note=MGA_563
sequence15	MetaGeneAnnotator	CDS	2097	2468	.	+	0	ID=MGA_564;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYGILDGDKAIELTQNIVVRVIKDNIPTIGPDVAGISLDHRDTAATEEYKAAAKLYLDNVRPPLAGETPQEKIAREGHKNRAMATIKQEIKSSLTAVNNNMAAHRALYRALSLQLVKYLQRKF;locus_tag=LOCUS_05550;note=MGA_564
sequence15	MetaGeneAnnotator	CDS	2489	2947	.	+	0	ID=MGA_565;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAYAILANLDVREIQKNLQIAGKPLTASNIWASQQENIQGLIIQLERGQRAYNMDHNYGTIDIGGIGGLYPAQGEPGHFGNRQRANSISCAHGYCVRIVDSIQHHSMVNLSDDSPASFADEFLNAVKLKTRSTRSTTKTRYCKLAEQSRRS;locus_tag=LOCUS_05560;note=MGA_565
sequence15	MetaGeneAnnotator	CDS	3223	3780	.	-	0	ID=MGA_566;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNIIFIISLAFFAFVNVAIAGTQTSTPSATSSQNQVDTSETSDDGGADSEDGDEPMDEEDESADALEVSEAWARASLSSNNNSAAYMSINNPTDKQITILGASAATVANNVELHKSFVDEKGVSRMTSIDKIVVPANSTISLAPGGIHIMLFDLKRKLNPGDNFKIVLAVEGMDAIIVDAEVK;locus_tag=LOCUS_05570;note=WP_011263638.1 hypothetical protein (Vibrio fischeri ES114) [pid:36.3%25%2C q_cov:55.1%25%2C s_cov:61.3%25%2C Eval:1.8e-09%2C partial hit],MGA_566
sequence15	MetaGeneAnnotator	CDS	4052	4384	.	+	0	ID=MGA_567;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTKIYNPFSDTLMNLIKGVYSSDEAVANKSFDILVQYFKTGLATAREVHCLIMTNQNYIVKLLSDISDQPGPYELLRSTIGRVVAENLSVSHEDDVDITGDDTVELSQ;locus_tag=LOCUS_05580;note=MGA_567
sequence15	MetaGeneAnnotator	CDS	4454	6184	.	-	0	ID=MGA_568;product=putative export ATP-binding/permease protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCM8;translation=MITNNIKYIAGYVTKHIKSLCVVFIALLSVSASLLSIGIVFRKLVDNGVSSDQISEIHNAVFLISILICIFAAGSFFRSYFINVITVKVISKLKSDTYRALLNVNIAKYEDLKVGDIISRLGSDIETIGNLIINFLSFFVRNSIMLFGAVILMFIQSPKLSLLVVVSVPVLLFPLLKLSKHVRALSRSVMAEQGNLAANIDESFSGIRTLYAYNQQEYSANRFDDKITSYIKHASIRLRLRSMFFALAITIIAGSITAVIWIGSVDIISGKMSSGQMISFIYYAIIVGMSAGGIAELFSEIQGPLAALDRVVELKNMATQPYGQEGRKKIGKDYSIKFENVSFSYPTRPDILALNNISLDIKQGSFTGIVGQSGSGKSTLMQLLLKFYRNSKGNIAIGGLNIDTINDDDIRKKIAYVEQHPTIFSGTIKSNIAFSNPKASNKSIRDIAELCGITDFADTLEFGLDTEIGERGVRISGGQKQRIAIARALLYRPEILMLDEATSALDNDSEKKILKNIRSALKGKTIISIAHRVSSIENADEIFVINQGTLASRGKHSGLLRSSKIYNLLYKEQDKE;locus_tag=LOCUS_05590;EC_number=3.6.3.-;note=Q9ZCM8 putative export ATP-binding/permease protein (Rickettsia prowazekii str. Madrid E) [pid:47.6%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:6.6e-149],MGA_568
sequence15	MetaGeneAnnotator	CDS	6186	6488	.	-	0	ID=MGA_569;product=protein CyaY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDK5;translation=MQDSEFAVKVGMILDNIVQDIEDQDPEGEIDIDLNDGILTLITYKGTFVINKQSAAKEIWLSSPISGPYHFACINDSWKSRNGSELFEILTDELNIKFSI;locus_tag=LOCUS_05600;gene=cyaY;note=Q9ZDK5 protein CyaY (Rickettsia prowazekii str. Madrid E) [pid:52.0%25%2C q_cov:98.0%25%2C s_cov:94.2%25%2C Eval:8.8e-21],MGA_569
sequence15	MetaGeneAnnotator	CDS	6737	7045	.	-	0	ID=MGA_570;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPIVDEVNKLVRNVFKRQHPVLAEIIVNWGKIVGVKFSQNSIPLKITSSKERGKKINILYISSENSSASMEIAYQQELIIERIAIYLGYKAIHKIRFLVRG;locus_tag=LOCUS_05610;note=MGA_570
sequence15	MetaGeneAnnotator	CDS	7042	8046	.	-	0	ID=MGA_571;product=UDP-phosphate alpha-N-acetylglucosaminyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599672.1;translation=MSFIINLTILGIIALIASLVITKLLIKIMPKFGIVDVPSKRRAHDKITPRGGGLAFVLIYSILLPSFEYFVVGSIEDSILVLQMFIPISAVSFWDDISHVMIPLRLLIHVLCSCLAIMWLVHPSPILHYEIPVYLDLAIGTFALLTFLNIYNFMDGIDGITVSQSLHYSGTILLLCFVRYDLIPNVDMVIVTAVIIGGWSLGFIYFNWQPAKIFLGDVGSISLGFLIGICLLTIASASAKLFAACVIASLYYIADGGMTILIRIVKGERIWEPHLQHFFQKSVKGGKSHKRTVKRIMKCNILLMLLAVQSLYYPVISIIGATLVVMVTIIRSVI;locus_tag=LOCUS_05620;note=WP_004599672.1 UDP-phosphate alpha-N-acetylglucosaminyltransferase (Rickettsia prowazekii str. Madrid E) [pid:49.8%25%2C q_cov:97.6%25%2C s_cov:97.9%25%2C Eval:3.0e-86],MGA_571
sequence15	MetaGeneAnnotator	CDS	8043	8744	.	-	0	ID=MGA_572;product=DNA repair protein RadC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532006.1;translation=MSLEENKTEEKPHHVGHRKRLKNKFLQTNPTGFSDYELLELVLFQSVPRRDVKPLAKNLLSKFGNFNQLINADREKILAVSGATEAIYLQFRVIKEMLNRVFAERVENKNVISSWSPLLEYLKFNMGCLKIEQFRVLFLNKKNVLIADEVMATGTIDQTPVYPREIVKKSLFHEAGALILVHNHPSGNPKPSNADIDLTTQIISACKTINVTVHDHVIIGGNEYYSFKSNMLL;locus_tag=LOCUS_05630;note=WP_013532006.1 DNA repair protein RadC (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:47.6%25%2C q_cov:96.6%25%2C s_cov:88.9%25%2C Eval:9.8e-58],MGA_572
sequence15	MetaGeneAnnotator	CDS	8725	9519	.	-	0	ID=MGA_573;product=methionine aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCD3;translation=MAIKIHKKEDFEKMRKAGELAAMTLDYITEYVVPGVTTERLDDLCHEFITSHGAIPAPLDYKGFPKSICTSINHVVCHGIPSDKKLKNGDIINIDVTVIVDGWHGDTSRMYHVGDVGIKQKRLVQVTYEAMMIGIEMVKPGVQLGDIGSAIQKHAEKHKYSVVRDYTGHGIGQVFHDEPSVLHYGKPGTGVVLEEGMFFTIEPMVNAGKYDTILSKFDGWTVTTRDKSLSAQFEHTVGVTKDGVEIFTMSPKKLLCPPYELGRK;locus_tag=LOCUS_05640;gene=map;EC_number=3.4.11.18;note=Q9ZCD3 methionine aminopeptidase (Rickettsia prowazekii str. Madrid E) [pid:76.8%25%2C q_cov:98.1%25%2C s_cov:100.0%25%2C Eval:2.7e-118],MGA_573
sequence15	MetaGeneAnnotator	CDS	9520	10851	.	-	0	ID=MGA_574;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLSGDFEVVDQAHQLDMDYVSEHMQAVMTLPGTGEKSYADTSSIDEMLEAMPNLEWVGIVVSWFTTGLDIANDIIKPGIEKNSGESEDDWLVSSYDRTNAHQIYRSNQLDPTTVRYGGTAPDSDVLSYIQEIKDKGLKVAFYPFIMVDDVSKSWRGSITGDAEDVSNFYKKQYKPFIMHYAGLLKDVIDMFYIGSELQGLTSIKGDGREFPFVGCLVDLASSVRSEVGDGVLISYAANWTEYHSCLGGYRPLDTLWSNQNIDFVGVDYYMPLTNSEEMDLSVEEIKAGFYSGEGYDYYLNYTGEEIEFNNNCDRLKDVAGWFSSDHWAWDPEVEESYKTSWVAKSKKVIFSEFGFRSIELASNTPNVYGDVMPRHSSGNVDFPMQMRAIRATLEHISEDQSIEMGFCYGWDSRGSGWTRNYADGDRWAKGHWIDGKIVRIK;locus_tag=LOCUS_05650;note=WP_010971295.1 hypothetical protein (Agrobacterium fabrum str. C58) [pid:28.5%25%2C q_cov:97.5%25%2C s_cov:41.6%25%2C Eval:3.5e-51%2C partial hit],MGA_574
sequence15	MetaGeneAnnotator	CDS	10864	12309	.	-	0	ID=MGA_575;product=aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE11;translation=MAYITGNTGEWEYVIGLEVHAQVSSKAKLFSGTATEFGAKPNSQVSLVDAAMPGMLPVLNKYCVEQAIKTGLGINAQINKISVFDRKNYFYADLPQGYQISQFYIPIVENGHLDVMTEDGKEKKVRINRIHLEQDAGKSIHDQHPEYSLIDLNRSGIALMEIVTEPDISSPFEAADYVRKLRSLLRYVGSCDGNMDQGSMRCDANISVRKPGGKLGTRCEIKNLNSVKNITKAIEYEAMRQVELLESGGEVDQETRLFDVNTGQTRTMRSKEDANDYRYFPDPDLLPVHVDDELIAKLKEDLPELPSEKVHRYVSELGLNKYDAEVIVADIDTAKYFEEASADANAKVVANWISSELFGRLNKNSMTLAECKVTPKMLRDLVALIDDGTISGKIAKTVFEEMFESGEQPDKIVEKKGLKQVSDRGSIEPIIDEVIAANPDSVQAYRGGKDKLFGFFVGQVMKKTGGKASPQMVNEILKEKL;locus_tag=LOCUS_05660;gene=gatB;EC_number=6.3.5.-;note=Q9ZE11 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B (Rickettsia prowazekii str. Madrid E) [pid:66.9%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:9.9e-188],MGA_575
sequence15	MetaGeneAnnotator	CDS	12309	13790	.	-	0	ID=MGA_576;product=glutamyl-tRNA(Gln) amidotransferase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE10;translation=MSELIKLSIAEALEGLKAKKYTATEIVDAHIKQAEAQKSLNSYITETFDIARGQAKQSDANYASGNARKLEGVPVAVKDLFCTKNVKTTAGSRMLEEFVPPYESTVSRNIADHGAVMIGKVNMDEFAMGSSNTTSYFGNVISPWKAKNSDKDLVPGGSSGGSAAAVSSFTAMAALGSDTGGSIRQPAAFTGTFGIKPTYGRCSRWGMVAFASSLDQAGIFTRNVTDAALMLEAMMGFDDKDSTSINQPVPELVSAGSKSVKGMKVGIPTDLMEIDGVNPEIMQMWQDSIEMMKAEGAEIVNITLPHAKYALPVYYVIAPAEASSNLSRYDGVRYTHRTDRPCSNLDDLYRFTRTEGFGEEVKRRIMIGTYVLSSSHMDAYYIKAQKVRRLIANDFKNAYEKADVIMLPSTPTAAFGINDNQDDPLTMYLNDIFTIPASLAGLPCASVPAALNSEGLPLGMQLVAPALDEYRVLQASAVIERAVKDLDFTPGGF;locus_tag=LOCUS_05670;gene=gatA;EC_number=6.3.5.7;note=Q9ZE10 glutamyl-tRNA(Gln) amidotransferase subunit A (Rickettsia prowazekii str. Madrid E) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-183],MGA_576
sequence15	MetaGeneAnnotator	CDS	13792	14094	.	-	0	ID=MGA_577;product=aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8DY24;translation=MISNDELKKLQRLAKLDFSDSEIEAFSKKLTNVVGMIDKLQEVDCEGVEPLRSVCDMHQRFREDKVEISDISEDLFKNVPERGSEIAREVKCFVVPKVIE;locus_tag=LOCUS_05680;gene=gatC;EC_number=6.3.5.-;note=Q8DY24 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C (Streptococcus agalactiae 2603V/R) [pid:41.2%25%2C q_cov:80.0%25%2C s_cov:80.0%25%2C Eval:1.4e-10],MGA_577
sequence15	MetaGeneAnnotator	CDS	14161	14634	.	-	0	ID=MGA_578;product=outer membrane protein assembly factor BamE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596959.1;translation=MTNLKPYFAGIISVFFLLIISGCQSIDVRGQFVSDSAIEQINIKKPNKEELINMIGTPTYVPDYSAGTWYYIQRSLARRAWFDPKVIEQRIVKITFAENKRVSQAVLLKNAQNEAIVANSAFTKTHGTEQSGIQKFVKNIGRFNQTTNGSGRRKGKK;locus_tag=LOCUS_05690;note=WP_004596959.1 outer membrane protein assembly factor BamE (Rickettsia prowazekii str. Madrid E) [pid:40.4%25%2C q_cov:96.2%25%2C s_cov:98.7%25%2C Eval:4.3e-34],MGA_578
sequence15	MetaGeneAnnotator	CDS	14753	14947	.	+	0	ID=MGA_579;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCH0;translation=MAVPKKKTSKSKRNMRRSHDALGRINVIIDKDTGEYRLPHHMDASSGSYNNKQIVVEKDDNDES;locus_tag=LOCUS_05700;gene=rpmF;note=Q9ZCH0 50S ribosomal protein L32 (Rickettsia prowazekii str. Madrid E) [pid:69.8%25%2C q_cov:98.4%25%2C s_cov:96.9%25%2C Eval:1.9e-20],MGA_579
sequence15	MetaGeneAnnotator	CDS	14957	15910	.	+	0	ID=MGA_580;product=3-oxoacyl-[acyl-carrier-protein] synthase 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCH1;translation=MASRIIGCGGYLPFKVVTNSDLKKTIDTSDDWIKSRTGIGQRHIAASDEYTSHMAHKAANAAIKDANINPKDIDLIIACTNTPDNSFPSVANKLQGYLGLGEIPSFDIQAICSGFVYGTQVADNMIKSGKYKTVLLVCSEKMSSLLDWQDRSTCVLFGDGAGAIILQQDDSKSGIIDSDIYSDGSMYDILYTDGGVSMNGKSGHVQMKGSEVFKKAVEKMSESVKSLLKSNNLSIEDVDFLVPHQANQRIIKSIANKFNLPDEKVIVTIEKHANCSAASIPLALSELKSTKGIERGKLVVFTAFGAGTTWGSILVRW;locus_tag=LOCUS_05710;gene=fabH;EC_number=2.3.1.180;note=Q9ZCH1 3-oxoacyl-[acyl-carrier-protein] synthase 3 (Rickettsia prowazekii str. Madrid E) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-106],MGA_580
sequence15	MetaGeneAnnotator	CDS	15970	16263	.	+	0	ID=MGA_581;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKPETITKEKVAEKLKEKLGLSATLCEEITTHTFSEIFHLTKRDDKTMLQNFGTWKINHKKTRPGFNIRSGERVEIKPRTVLRFLPSRPLKEKINS;locus_tag=LOCUS_05720;note=MGA_581
sequence15	MetaGeneAnnotator	CDS	16308	16607	.	+	0	ID=MGA_582;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCALAPHKLRYIDKIDKKMSIVKIRGRRYYTLENINYLIQTYSDIKEPINKQPSIKIENAEIIDQKADNLNNTSQINYQFLERIDQLIKNFYTLAERLS;locus_tag=LOCUS_05730;note=MGA_582
sequence15	MetaGeneAnnotator	CDS	16662	17333	.	-	0	ID=MGA_583;product=glutathione S-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597733.1;translation=MLTLYHHPACPLSRQIRVFLKEFDVEFTMVKEDYWLRRKEFVEINPSGNLPVIEIDKFSPILVGNYSIIEYMAEKFEDFYFMPKSADERALVRKDIAWFNDKFYREVSKILVNEKMIRLLMHVGGPRSAFIRAAKANLNQHFRLLSEYLEKRSHVALEKLSCADIVAASHISTVDYFGEINWDSWPLIKEWYSIIKSRPSFQTILQDRVAGFAPPLHYANLDF;locus_tag=LOCUS_05740;note=WP_004597733.1 glutathione S-transferase (Rickettsia prowazekii str. Madrid E) [pid:51.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.2e-67],MGA_583
sequence15	MetaGeneAnnotator	CDS	17808	18908	.	-	0	ID=MGA_584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDRVLNTCTTTSSNKDIDRHVKNLKTIYADKAKVEKASIWINGIEVKFGRDLNHTVRNINKFYFKAGVRASIKDSKLVLSTRSSILKIHDPKQILKNLVDKDRVGINKDHDIQIVRKGLGDAKFIYTFNNKNNDYRLDRDFSKSGAIYYTGWQNVHLQDPVDNSANAAVVQNLLHGQAPEPLFGVLMHEGINPVVQEAVGAIPIVQVDEVPDLVAQVNLEPVPVAVEVDVFPVPDVQEDVEPYEDENIDYLARAIELLNGKSKKETREILTDVAKRGNVNLIEAMVQIIKQPPANVVINKPGFVGMKRVYNDSRTYSQILLRREQSDDIKKACGIIADLAKISDHEQRVFHNLERGRYYGAAFGG;locus_tag=LOCUS_05750;note=MGA_584
sequence15	MetaGeneAnnotator	CDS	19585	20730	.	+	0	ID=MGA_585;product=beta-lactamase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:YP_001701083.1;translation=MDNILKLLLGQLVFIAFIGLVQAEEPKSFPKRVENTLKKELEAVINKHNLPGANIGIWIPGKGEWAHSFGMANKSAKEPLKLECYFRIGSITKTFVTTAILQLVDKGLISLDDKIGKHINNVPNGDIITIRQLANMTSGLANYSENDEWLDKIIFSESKRFIPAQELLDVAFAMPILFEPGKGWKYSNTNTVLLGQVIEKKSGLSLDKYLQKNIFEPLELDHTLYPTDHNIPTPYAHGYTKQTIDGKEADASLNNPSWTNAAGQLISTIGDLKKWAKALGTGALLSKKVFEERTKWANLPPNTDKRHYGLGVGFNNGWIYHTGELPGYNSIAAYLPKEQAIIVIMVNTDMHSLINGKPEGPADIIFEAIRKILTSQNVPLI;locus_tag=LOCUS_05760;note=YP_001701083.1 beta-lactamase (Mycobacterium abscessus) [pid:40.2%25%2C q_cov:100.0%25%2C s_cov:94.5%25%2C Eval:3.4e-76],MGA_585
sequence15	MetaGeneAnnotator	CDS	20850	23510	.	-	0	ID=MGA_586;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05949;translation=MTNSKNSKPLIIVDGFGFIFRAYHVQPPLTSPSGDPVGAIYGFTSMLIKLIADFKLEHAVIVLDHSGKNFRHDLYKDYKANRPPAPDDLVMQLKLVEKAAKALNFECISRAGYEADDIIATLAHKAKEAKRDAIIISSDKDLMQLVNDHVKMFDPVKSKFIHEEDILSKFGVGPDKVREVQALMGDSSDNIPGVAGVGPKTAAGLINQFGDLETVLSSIDQIKSKRQQELLRSSAEDARISWKLVGLDYNVDLDHDVNEFKWNAPSVENISHFLAEFGFKSLIKRVENLFSLKIQEVEIQANDSINKKIATKRNQISSDEEFAKFMAFAELYGEVSVSACRQDDDIQFIFGVNDELYIAPYIAQSDAPKDLFSLNKDKSKNLNFSKQIHELFADVSIKKIVFNLKELLKICNQPCKSFEDLQLMDYVLNAGKKSRDIRKIIQDLSGTEISKEAEIEIIAPYLVDCYRKLNSELFKNKLLHLYLDIDLPLCHILDEMEIEGVKIDSKYLSKISQEFGIKIAELEKKIYEITEEEFNIASPKQLGEILFGKMKLPFAKTTGKTKSFSTSADILEKLHEEGFKIAELLLEWRHLTKLKNTYTDTLPNQSDPRTGRIHTTFLQAATTTGRLSSINPNVQNIPTRTEEGSSIRAAFIASEGKKLISADYSQIELRILSHVANIEPLKKAMSENRDIHAQTASQIFDIPVDKVNSELRRSAKAINFGIIYGISSFGLSKQLNISRKEASDYIEKYFKEYPGIQKYMSDTIEFAKEHGYVENLIGRKCFIPTINDKNHAMRSFGERAAINAPMQSLTSDIVKIAMINLNTEIKNRSMKTKMILQIHDELIFEAPEAEVEDAMELIKKTMESAINLDVRTDVDVNSGDNWREIH;locus_tag=LOCUS_05770;gene=polA;EC_number=2.7.7.7;note=O05949 DNA polymerase I (Rickettsia prowazekii str. Madrid E) [pid:51.2%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:7.8e-248],MGA_586
sequence15	MetaGeneAnnotator	CDS	23518	24243	.	-	0	ID=MGA_587;product=UDP-N-acetylglucosamine pyrophosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599488.1;translation=MQIIILAAGKGSRMKSELPKVMHKVAGKPMLEHVIDNCLKVSNDLILVYSDHIKEFLPEFSNKCTLVKQEEQLGTAHAVFVAKDKFDPDQPIGVIYGDNPLITADIIQNMFDHMQKTDSKAVTLAFEYDKPNAYGRIVVDSEGNFEKIVEAKFASPEEKKITLCNSGIMSFAPGILNKYIEACLRSDSDNPQKELYLTEIIEICAQHGEKVSYYISDNYNLVLGVNTQEELRNANSIIDKQ;locus_tag=LOCUS_05780;note=WP_004599488.1 UDP-N-acetylglucosamine pyrophosphorylase (Rickettsia prowazekii str. Madrid E) [pid:52.7%25%2C q_cov:99.2%25%2C s_cov:95.6%25%2C Eval:1.6e-66],MGA_587
sequence15	MetaGeneAnnotator	CDS	24255	25007	.	-	0	ID=MGA_588;product=putative transcriptional regulatory protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD88;translation=MAGHSKFKNIQHRKGAQDKKRAKIFTKLVREIITAAKIGGVDTNNNPRLRSAITAARSQNLPKDRIDRALQQASDPSDTDNYTEIRYEGFVPGGIAIIVETLTDNKNRTVAEVRSAFTKHGGNLGESGSVSFMFDRVGRIDYPANVASADDIMESAIESGANDVESTDQYHTVYTDIETFSECLEYMNNKYGAPLESEIEWKPQNTIMVTDEERATKLLKLIDALEESDDVQKVFGNYEMSEELFEKLSN;locus_tag=LOCUS_05790;note=Q9ZD88 putative transcriptional regulatory protein (Rickettsia prowazekii str. Madrid E) [pid:62.3%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:5.1e-87],MGA_588
sequence16	MetaGeneAnnotator	CDS	487	1470	.	+	0	ID=MGA_591;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012709218.1;translation=MILVLEVIYVLKGFYMADIIRPEPSVKATIIGQVSLLIWALSACCAVALSSLPAFEILSGIFISGFLASAIMNSIRENWVYALSRPRHLIFAGIFGIVGNDIFYILSFKYAPAVQVDLIVCLWPMMVLILASLILSEETRINHVLACVIAFSGVYFLLSSGGEEDGFQEQYLLGYFFAFMSAILWSIYIIISRKYIRSTPELFAIYCFVGAVFSILMHFIFEKTVIPSIDQGIVLVAMGVTTHSLAYYGWDYAIKYGHFKLLHILPYGNPVLSVFALIVFGFAELTREVLFATLMVFAAGIIGGKKFRKRENNVRKKQHVDVADFSS;locus_tag=LOCUS_05800;note=WP_012709218.1 membrane protein (Sinorhizobium fredii NGR234) [pid:28.3%25%2C q_cov:86.5%25%2C s_cov:95.9%25%2C Eval:4.4e-34],MGA_591
sequence16	MetaGeneAnnotator	CDS	1554	2453	.	-	0	ID=MGA_592;product=RNA polymerase sigma factor RpoH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDM4;translation=MSDVAKLPAISAGSGFSKYLSEINNIPSLTKEEEFMLAKAYLEKHDLDAAHKLVKSHLKLVAKIAMQYKNYGLPVTELVSEGNLGLMQAVKKYDPELGFRLSTYAMWWIKASIQEYVLKSWSLVKIGTTSAQKKLFFSLRKIKNKITSTNARPVNEGDYENIAKELGVSVKEVGEMNQRLSGSDMSLNRSIDSDDDSSGEMIELIQETKPSQEAILEKSQVLNKQRKMLAEAMQVLNEREIKILTARKLNDSPSTLDALSNEYSISKERVRQIENKAFEKIQNYVLEKMTSDGQMRLAN;locus_tag=LOCUS_05810;gene=rpoH;note=Q9ZDM4 RNA polymerase sigma factor RpoH (Rickettsia prowazekii str. Madrid E) [pid:68.3%25%2C q_cov:93.0%25%2C s_cov:94.9%25%2C Eval:6.5e-106],MGA_592
sequence16	MetaGeneAnnotator	CDS	2526	3014	.	-	0	ID=MGA_593;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P27640;translation=MDKFPITQQGYDKLEQEIKQLKHVERPAIIEAIATAREFGDLSENAEYHAAREKQSFIEGRILDLEDKFSRSEIIDTSKLSTDSVKFGATVKVIDDDTEEESTYHIVGEYEADITKKRISTKSPLAKALIGKSIGDIVEVTTPKGGKAFEIIEISFQNFKLD;locus_tag=LOCUS_05820;gene=greA;note=P27640 transcription elongation factor GreA (Rickettsia prowazekii str. Madrid E) [pid:69.2%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:5.2e-57],MGA_593
sequence16	MetaGeneAnnotator	CDS	3192	3704	.	+	0	ID=MGA_594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P41078;translation=MGIALTIVAGITLYLDISRHYNPKIKGFVDNFLGKFQRVEEKSGEFVLSGASYMAFGFLITCLLFSKGLAITSWLVLIVSDCIAAVLGMKFGSPLFNGKSYIGSASFFFSAMLISIMSYFVIGYNTSFSIIMISCLLCTVVEFFSDQINIDDNLSIPLTYALSTFIFGLI;locus_tag=LOCUS_05830;note=P41078 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:55.9%25%2C q_cov:100.0%25%2C s_cov:83.3%25%2C Eval:5.8e-49],MGA_594
sequence16	MetaGeneAnnotator	CDS	3711	5483	.	+	0	ID=MGA_595;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P30103;translation=MRIPLEFYNHLRNTIRISDIVRQRLVLTRKGNEYLGLCPFHDEKTPSFTVNDAKRFYHCFGCSAHGDVIRFVSETNGISYKEAAIKISNDNGIELPKMSAAQEQKYEEADQIYNILNLAAEFFQKNIDKTTIEYLKTRGVTSSSIEKFSIGFAPGGGLLEKFFQQKSVPLKDLLKSGLFGKKEDGRIYEVFNKRVMFPIRNVYNKIVGFGGRAMNDAMPKYINSPETMVFKKSEVMYGENIATGQSYKDNYSIIVEGYMDVIALHQAGFKQAVASLGTSVTEKHIQKLWRSADEVIACLDGDSAGIRASGRLINMALPQISADKIISFIEVPKGVDPDDLIKNKGSSAFKSLLDRRIGLSEMIWKMEFSGKSFRTAESKSLLEKKLNEYSFQIQDDSLKANFRRYFKDMIWNNLVRKKSKKESVVGNSKKLFDSKKYSEIEYMENAICSFMIKFPNLMRNLDHNIQFQDADLDEFKNWIVELIEDHDEVDKDLITDKVKNTRFYDRFLVLSSSDILFIDYAFLNDKSIDREQVFEWLHKKHYLLLLKNEYVNVLNSSAYDEQSKTMSYLEEIRRVTKELDNLSSNFINNQ;locus_tag=LOCUS_05840;gene=dnaG;EC_number=2.7.7.-;note=P30103 DNA primase (Rickettsia prowazekii str. Madrid E) [pid:50.8%25%2C q_cov:99.7%25%2C s_cov:99.3%25%2C Eval:8.8e-173],MGA_595
sequence16	MetaGeneAnnotator	CDS	5513	7459	.	+	0	ID=MGA_596;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P33451;translation=MEKSKSKENTSKEEAKNLESLVTEGKKKGFVTYDQLNKSISATKKLSVEELENAISKFSDAGIDIIEDEGEDIKLDINVNEELTVSSRSSDDEDSKDNEPENLGSTDDPVRLYLRDMGGVELLSRENEIEIAKRIDAGKELMLNSLCESPFAIKRFIKWYEDLVNEKIMLRDLIDLDANLGNDEPLMEEEAEDAPEVDSQDESEAESDESNSESIEEEEPVSLSISAMEAELLPSIMDKMEVISQTCEVLLNEANSHCKGTKNTPLKDNKKYTEALNFLVGEISSMHFSSKRVEEMLSDIYEVNKNLVAKEVELLKLSEKHKVKRADFLKEYNNSDAGLMWLEKVSKRKESAWKSFLSEESSSINRILKAINTIEVEIGLPIAEFKRVVGAIQKGERQATRAKKEMIEANLRLVISIAKKYANRGLQFLDLIQEGNIGLMKAVDKFEYSRGFKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKIIRTTRQMMGELGYEPTPAEIAARLSMPIDRVRKVMKIAKEPVSLENPVGDEDGSYLGDFIEDKNAVLPSDAAFQSSLRETTTRILSTLTPREERVLRMRFGIGVNTDHTLEEVGQQFNVTRERIRQIEAKALRKLKHPTRSKKMISFLSGTSSKQSSN;locus_tag=LOCUS_05850;gene=rpoD;note=P33451 RNA polymerase sigma factor RpoD (Rickettsia prowazekii str. Madrid E) [pid:60.0%25%2C q_cov:97.5%25%2C s_cov:97.2%25%2C Eval:6.8e-206],MGA_596
sequence16	MetaGeneAnnotator	CDS	7581	8318	.	+	0	ID=MGA_597;product=tRNA pseudouridine synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCA3;translation=MHRYKIILEYIGAGYCGWQKQKESLSLQQIIEDAIFSFSKERVTVTVAGRTDSGVNAYGQVAHFDLEKHYDPRRLMQSINHFSRPNTIGVISAEEVDLEFHARFSAKSRHYVYKILNRPSINIINNGLQHWVRHDLDTEKMQEAANFLLGKHDFSSFRASECQSNSPMRTLDKIDIFRDGDNIEIRISALSFLHHMVRNIVGSLILVGSGKWKPIKIKEVLEAKDRKEAGPTAPACGLYFLRVDY;locus_tag=LOCUS_05860;gene=truA;EC_number=5.4.99.12;note=Q9ZCA3 tRNA pseudouridine synthase A (Rickettsia prowazekii str. Madrid E) [pid:55.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-75],MGA_597
sequence16	MetaGeneAnnotator	CDS	8323	9168	.	+	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVREALKLATKKFKESSTPSLDARLLLAHALNYSQEKLLINYDKELEQDIETSFFEFVARREEQEPIAYILGRQEFYGLEFAVNKHVLIPRPETELIIDILKEDSARKDQNDNIDILELGIGSGAVSVCLAKEILLANITAAEVSDQAIEIAQSNISKHKVQNQVKILKSDWYSALDKGKKYDYIVSNPPYICRSEIYQMSKETIDFEPDLALYADNEGLSSYQAIIQNAKNFLKNDGKLVFEIGYSQKNMILDLLKRAGFENTSVKQDLSGLDRIIIAN;locus_tag=LOCUS_05870;note=Q9ZCB3 bifunctional methyltransferase (Rickettsia prowazekii str. Madrid E) [pid:39.3%25%2C q_cov:98.2%25%2C s_cov:56.4%25%2C Eval:2.0e-53%2C partial hit],MGA_598
sequence16	MetaGeneAnnotator	CDS	9349	9651	.	+	0	ID=MGA_599;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVKLLATAFAAAAFSIGSANAGAPDGMEKCKVVDKDGKGLIKAHKGECATSKHSCAGHNGPGDPEAWILVPKGECAKINAGDFSGVDDKIKDKIEAKK;locus_tag=LOCUS_05880;note=WP_010947821.1 hypothetical protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:62.2%25%2C q_cov:74.0%25%2C s_cov:75.3%25%2C Eval:3.7e-19%2C partial hit],MGA_599
sequence16	MetaGeneAnnotator	CDS	9888	10730	.	+	0	ID=MGA_600;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947820.1;translation=MANSLVGIGLRYPHLKQFVSEKPNIGWVEVHSENFYSLGGADFDCLVKVREDYPISLHGIGMSLGSGDGIDKNHLMMVKNLINIINPFLVSDHLSWNSISDKFLPDLLPTPFNNEALEVFINNIDEVQSYLGREILIENPSAYFEYETSTMPEYEFLNILSERTGAKVILDLNNIYVSGLNNGWSPEEYISNLDSSIVKEIHLAGHFVKETSNGQKLYVDSHSTYVSDEVWHLYGLAIQKFGEVHSLLEWDVDIPDLSVLLDESRKAENYLDKNFKRQYA;locus_tag=LOCUS_05890;note=WP_010947820.1 hypothetical protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:52.0%25%2C q_cov:96.1%25%2C s_cov:94.7%25%2C Eval:1.4e-83],MGA_600
sequence16	MetaGeneAnnotator	CDS	10723	11490	.	+	0	ID=MGA_601;product=DUF2063 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947819.1;translation=MRNLKELQDNLLNRIIDNDLAADFIKKKGNIDVSDRLMIHRETVLENLISGLKITYPYIWKLLGEECARGVALAYSHNIENLMSRDKINSFGDKFPEFLRNFPSTADIGYLPDFAELEWLRSKSYESIREECLLPQDMQEFFINGDGNGKLVFNSSVYFLKSKFPLDSIQSFLDNPEIKELTLDNSSSNIIVCRVQGKIETLYLSKNQWQFLYNLNNGDAIGKAIECFSNEEVEEQLSIMIQLLLSKQMVKEIVE;locus_tag=LOCUS_05900;note=WP_010947819.1 DUF2063 domain-containing protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:29.0%25%2C q_cov:100.0%25%2C s_cov:97.3%25%2C Eval:1.3e-32],MGA_601
sequence16	MetaGeneAnnotator	CDS	11499	11954	.	+	0	ID=MGA_602;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947818.1;translation=MVGFIQNLQNSLIGKIYLAFTKFANKYLFSALVFFMRFWIAKIFWYSGLTKISSWQSTIYLFKYEYAVPIIPAELAAILATATELSAPILLVIGLMTRLAAVPVLCMTAVIQFTYLDLIDHLYWALLLCTIIFYGPGRYSLDCLISCKTKK;locus_tag=LOCUS_05910;note=WP_010947818.1 membrane protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:60.9%25%2C q_cov:91.4%25%2C s_cov:83.6%25%2C Eval:5.1e-42],MGA_602
sequence16	MetaGeneAnnotator	CDS	12320	12598	.	-	0	ID=MGA_603;product=ETC complex I subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013532440.1;translation=MQVRISKPAKSAMQSADGDIRWQLEFVKKPERRFKESVMGRISSSDMSSEVKISFDTLEEAIAFAEKKSYQYEVIKPKKAKIPKKSYASNFG;locus_tag=LOCUS_05920;note=WP_013532440.1 ETC complex I subunit (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:45.2%25%2C q_cov:98.9%25%2C s_cov:90.1%25%2C Eval:5.7e-12],MGA_603
sequence16	MetaGeneAnnotator	CDS	12645	12884	.	+	0	ID=MGA_604;product=exodeoxyribonuclease 7 small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDH8;translation=MTKPKSIEKISFEDALAELEEIVRKIDTGQENLADAVDSFERGVLLKKHCEKMLKDAKLKIEKITSSSEGKINTTEVDL;locus_tag=LOCUS_05930;gene=xseB;EC_number=3.1.11.6;note=Q9ZDH8 exodeoxyribonuclease 7 small subunit (Rickettsia prowazekii str. Madrid E) [pid:61.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-20],MGA_604
sequence16	MetaGeneAnnotator	CDS	12884	13891	.	+	0	ID=MGA_605;product=aminodeoxychorismate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599407.1;translation=MPFTNLLKIKLFILISISFVVICIANILGGYLLLPGNLDEEKIVIIKPRLSIHKISVLLEKENVIKNAKLFEAISRIYSHFEPLKSGEYKFTKNITPYQVLRVLVNGKSIVHRMFIPEGYTVSQIIDIVNSEERLTGKITGSIPEGYLMPSTYFYTYEDQREKLIDEMRKGMSSALDEVMLKLSKDSPLKTRKDVLILASIVEKEAGNDAERPKIAGVFINRLRKGMKLQADPTTVYAITEGKEPLGRSLKRNDMRIKSPYNTYHVYGLPVGAISCPGRASLEAVVSPAKTDALYFVVNGKGGHSFSKTLKEHNRHVQKFKARLRKQRLSKKKKN;locus_tag=LOCUS_05940;note=WP_004599407.1 aminodeoxychorismate lyase (Rickettsia prowazekii str. Madrid E) [pid:57.6%25%2C q_cov:93.7%25%2C s_cov:92.9%25%2C Eval:1.2e-98],MGA_605
sequence16	MetaGeneAnnotator	CDS	13896	14399	.	-	0	ID=MGA_606;product=mechanosensitive ion channel protein MscS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957571.1;translation=MDKTISLFDSIINFAPLFILSLIIIAGFLVLWVTTKAIITKIFDKKSIKLKNHVALFIAKTISTIIWIIAIITLLGVWGIDVSSIIAGLGLTGFAMGFALKDVLASSVAGILILFYQPFKMKAKISVMGVEGTVIDIDMRYTTIEDDSGKHLIPNSKLLSEKVTILK;locus_tag=LOCUS_05950;note=WP_010957571.1 mechanosensitive ion channel protein MscS (Coxiella burnetii RSA 493) [pid:38.3%25%2C q_cov:89.2%25%2C s_cov:85.5%25%2C Eval:2.5e-25],MGA_606
sequence16	MetaGeneAnnotator	CDS	14528	15148	.	-	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDX1;translation=MYIACPECDTKFVVTPEQIGKHGRKVKCSKCSHIWHQKLDNPVRIEPTILAPAPSEVTPLGNGVNLPALLPVKIQPYLYALPVLMIGMIIFMMVMLFPNNLGFDSLLNSNQLSIKDIRIENHKEIDKITVSYKVLNNSLKTLKMPLVRIRLFDKSDRILKSLIDDHTNIDMSPSQFIQVKTEFVPAPPSTESIDIMIGNKIDFILR;locus_tag=LOCUS_05960;note=Q9ZDX1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:31.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-24],MGA_607
sequence16	MetaGeneAnnotator	CDS	15273	16097	.	+	0	ID=MGA_608;product=2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-succinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDX0;translation=MQNHITAIEEIWQIRDSINEDSPNFISSKKIIDEVISELEDGKISVCEKIQDEWKVNEWIKKAILLNFRTSEMKIYDGSSMRWYDKIDPKYSENDDKKLKESGVRMVPGAFVRKGSYIANNVVVMPSFINIGAYVGSGTLVDTWATIGSCAYVGKNCHISGGAGIGGVLEPLQAKPVIIEDNCFIGARSEIVEGVLVEEGVVISMGVFIGSSTKIVDRYTGEISYGKIPAYSVVVPGVLPADKPGLPGLSCAVIIKKVDQKTRAKTSINELLRD;locus_tag=LOCUS_05970;gene=dapD;EC_number=2.3.1.117;note=Q9ZDX0 2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-succinyltransferase (Rickettsia prowazekii str. Madrid E) [pid:66.3%25%2C q_cov:98.2%25%2C s_cov:98.5%25%2C Eval:9.3e-101],MGA_608
sequence16	MetaGeneAnnotator	CDS	16260	16565	.	-	0	ID=MGA_609;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRVHYNGISFDINPENYYDPESLNPESVKYVIGSTFFLVAGASLVSIATGTMMNALWGFDVFKNAGLTFVGIAEYTFLSSSRSDEPPEYVCDIHDSLIFI;locus_tag=LOCUS_05980;note=MGA_609
sequence16	MetaGeneAnnotator	CDS	16599	19022	.	-	0	ID=MGA_610;product=DNA gyrase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCX2;translation=MSNIEEEVKAEEYAADSIKVLKGLEAVRKRPGMYIGDTDDGSGLHHMVYEVVDNAIDEALAGHCDLVTVTIHKNGSVSVKDNGRGIPVDIHEGEGISAAEVIMTQLHAGGKFDQNSYKISGGLHGVGVSVVNALSDWLELRIWRDKKEHFIKFKDGDSEFPLRVESENTDKKGSEITFMPSLSIFKTIEFNFSTLEHRLRELAFLNSGVHILLVDDRGDEKQEAEFLYEGGVQAYVEYNNRSKVALHPCISLSAQDDSKGIGVDFAMQWNDSYHENILCFTNNIRQRDGGTHLSAFKSALTRVINSYTDKSGLAKKMKVAISGDDAREGLACVLSAKVPDPKFSSQTKDKLVSSEVRPVVESAVYGKLLEWFEEHPNEAKTIISKIVEAASAREAARKARELTRRKSALEISNLPGKLADCQEKDPALSELFIVEGDSAGGTAKQGRDRKTQAILPLRGKILNVERARFDKMLGSEQVGTLITALGSGIGQDFDVDKVRYHKIVIMTDADVDGSHIRTLLLTFFYRHMQPLIEKGYLYIAQPPLYKVKRGNSEIYLKNEQALQEHLIKGALSDSSIKLSSGEEISELKLQELLDQVRKFSETLESVAKRFDAEIAECLAINNLLHTDVLNKNKEAEILAALSPLNLGDAEPDKTDWEINIGEDSIEFFRYVRGVKITKTLYLEQVESPEFIALNKIGQQLESCFIGKCILNIKTQSHEVDRPTILLNLIIENGKKGLTVQRFKGLGEMNSEQLWETTLDHSKRTLLQVKVSDIDDAEEIISTLMGGVVEPRRDFINANALNVSNLDV;locus_tag=LOCUS_05990;gene=gyrB;EC_number=5.99.1.3;note=Q9ZCX2 DNA gyrase subunit B (Rickettsia prowazekii str. Madrid E) [pid:66.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-313],MGA_610
sequence16	MetaGeneAnnotator	CDS	19115	19978	.	+	0	ID=MGA_611;product=haloacid dehalogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597898.1;translation=MSQLTYKHLTDAIHEYDVILFDLWGVIIEGGDTYPGVVDAVNEIMEKKNVVFLSNAPRPDFIVARNLNNWGLRNVDPENVLTSGDIARRMVEERKLSVGKKSPLVYHLGADRNDDILIEIEHELTDDIDKADILLMSLYRDDHEDINEFDDLLKKAARRSEMLTLCSNPDTTIPKHGVLRYCAGHFAGIIEKFGGEVVYTGKPKSVIYDEVLKRNSTTKNDRILMVGDTFETDILGANTAGIHSALVMTGNANNFHKMHNKIEDKLIALHDRAKEMKVMPTFVTKIV;locus_tag=LOCUS_06000;note=WP_004597898.1 haloacid dehalogenase (Rickettsia prowazekii str. Madrid E) [pid:45.6%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:1.3e-68],MGA_611
sequence16	MetaGeneAnnotator	CDS	19982	20410	.	+	0	ID=MGA_612;product=tRNA threonylcarbamoyladenosine biosynthesis protein TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZED0;translation=MNNRIAEHIVVNNEEESKKLAQKVASNIKSGDVIIFEGDLGSGKSFFCREIIKHLCGSNTKVTSPTFNLLQTYESKNFIIYHYDLYRVEHISELYELGFEDALSGNVTLIEWPDLALSLLPENLSFIKIKIIDKTTRQILIK;locus_tag=LOCUS_06010;gene=tsaE;note=Q9ZED0 tRNA threonylcarbamoyladenosine biosynthesis protein TsaE (Rickettsia prowazekii str. Madrid E) [pid:51.2%25%2C q_cov:89.4%25%2C s_cov:88.2%25%2C Eval:1.6e-36],MGA_612
sequence16	MetaGeneAnnotator	CDS	20503	23742	.	+	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSNSQIEKESRVRIAKLHSEVKGALKANPELFAIDNMLSEELGVDGEYRVGLSEEQYDQLHSKISDLSPDSATKTVVNEISFGLRKFLMTNHIEEANKRPLAVLENEIIALGQQKNELVRNNPKNTKKIKAIEKEFFSKALKLSSFPVDEDRSERNHAESNIKQSLRHGINKKYGFNVDTSKFSAPSDAMVRGNRYPNASKIIEECIAAEAIREDSLDADIARLTHRLESAFETELTVQSAVSTLIEDQGLDITPKQYKEISSTFRQSMMGVDPKYIREHQGAITLEIKNALQNEMSGKKIKQQDFTEISDNLAQKYNLAKEDDLINDLKQFRGYFDITISQMKEKAQRKGLDVDFTQYEELQEQWHNLCDDALASFDKTSGAKMTQQNINDIVNAMGQMNRGVNREHINSYLKKPEYYRERWQKLIPEKGKNLVDVTANVAFEQDLALQRMSAEEIGEYTRVTRLRHLIGSMVKEYPDLQKIEDKLSKGHNAKRGKYDIGLSVDQYMELYESCQKIKDGRVNAAEEVASMRKSINKTLPLSRRIKSAFSRKSKKGRMDPDSDISPESLSNEDMEQISEVLEEVTSQNRSTHQKMMSEIERARGVPSRAKDNSAVRREVEKIVKNSDSPSSNPIVQEIEARKQEKATGIKRIEAPKTVVEQSPVQKQLVVVLHDNLEEEQEVRTTLDVVQQISTRDDTSHKKLMSEIREAAGKPKKKPEVKPKIKTHTEPEARDNVIFGDGSGSAKRNSSTHSTNVHGPKVNVKVSDTVDPITQAIRDEIITRQQLYLQQELAKEMHGPERENFLDQDLSKFRSFIATEEGKELVESATSKPQVQVQLHTMEKAGYKAVHSQFSDRFHDVDWQAKAGKVRATEVKNGDGEHVCTLSETTFDSQPQNVVLSDGTGRVIRSYRQIDFPKELETGNGPVHFSMAVKDENGKNISEKEAVYFTAHYDESGKLEEVSSPVPVKFMGKDDNAIGYIERNGKVYTLPVTQGKYKEMMKEVAKNNGMNVDVSKSIEKEELASDMVITNSRDVPEKLAQKVKKIGGGLEATKTKTTGHVSTPLVKTKSDIGKSNTR;locus_tag=LOCUS_06020;note=Q9ZD49 antigenic heat-stable 120 kDa protein (Rickettsia prowazekii str. Madrid E) [pid:41.4%25%2C q_cov:23.3%25%2C s_cov:25.7%25%2C Eval:4.6e-48%2C partial hit],MGA_613
sequence17	MetaGeneAnnotator	CDS	1299	2447	.	-	0	ID=MGA_616;product=capsular polysaccharide biosynthesis protein CapM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597471.1;translation=MSTDKKYQKKTILQVVPALISGGVERGTLEIAKNIVRVGHNSIVISAGGPMVESLEDSGSEHITLNVASKNPVTIWKNARKLANIIRSRNIDIVHARSRAPAWSCYMAAKATNVKLITTFHGIYNFKNFLKKFYNSVMTEGRSVIAVSNFVKKHIVDNYKVDPNKITVIHRGVNHNEFSKKKLSEDKLNQYREKYRVPADTPVLLLPSRMTRWKGHMVLIDALEKIKHLNFYCIMAGDLAKHPTYVSRIKEKIHQYKLQSHIQLFGNEPDIISLYGISDIVLSTSIEPEAFGRTIIEAQAMEKIVIATNIGGACETIQDGLNGFHVEPNDSIALAQKIEHCLSLIGSEQEKNMTMNARKTASENFSLEKMLKNTLAIYNHID;locus_tag=LOCUS_06030;note=WP_004597471.1 capsular polysaccharide biosynthesis protein CapM (Rickettsia prowazekii str. Madrid E) [pid:56.7%25%2C q_cov:99.7%25%2C s_cov:97.9%25%2C Eval:2.2e-128],MGA_616
sequence17	MetaGeneAnnotator	CDS	2478	3242	.	+	0	ID=MGA_617;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886270.1;translation=MDILYTDNKEKFLAYNKYKTAKKKAPFIIFHHGLMSDMNGSKAMWLEEHCKVNDYNFVRFDNYGHGKSSGEFSSQTISDWQEGLNLIINKLAKQPILLVGSSMGAWITLLASIKRPNDIIGMVGISSAPDFSEELIWDKLTENQKQKMNTDGICDVGGTDPNCGHVYPISFDLIKDGRKNLLLNKDKINIKCPVHLIHGQQDIDVPSSISMRVFSKISHDNVSIKLIKDGNHSLSREKDLRIICNSIDEIINSL;locus_tag=LOCUS_06040;note=WP_010886270.1 alpha/beta hydrolase (Rickettsia prowazekii str. Madrid E) [pid:46.5%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:3.9e-66],MGA_617
sequence17	MetaGeneAnnotator	CDS	3276	3710	.	-	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRSDLGSKLIIVSDINVLKLFEAKGVKIVRQLESRKIHSETDHNERKHDGYNKKKSTQSVFYDPHTQTKDIEYQESSKAASELIEKQLSYNSDYKEVIIVADAKMLGALRNNLTDNTSKLVSKEIDKDMIKHNTKDIEKVVFGS;locus_tag=LOCUS_06050;note=MGA_618
sequence17	MetaGeneAnnotator	CDS	3795	4295	.	-	0	ID=MGA_619;product=RNA pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDT9;translation=MSSKAAKIDVSELPFRQGVGMMILDKNDRIFVGKRIDSKVNGWQMPQGGIDLGETPSSAALREMQEEIGSGSGEIIAESKKWYSYRVPNFLIPKLWDGKYCGQRQKWFLIRFTGKDSDININTEHPEFDQWKWVDFDQLLVDIIPFKLKLYQQVIEEFRSLLEKGK;locus_tag=LOCUS_06060;gene=rppH;EC_number=3.6.1.-;note=Q9ZDT9 RNA pyrophosphohydrolase (Rickettsia prowazekii str. Madrid E) [pid:67.8%25%2C q_cov:91.6%25%2C s_cov:94.4%25%2C Eval:1.7e-58],MGA_619
sequence17	MetaGeneAnnotator	CDS	4292	5386	.	-	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKDTQLRAKIKRYLIGLNIVLGVVLFSLIVYWVASVRPSQIDQAIQLGQYRFYTMDNLPLGDNQIKPDYIGLQQAVADTTEEISQVEQELAAIDSEPPDVDFSDTSDLLEDTNKLLEKTNQLLTTKNSSELRKPKKKRQYSGAPKISIIVTNLGLNRRSTELALTLPKQCGLGFLPYTKSLKPLLHRAQGNGHEIYLYLPLQTSKSHDNPGRYALMNNLAQEENSLRLNVILNSHARYDGVYSSYKEVFTDNVRASEMVFDHLDDKNLIFILGKGVGYPVPDHIKSHDNILPTNIIIDEEPDKESISAQLNELIRVAKEEGVALGYAQGFTLTIEMIRKWAPALKGKGIKLVPVSELLKEYNS;locus_tag=LOCUS_06070;note=MGA_620
sequence17	MetaGeneAnnotator	CDS	5394	6737	.	-	0	ID=MGA_621;product=peptidase S41;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596041.1;translation=MYNFITKHILFKLFLAVQFALLFSVVNSAYAKEEQEDKHPNSYYFRQFQDVFQRIEKTYIQDPKRQEMTNEAINGMLRSLDPYSGYFTDDDFDFFVNQTDGEFGGIGVEIIPDSGAIKVITPIDDLPAYEAGIRAGDYIVGVNGQLVSNLGFNKAVQEMRGEPGTKLNLLVVKEEENKTEEIELKREIVKIKPIKYEIEEEDFGGVGYVRIVAFNHQTSTDLKKAIADIEKKLKAKKKNLKGIILDVRSNPGGLFDEATAVSEYFIDHGVIVSVKGRNSGDDTVTSAGRFVAKAPKVPLVVLINSGTASAAEIVAGALQDHGRAVIVGTTSYGKGLVQVFTQIGKRKAVKLTTAKYYTPSGRSINAKGIEPDIYIENAKVEFSEKEDNEKSFTSSSIKSYLKKYNNDEKTEEVSDVKEHKMSQKYKDDYQYARAYDLIRGLIINHSK;locus_tag=LOCUS_06080;note=WP_004596041.1 peptidase S41 (Rickettsia prowazekii str. Madrid E) [pid:55.5%25%2C q_cov:94.6%25%2C s_cov:95.9%25%2C Eval:6.8e-127],MGA_621
sequence17	MetaGeneAnnotator	CDS	6730	8712	.	-	0	ID=MGA_622;product=DNA topoisomerase 4 subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDU7;translation=MSDLFGFGAAEKPSAKDNSYTASDIEVLEGLEPVRMRPGMYIGGTDESAMHHLVSEVLDNSMDEAVAGFASKITIEMYADGSISIGDNGRGIPVDNHPKFPKKSALEVILTTLHSGGKFSDKAYQTSGGLHGVGISVVNALSENLTVEVFRSGTSYTQKYSKGIPQTKLEKASALKKLKGTKITFSPDYSIFDKSISLKPKKIYDLAKSKAYLYKGVEIHWVCAPDLVKSEDVPTSDVIHFPNGLKDYLDSKLDKNKIIGGEIFSGSAEIKSEHIKIEWAMCWHENVDFVKSYCNTIPTPQGGTHEQGTRAALSRGVKIYGEMTGLKKVSQVTADDILESACVMLSVFIKEPVFQGQTKEKLVSRGVAKHVENSIKDHFDHWLSGNKKSSDSLIQHFINNAEYRLSRKNERSVNRKTAIQKLRLPGKLADCSKTSSEGTELFLVEGDSAGGSAKQARDRQTQAILPLRGKILNVANAASGKIAANQEIQDLEVALNCGSLGNYREENLRYEKVVIMTDADVDGAHIASLLMTFFYLRMRKLIENGHLYLARPPLYRLVQGSKTHYAADEEQKDKIFEELSKDRKKIEVGRFKGLGEMTPKQLKETTMDPKTRMMYKVSVADFENIDTIVDNLMGKKPEKRFQFIQERVLAQDKNEIELYV;locus_tag=LOCUS_06090;gene=parE;EC_number=5.99.1.3;note=Q9ZDU7 DNA topoisomerase 4 subunit B (Rickettsia prowazekii str. Madrid E) [pid:63.9%25%2C q_cov:98.6%25%2C s_cov:98.5%25%2C Eval:3.2e-243],MGA_622
sequence17	MetaGeneAnnotator	CDS	9092	10684	.	+	0	ID=MGA_623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIQFIEKITFEEVNLVLQLNKVADFEAGVLNSDHAYRITPGMLSENQRTVIREAIAIMDSEDLMKISQKDGLYKIFRSYADTSPIGYLLYRAKGTEGISYSFSDKLKILAKKNIENPQIKLEPLQILPTDWIKMRNEKYNNAETDLDKEFVDRTNFENFTVDKLTALEEKLSNALKISPNNDKLKAQSATLLMQKLPNREKLERAFELFDSIKNEEILEEYSEVKETVIDMRRPQPTKTTITRVNWGVFNRCPLTCRGCYNIFNSDVIDINQCKEILDKIADAGTTELIISGGDPLLWPDLVEFCKYAKGKGLKIGIDTVTYNLNPHLLYNLKDLVAYIGVPFDGTDQKTIETFRRGKKDLLDKLLYSLSLADAFSVPIRLNTTVSKRNVDALDGIAQIVEKHKSVQTWSIYQWWPLRSGDKLADQMILEASKFENAVHIIKNKYEDIKIYDRAIEDRARNAFFISSNGEVYTFGKSSQISTIILGDIKTQSIGDILKNPALKKTSQKFKSIARFNSNALEAPKKLVA;locus_tag=LOCUS_06100;note=WP_010978064.1 radical SAM protein (Sulfolobus tokodaii str. 7) [pid:24.8%25%2C q_cov:49.2%25%2C s_cov:85.0%25%2C Eval:3.5e-16%2C partial hit],MGA_623
sequence17	MetaGeneAnnotator	CDS	10733	13066	.	-	0	ID=MGA_624;product=DNA topoisomerase 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDK2;translation=MKLVIVESPAKAKTINKYLGSDFKVIASFGHIRDLPSKNGSVLPEKDFSMKYEISDKSSKYVNEILKSAKQADEVYLATDPDREGEAISWHVVEVLKNKKIITEDSKFKRIAFNEITKKAVLDAVAAPRDLDSNLVNAQQARRALDYLVGFTLSPILWRKLPGCKSAGRVQSVALRLICEREDEIERFKSQEYWDIMLDVLNSKGKPFIAKLSHIDGKKLEKFSIANKDAASAIVDRLKEKQLSIDSITKKQQKRNPAAPFITSSLQQEASRKLGFGAKKTMQIAQKLYEGVDIGGETVGLITYMRTDGVTLSGDAITGIRSLINRLYGDKYLPKSPRAYKSKSKNAQEAHEAIRPTDITLTPEKCSRNLDKDQLKLYDLIWKRTMACQMESVVVDMVGADLISDDKAFTARATGSTITFDGFYKIYQEGRDDSEEEKNKTLPPLYEGEKIDTKKINPQQHFTEPPPRFSEASLVKRLEELGIGRPSTYASIISVLQDRNYVRVEKKRFFPNDLGRLVTAFLVGFFEQYVEYDFTADLEDDLDKVAEGGLGWKNLLGNFWTGFNQNVDKVSDQKIADVIDYVEKSLEFHLYGEEGSEEYKKNKKCPSCSDGELSLKLGKYGAFLACSNYPDCTFKKQVSKSDNDLADAGQSFTDNTKSLGQNPDGEDVYLKKGPYGWYVQVGEAKSKKEKPKRSPVPAGINPETLTIDVALKLLDLPLTIGKHPETNEEILMGIGKFGPYLKHQNKFTSIPKSIDPFTVKIDQATEIIAAKKEKAKK;locus_tag=LOCUS_06110;gene=topA;EC_number=5.99.1.2;note=Q9ZDK2 DNA topoisomerase 1 (Rickettsia prowazekii str. Madrid E) [pid:65.1%25%2C q_cov:98.3%25%2C s_cov:97.9%25%2C Eval:4.2e-298],MGA_624
sequence17	MetaGeneAnnotator	CDS	13074	14219	.	-	0	ID=MGA_625;product=DNA processing protein DprA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010969165.1;translation=MLKTLLAREKPPAYSQETIDILRLIRSQNVGPKTFSNLIKLFGSAGVALENIEEFSVKGGRAKPIKPYSASDAEKEIEALEKNKSFLLTYKDIKYSDLLMQIHDFPPVITYKGNIELLSNETIAIVGARNSSINSRTFAKKISKELISEGYVTVSGLARGIDTAVHEADTSKTIAVVAGGVDYIYPPENKKLYEKIADQGLIIAELPVGSKPLSQHFPQRNRIISGLSIATIVIEAGLKSGSLITANFALEQNRDVFAVPGFPMDPRCMGSNKLIKDGAYLLESSKDITANVTSIKKLKKSFEDSQNCSNNFRASSHGGSVNIKDTDRDVIISLLSSSPVTYESIADETNFSLPVIYTICLELELAGRIIRHPGNKISLIY;locus_tag=LOCUS_06120;gene=smf;note=WP_010969165.1 DNA processing protein DprA (Sinorhizobium meliloti 1021) [pid:39.9%25%2C q_cov:97.9%25%2C s_cov:97.7%25%2C Eval:7.3e-71],MGA_625
sequence17	MetaGeneAnnotator	CDS	14248	14850	.	-	0	ID=MGA_626;product=peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597447.1;translation=MNPYIGQEAHDFTAKTVMPDNVIEDKFNLKKYLNGEKGVLFFYPLDFTFVCPSEIIAFNNRIGEFAARKVKLIGVSIDSHFSHHAWKAMPVNKGGIGNIQFPLVSDLNKEISTAYNVLNEESVSYRATFLIDEHFNIRHYVVNDLPLGRNVDETLRMVDALDHHNEFGEVCPAGWQKGDQGMKATQQGVSDYLTSNAESL;locus_tag=LOCUS_06130;note=WP_004597447.1 peroxidase (Rickettsia prowazekii str. Madrid E) [pid:58.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-71],MGA_626
sequence17	MetaGeneAnnotator	CDS	15043	15708	.	-	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKKFNKFNRTFARRIGKTLSDLNKSVLENDLPKVIYSPEKLEGTKYEKVFFEIGYGMGEHFLNQLKSNPEHLYVGAEVYLNGVANVLKKLQDYDGDNYMLWPDDLDAMLEQMPDRSLDGIYVLFPDPWHKRKYLKKRLFNVERLALFKQKLKNGGFVSFASDIDDYFDSAKSILENDEEFKITVDDFLIPHAGYVQTKYHTKAIREGRVAQFISATYKF;locus_tag=LOCUS_06140;note=Q9ZCB3 bifunctional methyltransferase (Rickettsia prowazekii str. Madrid E) [pid:52.7%25%2C q_cov:93.2%25%2C s_cov:39.8%25%2C Eval:6.2e-59%2C partial hit],MGA_627
sequence17	Aragorn:1.2.38	tRNA	15864	15939	.	+	.	ID=Aragorn_12;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00120;note=Aragorn_12
sequence17	MetaGeneAnnotator	CDS	16024	16656	.	+	0	ID=MGA_628;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLAKSCWRIFLFCVTIFGIYYSIYSHADNIYTDELSRLEKKIDWVIVQLDKSNNDSVWSKLPYIQNIHIPVKPDLFSPYSIYLSLFGQEELSGEHIYRINEIVQQNRDKLTGLTFQGLILGKQVKVTNNYIEDDHYNKKYPEPNFYLDFTDSNFSNTRFKKSIVSQLNFTNSNFQNSEYDDVIIVSSRFTNSNFSNTRINKSYFKKVY;locus_tag=LOCUS_06150;note=MGA_628
sequence17	MetaGeneAnnotator	CDS	16683	17078	.	+	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNSSFESCDLHRSNFDKTSIINSSFLKTKLTGTDFSKSNFFYNNADIIKKSFFASLYNSKPIIASDVYNLTIKNASNYCAKQQGKYDLEVCIEAIMKISESPEVTKFPNTFDVSKYNLIDASDFIKFFKE;locus_tag=LOCUS_06160;note=MGA_629
sequence17	MetaGeneAnnotator	CDS	17137	17610	.	-	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHFFDESFVIALCFVFFIYLAYRPVKKAIVASLDARIDEIKTKLAETEELKKDAKLLLDEIKQEMQVFEERKKSILESADTSTQRLVETRTKEMELMLARKKDSAIKSIDNQKERASDQMRAEFTDAVLKTVRTYLIETKNNSVSDEEIISHLLKK;locus_tag=LOCUS_06170;note=MGA_630
sequence17	MetaGeneAnnotator	CDS	17610	18086	.	-	0	ID=MGA_631;product=F0F1 ATP synthase subunit B';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596669.1;translation=MPQFDVSSFSSQLFWLAVVFAAMYFIVSKFIAPKAESILTARNRFMEENISYAEDYKKKAKTLDIEKQEKLVEVNARVEEMQQRAMKLLESHFSKQREELSSTLDHKKKTAMVEIEKYVDKFHADEPNSCVSLAAFIIEKITDKPADKKLLKEIHSRA;locus_tag=LOCUS_06180;EC_number=3.6.3.14;note=WP_004596669.1 F0F1 ATP synthase subunit B' (Rickettsia prowazekii str. Madrid E) [pid:30.1%25%2C q_cov:96.8%25%2C s_cov:96.8%25%2C Eval:2.6e-18],MGA_631
sequence17	MetaGeneAnnotator	CDS	18111	18335	.	-	0	ID=MGA_632;product=ATP synthase subunit c;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEC2;translation=MEGMALKFIGAGLMAFGMLGAAIGVGNIFGSLLNSIARNPSASDQLQRMAFIGAGLAEAMGLFSFVIAMLLIFT;locus_tag=LOCUS_06190;gene=atpE;note=Q9ZEC2 ATP synthase subunit c (Rickettsia prowazekii str. Madrid E) [pid:73.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.3e-23],MGA_632
sequence17	MetaGeneAnnotator	CDS	18428	19156	.	-	0	ID=MGA_633;product=ATP synthase subunit a;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEC1;translation=MSHSPLDQFKVKEIVDIELFGYDISVTNSSLFMMIAGAFIFLYFTFAFKGKKLIPTRLQLSGELIYGMISNMLQQNVGSGGRKFVPLIFTLFMFILTCNLLGMIPYGFTVTSHISVTFAMAMMIFLLVTLLGLYLHGLHFFSLFLPAGTPWWLAPLMVVIELFAYLARPVSLSLRLAANMVAGHVLLKVMAGFVVSMAIYLKILPIPFIVVLIGFEIFVAVLQAYIFTILSCVYLNDAINLH;locus_tag=LOCUS_06200;gene=atpB;note=Q9ZEC1 ATP synthase subunit a (Rickettsia prowazekii str. Madrid E) [pid:64.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-91],MGA_633
sequence17	MetaGeneAnnotator	CDS	19159	19419	.	-	0	ID=MGA_634;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEC0;translation=MKKDKFGNIQQRIDKFKNKKSTSDKVVHNSNKAFNIAVEMVAGAIVGLIMGMFFDNLFDSKPIFLIICIILAMVAAFRSIWKKNIN;locus_tag=LOCUS_06210;note=Q9ZEC0 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:41.0%25%2C q_cov:96.5%25%2C s_cov:100.0%25%2C Eval:7.3e-12],MGA_634
sequence17	MetaGeneAnnotator	CDS	19406	20161	.	-	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRNFLLLIFATFLLYACSPEENIDDSPAKEQIKEYSKKLEDCKDSVAEKKSEQEAEKAKAAVKKQVFGRDFTAEPDDIVLGNNNSKLVLVEYFSPTCPHCVNYHKRIFPEIKKKFIDTGRIQYIMREFIGNKQDLDATVLARCSDDQDIYFKFMNIILEQQDNWAYSKNYREILTNIGVMGGVSAEQYAMCLNDESKIKGLIENTKLVAKEPRFIGTPTFFINGKQFTKPYTVEELSSAINSVLRGNEEG;locus_tag=LOCUS_06220;note=Q9ZEB9 putative protein-disulfide oxidoreductase (Rickettsia prowazekii str. Madrid E) [pid:55.7%25%2C q_cov:69.3%25%2C s_cov:63.6%25%2C Eval:1.0e-55%2C partial hit],MGA_635
sequence17	MetaGeneAnnotator	CDS	20360	20563	.	+	0	ID=MGA_636;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVVTLIAALTLLVGCSGNYGSNHDHSHDKKLHNKGVAIENHAPRHMSDVTKEVARRASSATTKAP;locus_tag=LOCUS_06230;note=MGA_636
sequence17	MetaGeneAnnotator	CDS	20692	20838	.	-	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWIKFNKFFWIKGVREIYVGKKRILFKDKYFAGKESSYKEIKKRLLAE;locus_tag=LOCUS_06240;note=MGA_637
sequence17	MetaGeneAnnotator	CDS	21361	21621	.	-	0	ID=MGA_638;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPAIKNGYLHDSYGKFMLISLNKFVQYRETIHPSRPREVIKDRNKGVCEKLFVSLASNIIPNDSPPSEIPCNILNNISNKVDIDPT;locus_tag=LOCUS_06250;note=MGA_638
sequence17	MetaGeneAnnotator	CDS	21883	22071	.	-	0	ID=MGA_639;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIPKIIAAHAEDRNTAENILNTSIGEAIIANTSTYLMSLIVLVLQVIHPDIGKKNIYVNRA;locus_tag=LOCUS_06260;note=MGA_639
sequence17	MetaGeneAnnotator	CDS	22311	23072	.	+	0	ID=MGA_640;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLSKSQIRQSNLIKDIMDSYWNYKDSSVLREGNFFDHFSILSPIRNELSINNIEFVDNIWRSWRDAFPDLNVEFKDIEFYNNVIIVDWTGKGTQHGDFQNLEPTGRSVFYPGKTMWTFNNGMITHYMCQIDLMNIYKQLGYFLVQEEYPQQETIRKNKNILVSRLSSVRLYKKYYLTPREVEVLSLWLLGLQAKKIAACLDISYRTVQTNIANISYKCDCICKSQLRDYIISKNLLHMFIDLSSLILDQKNN;locus_tag=LOCUS_06270;note=MGA_640
sequence17	MetaGeneAnnotator	CDS	23123	23494	.	-	0	ID=MGA_641;product=glyoxalase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011704051.1;translation=MVVSPKPNLQLVYVSNIERSTAFYKNLFKTDPVFTSPRYVAFPAGAETLFAIWSGATSPDIDAPRFSEVGIMLPTNDDVDQLYNQWKDDNGIKILQPPTTEVFGRTFLVQDPDGHIIRVSPVN;locus_tag=LOCUS_06280;note=WP_011704051.1 glyoxalase (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:35.7%25%2C q_cov:91.9%25%2C s_cov:91.2%25%2C Eval:1.1e-12],MGA_641
sequence17	MetaGeneAnnotator	CDS	23726	24136	.	+	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWIREYSKIFPNIKLEDIWKTWIDIDNWPKWHTDPDYCKLEGEFKTGTHFILKPKGVKAVKVTLKEVNDGQNFTDCTTFLGAKMYNTNSVETKNNGVLLSNKVVVTGPLRWLWIKLVAKNVADTVPNEVDSLVQLC;locus_tag=LOCUS_06290;note=MGA_642
sequence17	MetaGeneAnnotator	CDS	24150	24437	.	+	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNPPFGFDAPEDSPGFLLWQTSVSWQRNIKEFLESYEISHSQFVIMAFLLWFNGKQTDITQTDIINMSKLDKMTVSKSLKKLSVKELITRGIIK;locus_tag=LOCUS_06300;note=WP_013229703.1 MarR family transcriptional regulator (Amycolatopsis mediterranei U32) [pid:30.8%25%2C q_cov:95.8%25%2C s_cov:63.2%25%2C Eval:2.6e-09%2C partial hit],MGA_643
sequence18	MetaGeneAnnotator	CDS	294	1169	.	-	0	ID=MGA_644;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRISVVLLVFISLFANCANAQDIFLIEQMVKYAKKHNLSLPKPLSDGRIQTLNKKGAMSPRLDWVTEKFISYASKNNRKAFEVGSSYGLVSVIGALKAGNKDYTAVDVDKRHLGILALEIKSKYSQFSSFVKFINGEYPDDINLPDEEFDAILISRVLHFFSPYEIEKTLADCYRILKPGGRVYTIAITPYVKRFASFIPEYEKNFDNGDDYPGFVKSLAPYADPSVTTKKQMENLHKGHFMFLDSRVLVKAFKKAGFEIHSAKETPLQYVSKTWQYDGRENVGVIAVKPH;locus_tag=LOCUS_06310;note=MGA_644
sequence18	MetaGeneAnnotator	CDS	1173	3116	.	-	0	ID=MGA_645;product=peptidase S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011035498.1;translation=MEDKLIEREILFGNPEKAGVKISHDGKYISYLAPNEGVLNVWIAPIDDILNAKLITSDKKRGIRSYFWSKDSQYIIYAQDKKGDENWRLYSVNISNLQEKDLTPSNDVRASVLKLSDKFPNEMLISLNARVPEYFDIHKVNIETGKLETIYENTENYSSFIADDDFNIRVGYKMLPSGEGEIYLFENGDIKFPKLFEKISVEDMLNTTALHISKDNKKLFMLDSVGKNTSALVEVDLESMKRKVIHESPKADIDDYIVDVKTKMVQASAINYMRKEWTIVDESIRSDLDYLMKLEDGDVEIVSRSAEDDKWMVVYLKSDGPYRYYLYDRTKKEANFLFVSNSSLDKEPLAKMYPVVIKSRDGLDLVCYVTVPRWLDNGNGIPLKPIPMVLNVHGGPNARDRWGYRPDAQWLANRGYATISVNYRGSTGFGKEFINAGDGQWARKMQDDLEDAVSWAVENKIAIKDKVAIMGGSYGGYATLVGLAMTPDLYVAGIDIVGPSNLETLLRSIPKYWKPHMAHLTKIMGASYETEEGRKLLKERSPLTYASNIKKPLLIVQGANDPRVKQAESDQIVKAMKNSSIPVVYLLYPDEGHGLARPENRLSMYANAEVFLANFAGGRFIPHDNKFPGSSVEVKEGKDISWTKIKE;locus_tag=LOCUS_06320;note=WP_011035498.1 peptidase S9 (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:47.2%25%2C q_cov:98.3%25%2C s_cov:91.0%25%2C Eval:4.1e-163],MGA_645
sequence18	MetaGeneAnnotator	CDS	3197	4174	.	-	0	ID=MGA_646;product=zinc transporter ZntB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073715.1;translation=MEEKSNWMIASYQVSREGFVENLEQNNSQQKNVGYRWTHLDANFLETRDWLINKKNIKPLWVDALLAKESRPRIIEIDSETILINLRGINSFNKDEPEDMVSIRLYITKHEVISCRLRTLKAVTKLRNEIDFGYAPIDVYSFVSRLFKYICEEIESIMNDLNIEVDKLEEAILQKSDLDIRQRIIDLRRQMIILKRYLAPNNDVIDRLLLLKNFVNSNIADNTDLSESHNKMVRFIEDIVSAKERVQVVHEEMNNHLTDRLNKNTLKLSVVATVFLPLSFLTGLFGVNLGGIPGSSSDYAFPIFCLITFIMFIMQLVAFKWIYKV;locus_tag=LOCUS_06330;note=WP_011073715.1 zinc transporter ZntB (Shewanella oneidensis MR-1) [pid:33.1%25%2C q_cov:92.0%25%2C s_cov:93.1%25%2C Eval:1.0e-43],MGA_646
sequence18	MetaGeneAnnotator	CDS	4209	4868	.	-	0	ID=MGA_647;product=thymidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCN9;translation=MNLSKPQFITFEGGEGCGKSTQSKLLHEYLLSKNIPAIHTREIGGTVEAEKIRHLIIYSELKPMSELMLVMAARYEHINKVIIPSLIEGKWVICDRFIDSTACYQSDESGLNIEDIYELHETLMTYRPDAFDKISESKLDVHKLSTRGIMPDMTFFMDVRPEIGLNRATERGDANKFEAKKIDFHNKIYQRFKTVASIYNERIVSIDAGDKSIDEFNNL;locus_tag=LOCUS_06340;gene=tmk;EC_number=2.7.4.9;note=Q9ZCN9 thymidylate kinase (Rickettsia prowazekii str. Madrid E) [pid:47.5%25%2C q_cov:99.1%25%2C s_cov:96.1%25%2C Eval:3.7e-48],MGA_647
sequence18	MetaGeneAnnotator	CDS	4855	5919	.	-	0	ID=MGA_648;product=cell division protein ZapE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886236.1;translation=MNKMILDHRQEYLAKKFSKIASNIKPSSFFNKFFKRLSKKNAYQGIYLHGSVGRGKTMLMKKFYDAVDVPKRMVHYQQFMQNIHKKIHDLQNKATDKVVQIVASDIASQCDVLCMDEFEIKDITDAMIIMRLFKYLQQNGVFIFITTNTQPDNLYKDGLQRSAFLPFIAKVKKTFEILHLDTEKDYRFDVVADVENRILYPINETNSKELSRIKSKICKKEELSQSSIEVFGRELIFKQTHNNILVTDFAELFERDLGYGDYVAISKKFEIIILSSVRAISEGENNIATRFINFIDNAYFNRVLLFIEIDSSPEEIYIAGNKKAEFKRTISRLNEMNSKDYSNIDKRQVGDELK;locus_tag=LOCUS_06350;note=WP_010886236.1 cell division protein ZapE (Rickettsia prowazekii str. Madrid E) [pid:45.9%25%2C q_cov:96.3%25%2C s_cov:94.7%25%2C Eval:8.4e-82],MGA_648
sequence18	MetaGeneAnnotator	CDS	5949	7019	.	-	0	ID=MGA_649;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRFLILCTVFFLLYLAFNAIGEFDSNLQLSVYGYEIESTLFTFGAFFIATQLVLMIVLKLIFLIFDIPSIIKKKWHKRKLIKINKKLLYVLAELLMGNRKKSLSQTNSIINDIDEDNKEVINLVLAEAEPSFDKKIQYYRNLIDKKNYSVYASKKLAEIFYENTHHKQAEECAVRAFNEDDTDTELMLILIRIYANLGEWPKLVFIVSKLQRADVKMIEENAEEIASYYYAAAKSYLQSGSDDEALKFLEYALELNPIYIEALNLFTELSTNVNNTVAILKILRAAFSANPCFEVARMYADSATGSAEAIYGTLAGIAQPAKYPALFLALAAYLGLIEKITKLKEPKLISYEGDV;locus_tag=LOCUS_06360;note=MGA_649
sequence18	MetaGeneAnnotator	CDS	7042	7851	.	-	0	ID=MGA_650;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTNKNNKSEEKQKEEKGNGKFLKSFLLITLLFVFGVYLVMQSRPDLIENIYPNKTSNTNSSQDDKQLVQEAIDDSYSVGPEPPMQLFDNTEENKEVNNVIQQELESLDNNNKQSDGADIETDEEEEINPYHEIVDKEAKAFNSSALKSKFNDYRMYISNANRLIEKYKLGESFLPELKIFKEHIHPAHINETIKLLESYNTLLENDSLDNADENKSDSIQVKLLEKFVKIKKIEPVDAKLVKIKSDIDKRLEVFTNYIYSQKLQDSLVK;locus_tag=LOCUS_06370;note=MGA_650
sequence18	MetaGeneAnnotator	CDS	7848	8513	.	-	0	ID=MGA_651;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD70;translation=MSKSILLTRAKSANLTLREKLIPRGFDLVECSLIKHKLLPLDEEVFSKYSNIVITSNFAASNLPNSNGSKYVWVVGENSEKILKDKGYKVKFCAPDAITLEKELLKNNHIKAIYLSGNNITIDMPTNIKRIIFYNADYKKSLSQLEIQRIKFGIDYILLYSENCAKTLLQLLLENDLLKYLENTTIVAISFKVGRVVEDYFKNIKNCTGSNQIIEFLENIE;locus_tag=LOCUS_06380;note=Q9ZD70 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:32.4%25%2C q_cov:92.8%25%2C s_cov:92.9%25%2C Eval:1.3e-27],MGA_651
sequence18	MetaGeneAnnotator	CDS	8510	9919	.	-	0	ID=MGA_652;product=GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCP6;translation=MFISKANHAKYSKVIKYILNKMKKKIIALIGRPNVGKSTLFNRLSTRKKAIVHDKPGVTRDRKYSDAKIGPMEFTVVDTPGLEESEEGKLEHRMMQQTMISIAEADLVCLIIDNESGITPTDRFFAEFVRKYSKKQILIANKSEKQFIHDQAYYKLGFGSPVPISAEHGQGMADLYDAISEQIDTEEGDEVSDPFTGDNIQIVIAGRPNAGKSTFVNSIVGSERMLTGPEAGITRESVEISWQYKEHNMKLIDTAGLRKRSNVKQSLEKMSTGDAIGSIKFANTVILMLDATIALEQQDLTIANYVIDQGRSLVIAVNKWDLVRKRREYEEEFEYKLSTHLPQVKDVPVVYLSALDNNKTLSVLDKCIEIYKLWNKKISTSKLNDWLSFALEKHPLPIQKKLGRRVRIKYITQTKTRPPTFKLFTNDPSSITDAYKKYLINSLRGDFDMPGVPIRIQFVKSDNPYAKKK;locus_tag=LOCUS_06390;gene=der;note=Q9ZCP6 GTPase Der (Rickettsia prowazekii str. Madrid E) [pid:60.9%25%2C q_cov:94.7%25%2C s_cov:99.8%25%2C Eval:1.7e-160],MGA_652
sequence18	MetaGeneAnnotator	CDS	10053	10226	.	-	0	ID=MGA_653;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMIIAHVQTDAKTKINITDFPTKSEDDTNDKIDKSTAELAVVTTCSELSNAIIFCV;locus_tag=LOCUS_06400;note=MGA_653
sequence18	MetaGeneAnnotator	CDS	10258	10800	.	+	0	ID=MGA_654;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSFENLFWSGKVLDELYEKVKKSVDNPLSAVFVSAINECKKGKSSEVKKTETLKIGQKDRIMASMNLSRNREIEELDNKLGFLATVGSAAPFIGLFGTVWGIMHSFQSIAASKNTSLAVVAPGIAEALLATAIGLFAAIPATIFYNYLTSDVQNIENKIDNFIGELNTLISRAIDEEKM;locus_tag=LOCUS_06410;note=WP_004597405.1 Tol-Pal system subunit TolQ (Rickettsia prowazekii str. Madrid E) [pid:67.2%25%2C q_cov:100.0%25%2C s_cov:73.9%25%2C Eval:1.2e-63%2C partial hit],MGA_654
sequence18	MetaGeneAnnotator	CDS	10803	11231	.	+	0	ID=MGA_655;product=protein TolR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886263.1;translation=MGISSQGNSNRRKNRRLMNEINVTPMVDVMLVLLIIFMITAPMLVAGIEVDLPETESAPVSGQFKPLVISIDKNNDIYIVETKIDPKELIPKLENITKEKKDTRIFVKGDKSVPYGIVVETMSRIHSAGFTKVALISDIKHK;locus_tag=LOCUS_06420;note=WP_010886263.1 protein TolR (Rickettsia prowazekii str. Madrid E) [pid:55.6%25%2C q_cov:93.7%25%2C s_cov:93.0%25%2C Eval:4.6e-36],MGA_655
sequence18	MetaGeneAnnotator	CDS	11228	12067	.	+	0	ID=MGA_656;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKEKKQFQGALILSALLHFIIVGLFYFGLPSAFEKLPQEKDVLTFEVVQISDLANIKTENKSKQKEKVAKKSKQVKASKPKPKKKAPTPKKPVKKEKPKKKKEIVPVKKKEKPKKPPPKKEEVKKQDDDPMESILKNLEKESKGTATKTPTKSHEAKEQSNKTARGAEYNEDSPLSITEKLLVKGQIEKNWRPPVGLEQLADVRVLLHMTLEKNGEIKEVIIKNVICPLNSENTCKLTAESAIRAVRQSSPIENLPLDRYDIWKEFDLIFDPSNIAQ;locus_tag=LOCUS_06430;note=MGA_656
sequence18	MetaGeneAnnotator	CDS	12094	13425	.	+	0	ID=MGA_657;product=protein TolB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDM5;translation=MQSKNLILFLITIVFSLNTQAKNSINITSGNSDPIPLAINDFAGVDPADYQLAKKIVAVISNDLRWSGMFRPISKAAFIENKTGTAHTPLFAAWQQINASLLVNGDVSRLASGKLQVKFTLWDTILERAIISEAFELSEKLWRRVAHKISDKIYSKITGYQGYFNTRIVYVSESGPYLKRKKRLAIMDQDGENHQYLTNGTDLVLTPRFSPDGKKILYLSYKNGIPQVHMLNLKNGRSRLIGDFPGMSFAPRFSPDGKHAIMSIAKDGNTHIYEINLKNKRRVQLTKGNSINTSPSYSPDGKKIAFNSDRHGSRQIFVMNRDGSSAKRISFGGGSYAEPEWSSRNYIAFTKINRELGFTIGVLHPGANEKQNTERLITQGFLVESPSWATNGRVLAFTKGSPPSKRRTNGLNRIYTIDFTGHNERIIPTPHDASDPDWSAPID;locus_tag=LOCUS_06440;gene=tolB;note=Q9ZDM5 protein TolB (Rickettsia prowazekii str. Madrid E) [pid:56.9%25%2C q_cov:98.4%25%2C s_cov:98.9%25%2C Eval:2.5e-137],MGA_657
sequence18	MetaGeneAnnotator	CDS	13537	15261	.	+	0	ID=MGA_658;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKTKTQELLSDKTPNTKHLYENYEVQEVIQAYTKDLELSSLNSDLGTGTRLKEVVDGSLLLTPRDINKEKNTSAGHDFANNATRQIFNDQTLQMETHVLDNLTPRLEEFHELTQLEAIRNSGKKVNFVVPMVNDGGYHWYGAIITYDPNAATENKYSYTFMDSMKTEAGHCPADIKAKIENTFGADITHNIETKGFYKQPVGSLSCGACLSANLMMNTGVIPGKHEIDVDIELRKEHFRMVPEIGWRNQPPTEAIADSLFLLKSKEAKAELLDAAQNGTRDEFVKTCSKWEKMLPDQKDLLVRFRSTTHLICFDSRYNRIGKINQTALDERLDQLKLDLEQEKRVDSIAKKFVTHLNGADISGAQDALASTNLNDLKKIQQSKYYKENVNLNSPEGKAVDNIVNSYIQDKAKPTAISKESITQSVNNLSKIHESTLNPTIKVEPQEKRIENAAKKFVMHLNVADLSGAQDFLAANSAADLNKILQSKYYKENVNLDSPEGKTIDNLVSSYIHDKVKPTNKTKKSLSQSSKNLTKTIAKKMNSILKNPPPKTNKSVATQNNRKRKGVDSNAIGI;locus_tag=LOCUS_06450;note=MGA_658
sequence18	MetaGeneAnnotator	CDS	15460	15711	.	-	0	ID=MGA_659;product=DNA-binding protein HU-like;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD26;translation=MATKKDLVDNLVKKLNYLSQQDAAFAVDCILDYIKDELAKGNRLELRGFGSLSIRSRKYAQRDEEYNTVYYRMSKNIQDDLNK;locus_tag=LOCUS_06460;note=Q9ZD26 DNA-binding protein HU-like (Rickettsia prowazekii str. Madrid E) [pid:48.8%25%2C q_cov:96.4%25%2C s_cov:100.0%25%2C Eval:5.0e-16],MGA_659
sequence18	MetaGeneAnnotator	CDS	15721	16641	.	-	0	ID=MGA_660;product=cytidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597793.1;translation=MNLSPDYLIERKRNKTQLAKWKIFSLLLIIALVVFVGKNYSSDLNIASTSLQGAEVVGRIKINDIISDDLERIKNIEKIADNKKIKALIVHVNSPGGSVVGSEMLYNSISKLSKTMPIAVVMGSVAASGGYMAALGGDYIIAHNGTITGSIGVLMQSAEITELAEFVGVKFTNFKSDELKANPSFTEKLTPEAYQATMDSIYEVYDYFIELVAARRNLDIEYVKKLADGRIYSGRQALDLKLVDAIGNEDTARNWLEKEKEISKDLAIQDIKLRPHEKFIDMLFEDLNSTVSNLFSSSFKGLKSIM;locus_tag=LOCUS_06470;note=WP_004597793.1 cytidylate kinase (Rickettsia prowazekii str. Madrid E) [pid:52.1%25%2C q_cov:99.7%25%2C s_cov:99.3%25%2C Eval:3.5e-86],MGA_660
sequence18	MetaGeneAnnotator	CDS	16638	17099	.	-	0	ID=MGA_661;product=SsrA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05968;translation=MSNILKIVAKNKRAQFDYFIDEKFEAGIILTGSEVKAIREGKVALADSHAAQDDGELYLYNCHINEYEKANRFNHATRRPRKLLLKKREIQKIIGKIKLKGYTLVALCMYFNKKNIIKIELGLSKGKKQHDKRQSIKEKDWQKEQGRLIRDKQ;locus_tag=LOCUS_06480;gene=smpB;note=O05968 SsrA-binding protein (Rickettsia prowazekii str. Madrid E) [pid:61.9%25%2C q_cov:96.1%25%2C s_cov:96.7%25%2C Eval:9.7e-52],MGA_661
sequence18	MetaGeneAnnotator	CDS	17092	17982	.	-	0	ID=MGA_662;product=4-hydroxy-tetrahydrodipicolinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05969;translation=MNLNIFDGTITALITPFSKEEIDFASLESLIDRQIESRISGIVIGGSTGEGSSITGDQHFELVKAASEYAGNKVNIFAGITAISTNEALKKLEKLSGLDIDGIMSTAPQYIKPEQEGLFQHFKSIHDATNVPLMLYIHPGRTACDFSDDTILRIMELERFVAIKDATSDLEKPLRILSKTDINMLTGNDSAALSYYANGGTGCVSVISNIFPKLCKQIDSSWKDGSVGKALIIQRELTPLYNAIFAESNPIGIKYAAYKLGLCSDEILLPLTFASKETRDKIDIELERLKDIEENV;locus_tag=LOCUS_06490;gene=dapA;EC_number=4.3.3.7;note=O05969 4-hydroxy-tetrahydrodipicolinate synthase (Rickettsia prowazekii str. Madrid E) [pid:43.4%25%2C q_cov:94.3%25%2C s_cov:95.6%25%2C Eval:4.2e-65],MGA_662
sequence18	MetaGeneAnnotator	CDS	17979	18854	.	-	0	ID=MGA_663;product=putative branched-chain-amino-acid aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05970;translation=MDFNLSEKLSDYIWINGNMIPWDDANIHVLTHSLHYSGAVFEGERAYDGKIFKLIEHSSRLIKSAEAMHLKVNYSVDEISQASEDILKKNNLKNAYVRPLIWRGAESLGAYNPVLTTNLLVLAQESNPAFKSGVRLIVTPWRKVGDDAMPPQSKSSAHYAMLSISQKIAQDQGYDDCLILDRFDDIAECSTTNIFFGREGEIVTPIADRFLNGITRQTVIEMARNMGMKVKEERLMLEDIGQYDACFSTGTSAEIRGVSEINTGSGNINFPNQELVSKLQNEYGKLVGKNL;locus_tag=LOCUS_06500;gene=ilvE;EC_number=2.6.1.42;note=O05970 putative branched-chain-amino-acid aminotransferase (Rickettsia prowazekii str. Madrid E) [pid:52.8%25%2C q_cov:96.6%25%2C s_cov:97.2%25%2C Eval:3.8e-79],MGA_663
sequence18	MetaGeneAnnotator	CDS	18967	19644	.	+	0	ID=MGA_664;product=DNA-binding response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599468.1;translation=MSNKPHILVVDDDNRILKLLKKFLSQEGFLVSTSTSTNEAVELLANFNYDLIILDVMMPEITGLEFAAKIKESGSIMPIVMLTALSEPEDRIKGLESGANDYLTKPFEPRELLLRIHNLINSHNLYKKEQQLIRFGNNSYNLTTKEFIQNNESIKLSSSEENLLHILISANNNAISREELSEKLGGLNLRSVDVQIVRLRNKIESDPKNPQHLKTIRNKGYVLYT;locus_tag=LOCUS_06510;note=WP_004599468.1 DNA-binding response regulator (Rickettsia prowazekii str. Madrid E) [pid:62.6%25%2C q_cov:98.7%25%2C s_cov:98.2%25%2C Eval:2.9e-75],MGA_664
sequence18	MetaGeneAnnotator	CDS	19628	20938	.	+	0	ID=MGA_665;product=two-component sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886292.1;translation=MFSIHKNFKKRFFPKTLLTRFVLIIIIPILIGQSIAVYLFYQRHWYNVAQHNSGFVVKEIESLLQSDEYLKVENKKRRYLNLEYRFIKNAVIPSKSQKYTEEIRIFADILKRITGKHGNIIIDSAADIRLYLQQGKDVLIIHLPYKSILNPTTYIFVLWIFFLTILLLTVSLIFSKNQIKSIIELTKAAENYGKGNKENTYKPTGAKEIRRAGLAFLKMQDRIERQTAKRTQMLAMISHDLKTPLTRMKLQVELMDESEEKEELSYDINSMQQMIASYLDFARGEGGEEFKKVDIGKWISDFINTRWSGDNIAINIKNKSVKTNIKPHSFERAIANIVSNALKYSTKTEISVYSQKDNAIIVIEDNGTGINEEDKKLVFRPFYRADKSRSLDSIASVGLGLAITKEIITGHFGSINLEDSNKLKGLLVRIKLPIKS;locus_tag=LOCUS_06520;note=WP_010886292.1 two-component sensor histidine kinase (Rickettsia prowazekii str. Madrid E) [pid:48.5%25%2C q_cov:97.9%25%2C s_cov:98.6%25%2C Eval:1.4e-105],MGA_665
sequence18	MetaGeneAnnotator	CDS	20942	21625	.	+	0	ID=MGA_666;product=isoprenyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDA7;translation=MQHNLTHLAIIMDGNARWAAKNGKTKSEGHNIGAENAKKILQHALKLNIQYLTLYAFSSENWRRPIKEVSMLISLLNHYLKSETKLLQKHKIKLQVIGDLSKLPSPLVKKIEEAMEATKNNTKMTVNIAFSYGAREEIAYACQKAINSGAKKITEDNFKEFLYDPKMPDVDALVRTGGTHRISNFLLWQISYAEIYFLDKFWPDFNEEDLNQVIENYSQRTRNFGTR;locus_tag=LOCUS_06530;gene=uppS;EC_number=2.5.1.-;note=Q9ZDA7 isoprenyl transferase (Rickettsia prowazekii str. Madrid E) [pid:54.3%25%2C q_cov:98.2%25%2C s_cov:98.7%25%2C Eval:1.3e-67],MGA_666
sequence18	MetaGeneAnnotator	CDS	21772	22290	.	+	0	ID=MGA_667;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKNEKLYIYNFIGQFLIIIPISSILIISSIDDHGWVLLTLFVCISTVDIMAMFGGKLIGGVKLAPKISPNKTISGLLVGTSFACIAINLLTLIPNYELPGMLHKNNFALTLYIFLLGMIAQTSDLLVSCFKRKFKIKDTGTIIPGHGGTLDRFDSIILTAPLVLLYLASNL;locus_tag=LOCUS_06540;note=Q9ZDA8 phosphatidate cytidylyltransferase (Rickettsia prowazekii str. Madrid E) [pid:52.1%25%2C q_cov:80.8%25%2C s_cov:61.4%25%2C Eval:6.0e-33%2C partial hit],MGA_667
sequence18	MetaGeneAnnotator	CDS	22357	22692	.	+	0	ID=MGA_668;product=cell division protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013531480.1;translation=MIRKSQNSFKLTRKSAFNAVILLMLLYFVFHSIYGSRGIIAYFKLQAELENSHIKLEKLRAERLEIENRTKLLRPGSLDKDMLDEKIRNVLGLSEPKEKVFKAQPVDNSSE;locus_tag=LOCUS_06550;note=WP_013531480.1 cell division protein (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:34.4%25%2C q_cov:83.8%25%2C s_cov:86.9%25%2C Eval:4.8e-11],MGA_668
sequence18	MetaGeneAnnotator	CDS	22708	23322	.	+	0	ID=MGA_669;product=3'-5' exonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597621.1;translation=MKVVVYHNDIPDDFHLPGDLAIDTETMGLKFHRDRLCVLQMSNGDGDSYLVHFDGTDYSAPNLKKLLRDENRGTIFHYARFDVAVIKKYLDVDIKNIFCTKIASKLVRTYTDHHGLKDLCRELLGISISKQQQSSYWGAPELSEEQKEYAARDVVYLHSLRAILSERLVENKRSKMAHKLFEFLPTRAELDIIGWNDIDIFAHN;locus_tag=LOCUS_06560;note=WP_004597621.1 3'-5' exonuclease (Rickettsia prowazekii str. Madrid E) [pid:65.5%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:8.7e-78],MGA_669
sequence19	MetaGeneAnnotator	CDS	235	741	.	-	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIKILIMLFSILQTAHAKEIKLGLMQHDFDTKLGHRYEKGQNIIIEYLFDKMQNHLRAFPHIGASINNKGYTSNIYTGFTWQFDIKDIFIIEATLGASINNAERLEPKKKRALGSKLLFRESFSIGYLIDKTHSISVMIDHISSADIRKPNPGLTDIGIRYGFRF;locus_tag=LOCUS_06570;note=MGA_671
sequence19	MetaGeneAnnotator	CDS	744	1433	.	-	0	ID=MGA_672;product=ribosomal RNA large subunit methyltransferase E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE00;translation=MSSSSGYRGKFTEVKTAKRRKTSSTRWLKRQLNDPFVAKSKLDGYRSRAAYKLIEINDKFQILKPGANVVDLGAAPGGWSQVAAKIIKSDSEKAKNKLIAIDLLPIEGIGGVTSFEKDFYEDDAKDLIIDSLDGQYVDVVLSDMAANTTGHSQTDHLRIMDLCENALIFALKILKPGGHFVAKIFRGGAEGDLLDLVKQNFKKVKHFKPESSRKESSEFYLVALERKEK;locus_tag=LOCUS_06580;gene=rlmE;EC_number=2.1.1.166;note=Q9ZE00 ribosomal RNA large subunit methyltransferase E (Rickettsia prowazekii str. Madrid E) [pid:61.0%25%2C q_cov:97.4%25%2C s_cov:97.8%25%2C Eval:1.1e-74],MGA_672
sequence19	MetaGeneAnnotator	CDS	1436	1912	.	-	0	ID=MGA_673;product=N utilization substance protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE01;translation=MTKTQINTKSISRIAAVQTIYQFENDKNTSDIDTLLLRIRDFYKDKDLKSDYELDKLSKLKLRPSYNYLNELVKFTHEHLKEIDKIIEIHLTNEWNIQNLPKLLFATLRVAVCELKYFPETPSKVIINEYTDIASDMLDSGEVGFVNSVLDKYASECR;locus_tag=LOCUS_06590;gene=nusB;note=Q9ZE01 N utilization substance protein B (Rickettsia prowazekii str. Madrid E) [pid:43.6%25%2C q_cov:98.7%25%2C s_cov:96.8%25%2C Eval:6.8e-27],MGA_673
sequence19	MetaGeneAnnotator	CDS	2136	4421	.	+	0	ID=MGA_674;product=outer membrane protein assembly factor BamA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE03;translation=MNRFIKVVFFIFTIIFSSVSVADKIKTINIKGNQRIEKSTIREYLGLNVGDSFSGSIKSDAVKSLYSSLLFENVSLKFNNGILDVIVKETPFVSKIEFKGNYKVKTDLLAREIYTSPGESLRKAKLRTDVTKIKEIYKRSGRFSAKVKSQIETQENNRVKVIFEIDEGPKTGVKNISFVGNENYKDSELRSIIMTKESKWFRFLETNDTFDPDRIEFDKHLLSKFYNSVGFADFRVISVTADLLPTKEGFAITYSVDEGEKYNFGKIALRNKLPNINDKEVLKFIDNKDGQTYDHGAMQRVSEKILDYLAGKGYPQVNVSPEIHTNRNTRKVDVVIVVDQADKVFINNINIEGNLKTEDHVIRRQLQISEGDVFNKAKIERGERNIRNLDYFGKFALKMEPTEKRDRYNVNINVEEKSTAHIGFDLGYNTAGGPFGRISFLERNLVGTGKYFNAGIQAGRKSIYYYTGLTDPNFMDKDLSLGGNIYRSENGRGSGFANGEQNYSLKSTGARTSLGYDITDDLSHSIDYSIKRDELKAPSGSNSAFIKEQDGKFTTSSIAHSLTYDRTDSIVLPKNGYIVSGTQEFAGLGGNTKYLKHEADLKAFKSFVDNKYTIKFSTAAGIIKGVGNKKVRISDRFNIGDYSLRGFAHGGIGPRDKATDEGLGGQKYYTVSTELNFPVGLPEEFNVTGAVFADAGSLWDADSKASTAKGFYNKKSLRASVGFGVLWVTRIAPIRLDWGFPVKKEKFDEKQTFHIKFSTSL;locus_tag=LOCUS_06600;gene=bamA;note=Q9ZE03 outer membrane protein assembly factor BamA (Rickettsia prowazekii str. Madrid E) [pid:58.7%25%2C q_cov:98.4%25%2C s_cov:98.2%25%2C Eval:5.0e-264],MGA_674
sequence19	MetaGeneAnnotator	CDS	4459	5052	.	+	0	ID=MGA_675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYIYMILCFITFLFPLNLLAANLDKSEVYNSSNKFEAKAAVVDVESILEHSKAILHIKKSINIISEQIQSELSSKEVKLKQAEAELIEKRGVLPKSEFDKLVAAFNKKVSLTQQEMQNKKSALERAHTNAIAQVHENTISVISDLSKKYGFNIVFPSSQVLFVNNSLNITHEVISNLNERLQEVKVNYDPMVDKRD;locus_tag=LOCUS_06610;note=MGA_675
sequence19	MetaGeneAnnotator	CDS	5363	8671	.	+	0	ID=MGA_676;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLEISLNKKKDLYENYLSKIGDIKFTFREVDVVACVMHNRGEKKIASLLQISPRTVGTHLHNIMLKLGQNSRESVIDFIEKSGKLLYIKKYYFQILIKSSFEQSLIKIGKTINRKVLDCSINLSQLSSNEKEKLSNITNHLKLANINLIKSKNHSLECKHNINFINSSFIPKAEKGDIFLLLEQTTDKESFEEISYIDFSRDQDYYSAIFVLLKKILGVDEIKEISNEFFAEYHAISGSWEGRDDDAKNNKTQENDIYKVKKTPKKIFVIPLIIVVCAAFYYIFDTTSLFKDDNKSLLHSDLFLPQKGILLGRSQIVSKLKKSFENAKGINTVALVGVGGSGKSTIARKYAKESGASIIWQINAESRVLLVSSMKKIAYAIATKKKEREELDKILAIKDISERERGLLLFLREEAKSYPGWLIIYDNVKSFSDIQEFYPHDASVWGEGSVVITTSNNNIVHNNSILPENVITVGSLNKKEKKDLFISILGEDEKKYDIDYDKCLNGIPSFPLDVSIAAHYIKETNIRCQQYSQYSSSNNQVFRRAQRNILHDVGEYSKTRYDIIILPIQHMVEKSSDFRDLLIMISTLSPRDIPKRLLASYKGDIIVDNFIYELKKFSLITKDPSKANRLGQVFSIHRSTQDVIFAYFVNSQQFAENSEQLHNIAMFLENYLSDILDKHDYPKIQSLVPHMEKFLRKADLFDSQDISRLSKKLGVCYFYLGSYERAKEVFQSTLKMYDQSDNNSQINRAKVLARLGSVYRNIADFEKAKEYLEKALESYKKYYGINHVETAWISTTLGSVYRNIGDYPKAKQLLKNGYNIFVQQYDKDHKKTIWSLSYLGQVYKNVGNYVKARIILEKTLSTYEKEFGSTHTKTAWSLVHLASVYRSIGYPDKAKENLIRAINIYKLRRGEESFEYAWSRTHLSAVYRDLGNLDEAIDLLKGSLDFYNKNLPKEHVIQGWIKFHLGSTYRHKGDREMAMKLLSESLAINEKHYGKSHIKTAQILNSLGKLGIVCQTFEKSKEYLENALKVYSIDNHHDRYKVYESLGDLYNEMYRRGDGNRSLMSKSLENFQKAIVVVEKHFPTDSTHIVRIRSKIARLEI;locus_tag=LOCUS_06620;note=WP_011143578.1 hypothetical protein (Gloeobacter violaceus PCC 7421) [pid:26.5%25%2C q_cov:21.6%25%2C s_cov:24.0%25%2C Eval:5.3e-15%2C partial hit],MGA_676
sequence19	MetaGeneAnnotator	CDS	8843	9022	.	+	0	ID=MGA_677;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYLENKEFRITEMEINEVDRLLNKFCVKEERIRSKLRQLIEVEHDTSLVFELESLIAI;locus_tag=LOCUS_06630;note=MGA_677
sequence19	MetaGeneAnnotator	CDS	9163	11322	.	-	0	ID=MGA_678;product=putative DNA helicase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD95;translation=MDIEQSLSETLNPQQLDAVNQTEGPLLVLAGAGTGKTKVLTSRIAHIIEQNIAYPSNILAVTFTNKAAREMQERVNNLIHADGLNIGTFHSIAARMLRSHISLLDLGLTSNFTIISQDDQIKLIKNIALQNNVDVKQYPPKMIHIIISRWKDQGLLSEKLSESDFHSPAHKIASSIYSEYQKQMHDSNALDFGDLLLYCNQILIQNPDILEHYQNKFKYILIDEYQDTNAVQYVWARMIASKHKNICCVGDDDQSIYSWRGAEVKNILRFEQDFPNAKIIKLEQNYRSTPFILNAASNIIVNNKNRHGKKLWTDRKEGEKIRIISCWNDKEEARFISTEVESYIKTQKYNANQIAILVRAGFQTRAFEEVFISNALPYQIIGGMRFYERMEIRDVLAYIRLSINTNDNLALERIINVPKRSIGNVTLKKIKDFASENEISVFAGLKKMIDENKFKGKTKESLSNFVDLITLAGQKYANESAFDVTKFILEESNYLNILKAEKTEESRGRIENINEMLRAIDEFDNITEFVEHSSLIMDNESLETDFGGTVKIMTLHAAKGLEFDFVFLPGWEENIFPHQKALSEEGEKGLEEERRIAYVGITRAKKDLCITYAESRRVFAEIINSIPSRFLSEIPDNLCIRSSSTNKLNYMGSKHNFSMQTIKPRKNNKIDNSGKKPGNKVHHQKFGTGIIVRKNGDSLEIAFEKIGLKTIKENFVEEA;locus_tag=LOCUS_06640;gene=uvrD;EC_number=3.6.4.12;note=Q9ZD95 putative DNA helicase II (Rickettsia prowazekii str. Madrid E) [pid:65.3%25%2C q_cov:89.7%25%2C s_cov:98.2%25%2C Eval:5.4e-244],MGA_678
sequence19	MetaGeneAnnotator	CDS	11608	13164	.	+	0	ID=MGA_679;product=propionyl-CoA carboxylase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596285.1;translation=MYFDMSTQAFHQQQALEKKRSSALLGGGVKRISAQHGKGKLTARERIEVLLDPDSFEETGMFVEHRCDNFGMKSKKFPGDGVVTGHGTINGRLVFVYSQDFTVLGGSLGEYHAKKICNLIDSAIEVGAPVIGINDSGGARIQEGVDALGGYGELFHRNVKASGVVPQITLVMGPCAGGAVYSPALTDFIFMVKGSSYMFVTGPDVVKTVTGEEVTQDKLGGAKVHTAKSGVADLSFENDIEILLETRRFFNFLPLSNRDNLPIRSTRDPADRVDMSLNTLVPTIPNKSYDMKELIERIVDEGEFFEIQPDYAKNILIGFGYMEGAPVGFVANQPLHLAGCLDIDSSRKAARFIRFCDAFNIPIVTLVDVPGFLPGVEQEYNGIIKHGAKLLYAYAEATVPKITIITRKAYGGAYIVMNSKHLRGDLNYAWVNSEIAVMGAEGAAEIIFREDSKDPEKKQKKIDEYKQNITSPFIAASRGYLDDIIKPQNTRWRICKGLKYLRTKKVSMPWKKHDNLPL;locus_tag=LOCUS_06650;note=WP_004596285.1 propionyl-CoA carboxylase subunit beta (Rickettsia prowazekii str. Madrid E) [pid:82.8%25%2C q_cov:97.5%25%2C s_cov:98.2%25%2C Eval:1.1e-251],MGA_679
sequence19	MetaGeneAnnotator	CDS	13174	15171	.	+	0	ID=MGA_680;product=propionyl-CoA carboxylase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596288.1;translation=MSKPLFEKVLVANRGEIALRIMKTLRLMGIKSVAIYSEADTNSDHVQYADEAYYIGNSPATESYLSIKNIVSAIRLSGAQAVHPGYGFLAENSQFANILKREGITLIGPSAKVIKKMGDKIEAKKIAIDSGVSTVPGYMGTINNLEQANQIAGDIGFPVIIKAAAGGGGRGMRVVENEKQMEKAFESAKFEAENCFNDSRVFIEKLIVAPRHIEIQLIADQFGNAVCLGERECSIQRYHQKVIEEAPSSFVDEETRQKMYAEVVALSKKVGYFSAGTVEFMMDNDKNFYFLEMNTRLQVEHPVTELVTGFDLVEQMVRIAAGEKLSFTQEDVKLNGWAIECRICAEDPTRGFLPSSGRILEYHEPPKSANVRIDSGIGAGGEVSMFYDAMIAKLCTYSETREEAIELMKKSLGSFIIHGISHNISFLEALIHHERFGTGDIHTGFIDEEYPDGFSGAKLTSEINEVFLSTAILAFLTEQKRAVSLPNQLTDQSNKIGTRWIVTIDKGQFPVMIKPVEDGYNIRHGSSRLTIKSNWNIGNPLIAAIINGQKVNIKVERISTGYRLTYSGITVDTYVRSPRMSELEALMPDRGSDDDQSELVAPLSGQIVGISVAEGDSVVPGQELVVLTAMKMENIITAERACKVSKIIVSEMDSVSSGQVLIEFE;locus_tag=LOCUS_06660;note=WP_004596288.1 propionyl-CoA carboxylase subunit alpha (Rickettsia prowazekii str. Madrid E) [pid:68.5%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:6.2e-271],MGA_680
sequence19	MetaGeneAnnotator	CDS	15489	15773	.	+	0	ID=MGA_681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDIIFKIVITTTQSIRFCKNILVSTYNCRFELLSKVKLVLLYLFLFLTVPGVAVCKLRSEPEQEERMFLRMTINVAYYTKVAILVMLYYMYEG;locus_tag=LOCUS_06670;note=MGA_681
sequence19	MetaGeneAnnotator	CDS	15777	16001	.	-	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE04;translation=MNKNNLQQKLVSFTENSPELEKINEDMQNGWSIISLVKNGSYYVGIMELSDSFNEENESLYIPPRKKIKISANN;locus_tag=LOCUS_06680;note=Q9ZE04 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:41.5%25%2C q_cov:86.5%25%2C s_cov:92.5%25%2C Eval:1.2e-09],MGA_682
sequence19	MetaGeneAnnotator	CDS	16297	17274	.	+	0	ID=MGA_683;product=pyruvate dehydrogenase E1 component subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDR4;translation=MFEQGKYKLKPADYIESFEKMLLIRRFEEKCGQFYGMGMIGGFCHLYIGQEAVIAGIQKAKQKDDSTITSYRDHGHIIMSGIDPKFVMAELTGRASGCSKGKGGSMHMFNSEGKFYGGHGIVGAQVPIGTGLAFAEKYNETKNICFTFLGDGAVNQGQVYEAFNMAALWKLPVLYVIENNEYSMGTSLSRSTAMTDLYRKGESFGIPGVQADGMDIDSVYNAALQVAAHVRKGNGPAIIEVKTYRYRGHSMSDPANYRTKQEVEEYKQKDPVAAVKKLILDNSYASEDQIKDIEKKVKANIAEVVEFATNEPLPSEDELYTDIYK;locus_tag=LOCUS_06690;gene=pdhA;EC_number=1.2.4.1;note=Q9ZDR4 pyruvate dehydrogenase E1 component subunit alpha (Rickettsia prowazekii str. Madrid E) [pid:69.9%25%2C q_cov:98.2%25%2C s_cov:97.9%25%2C Eval:1.1e-133],MGA_683
sequence19	MetaGeneAnnotator	CDS	17283	18272	.	+	0	ID=MGA_684;product=pyruvate dehydrogenase E1 component subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDR3;translation=MAEITVREALLQAMQEEMRNDKNVFVMGEEVAEYQGAYKVTQGLLEEFGSKRVIDTPITEHGFAGLAVGAAFAGLRPIVEFMTFNFAMQAFDQIVNSAAKTNYMSGGQLGCPIVFRGPNGAAARVAAQHSQNYAATYAHIPGLKVVAPYSAEDSKGLLKSAIRDDNPVIFLENEIMYGQSFDVPDSVEPIEIGKAKVLREGEDVTILAFSIQVGLALQAADILADAGISAEVIDLRTIKPLDEEAIIESVMKTNRLVAVEEGFFFAGVGATIASIVMKDAFDYLDAPVEVVAGKDVPLPYAENLEKMSLPTTEEIVEAAKRACYREDNL;locus_tag=LOCUS_06700;gene=pdhB;EC_number=1.2.4.1;note=Q9ZDR3 pyruvate dehydrogenase E1 component subunit beta (Rickettsia prowazekii str. Madrid E) [pid:75.8%25%2C q_cov:97.9%25%2C s_cov:98.8%25%2C Eval:6.7e-139],MGA_684
sequence19	MetaGeneAnnotator	CDS	18284	19540	.	+	0	ID=MGA_685;product=dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD20;translation=MPVKILMPALSPTMEHGNLAKWIKKEGDTVSAGEVIAEIETDKATMEVEAVDEGVLGKIVVQEGAQEVAVNSLIAVLLEEGEDASAIDDFVAKNSASTPAPAAKQPETESKPAPAAAPMPSAPPAKAEQKIVRQGPAGRIFASPLARRIASNERISLSSIVGTGPHGRIVKADVLAGGNARGRVQRHPQEYNLVPNNNMRKVIAKRLVESKQTVPHFYLSVECAMDSVLEARSQINASFGDDKSKRLSVNDFVILATAKALKDVPEANASWSDEAIMMYNNIDVSVAVAIDGGLVTPVIRNADQKEITKISSEMKDLAKRARENSLKPEEFQGGGFSISNLGMYGIKNFNAIVNPPQGCILAVGASSKRAVVIDDQIAMRTMMDVSISCDHRVVDGAVGALFLNAFKKYIESPVLMFI;locus_tag=LOCUS_06710;gene=pdhC;EC_number=2.3.1.12;note=Q9ZD20 dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex (Rickettsia prowazekii str. Madrid E) [pid:57.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-136],MGA_685
sequence19	MetaGeneAnnotator	CDS	19550	20929	.	+	0	ID=MGA_686;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCF1;translation=MENFDVVVLGGGPGGYVAAIRAAQLGQKTAVVEREHLGGICLNWGCIPTKALLKSAELYQKMLHAEEYGIKAQSVEFNIEKIVERSRGVSSKLVGGIAGLLKKNKVTVIKGEAKFENSKQLIIDGKTQVMAKNIIIATGARARILDGFEPNGKNIWTYREALVPKSTPKSMVVVGSGAIGIEFACFYNALGADVTVLEAAERILPVEDEEISKMARKSFESKGIKFKTGVKLISQKASKSGVSVHFEHTGKKEKIDSEILLMAVGIVGNTENIGLDKTKVKLDRGHIITNGVMQTSDSGVYAIGDVAGAPWLAHKASHEGIIAAEAIAGKKPHKMTKTNIPGCTYSSPQIASVGLTEKAAIDAGHTIKVGRFPFYANAKALIVGDGEGLVKTIFDAKTGEMLGAHMIGSDVTELIQGYVVAKEMEGTEIDLMNTIFPHPTLSEMMHESVLQAFDKPIHI;locus_tag=LOCUS_06720;EC_number=1.8.1.4;note=Q9ZCF1 dihydrolipoyl dehydrogenase (Rickettsia prowazekii str. Madrid E) [pid:62.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-166],MGA_686
sequence19	MetaGeneAnnotator	CDS	20949	21572	.	+	0	ID=MGA_687;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKIIELSQSLNAKLCHDLAGSIGTVDNCLSLIENDNEEISNQAKELAIVESANLVKRIKFFRTAYGLSEGENKFSLVNLSKLLQDFFVDTNIELSIEYATGVIYINSMTAKAIICLAVIAGDAAVSGGEVMISIPESDKIPIIIKSIGKNIVIKESSLNVLKGVPRIPVAVGNCREHYINAICAHRNYELKVAKSADSLEFRMNKK;locus_tag=LOCUS_06730;note=MGA_687
sequence19	MetaGeneAnnotator	CDS	21583	22971	.	+	0	ID=MGA_688;product=fumarate hydratase class II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCQ4;translation=MSEYRIETDSIGEIKVEDKYYWGAQTQRSINNFKIAGQKMPMEMVRALAILKRSAAKVHSDIAALDKDIASVIINSADRVLGGEFDNNFPLVVWQTGSGTQSNMNMNEVLASISNEKLTSKKGGKSPVHPNDHVNMGQSSNDVFPTAMHIATVVSVNEKLIPALKKIHKSLEKKAKEWKSIVKIGRTHLQDATPVTLGQEFSGYAKQIEFNLERVKKSLENVHFLAQGGTAVGTGINCKPGFAEKFAEEVSNFTGYGFKTAPNKFEALASNDALVEFSGTLNTIAVSMMKIANDIRLLGSGPRCGIGELNLPANEPGSSIMPGKVNPTQCEAMTMVCAQVMGNHTAVTVGGSSGHFELNVFKPLIIQNVIHSTNLLSDAMVSLVDNCIDGIRPNIDRINSLRDESLMLVTALNPHIGYDNAAKIAKKAFADGTTLKEAAIELGIISVEDFDKFVVPEDMVGQ;locus_tag=LOCUS_06740;gene=fumC;EC_number=4.2.1.2;note=Q9ZCQ4 fumarate hydratase class II (Rickettsia prowazekii str. Madrid E) [pid:69.3%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:3.9e-186],MGA_688
sequence19	MetaGeneAnnotator	CDS	22988	23377	.	-	0	ID=MGA_689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEYIVDSNFILRYLLADNEEQFKESKNIFDQAKEGDIRVTLEQSVFVEVIFVLSSFYKVPKNKIIDTMNSFISYKGIDAEKELLQDALNIYQKHNIHIVDSIVAAKSIGKTSLLTFDKKLKTLVKKNR;locus_tag=LOCUS_06750;note=MGA_689
sequence19	MetaGeneAnnotator	CDS	23381	23620	.	-	0	ID=MGA_690;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISKTLSISPRGQITLPKKLRDLFKTNTIVIEIVDDKHAVISPITDVAGSISNYNKETNLPFDKIRNDAWNNSSNKKRK;locus_tag=LOCUS_06760;note=MGA_690
sequence20	MetaGeneAnnotator	CDS	491	1834	.	+	0	ID=MGA_691;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANNINISSSTANILTTYVGRGNRVKGVNESSNKLSINGISLYLRRHSSLNQIARDINAYERRTHVKALVTKYGNQERIILMSKSRTINIVDSSKVLFNLYKNGLISTVNLKNANGNGIINYSIWNVAQLSKSLLSDSTIYLLSGSPQQEREEDQRLAIVEANDINAILLRMNELEDTAYSSDEEERLDTIDAYKRDAIIRRMDELEDDGYTSDEEERLDAIDAYKRDAIIRRMDELEDDGYTSDEEERLDAIDAYKRDAIIRRMNELEDAEYSSDEEERLDAIDAYKRDAIIRRMDELEDTEYSSDEEDRMMEVDAYKRDAIIRRMDELEDAEYSSDEEDRLAAVDAYKRDVIIQRMDELEDAEYSSDEEDRLAAVDAYKRDAIIQRMNEIEDNEYSSDEEDRMMEVEAYEKEAIVKRMSELKDAYFGKRYLDNTGITGSLVWLQL;locus_tag=LOCUS_06770;note=WP_010957276.1 hypothetical protein (Treponema denticola ATCC 35405) [pid:22.2%25%2C q_cov:49.2%25%2C s_cov:27.5%25%2C Eval:4.1e-07%2C partial hit],MGA_691
sequence20	MetaGeneAnnotator	CDS	2001	3287	.	+	0	ID=MGA_692;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073584.1;translation=MNNAIKIFTDYRQFQIFILGIFSGMPLTIIYSTLATWMKQMGVDIAVITTFAIARVFYSLKFLWAPFIDRIDLPVLGRVGHRKSWMCLVSGVIAFIAFGYSQYDPTQSITEIYVLTIALGLASATLDIVIDAYRIDTVDQDKQSIAAANTTFGYLLGGRLIAGVAAFYIAAEYGWEYSFLMISVLYVIGIFFMLSLKEPKIEREEFKALSLQSWKVMTINPFTDFLQRDGAIIILLAVIFYKLGDAFLGVVAYPFYLDLGFTLKEISWIVKIFGLSALVVGSYIGGFIMYRYGNFKGLIVGGIAQSITNFSFVWLNHMGHDTSALAIAIAIENVASGMGNAALVGYLSYLCNKQFSATQYALLSSASGLFSHSIVMYGGSMVKQIGYDMYFSLTVVMAIPGLILLWYLNKKYGLSNNPSVDQKTSDSI;locus_tag=LOCUS_06780;gene=ampG;note=WP_011073584.1 MFS transporter (Shewanella oneidensis MR-1) [pid:33.3%25%2C q_cov:95.3%25%2C s_cov:95.0%25%2C Eval:3.4e-67],MGA_692
sequence20	MetaGeneAnnotator	CDS	3379	4308	.	+	0	ID=MGA_693;product=D-alanyl-D-alanine carboxypeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599443.1;translation=MKIRLLSILAFLLIVSIGLTIPVADAAKRKSRKKSSGRIQTSLVVDGKTGKILHASNARKKIYPASLTKVMTLYLIFEALESGKLSLNQKLYVSSYATKARPLKLYLKPKERITVRDTILGLIVKSANDAARVAAENIAGSEKRFAVLMTARARQLGMRNTTFTNASGWHDAKQVSTAVDLAKLSIAIKRDFPQYYHFFKKTSFKFRKKTIRGHNRVVATYPGAEGLKTGFTNPAGCNLITAATRGNKSLVAVVTGRSSSVIRNKRMVQLLDEHFGVRHKTIKKAKKSRNRNTKVANHRRSSQSNRRVR;locus_tag=LOCUS_06790;note=WP_004599443.1 D-alanyl-D-alanine carboxypeptidase (Rickettsia prowazekii str. Madrid E) [pid:55.8%25%2C q_cov:87.1%25%2C s_cov:87.3%25%2C Eval:1.1e-74],MGA_693
sequence20	MetaGeneAnnotator	CDS	4335	4829	.	-	0	ID=MGA_694;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTELLEKSGKINYKTMHRHTNLNGIRLIKFFEGFRSKPYICSGGHNTIGFGHKILAHEKFDYISRSEAESILRNDLLCAEKSVLRNITSVLSDDQFAALVSFTFNMGGSALQRSTIRQKINYGQYKDAGLEFLRWVYAGGKILPGLVKRRKAEHNLFMSENLN;locus_tag=LOCUS_06800;note=A6UN41 lysozyme (Sinorhizobium medicae WSM419) [pid:35.2%25%2C q_cov:82.9%25%2C s_cov:62.3%25%2C Eval:5.0e-15%2C partial hit],MGA_694
sequence20	MetaGeneAnnotator	CDS	4786	5238	.	-	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITLLASIAGFITSIVPEIIKYFKDLNDKKHELDILEKQIKFSNANTARTLQEIQISQDIIEQASLYSTYKTDIKWVDTLNGSVRPILAYCFFLLYMGVKYLQYKAIASTAHVIEYLEVIWNVDDQAIFAGIISFYYGHRTFRKIWKNKL;locus_tag=LOCUS_06810;note=MGA_695
sequence20	MetaGeneAnnotator	CDS	5253	5897	.	-	0	ID=MGA_696;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTNNFSINLMVPGQAEKDIVFNESILLIDQFLSNSVNGFTKDIPESLKVGEKFIITDGDRKNQVCFLSHESKEIEFLKVKDNTIVFVKEQKCFFLFDTDSWIKINIGSSQIPKKFTGIDEEYTPPIDISNHYLYLSGDCTITLAKTLLPELTLVIKQNAEEAKTLDWHDNILWENNSAHVMTTTTNRFDIIKLFRLPETNHFLGKIISQNHKF;locus_tag=LOCUS_06820;note=MGA_696
sequence20	MetaGeneAnnotator	CDS	5915	9418	.	-	0	ID=MGA_697;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGSILSSVGGSLGKYFGGGILSTIGRYTGRLAGDYLEKKWFKRDKTTHKFTNIHDSFYISMAKYGNPIPLTFGRVKTPGQIIWADQIIEKRNTSSVKKYLKGPNIDLTKETTELEYFLSFAMSICLGKIEDIERVWFGDDVIDISKYKFRLYKGSEDQLPDPTIKSKIGELTPAYRGLAYVVFEELPLTEFGDIIPNFTFEVLRKANVKAKTSVEDMVESIVMIPGSGEFVYDTKIQTKSRLSEHGKKVNSKKINSHNHYNLPNSIHSLNQLKSTCSNIKWVSPVVCWFGNSLNIKDCLIKPAVEFKDKNSHYSEIWKVSSYTRETAHEITKDKYGNPQYGGSINDASIIRYLIELKKRKLNIMFYPMFQMDVTGKPWRGKVTGSPNDVAKFFNRKGGYNEFIIHYANLVKDHVDAFVIGSELIGLTRINHKNQFPAVKELVALAGIVKTIVGPSVKVTYAADWSEYHHTDGGWYNLDPLWSSKNIDFIGIDAYFPVTESLSSDISQEEIQQGFSSGEGYDYYIDPLNSSKKTIDPEYAWKNLKYWWENTHKNPDKQLTEWEPKSKPIWFTEFGFPSIDKATNQPNVFFDDNCVDGGVPKHSNGQTNFGIQRIAIKAFIEFWKTQEYIGEMFLWCWDARPYPAWPVANIWSDGCLWEKGHWVNYKFGSSNLASILLEISYRCGLDIKTIDVSSVDEKIEGLIFSNNPTGIDAINTLRAGYFFDINAHHKNIISFKKRGSDKNAASINSIAMKLNDDSFAEITRTSDTVKINHLGIYYINNNDNYNPCYVRFNKELNSSSRDISLSLPIVLTSYEAQIIGSSILQNAHNENEVVRLRIFDPKVTVKPSDFIEFEDIFKKYTIRVIDINISNDTSIVTGVVDGQSNYSSYGNANYLFDSLESYLDNDLVLLDLPMNIEGSSGSYISIYFCGKNKTALYSKLPKRLDKKWNHIANIEPSDAICEIVSFKQSKAANIFLIDTTSKLIVAGQRLEQYISSDWQYAQAGKEIIKFKNIKKLKNGLYEISELVRGLCGTEKVIEDERDGEIFILLERNPMIIRVSENLKKQQIAFKAGNIEKIINFQDRSQAKLKPYIVSSTINEDILHIQWIDRTHSQEIWTIESIKSKKTYKITLISKENSYEYISDANQIKIDTSKLELSVDFKINIIAE;locus_tag=LOCUS_06830;note=WP_010971295.1 hypothetical protein (Agrobacterium fabrum str. C58) [pid:30.7%25%2C q_cov:72.9%25%2C s_cov:71.2%25%2C Eval:2.4e-114%2C partial hit],MGA_697
sequence20	MetaGeneAnnotator	CDS	9545	10930	.	+	0	ID=MGA_698;product=glutamate--tRNA ligase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCT8;translation=MKVRTRFAPSPTGYLHIGGARTALFNYLYAKKYGGKFLLRVEDTDLSRSTKEAKEAILKSMEWLDLKFDEDIIYQSERRERHLEVANQLLANGKAYYCFTDQDEIAKLREEARSKGEHFIFKSPWRDAASDEYPQNVKPVIRLKAPREGETVVKDLLQGDVVVQNSHLDDMILVRGDGTPTYMLAVVVDDHDMGITHIIRGDDHLSNAPRQQLIYMAMDWDIPNMAHIPLIHGPDGAKLSKRHGALGAENYREMGYLPDALNNYLLRLGWSHGDDEIISREQAIEWFDIDGLGKSPSRLDFDKMKNLNAQYLRRCDDSVLAEMIFEHYKGELSKDSQKAISKAIESMKPRAELVTDLYELAKMFIVDKPLAISEDASQIISECDKSLIKQVIGTIGEIEEFSKDNVQAALKEIAKNNDLKLGGLMKYVRAYVAGQTNSPSVFEMIAILGKEETISRLEIND;locus_tag=LOCUS_06840;gene=gltX2;EC_number=6.1.1.17;note=Q9ZCT8 glutamate--tRNA ligase 2 (Rickettsia prowazekii str. Madrid E) [pid:58.6%25%2C q_cov:98.7%25%2C s_cov:97.2%25%2C Eval:2.1e-155],MGA_698
sequence20	MetaGeneAnnotator	CDS	10923	11711	.	+	0	ID=MGA_699;product=DNA polymerase III subunit delta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886225.1;translation=MIEKYLEHHSQIGRLHSSYLINTDDAERALSEVESFLKQNLLDNSDIEKSADYLCVRRHDSKAKNIAVDQIRDLQNFLYKTSVISGQKVGVIFAADEMNLNSSNSCLKLLEEPSSNAHIFLITENAASIISTIRSRCAKINHFYHIGEQKIIDAEFIKPILKSASTKEKLDFIKKFASKDRDFWSDFSNSLEEIITKFAKNAIGTDVNLSGYELDLFNQLKSRSPLYIQRKYQDIKEIIDNTNNYDLDLRSSAVLLLDKMRY;locus_tag=LOCUS_06850;EC_number=2.7.7.7;note=WP_010886225.1 DNA polymerase III subunit delta' (Rickettsia prowazekii str. Madrid E) [pid:39.4%25%2C q_cov:98.9%25%2C s_cov:96.3%25%2C Eval:3.6e-46],MGA_699
sequence20	MetaGeneAnnotator	CDS	11718	13817	.	+	0	ID=MGA_700;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886331.1;translation=MYNIFFQPVKSIIPMKETAEKALKRLGIHNLRDLLFCTPYSYNISDNSSDLRNLQTGTLVQAEVTIDSIDLPKLKRLPTKIYTSNETGELVLVFFNKIPPFIFSRLKEGSKCVVSGKVQKFDGFYQINHPEFIFKKELTTPVEPVYHLTYGLINKQLYGYILSGISALESAIKARVSFGNIIDDSSLEIFNEKQYIQNLLQEIKSLHLVGVKADSMEIESSLDESSRRLTVKELFANQVSLAKLKKAEKQVLGHKFSINFKLQKQILDNLGFVLTSAQENAIEEIQSDQTKEVQMMRLLQGDVGAGKTLVALMTMLNPIKDGFQAALMAPTDLLSVQHFQFFQKALEGTNIKCALLTGKTKLKERRVISASLESGDIDILIGTHALFQESVEFKNLGYVIIDEQHRFGVEQRMELIAKASHPDVLVMTATPIPRSLTLTMFGDMSVSLLKAKPKNRLPIITTITSNTKKDKVIESLNKKIEEGQKIYWVCPLIDKNDKSLEDEDLAIFANVMERYDEIEKSYPGMVGILHGKMKPHEKDKIMQSFKNGEIKILIATTVIEVGIDVPDATLIIIENAEKFGLAQLHQLRGRVGRGVLQSYCMLMYNPKRLSAMSRKRLEIMRNSNDGFYIAEQDLILRGGGEILGTKQSGEPNFFFADLARDIEDLIKVNKLAKAADISEFVDFQTKLFARDREHLTKSG;locus_tag=LOCUS_06860;note=WP_010886331.1 ATP-dependent DNA helicase RecG (Rickettsia prowazekii str. Madrid E) [pid:52.6%25%2C q_cov:98.3%25%2C s_cov:95.0%25%2C Eval:1.1e-196],MGA_700
sequence20	MetaGeneAnnotator	CDS	13922	14245	.	-	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGKPRRSLSKEFDDLDLLEFDPTPPSPNELLTRAPILSPMQSPTLPTEITAFRLGGYPTGPSLVRSMAAGYPIYYISDEDSIDGLELLGKSSDDDIELLSGSSDIE;locus_tag=LOCUS_06870;note=MGA_701
sequence20	MetaGeneAnnotator	CDS	14628	15302	.	+	0	ID=MGA_702;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSFLSSVSSYFGGSAKHYNSATSHLSKAGDAAYKSGSSVLSGASNFFSTTTAVAGGAAWNTYEWIAGKIIGANTATQFANGFANLFGGVKATGWLASATEFAALSLVKYPVSCMAVLVTTTIVATHPKETFEAIKGFGKAVYNFLDAGLELTEAVGEAALALGLKGAELLDPIVDSLMDTARDTGVGVVDILKDVVDSVDIEMDTFKETTVDPLGGIEIVTEYV;locus_tag=LOCUS_06880;note=MGA_702
sequence20	MetaGeneAnnotator	CDS	15604	15765	.	-	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPPWKSGELAKPPKTATIDFRCDAQASFPGHVYCLPDPKIEDYTIYTAGITA;locus_tag=LOCUS_06890;note=MGA_703
sequence20	MetaGeneAnnotator	CDS	15845	16057	.	+	0	ID=MGA_704;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTCKKSILFKLVVLLLQRQSKISICNGDKLIKEREVTENNIFDTLIGNYIQNLIINRMLGYYMRECKNGR;locus_tag=LOCUS_06900;note=MGA_704
sequence20	MetaGeneAnnotator	CDS	16047	16310	.	+	0	ID=MGA_705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKQKNLIDAAKLGKIIDMYRLIADGADPFIFDQDGKSALQYAVESDPIKAYTLLDDLRLIYTSPAQQEIIKYYSQLAITLGVNNS;locus_tag=LOCUS_06910;note=MGA_705
sequence20	MetaGeneAnnotator	CDS	16374	17060	.	-	0	ID=MGA_706;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008762200.1;translation=MTQIPENKNFKYYNFIAFTFVICLITANLAATKLVQIGSLTVPGGIIIFPLLYVMNDILTEVYGFSASRRVIWIALYCNLFMTLTLYLVVQLPPSDHSHTHEEFTTIFALTPKIFLASLSSYFIGELLNASAISTLKIMLDGRNFAFRAILSTCVGAFIETTIFASIAFGAFLPISQLLSMIFTMTALKVVYELIVLPFTVRITNFLKIVENIDSFEKPSWRGVLGWR;locus_tag=LOCUS_06920;note=WP_008762200.1 membrane protein (Bacteroides thetaiotaomicron VPI-5482) [pid:39.0%25%2C q_cov:89.9%25%2C s_cov:90.7%25%2C Eval:1.8e-40],MGA_706
sequence20	MetaGeneAnnotator	CDS	17155	17979	.	-	0	ID=MGA_707;product=peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596814.1;translation=MMKYLSNIILLAIAALVLQSCKTITYGQDPATIGELYGFRKILVKGGDFWLTTYQKVTNKHKPYVFYIEGDGAAFNGKYRVSRNPTPRRQMLIKLAAMDNRPNVVYIGRPCQYTPMDLNPKCNMQYWTDKRLSDDSVQSMNDVINSINNNHKFSLVGFSGGGGIAVLIAARNYMTKDIITISGNLDHVAFTTHHNVTPMIGSLNPIDYAKQVKHIPQLHISGGKDTIIPPFIADKFVQKASSSCVKQQIFKDISHNHGWEKVWEYVFNQPVRCY;locus_tag=LOCUS_06930;note=WP_004596814.1 peptidase (Rickettsia prowazekii str. Madrid E) [pid:51.6%25%2C q_cov:96.4%25%2C s_cov:98.2%25%2C Eval:4.4e-74],MGA_707
sequence20	MetaGeneAnnotator	CDS	17960	18397	.	-	0	ID=MGA_708;product=single-stranded DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCC2;translation=MAGSLNKVTLIGNLGRDPEIRTTNDGKEIANFSIATSETWKDKMTGEKKDKTEWHRIVCFSEGLVRVIKNYVKKGTKLYIEGQLQTRKWVDNDNQEKYTTEVVLQNFNSTLILLDSRGEAAPNQPSSQNNNPTFDNSDLDDEIPF;locus_tag=LOCUS_06940;gene=ssb;note=Q9ZCC2 single-stranded DNA-binding protein (Rickettsia prowazekii str. Madrid E) [pid:65.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-53],MGA_708
sequence20	MetaGeneAnnotator	CDS	18556	21414	.	+	0	ID=MGA_709;product=UvrABC system protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCC3;translation=MQEYIKVRGAKEHNLKNVNVDIPRNKFIVITGLSGSGKSSLAFDTIYAEGQRRYVESLSSYARQFLHLQNKPNVESISGLSPAIAIDQKTTSKNPRSTVGTITEIYDYLRLFFARVGVPYSPATGLPIKSQSISEMVDIVNALPEGTKIYILSPMVRGQKGEFRREIANLKKHGYQRLFLDDELCEIDELPKIDKNKKHNINVVVDRLVISDSLGNRVAESLEASLQMGEGITYIDIVSLPSKHGTKHKDGDRITLSEKYSCPESGFQLEEIEPRIFSFNSPFGACPACEGIGKESFFDKQLIVPDESLSIREGAIVPWSKSSSKFFVDTLESLAKHYKFKLSTPFSELSDKVKEILFYGSGDEEITFEYSDDRKTEIIEQSFAGIIPSLEEKFRKIDTVWMREELNRFKSKHDCSVCGGYRLKKESLCVKIDGLNIGQVSKKTIFEALEWFENINDKLDAKQRVIAKRVVKEIQERLKFLNNVGLEYLSLSRESGTLSGGESQRIRLASQIGCGLSGVLYVLDEPSIGLHQRDNSRLISTLKNLRDLGNTVIVVEHDDETMLESEHIIDVGPGAGIHGGKIIAEGTPAEIKESETSITGQYLSGKLSIPVPDKIRSGHEGKEIILTGARENNLQNLSIAIKLGTFISVTGVSGGGKSSLIINTFYQAALKQLEPKSKIYPGEHDSIKGLEHIDKIIDINQSPIGRTPRSNPATYTGAFTPIRDWFTELPESKIRGYKVGRFSFNVKGGRCEACQGDGLIKIEMHFLPDVYVNCDVCNGQRYNRETLEVKYNGKNIAEVLDMTVEDAAKFFEKVPAIHEKLATLNEVGLGYIKIGQSATTLSGGEAQRVKLAKELSKRSTGKTLYILDEPTTGLHVDDIKKLLSVLHKLVNKGNTVVVIEHNMDVIKTSDYIIDIGPEGGDKGGTIVVEGAPEVVAACEESHTGRYLKQYLK;locus_tag=LOCUS_06950;gene=uvrA;note=Q9ZCC3 UvrABC system protein A (Rickettsia prowazekii str. Madrid E) [pid:74.6%25%2C q_cov:99.8%25%2C s_cov:99.7%25%2C Eval:0.0e+00],MGA_709
sequence20	MetaGeneAnnotator	CDS	21440	21763	.	+	0	ID=MGA_710;product=QacE family quaternary ammonium compound efflux SMR transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011705814.1;translation=MDWIYLLIAGIFEIGWPVGLRIAQSSEKITGISIAVICMAFSGAFLYMAQKTIPMGIAYAVWTGIGIAGTFLVGVVWFNEPNSLINYLGIALIFAGVVVLKFANSGA;locus_tag=LOCUS_06960;note=WP_011705814.1 QacE family quaternary ammonium compound efflux SMR transporter (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:44.1%25%2C q_cov:95.3%25%2C s_cov:98.1%25%2C Eval:9.5e-20],MGA_710
sequence21	MetaGeneAnnotator	CDS	140	1495	.	-	0	ID=MGA_711;product=PleD family two-component system response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598537.1;translation=MTATILVVDDLEQNVKLLEAKLLSEYYTVITANNGIKALEALEQNKIDLVLLDVMMPEMDGFEACSKIKSNPETTHIPVVMVTALSDIADRVKGLEAGADEFLTKPINDTALFARVKSLTRMKTVIDELKLRNKTSAELGGNVIEVKDTFTECKILILDDDIIQAKNLKAHLTDITEQIYGLSSPDEIDSFASFSPDLVIISCQMDVDDPLRIGVMLRSKPNFKNASLMLLAEEDNIPMVMKGMEIGINDYFIYPVDRSELQARVKTQLRKKQYQDDLRTELEESVDLSTKDGLTGLFNRRYFDIHIKQMAEKSIETNQKMCMMMFDMDHFKEVNDTYGHPAGDAVLKTLSSTLKSSFRVTDLISRYGGEEFVVLLNNIDLDKGLKIAEKVRAAIENTDFVIPDHEEPLKKTTSIGIAEYNSEETIEDFISRVDKALYEAKETGRNKVVSG;locus_tag=LOCUS_06970;gene=pleD;note=WP_004598537.1 PleD family two-component system response regulator (Rickettsia prowazekii str. Madrid E) [pid:61.9%25%2C q_cov:98.9%25%2C s_cov:99.1%25%2C Eval:8.0e-160],MGA_711
sequence21	MetaGeneAnnotator	CDS	1505	1876	.	-	0	ID=MGA_712;product=response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012640499.1;translation=MGKVLIVEDNELNLKLFHDLLMIQQYDVVISKDGLNIMDITTKEKPDLILMDIQLNEVSGIDLIKLLKQNSITKHIPIIAITAFAMKSDEAKISKSGCDMYISKPVSIDNFFSAINKFIKPPQ;locus_tag=LOCUS_06980;gene=divK;note=WP_012640499.1 response regulator (Caulobacter crescentus NA1000) [pid:53.4%25%2C q_cov:95.9%25%2C s_cov:94.4%25%2C Eval:7.5e-33],MGA_712
sequence21	MetaGeneAnnotator	CDS	2053	2541	.	-	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC94;translation=MTKISFYQTQSEDLAKTFCKISEKCYYSNLNTLVITENEDYSNSLDKSLWTYSKKHFIPHATINDPRPGDQSLLITTKPENLNSAEIIVFVNPNKQIILESIAEHSQIAFDEIEKIIFVFDETNSVQATELKNIFDKSKIRSSEISYFIKDPRGTWQESPIS;locus_tag=LOCUS_06990;note=Q9ZC94 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:31.0%25%2C q_cov:97.5%25%2C s_cov:92.1%25%2C Eval:7.8e-21],MGA_713
sequence21	MetaGeneAnnotator	CDS	2683	3549	.	+	0	ID=MGA_714;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRCTYIVLIQNDEDNILDLVNSLKKVDGNFRKEYIFVDDGSTDESLSILKMAVNDLPRTTIITQSNQGPAVSINKASNLATGDYIHFVEGSEILHSESTSVLLELCLNFGAQVALGGVAPNAFVEKKITEEGYLIEKPIESILLWKSPDICRIGKSGTLVSRDLLDKVGKADSSVYSQNMSLSLRCAKNSKFAYIPADITYIASKKPSEDAKFTAYNNLKSIYNFAKSNEEFFSKLVPQLLKSLSRQMISKGDQVGYSLKSFTSKYLKTSNLRSVLEAYKKEIDKLF;locus_tag=LOCUS_07000;note=WP_000798185.1 glycosyltransferase (Salmonella enterica subsp. enterica serovar Typhi str. CT18) [pid:35.4%25%2C q_cov:28.5%25%2C s_cov:23.8%25%2C Eval:2.6e-08%2C partial hit],MGA_714
sequence21	MetaGeneAnnotator	CDS	3647	3937	.	+	0	ID=MGA_715;product=10 kDa chaperonin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MGU0;translation=MNFRPLHDRIAIKPHAEEEKTSGGIIIPDTAKEKPMKGKVVAVGSGARDQSGSVVPLEVKVGDTVMYGKWGGTEIKVEGDDLIIMKESDVIGIISK;locus_tag=LOCUS_07010;gene=groS;note=C3MGU0 10 kDa chaperonin (Sinorhizobium fredii NGR234) [pid:68.8%25%2C q_cov:96.9%25%2C s_cov:94.9%25%2C Eval:4.7e-35],MGA_715
sequence21	MetaGeneAnnotator	CDS	3971	5632	.	+	0	ID=MGA_716;product=60 kDa chaperonin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCT7;translation=MAKQIKYGTKAREEMIKGVDILANTVKVTLGPKGRNVAIEQSFGAPRVTKDGVTVAKAVELKDANQNLGAQLVKSVASKTADVAGDGTTTATILTQAIVKEGNKSVAAGYNPMDLKRGIDIAVENVLKAVKKASKPISTQEEIAQVGTISANGDKQIGEQIALAMEKVGKEGVITVEEAKNFGFEVDVVEGMMFDRGYLSPYFVTNSEKMTAELDNPHILIFEKKLSSLQPMLPVLEAVVQSSRPLLIIAEDVEGEALATLVVNKLRGGLKVAAVKAPGFGDRRKAMLEDLAILTGSQLISDDLGMKMENVDLSMLGSAKKVKITKEDTVIVDGAGSKADLESRCAQMRQQIKESTSDYDKEKLQERLAKLVGGVAVLKVGGATEVEVKERKDRVDDALHATRAAVEEGVVSGGGTTLFYAAKALDGLKGANEDQQSGINIVKRALQAPIRQIAENAGVDGAIVVGKLDESKSTSMGFNAQEMEFVDMFKAGVIDPTKVVRTALQDAASVASLIITTESMITEDPSAKDDAPAAPVGGMPGGMGMGGMPGMGF;locus_tag=LOCUS_07020;gene=groL;note=Q9ZCT7 60 kDa chaperonin (Rickettsia prowazekii str. Madrid E) [pid:71.2%25%2C q_cov:95.5%25%2C s_cov:96.0%25%2C Eval:2.4e-212],MGA_716
sequence21	MetaGeneAnnotator	CDS	6033	6623	.	+	0	ID=MGA_717;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLNKILFHLFVFSLILGNINSTYAKSRQSPLRSFGDYAQIINPVLAAGFASQEKGFGHFAIIYSQSWITMHGIKLVSNKAKWGASKRPDVRDKKDRFDGMPSGHTNSAWVAASYLRIFSDDYKYVSIPLYVTAAITGYSRVHAKEHTTAQVIAGAALAEIVTYINSKLKWSNEYRSTNFYFGKNEVSAGFTFRL;locus_tag=LOCUS_07030;note=MGA_717
sequence21	MetaGeneAnnotator	CDS	6636	7508	.	-	0	ID=MGA_718;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011109297.1;translation=MKSELPERSLIIKDRLAIITAKILSAAEKQISKIILFGSYARGTWVRDKYFEGSILYSYESDLDILIVLKKEYSKDFHKSNIEDKIKKLLDQQNLHQNPWITLITEPIMYVNKQLEKNQYFFSDIKKDGILLYDDGITPLSEARNLSKSEKREIAKDDYEYWFKRGCGFFIDVASPIKRSDYNTAAFYLHQSTESLYNAILLVFAGYKPKLHDLEKLGGMVRVYHDDLLKIFPIDTPERRECFELLCAAYVDARYNKNYSISKEQLDYLINRVKKLKETTQKICSAEINK;locus_tag=LOCUS_07040;note=WP_011109297.1 DNA-binding protein (Bacteroides thetaiotaomicron VPI-5482) [pid:41.6%25%2C q_cov:97.9%25%2C s_cov:94.3%25%2C Eval:1.1e-54],MGA_718
sequence21	MetaGeneAnnotator	CDS	7646	8524	.	-	0	ID=MGA_719;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTINIKKITLLYLLIGAATLLQGCTSGNLSINSYRTIGASLKKSYNLSRGDLVAVYDLGKIDNTNCIYSNDLGLIINDKYYTSKYIQRFKENFKSPTIIKKEAQNKIVRIYKLLLKIHKKHKILSNHQYQYVKRLSKADIRKINIKNELSKLDSLIKTIPVMLPIYKPKISSPYGIRKHPLKKKRVVHCGIDLVGTQGASIYSAARGIVIFAGRKNGYGNVVEIQHNSKIKTVYAHLSTIKVKPGQIVPRGIAIGRQGSTGSTTKEHLHFEIRTDGKHVNPLDFIAQSYRCK;locus_tag=LOCUS_07050;note=WP_012869241.1 peptidase M23 (Thermanaerovibrio acidaminovorans DSM 6589) [pid:46.2%25%2C q_cov:40.1%25%2C s_cov:29.0%25%2C Eval:8.4e-26%2C partial hit],MGA_719
sequence21	MetaGeneAnnotator	CDS	8526	10178	.	-	0	ID=MGA_720;product=potassium-transporting ATPase potassium-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8F1M1;translation=MISPSLIFFALITLTAPILGKYIAWVFRYSFVEHEALKDNHGHWQSQNWQEYFGSLMCFNIICIIFTFTIIYFQEYLPTYSESLDKISLSSAINAAISFSTGTFWQSHDPESDLSMFSHIFALTMQNFLSGATGIAVFIAFIRGIINSQNPYIGNFYDDFLRSMIFILLPMSAIVAIMLIGYGTPYDFTGSIEYINLAGNSSHLNVGPVAGQVAIKNLVANGGSLFASASAHPFESPSREAIMLNLFLIVLMPVAMIFTYGYLVDARSLSWALYGVVIIIMITSLFIMNLGETTYGLPFIFDKETLGDNFNYTGKELIYDKFPSLMWILSITLSSDGSPNACLENYSPLSTLILFFNLIMSKFVIEGVGSGFFAMLSYLIVAVFLRGLITGETANFFGKRITINEINYVIIVFLVMPVGVLVFTGITLLLPYSQELIIYHGSQAVTDITYNFASSFANNGSDFTGIDTSTDYFNYMTAIAMFIGRYPIIYFSLAISGSFAEKQRIKNIISKRTQSSIELSIFLLVTVLLVGAIMFMPLMILGPLLEFINM;locus_tag=LOCUS_07060;gene=kdpA;note=Q8F1M1 potassium-transporting ATPase potassium-binding subunit (Leptospira interrogans serovar Lai str. 56601) [pid:35.2%25%2C q_cov:99.1%25%2C s_cov:97.5%25%2C Eval:8.3e-93],MGA_720
sequence21	MetaGeneAnnotator	CDS	10366	11094	.	+	0	ID=MGA_721;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKVFSKIIIWLISLNILLSIASVAYAEKYSIDRHDRYLDSEVSFFDGDGNKVYLDQYEGTNILLVFWATWCGTCVSELPALDNLQKDFRKLPFKVIAVSQDYKGVEVVKSHFFAHEIRHLGVFHDYKNQLFRELAIVSLPTALFINADGKNKLVFKGRIKWHDDDVRNIILSEIGGNLELPKNTYKFAALNRNVMQKQAVGQIVSSEEEKEEEIDKNTNKDKNTKANSSEPNKSIENQVEK;locus_tag=LOCUS_07070;note=WP_004597578.1 thiol:disulfide interchange protein (Rickettsia prowazekii str. Madrid E) [pid:51.0%25%2C q_cov:62.4%25%2C s_cov:68.3%25%2C Eval:8.1e-42%2C partial hit],MGA_721
sequence21	MetaGeneAnnotator	CDS	11091	11633	.	+	0	ID=MGA_722;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYTDLTIDQIDEELKSKYFVNVPVEFTSRQINSAMASFEKFLELPENIKNHIDFSISEKHRHGDVGYKSRKPEDDIYNDSKEFFHYHPAILKKYPEYIKENKVVKSFLDEEDSIWRHIDLILKHIFSEFDKKFTRVYSSIFDTENPHIVVRFLQYNWNESGKFLAKPHFDAGAFTFAIA;locus_tag=LOCUS_07080;note=MGA_722
sequence21	MetaGeneAnnotator	CDS	11620	11904	.	+	0	ID=MGA_723;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLLKVVLVLGLVCPDDIELVKHQESKAIFMLSSNYIKLIDDNELKPAWHDVVQMDEANIGKEFARWAIVAFIDAHGVEALSRSETHKWYNDEV;locus_tag=LOCUS_07090;note=MGA_723
sequence21	MetaGeneAnnotator	CDS	11934	12866	.	+	0	ID=MGA_724;product=peptidase S49;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886283.1;translation=MKVKQSNHSSTIAGQRPVISRRKAGRFDNLLSALPFGIGGSKPVVAIFRLEGVIGKVGSMKSGLTLNSLNKLIEKMFKLEKLDAVCLTINSPGGSPVQAEIIANRIINLAKEKEVPVYSFVEDVAASGGYWLACAGEKIFASQSSIVGSIGVISSGFGFHEAIEKLGVERRVYTEGKTKSVLDPFKPAKDSDIKIIKKIQKDIHEHFISTVKTRRAGRLTQNDDILFNGEFWAGQTAVDFGLVDGINDVYSFIKEEFGENVKIEHIEHKQSWLKKRLGMSQISKEISSDIVGGLVEAVETKLQNSKFDLK;locus_tag=LOCUS_07100;note=WP_010886283.1 peptidase S49 (Rickettsia prowazekii str. Madrid E) [pid:56.6%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:8.1e-99],MGA_724
sequence21	MetaGeneAnnotator	CDS	12995	13873	.	+	0	ID=MGA_725;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNLSLILIPQELSKLKIEGFKELLNTNAENAEMHYVVFCMMLEVSIKNGLLDHQKFLQKYLLDKKLELEYDDLADLFVRAVECKQINSIECLLELISGEERHEIMEGISSMLYKQIEETGSKRVRKLFEKLVPKKEDREKLSFAHLDSAVLKDENGKILKPLKVLSMLDPSYQKWLSYSSEQGVKKVLEPYLNIVNPGYLKVISFAVGNLFRKGMGEISSKSEWKQIFTSDNEIILNIVEFFSGGSGKYLQVVMPSIHEALGINEKFIDLYDAKLKNLEVSGGDTGLESLD;locus_tag=LOCUS_07110;note=MGA_725
sequence21	MetaGeneAnnotator	CDS	13884	15173	.	-	0	ID=MGA_726;product=RNA polymerase sigma-54 factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P30332;translation=MSNIELAEFAAQELDKNPFIEDASVSVEKQESSKDSKDSLKDNTPNTQTSSHSGYSSQDYISNVASEKSLKEHIIEQINLSFEDQKDKLIANFLLDSLHGSGYLNISTKEAADILKCQQSVVEDILKTLQTFDPAGVFARDLKECLLIQLNDQEHVDQSLLTLVKNIDLIASGNLKKLSKLCNVNIANISNMIKQIKLLNPKPANGFYVEPTSYKIPDVILTFLEDGTAKLESNPESMPRLRVSQEYYVQIKDSMQDKKEKEFTKNEIEAANTIVKSIEQRSHTILKVATAIVEEQVDFFTRGVMYLNPMTLNKIAALTGFNESTVSRSTANKYISTPSGIFELKYFFSSSLGTTRAAGENVSSTKAKEIIKQIILSEEADNILSDDDISEQLSKFNISIARRTVAKYRESIGIPTSSVRKRNKALSGE;locus_tag=LOCUS_07120;gene=rpoN1;note=P30332 RNA polymerase sigma-54 factor 1 (Bradyrhizobium diazoefficiens USDA 110) [pid:38.5%25%2C q_cov:99.5%25%2C s_cov:91.1%25%2C Eval:2.0e-75],MGA_726
sequence21	MetaGeneAnnotator	CDS	15326	17131	.	+	0	ID=MGA_727;product=elongation factor 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010972514.1;translation=MTPIFYIKSGDLSFADKSVLENLELYISKGDRVCLVGRNGCGKSSLMKIIEGEYELDNGEMFKNPSISIGYLKQDMKIELGGDIYNFVLSAFDDPESNKYNADIILKQLGIDGNMQLKSCSGGQLRRVCLARSLITQPDILLLDEPTNHLDIKIIEWLEDYIKNYPGAVICISHDRAFQENISNKVWWIDRGNLRKSNKGFKYYDEWREEIITSEEAVLRKMNRKLEAEQNWLHGGVTARRKRNQKRLANLHRLRETLRAHQSKLKNAKAKLQIELAEEMKKTKFIIDAENISYTFPGTNLFSNFTFKVKKGEKIGVIGPNGAGKSTLIKILTKDLEPATGRVKHGTNIDITYFDQHRTELNPQHSLKRTLCPGGGDQVFLQDRSMHVAAYLKKFMFDPKALENKVATLSGGEANRLLLAKALINPGNFFILDEPTNDLDMDSLEMLLEILADYKGTLIIVSHDRDFLERLVTRTLVFTGDDIIDLYGGYEDYLKYHKKEEKIAKTVKSIKQEPKIKKNPQKLSYKYARLLEVLPDEISQLEDKIIGLEKLLAQPNLYLEDKKKFDEYSVQLQEVKDSLNSKIEQWLEVEVMQEKLEKGSS;locus_tag=LOCUS_07130;note=WP_010972514.1 elongation factor 3 (Agrobacterium fabrum str. C58) [pid:38.6%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:2.9e-126],MGA_727
sequence21	MetaGeneAnnotator	CDS	17148	17801	.	+	0	ID=MGA_728;product=transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080883.1;translation=MNKSINLYVILCSIFCTIIVTGNLIFQKFIQLDFFGYVFEVSVGVLLYPITFLISDLVTEFYGKLYAKLMIKAAVICSIIVLGVISLSDWCFATSWSVVDDETFHKVFNVYGIGAGASIISNYIGQRVDIQIYSYLKQLTSGKHLWLRNNVSTFLGQFVDTITVISLLSILGIIPITQFFVVVASSLSFKILAALCDTPFCYLGYYLINKFDLAKTT;locus_tag=LOCUS_07140;note=WP_004080883.1 transporter (Thermotoga maritima MSB8) [pid:33.5%25%2C q_cov:96.3%25%2C s_cov:95.8%25%2C Eval:5.6e-25],MGA_728
sequence21	MetaGeneAnnotator	CDS	17762	18268	.	-	0	ID=MGA_729;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDI0;translation=MTKDHKLILVGVISSAHGIKGDIIVKSYTDPIDNIANLKLFDDKNVIFPIKKIRATPKGSIICRHSNCHDRNQAESLIGTKLYCMREDLPKTDKEEFYFEDLKNLQVLNLKGKKVGIISEIFNFGAGDLVEIKFSNGSGTEIYPFTKEFFPEVTEDHVVLAKSNLFIK;locus_tag=LOCUS_07150;gene=rimM;note=Q9ZDI0 ribosome maturation factor RimM (Rickettsia prowazekii str. Madrid E) [pid:46.1%25%2C q_cov:91.7%25%2C s_cov:92.7%25%2C Eval:9.3e-36],MGA_729
sequence21	MetaGeneAnnotator	CDS	18355	20949	.	+	0	ID=MGA_730;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597477.1;translation=MKKLLLSLLIVFGLGGGLIFASITITDYEGVYKEFVKNTRADISSIKSSNFTINKFPTPYLVIDEIDHEGKVKLKNVEIHFSLLSLIKFSPKITSLEIGEAKLYLNHDDVNLLSHDEFISELISKDALSVEAKIGKLTFVESDNDIPLEIMDFVFASSSNKTSFTGKVDDVGKLEGGFEKLGQDVKFNLYLGDDSYSLNLVENYKNAVLESGKAEIKTANLSNRIAKLIPDINDLTDKISSSEEVEITFDIVPNQNWMDIKNIVISSDSIEGKGEMSLSKDSTHQSDIKISFSKIDLVSWKKAKPAEGRKTSVKYGIGSRFDFNKNKMKANIFFKDIKVDDDNSLSDVGVRIAIEGGKLYIQDLAGGIDREGEFRVTGVVTQNAFRSLFNGKIYLNHKDLNDIAEAFGGKTIRTAEPIPFALSSDIKLSSVDISLQNLLIKTNSTDVMGNLSTKFIGQSMRTNADMKFSSIDADSGNFPAIKQAFEYIASLSEGMKEENYLSKFIPIRKIDSIGNYDITFDRLKAGEKVYDNVNFSLGASPGKVSLEQLYIQDEKDWVDTSVTLVAQGIRPMLSILIHNGSVGVNFLSPNGMLKLRKRLLEDYDLSKIDIAMNFAMKRVYEGDFELGRIRFRAQNNKNLFDIEKFDADLFGGRMQLSGSVLLEPYTLNFVYALNSARIAQIAKLMPPGFVNSGGALSASGMWSTNGEKIEEQLYNLYTKSNVITKDITVSNISIDDFIQLLGVPNYNIASFSSDLKNALLTGKTDISDLKTSLELSKGIFKMPNLTFKTKYSAGSGSATFDLYKFNLDANSIFSFYLAKPKYGRSFTDYAPTKMTLKAVGNLFSPKKEADTKELLELLNSRVQQ;locus_tag=LOCUS_07160;note=WP_004597477.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:33.7%25%2C q_cov:97.3%25%2C s_cov:97.2%25%2C Eval:8.4e-146],MGA_730
sequence22	MetaGeneAnnotator	CDS	856	1596	.	-	0	ID=MGA_731;product=DNA-binding response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596556.1;translation=MRVLLIEDDSSTARSIELALAAEGIICDTAEVGVDGIEIGKIYDYDIILLDLMLPDIDGYEVLLRLRSAKVKTPILILSGLSSVDQKIKGLGFGADDYLTKPFNRGELVARIQAIVRRSKGHSESVVRFDKVAINLDTRIVEVDGVQVHLTNKEYAILELLAMCKGTVLTKEMFLNHLYSSMDEPEIKIIDVFVCKLRKKLAKASGGTNYIETVWGRGYMLKDYEENHGGLLQEENAANNDLEMVK;locus_tag=LOCUS_07170;note=WP_004596556.1 DNA-binding response regulator (Rickettsia prowazekii str. Madrid E) [pid:69.0%25%2C q_cov:91.9%25%2C s_cov:95.4%25%2C Eval:1.2e-88],MGA_731
sequence22	MetaGeneAnnotator	CDS	1717	2934	.	-	0	ID=MGA_732;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSQQKIRNILLASASVLCLGFSGAIAAENVVKLGAVVQVQGIHNNNNGNSSQQKLSTHQKKYGLYSSGNFLVDYQLVADSGMKYGAKIGIEQTTRNDRGAPFGIYIESDFGKFELGSDKSAGKKMKITGYKSSCATGNGWDSFIISSPKVDNNSTIAYITNFCSFLDSKSRTSRLTDYSRKVTYFTPKFGSEDHKFQVGISYVPDTSNAGHAHIDENNLHTPVGASDFKFVIKDGVSYGATYEGKFSDELSAKLAFVGERGKPIAYNKSDNSKSDVKFKDLNTYNIGGEITYNQVSVAGSYMNYNKSLTNSSIDTRGRNTGIYSAGIKYNFLSKKCAASLNHFHSDNKKNKLDASSLGFDYLITNGIKAYAQVTYYKTKGFDLKRNIQDKSKGTITIVGGKISL;locus_tag=LOCUS_07180;note=MGA_732
sequence22	MetaGeneAnnotator	CDS	2912	3388	.	-	0	ID=MGA_733;product=protein-export protein SecB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE76;translation=MEKESSENPKSPHIAVNAQYIKDFSFENPGAPATLANLSGTPQIDLALDLNIQKMPEEDYFEVEISINAKAVSEKTTLFIVDLKYAGVFNLINIPEDQIQMLLAVHCPAIIFPYARKIIADVTQDGGFQPLMIDPVDFGVLYSKKMMEAAEHDKSTEN;locus_tag=LOCUS_07190;gene=secB;note=Q9ZE76 protein-export protein SecB (Rickettsia prowazekii str. Madrid E) [pid:66.4%25%2C q_cov:86.7%25%2C s_cov:90.1%25%2C Eval:7.0e-48],MGA_733
sequence22	MetaGeneAnnotator	CDS	3416	3982	.	-	0	ID=MGA_734;product=dCTP deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE77;translation=MSIMSDKWIKDKSLNHGMISPFVEKQVKNSESDRIISYGVSSYGYDARVASEFKIFTNINTAIVDPKNFSSESLVQKDTDVCIIPPNSFALARTVEYFKIPENVLVICVGKSTYARCGIIVNVTPLEPGWEGHVTLEFSNTTPLPAKIYAGEGACQFLFFEGNERCDTSYADRAGKYMKQTGVTLPRT;locus_tag=LOCUS_07200;gene=dcd;EC_number=3.5.4.13;note=Q9ZE77 dCTP deaminase (Rickettsia prowazekii str. Madrid E) [pid:75.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-81],MGA_734
sequence22	MetaGeneAnnotator	CDS	4402	5745	.	+	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE78;translation=MKNLKKLLLVTASTVAISVSAIASDSKVSSAKMPVVSDLEVKLSGFAHFQAGHRTQSKLKGSEKNVSQNRRTFAFYNDAAMVAEISNKANDITYGGKIVLVPTAKRKGSPSYNGSHIFLESDFGKIEVGSPISSASNMMIDGGTIAAATFDDWGRYAEFSPAHLMKDGSKATPTFSTFAEFFLDSKLTTSLETRSYSSEPARSISFYTPKFAFSDSTKVQAGITYTPDSSNTGADNPGTNSSGVDKRTIEIAATPNSPAINRFDIDRTVKDAVSAGVTLEQNFADGVDFKLALTGEYGKAAGKAKQFTNKDDTTPANEFKLSNLRTYNIGAILTVGNFSYGGSFGSLGKSLTTPEFHKTGRKTDYYTGTVAYKQGPFAASVSYFKSNQFKNTVDAVSIGTHYLLAPGFKPYAEISGFSLKGRPEFHPEVSKKKTRGTVALIGAKLSL;locus_tag=LOCUS_07210;note=Q9ZE78 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:42.9%25%2C q_cov:91.5%25%2C s_cov:93.0%25%2C Eval:1.3e-90],MGA_735
sequence22	MetaGeneAnnotator	CDS	6023	6616	.	+	0	ID=MGA_736;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQNILKNFNKAIASILVASVLGLFTLNTHASDIDLQDIEKALGVKVKSECKKPPCPVDVNALLDKLTHEHAKEHKTSKLTDTPQAIESSKDSPLMKMERAELIVLNKITAKSVKKSFNLGEVQFFGNLSIEVHKCIKSTDPFNANNLMLLTIFDNKIDDDNLSVFHGWIVSSNPSISTLEHPVYEVIAVDCISKDK;locus_tag=LOCUS_07220;note=Q9ZDG9 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:51.6%25%2C q_cov:46.2%25%2C s_cov:58.7%25%2C Eval:2.6e-23%2C partial hit],MGA_736
sequence22	MetaGeneAnnotator	CDS	6641	7834	.	+	0	ID=MGA_737;product=putative polysaccharide polymerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDH0;translation=MTILIQSLLIIIPIIGLIAGLSLSFTIPLFLLASLYIIKDQANFSLKHAKVEICFTIWLTLSCFWSVDILNSMFGFLKTFSVALVVYILISNKDALIPKISLSTFSLFSAILASIALFYFEYYSDGYISSLFREIVQRKKDSSFYLHYLDRGCTLLALFAWFVIAVLIKHYKNLLALIIFIVTAYTLYLSDSLAGFVGFALSGLVFITTRYWPFNNPRILSAILIICSVLFISGIYAMQPRELSDNQAKSLPISAKHRLFIWNFAFEKFADKPFVGYGFNSSRKIKLAEKDFIEYEKLKLSPLPLHPHNNLLQIMLETGIIGLILYLSLAAKYLNSWNLCFKKAITHNILNIRAAGYACFSTFFIISMISFNMWQSWWLCCYLWIATLFCLLISDKD;locus_tag=LOCUS_07230;note=Q9ZDH0 putative polysaccharide polymerase (Rickettsia prowazekii str. Madrid E) [pid:34.8%25%2C q_cov:95.5%25%2C s_cov:94.6%25%2C Eval:7.8e-63],MGA_737
sequence22	MetaGeneAnnotator	CDS	7880	8674	.	-	0	ID=MGA_738;product=sterol desaturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011262002.1;translation=MIMIESELIIRVGSFISILCFFAIAEELYPRRKLKLSKKSRWYRNFSLVIINSLILRFLLPISAASVALIENEYAILNYLQLPKFVSIILCIILLDMIIYFQHRVFHMVPFFWKFHKIHHIDQELDTSSGIRFHPVEIIFSMLIKCLVVLVVGVPFEAVVMFEIILNASSLFNHANINLSSKMDTMLRRLIVTPDMHRIHHSVLKNETNSNYGFNLSCWDRVFGTYKYSATKSQVQIDIGLNEYQDYKKTGLLAILTIPFRRNN;locus_tag=LOCUS_07240;note=WP_011262002.1 sterol desaturase (Vibrio fischeri ES114) [pid:44.1%25%2C q_cov:98.1%25%2C s_cov:97.8%25%2C Eval:1.3e-64],MGA_738
sequence22	MetaGeneAnnotator	CDS	8671	10659	.	-	0	ID=MGA_739;product=UvrABC system protein B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDW2;translation=MSGFKIKSEYKPNGDQPKAIKALVDGLKEGQQDQMLLGITGSGKTFTMANVIEQTGRPALVMAHNKTLAAQLYSELKDLFPDNAVEYFVSYYDYYQPEAYIPRTDTFIEKDSSINEQIDLLRHSATRSLMERRDVIVVSSVSCIYGLGSPELYSQMTLTLKSGQEYKRKDFLNQLVDLQYERNDIAFERGAFRVIGESIDIFPSHYATRAWRLSFFGDELEYISEFDPLTGEKFRKLDKAVLYANSHFVTPDNVIKKAISGIADELEDRLLFLKESEKLLESHRLNQRTQYDMEMLQATGSCKGIENYSRFLTGREPGMPPPTLFEYLPKDALLFVDESHVMVPQLRAMYNGDKARKTSLVEYGFRLPSALDNRPLKFEEWLDYRPQTIFVSATPGPFELEQTQGEVIELIIRPTGLLDPECIVRPATTQVEDLIGEIQNTVAKGLRVLVTTLTKKMAEDLSSYLEEQGHKVAYLHSTIQTLERIEIIRSLRSGEIDIIVGVNLLREGLDIPECGLVAVLDADKEGFLRSETSLIQTIGRAARNSEGKVLLYADKMTGSLERALAETKRRRDLQTEYNKQNGITPKTITSKIHVLSELQKVEEVVGNEDDAKILLSDTKKLKQTIDKLRSDMKKAAKDLEFEEAAKLRDQINALEEASLELS;locus_tag=LOCUS_07250;gene=uvrB;note=Q9ZDW2 UvrABC system protein B (Rickettsia prowazekii str. Madrid E) [pid:70.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.4e-276],MGA_739
sequence22	MetaGeneAnnotator	CDS	10720	10971	.	+	0	ID=MGA_740;product=glutaredoxin 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002114715.1;translation=MKKIVIYTTSVCPYCVRAKALLDRKGFAYEEINAEDEKIRDEMIEKSGGMRTVPQIFIGDTHVGGSDDLYALDKEGKLDEIVK;locus_tag=LOCUS_07260;gene=grx;note=WP_002114715.1 glutaredoxin 3 (Acinetobacter pittii PHEA-2) [pid:56.8%25%2C q_cov:95.2%25%2C s_cov:94.1%25%2C Eval:6.7e-21],MGA_740
sequence22	MetaGeneAnnotator	CDS	10978	12207	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKFKKGTAGQHIVTDAALHMRKTQYAINKEQNELLDSIKGFQEDSTYADFTFDNLPTFVRNVLKSEMVSAGNLGKVVAKNKESGCFANYGIRTNKLSEALEGALDIATDRNISGILEGKLPSGFDNNVGKPLPILGAKESFWGTSKPTFLTTLLQTTYRSVTEEALDSSSSSILHTFNTPKGFDSFDLEGSMFVSVGDTLKVTVPHSGYSFGGDRLNGKDLRPHDCTSFLEMSAQLTAGGASTADLYLAKRVLSEQDLVVVNKSWLKSAGGSMVSLFDINTSTPKPGDVWAVRKFSESKAIDSSLGYSGHAGVYLGMDKENVVTLAYNRDMPHIEGFGLEIREFEDNSETRDQFWLTRNSKGFNPTIDAYTFNDLSDLSGLARYVDSQIKDVESTLSGDLEINDSEGF;locus_tag=LOCUS_07270;note=MGA_741
sequence22	MetaGeneAnnotator	CDS	12691	13593	.	-	0	ID=MGA_742;product=ribosomal large subunit pseudouridine synthase C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDR7;translation=MSELKKVIVKTAALVRLDRYIRRYFPSITQGIIEKALRKGQIKLNGLKSKANVRVEDGDEITFVSSIIVEDSRDSSKSFSKATVILAKKLLSEYLIYSSPEFIAIDKPSGLAVQGGSKINLSIDEALNYLNQTEDTEYKIVHRLDKETSGILLIADGYTNAAKLGEAFSGHLIQKTYIAIVFGVPSSPEGNLVHYIGKERLGTFENVKELKESGKRAETDYKVLRFEDGQSMIEFKPKTGRMHQLRFHSKFLGCPIIGDEKYGGKKNSRMLLHAKELIIANSVFGKKIKIKSDLPVEFDF;locus_tag=LOCUS_07280;gene=rluC;EC_number=5.4.99.24;note=Q9ZDR7 ribosomal large subunit pseudouridine synthase C (Rickettsia prowazekii str. Madrid E) [pid:46.9%25%2C q_cov:94.3%25%2C s_cov:94.7%25%2C Eval:4.3e-65],MGA_742
sequence22	MetaGeneAnnotator	CDS	13590	14624	.	-	0	ID=MGA_743;product=heme A synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDR8;translation=MQGLSGSSNRFVSIWLFAVCIAVIFMIFIGGLTRLTDSGLSITEWNPVSGILPPFDQQSWDVEFGKYKQSPEYIKHNSGMSLEEFKSIYLLEFYHRIAGRVTSLLYLIPLVFFIATGRINRKDLGIYILALILLACQGVMGWYMVKSGLISDPYVSHFRLAAHLMLAVLLYSILFWQLMKNSFEPILLPSDVSVAYQKFWCFASIILLFIQIVFGAFVAGLDAGLVYNSFPLMGDSFIPHEVSNLGLSIASFSDPVFVQFTHRMFAYILFVVITIFCCSSLKLKNNKFSTSIFYVVIALFIQMLAGIITILYMVPIPIALLHQFGAMLLLTCLLWSCFLLVSSG;locus_tag=LOCUS_07290;gene=ctaA;EC_number=1.3.-.-;note=Q9ZDR8 heme A synthase (Rickettsia prowazekii str. Madrid E) [pid:50.0%25%2C q_cov:96.5%25%2C s_cov:98.5%25%2C Eval:2.7e-90],MGA_743
sequence22	MetaGeneAnnotator	CDS	14635	15621	.	-	0	ID=MGA_744;product=octaprenyl-diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597722.1;translation=MDLIKKIHGYLSEDIQSMNNVIIDSLSVDEDLIRLVSNHLASAGGKRMRPILTMLTAKMYDYSGEKAIRLAAAVEFIHMATLLHDDVVDGSKMRRFLPTANVVWGSKASILVGDFLFSQSFKLIVSTKSLYALDVLSNASAIIAEGEVSQLAQLETKQSVTEEDYLKIINAKTAELFGAACSVGAIIAGKESDANSLREFGLRLGNIFQIADDALDYFSDSEKVGKNVGDDFYEGKITLPLIFLLEKTSSDERLKINKMLGADNRSESDFAFVQELMQRLDVKSDVEAYLEKLKVKAEGALSSIDNSANNESKEYLQELVGFAISRSY;locus_tag=LOCUS_07300;note=WP_004597722.1 octaprenyl-diphosphate synthase (Rickettsia prowazekii str. Madrid E) [pid:50.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-87],MGA_744
sequence22	MetaGeneAnnotator	CDS	15658	17412	.	-	0	ID=MGA_745;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD66;translation=MRLIKFLISFIILILVAVGSAWYYVTFKVAGELNDKYAGKQMPVKGIDESDYFVEFSKVNPSGFPYKISWEVNGWSEESRSAKIKYHAPIYFGYDLLLQKLFIEYSGEITASYKPESHNFGARLVVNNYLVEVDLPLTSDLASTIKSMEDPFEIVNHMGDIHASSKSVEIFDLNDKEKFYDKEYERLYMSFEPQKEYKNIQDFLNNIPQKLKAKYVVKTKPNNAQARRLPVSLFYGFSLLPSGFDVDADFDIKTKGNNFKELQKGLDVKVKAKCLSPFIDFNDMKFEYASGMDGEGRDYKVDMSSEIFFKTGMFDQLFKRYDMFAPKLTSSPFGRMLNFEIKYIINNKEVFKFNELENNKYDYSFDLVSSQSKTRRHFKINDLSIFSDKSGFKLQHEMETLSRGQKNWKANGTLFIKNYPSVVEFSSGYIYRFGKFRFLADEARALYVDVNKAFLKDISDHPDSASDDLSFEYSVNSKNLKGAKIGSVKFDQIGRLYTLMLYQKLFDKVGHGGDVLGRMQKIIPNIDPNEPLLQKVLPKISGNKNIGKSIEKELKKAIPGDAKDALKKAIPKDLGKGLLKGILK;locus_tag=LOCUS_07310;note=Q9ZD66 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:32.4%25%2C q_cov:91.6%25%2C s_cov:98.4%25%2C Eval:6.4e-75],MGA_745
sequence22	MetaGeneAnnotator	CDS	17412	18932	.	-	0	ID=MGA_746;product=ADP%2CATP carrier protein 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD67;translation=MSNLKNSSFKAKLKDIFWPIEKSEIKLFAPLALMMLCVLFNFGALRSIKDSLVVPNIGAEVISFLKLWFVLPSTVIFTLIYVRLSNIFDYEHLFYLIISFFLGFFVLFTYVVFPNQELYHPNEEFIYSLANSYPNLKWFIHIVGKWSYALMYIFCELWSAVIINLLFWQYANHIFDTNSAKRFYPFLGMVGNVGLIIAGNVLVSFSDLSGISDANILDSYANNASYQCEMVLKPIMKAIIFSGVLAMVLYRYIDRHVLKSKKLKKEFAGASEKTKTKLSFMESIKLLLSSKYIGHIVLLVLCYGLVINILEGPWKARVKELYPNTIDYLNFMGKFNIWMGVSCVTFMVIGSNVLRRFSWIISALITPFMLVCTGLIFFIFVIFANDIDFLGDWFNPIYFAVIIGAIQNILSKSTKYSLFDSTKEMAYIPLSLELRTKGKAAVEVIGLKFGKSLGAFIQSSMFILMPLATFDSVTVYLLGIFIVVIMIWIWNVRSLNEEYIKLKGEK;locus_tag=LOCUS_07320;gene=tlcC;note=Q9ZD67 ADP%2CATP carrier protein 3 (Rickettsia prowazekii str. Madrid E) [pid:65.9%25%2C q_cov:97.6%25%2C s_cov:98.4%25%2C Eval:3.4e-194],MGA_746
sequence23	MetaGeneAnnotator	CDS	112	1632	.	-	0	ID=MGA_747;product=putative lipid II flippase MurJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCW4;translation=MLLRSGVVVAFFTLLSRFFGLARELFIAATFGTTQIADCVNVAFKFPNLFRRIFGEGALSAVFIPMYSEKLVTSKKDAKKFSGEIFILLFITLTCLTVILQIFMPFLMVLIAPGFMYSGEKYDLAITLCRLTIPYVIFVSITALFGGMLNSVRKFAAFAFVPILMNICVIIIPYFSKDFVEPHYGISFALIIAGIMQVLFMYFCLIRAGLKFPLLFKPKDPEVKKLIKKMGPATMSSGAQQLNLFISQSIASFLPGAVSILSYADRLYQLPLSLIGVTFGTILLPELSKIYKKKDYTEANFLQNKAIKIAFTISIPAMLGLLTLSQPIIHLIYERGEFSSNDTFLTANALAAFSFGLPAFVLAKILTPIFYANLDTKTPFKITVYSLVINTTLNILLMIPFGHVGIALGSSIAAWINVWLLNKHAKQYGDFLITSDTKKFAFKILVCGLVMSGFILVVNHYFGELFFSSIFVIKAASLLGTIAFAIVIFIVSAYFFKIHKILLLKS;locus_tag=LOCUS_07330;gene=murJ;note=Q9ZCW4 putative lipid II flippase MurJ (Rickettsia prowazekii str. Madrid E) [pid:54.5%25%2C q_cov:98.2%25%2C s_cov:98.0%25%2C Eval:3.7e-156],MGA_747
sequence23	MetaGeneAnnotator	CDS	1885	2406	.	-	0	ID=MGA_748;product=inorganic pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCW5;translation=MFVDKIQPKTKDGNFNVIIEIPMNDNPVKYEFDKEVGAIMVDRFMQVSMSYPCNYGFIPNTLSDDGDPADVLVIAHYPIIPGAIIKVRPVGVLMMEDESGMDEKILAVPTSKLDVTFDGIKDIDDVPEMLKSKIKHFFEHYKELEKGKWVKIVGWKDAVTARTTIEEAIDRVK;locus_tag=LOCUS_07340;gene=ppa;EC_number=3.6.1.1;note=Q9ZCW5 inorganic pyrophosphatase (Rickettsia prowazekii str. Madrid E) [pid:70.2%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:3.2e-71],MGA_748
sequence23	MetaGeneAnnotator	CDS	2565	4064	.	-	0	ID=MGA_749;product=ADP%2CATP carrier protein 5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05962;translation=MSEQELNPFKSKLRNILWPIHNSELGKFIPMSALMFCVLFNQNVLRILKDSILISEVSAEITSFTKVYCVTPMAVIFVVVYAKLINHLSFQKIFYYLAGIFTAFYVIFAFILYPEIDTFHMNRELLYSLMIKHPHLKWYIACIGNWSYVLFYSFSELWPNIFYVLLFWQIANEITATNEAKRFYTLFSLFGNSALVVVGFMMTSLSSSDNALKQLFTTSDDKIFLTQISTSLVAISSVVACLLVRHITKRVMTNPTHNVGAKSERKPKPKMGIIDSFKYISRSKYLWLMLICTASFGLSMNLVEAVWKSKIKELYPTVNAYAAFNSMYILWTGITIMIMTVIGNNVMRNSSWFAAAVISPVIILTTGTAFFILVVFDEQIVTLFEGVVLMSPLVLAVFVGAVQNVLSKGSKYSIWDTSRQMLYIPLDPELRTKGKAAVDVISPKIGKSASGLVQSMIFTILPMATYGSIAPVLMIVFIGVCILWIYSVRKIYFEYRKIA;locus_tag=LOCUS_07350;gene=tlcE;note=O05962 ADP%2CATP carrier protein 5 (Rickettsia prowazekii str. Madrid E) [pid:64.1%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.3e-198],MGA_749
sequence23	MetaGeneAnnotator	CDS	4321	5496	.	+	0	ID=MGA_750;product=acetyl-CoA acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599628.1;translation=MQEVYITHAKRTAIGSFLGSLSNIPAYELGALVIKAILEESKIDYKAIDEVILGQVITGGCGQNPARQSVVKAGLPISIPAMTINKVCGSGLKSVALAASAIRAGDADVIIAGGQENMSLGMHGSYMRGGSKFGDTKLIDFMMYDGLTDSFSQETMGITAENIADQFSIDRQAQDELALASQLKASKASKDGKFIDEIVPIDVTKRKERVIFDTDEGIRGSSTIEGLSALKPAFRKDGSVTAGNSSTINDGASVLLVVSASALKKYNLTPIAKIVSYASAGVEPAIMGTGPVPSSKAALLKAGWDVKDLDIIEANEAFAVQAEYVNRQMQWDINKVNINGGAIALGHPIGASGARILTSLVHEMKRSDAKKALATLCIGGGMGIAMCLERV;locus_tag=LOCUS_07360;EC_number=2.3.1.9;note=WP_004599628.1 acetyl-CoA acetyltransferase (Rickettsia prowazekii str. Madrid E) [pid:64.1%25%2C q_cov:99.7%25%2C s_cov:99.5%25%2C Eval:2.6e-140],MGA_750
sequence23	MetaGeneAnnotator	CDS	5628	6041	.	+	0	ID=MGA_751;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFIFNESYNTWKLNISDLKLWVHLGCSEQEKHHTQCVSFNVSITSSSKLKATYSDNLDDGFCYSKATKLIKELTSKKRYNLIERLACDVYDILWQRLKDLGFADSILSITVTKLSPPVRDIHGGVSFTYDGPGGSR;locus_tag=LOCUS_07370;note=MGA_751
sequence23	MetaGeneAnnotator	CDS	6038	7339	.	+	0	ID=MGA_752;product=folate synthesis bifunctional protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9Z7E8;translation=MIYISIGSNLGNRLANLRKAVELIKSNILEQPYESIILETTALLKNNSPKSWYKPFLNMVIAGKTELSPHDLYKKLVEIEKQVGRSYNKEKWAPRIIDLDILIYNDQVVDTHDIKIPHPELLNRDFLIHLLALMPSKYRPFIQTQEQRIRVDEYAHNYIDGADLFTKAFALGPSVVGVLNVTPDSFSDGGKNFESEIAIENAYRLVRDGAEIIDIGAQSTRPGISEIIGPEKEYERLSPILDGLKSINAKISIDTYHPELISRLLKEYKIDWINDVTGNLGGDILQEIALSGCKIVVMHSLSIPPSKKKILSHNIPVTESIRIWGEKIVEKMQRYNFSLENIIIDPGIGFSKSIYQNLDLLKGTQEVKKLGVKVLVGHSRKSFMTGFVEKPAHQRDIETIAISGNLDCVEADFIRIHNVREHHRLFVASRVSR;locus_tag=LOCUS_07380;gene=folKP;EC_number=2.7.6.3,2.5.1.15;note=Q9Z7E8 folate synthesis bifunctional protein (Chlamydophila pneumoniae CWL029) [pid:38.5%25%2C q_cov:97.7%25%2C s_cov:95.8%25%2C Eval:7.6e-75],MGA_752
sequence23	MetaGeneAnnotator	CDS	7336	7833	.	+	0	ID=MGA_753;product=dihydrofolate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9Z7E7;translation=MNRKLIGIMACTHSGVIGLEGKVPWRYEGEFKYFQEVTDNKIVIMGRKTFDEMRKLSLLKTRNNIIFTRNLSLQKHYQAPNIKFVHSLSEFKKIIVSERSDAYMIGGQEIATVFLENDMLSEFLLTKIHKEYKGDTYFPLSQLTDWQSEIISSRKDYTIHKYIKN;locus_tag=LOCUS_07390;gene=folA;EC_number=1.5.1.3;note=Q9Z7E7 dihydrofolate reductase (Chlamydophila pneumoniae CWL029) [pid:35.4%25%2C q_cov:97.6%25%2C s_cov:90.6%25%2C Eval:6.6e-23],MGA_753
sequence23	MetaGeneAnnotator	CDS	7860	8531	.	+	0	ID=MGA_754;product=PqqC-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O84616;translation=MNFLKKLHQEIDQYHLLKHEFYQAWNRGELSLKTLQIYAKEYYGHVAAFPRYISAIHSLCENIEDRQVLLNNLIDEEQGKENHPELWLKFAEGVGCKRSECKKQQLSSTRKLIDEYFDITRSSFASGLGALYAYERQTPSVAKSKIKGLREFYNIDNKDTLKFFEVHMEADEWHTQECADLLKKLNKKDQILAQQGAVRGAKLLWQFLDEMQQIHLQNDLKIH;locus_tag=LOCUS_07400;note=O84616 PqqC-like protein (Chlamydia trachomatis D/UW-3/CX) [pid:40.8%25%2C q_cov:93.7%25%2C s_cov:91.3%25%2C Eval:1.3e-40],MGA_754
sequence23	MetaGeneAnnotator	CDS	8517	9236	.	-	0	ID=MGA_755;product=ribonuclease PH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCT5;translation=MRPSKRKNNQLRDISIETNILNHAEGSCVIKFGSTHVICSASFDDTVPRFLKGQNKGWVTAEYGMLPRSTNQRMRRESISGKQGGRTLEIQRLIGRSMRAAIDLNLLGERQILIDCDVINADGGTRTAAITGSYVALHLAIRNLMDRKILRKNPLTSQIAAISCGIYNGEAVVDLDYDEDSTAEVDANFVFNQHGNLIEIQGTGEDGDFTTDQLMQMLNLAQDAASKLFAEQNKILMNF;locus_tag=LOCUS_07410;gene=rph;EC_number=2.7.7.56;note=Q9ZCT5 ribonuclease PH (Rickettsia prowazekii str. Madrid E) [pid:67.1%25%2C q_cov:99.2%25%2C s_cov:98.8%25%2C Eval:1.8e-86],MGA_755
sequence23	MetaGeneAnnotator	CDS	9337	9912	.	+	0	ID=MGA_756;product=protein GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCT4;translation=MEKQQKTKKENQTNQVNDESVEEVVESEEAKEADPQEIIENLTQQVETLQDKLLRGLAESENIRTRSAKLVEEAREYAIFDFTKDLMPVMDNLQRALEHIPENLDAEARNVVEGVKMTKSQLESAFKKHHLESIAPQSGDKFDYNMHHAISQIMTEEFAAGSIVNTMQVGYKIKDRLIRPAAVTVAKATKK;locus_tag=LOCUS_07420;gene=grpE;note=Q9ZCT4 protein GrpE (Rickettsia prowazekii str. Madrid E) [pid:44.8%25%2C q_cov:90.1%25%2C s_cov:91.6%25%2C Eval:1.6e-35],MGA_756
sequence23	MetaGeneAnnotator	CDS	9925	11085	.	+	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDRRKQSRSVAVDMSFLLMTCLFMFTWIIFSSTKANATENEISEIYIEASGNNKHEAKIKAHEKGMQRALYLLANKFNIPTDGLRTIPYHKIKSAFTPKVVINEISLLEKYSATVTYAYEKGKIFSLLLEYGDTKVNDLFYEVVVLPVFKQRRTLNIWDDDKRWNDFWRDSRQILDTHKIYYPEKTLFLSEKIKEDNLFDLKYEDFVNIFHNKLFKNVMIVTAEFFTNRRTGESILHIKKYIWTPVSVEAQVVEEEYDLNSWDDIPYIVDLVIDKIIDDYGAIRLTEPEEDIDDGHLFIDEDEKKPIIMNFDVFDQDELDLVISKLEKVEQIDNFAIEHDYNTRYKILIYTSVSEYELAEGLYLNGLSYKIHGSLYNLIDIKKGG;locus_tag=LOCUS_07430;note=MGA_757
sequence23	MetaGeneAnnotator	CDS	11373	12215	.	-	0	ID=MGA_758;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRAYLRIFYCAILICAISFASYLYNRTRKAEIASQILSSTEFTFNDSNNRINFYSISPKTIESAYKKLKKDDIEILSSIILDEKQDWGPINYKIVNIASAITGSSDNFLARLNESAKFAVYRSSILILKKFGLEGFYEITKLHFQNQNSSAKIALLEIIQNRQTNDEVKRAFKTKFFEELEKSEKFISEFHTKYCKNQNKKCLVPSLEDWYVEGKPNPPKMQKRVLEFRRYRNSDEVQNFENARYFLGIFPEAKGRLCKNPQANRLRGLYDKEIWKSECS;locus_tag=LOCUS_07440;note=MGA_758
sequence23	MetaGeneAnnotator	CDS	12451	13494	.	+	0	ID=MGA_759;product=UPF0118 membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCT3;translation=MNRLAFWSVVLAVACSFIYLVSDTLVPFLVAFIFAYLLQPAIDTNCHKLKLPRGIVTLGVFTMFLSGFVAIIVLIVPIIYQQIAVFVSKIPQYKSNFQSGITAWSERLNDVNPELSNKVTESAQNFLDSAFSIFASFANHIWQYTLATINFFTIVALVPIILYYFLRDWPQIVSSIESILPMRGKSKVREIFISINELLSAYIRGQLNICLLLAFYYILGLNLIGLDLALLLGILSGFLIIIPFIGAMISFLMVVISCYFTFGAGVELIYVIILYVVGHSVEGYILAPKIIGDRIGLHPVWIIFAVFAAGSVFGFIGIVFAIPIAGIVKVLLSHVIDYYKSSKMYKN;locus_tag=LOCUS_07450;note=Q9ZCT3 UPF0118 membrane protein (Rickettsia prowazekii str. Madrid E) [pid:46.6%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:2.4e-89],MGA_759
sequence23	MetaGeneAnnotator	CDS	13505	14158	.	+	0	ID=MGA_760;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596252.1;translation=MQQIAFSFTSSDAYDSDEFIESSSNLLACRAINNWPDSWGVEPYPKALIIQGPKASGKTFLAKKWAKNTDALFIKKMHEITENILSEHHAFIMEDFDSSWNEEKFLHIFNLLSENQKYLLVTSQALPEIKLPDLSSRIKSVNLINIQQPDDDMMQMLIFKLFSNYSVVISSEVVNFLIKVLPREFPAIVESVRIINDFALENKRKITIPIVKQSLEL;locus_tag=LOCUS_07460;note=WP_004596252.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:49.1%25%2C q_cov:99.1%25%2C s_cov:96.8%25%2C Eval:4.7e-48],MGA_760
sequence23	MetaGeneAnnotator	CDS	14173	14889	.	-	0	ID=MGA_761;product=SURF1-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCJ8;translation=MRKTIKIFGLKFELIPFIFVLISLIILISLGNWQLDRLSQKEHFIQTIETNIKNPPIVIDNITDNIDHYAKIELEGTFLKDKNIFLYGRRSASPEKDGYYLLSPFKTLNGDVLLISRGWIPQSTKDNFSEYNQQTNIIKITGITLPHEKKNFLVPENDRKKNIWFNIDLMMAKETIGINVTNFYLMQIGSEDLPDGGKPLSTKHLNKVRNDHMEYAITWYSLGACLLIIFFIYGRKKD;locus_tag=LOCUS_07470;note=Q9ZCJ8 SURF1-like protein (Rickettsia prowazekii str. Madrid E) [pid:41.0%25%2C q_cov:88.7%25%2C s_cov:86.1%25%2C Eval:3.5e-42],MGA_761
sequence23	MetaGeneAnnotator	CDS	14908	15768	.	-	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQYLKALQEYEAGNDRFSQLCHYMSVRNSSLIKQYRDGVVNLPSFIMIKKLHNKYADLCSQDEELNNLFLNATECSKLFYARTTDLIKSSKRNGEEFETSFGRVAQPLGQRLINLLVNIKFRIRVARYKRQVKPDNEISKIFLRLSAITEPINCWVNNIIYKASLIQSTHHRLTKKLYYGVVALAILSLILMNSLFYQKFSLTAIVIANTLLCILLGTAAVIMHPSGDFGKIDISGKNIVAYKYRVFFNNISNKKIHNIFTMQHAYEPGHKLSQNIESSECESIT;locus_tag=LOCUS_07480;note=MGA_762
sequence23	MetaGeneAnnotator	CDS	16141	17529	.	+	0	ID=MGA_763;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCQ3;translation=MGLDIKAPENVILKPIITVFGVGGAGGNAVNNMIKASLRGANFVVANTDAQALKHSESSNKIQLGAASTKGLGAGASPEVGKEAALESESEIRSHLEGSNMVFITAGMGGGTGTGASPEIAKIAKELGILTVGVVTKPFLFEGAKRMKLADQGLAELQKHVDTLIVIPNQNLFRIANENTTFQEAFEMADEVLHAGVRGVTDLITSPGLVNLDFADIETVMSEKGKAMMGTGEGSGEDRAIKAAESAIANPLLDQSSMCGACGVLINITGGKDMTLYEVDSAANRIREEVGDSDANIIFGSTFNPELEGTIRVSVVATGIEQSDMDFVKSEEQVVEIEDEANIEEVESGNIEIDSHEPPSYNEYEEKVKESEAELQAKLDQLARQMDWNQAEQLAAMEKSVATEQKTKSKPQSLLKRMWNSLKASDMQQEEKISHNQDTMPPSIHEGKSDIQDIPSFMRKDR;locus_tag=LOCUS_07490;gene=ftsZ;note=Q9ZCQ3 cell division protein FtsZ (Rickettsia prowazekii str. Madrid E) [pid:60.8%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:5.4e-143],MGA_763
sequence24	MetaGeneAnnotator	CDS	294	593	.	+	0	ID=MGA_765;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKKLTFSQVIQKFDSFEKKFAKNPGDKSLLEFFEVFGKIINEGDYTSEQLKQIRDRMLKLREIFSETRKALSEKSNETLNRHKSVSQYIKTSHIKNK;locus_tag=LOCUS_07500;note=MGA_765
sequence24	MetaGeneAnnotator	CDS	596	880	.	+	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESEIIFKALLSLGVVFAAMYVILKVMQRYSNVGTGAKRSSKGTGLKIENIVYIDEGTKVVNISNKSGSNYVIAVGKNNSFLVDKYKIDKEKDE;locus_tag=LOCUS_07510;note=MGA_766
sequence24	MetaGeneAnnotator	CDS	885	1625	.	+	0	ID=MGA_767;product=flagellar biosynthetic protein FliP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q45980;translation=MKFFNLIAVISIIMLPELVFAEESFASELEHLLSSSSMTSRLMQIFMLITILGLAPSILIMVTSFVRISIVLSIVRTALGLQQSPPNQVLISLALFLTFFIMSPTLQESYDKGLKPMLEESMTEEEAFPLIAQPFKKFMVSNTRTKDLDLFISIAKVDAPKEIENLPLRVIIPAFMISELKRGFEIGFLIFLPFLIIDIVVASVLMAMGMMMMPPVMVALPFKIIFFVLVDGWYLLAGSLVQSFVT;locus_tag=LOCUS_07520;gene=fliP;note=Q45980 flagellar biosynthetic protein FliP (Caulobacter crescentus CB15) [pid:49.8%25%2C q_cov:97.2%25%2C s_cov:89.8%25%2C Eval:3.2e-62],MGA_767
sequence24	MetaGeneAnnotator	CDS	1648	1965	.	+	0	ID=MGA_768;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEE0;translation=MTQEINDGDFEKEVTSSAEPVLIDFWAEWCGPCKMLTPIIDQLSEEMKGKVKIVKMNIDENPEIPSTLGVRSIPTLMIFKDGKQVSSKVGAHPKNKLEEWINSSI;locus_tag=LOCUS_07530;gene=trxA;note=Q9ZEE0 thioredoxin (Rickettsia prowazekii str. Madrid E) [pid:58.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-34],MGA_768
sequence24	MetaGeneAnnotator	CDS	2019	5075	.	+	0	ID=MGA_769;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388324.1;translation=MLKTNIKFADLNSLSGLRKLDESFLQYLSIYNPKLEEQINYYRDIGSSKLSESAYSKFITELGPLLDDFIADLFQINSENLAQKKNYEKFDVIYEARRKFIQRYAIKKYTKDDIDKLNFAKITLKLKSIIGDITQDRLADSIVTWQLDYEKYKDELDAAAQYCSIMYYNNSSLELFDIPRPIDENNQIREHRIKQLSKETYIGFDYRDYVSSGKAAMHTKYCIYCHKQGKDSCSKGFHHINPEKYPKKEKDGCPLKQKISEMNFLKDMGLNISALATIVIDNPMVASTGHRICNDCMKTCIYQKQEPVNVPLIETNILEKVLELPWGVEIYLLLTKWNPLNIDSPLPKEKSGYNVLVAGLGPAGFALSHYLINEGHSVVAIDGLKISPLHFDITEPIKDWNKIKIPLSEKSPQGFGGVAEYGITNRWDKNNLTLIRLILERREAFKMHDGIRLGSNITTDQAFQSGFDHIALCLGAGKPNYINKTDYFAKGVKSAADFLMNLQQGAPHLKNSNSNMQIRLPAVVIGCGLTAIDSAVELLHYYPAQVKKFAEKWKKADRNNIILNDEEHQIAEEYIKHANLFAKAKGHREKLEIIQKLGGVTVCYRKNIKDSPAYRLNHEEIEHAIADGVKFIENVSPEKVDVDDYGSITSLNLSNNEKISAKTILIAIGTNSNEFVDIDGLDNLDSDIFKNKSGNISYFGDCNQKYSGSVVKALASAKNGYKAISDTLAKTAPKSPEITAFDSSCTINKVTQLADDITEITIHSKTCASNFRPGQFFRLQNRAINLHDTIEPIAITAAEVDHTKNLLTFIIQDVGKSSNLVHKFKEGDDIILMGPTGLPTKIVSNKNVLLIGGGIGNALLIPIAQNLRKNGCNVTFISGYKKHSDLIYADKIEAVSDNIIRSFQQDPDNPKTIIDALNDAKTNSLLDDIDHIYCNGSNIMMEAILKHKHSLFPNIEITYSINSPMQCMMKGICGQCIQKTNDNNGYKFSCTGQDFDAGAIDFECLNNRLSQNSLFEKI;locus_tag=LOCUS_07540;note=WP_011388324.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:37.0%25%2C q_cov:99.3%25%2C s_cov:95.2%25%2C Eval:4.9e-193],MGA_769
sequence24	MetaGeneAnnotator	CDS	5511	5906	.	-	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRYQFDKLIRSKIPSRMKDEGVVVNRNSLSEPDYLAELKKKIIEEAREVHEASSKEDLTTELADVMEVIHAIAQANQISLDEIEAAQAKKREINGHFLPENYINYIEVAEDNHKVIEYLENKNRPYKFQG;locus_tag=LOCUS_07550;note=WP_001143661.1 hypothetical protein ([Bacillus thuringiensis] serovar konkukian str. 97-27) [pid:39.8%25%2C q_cov:71.0%25%2C s_cov:86.1%25%2C Eval:9.5e-12%2C partial hit],MGA_770
sequence24	MetaGeneAnnotator	CDS	5907	7478	.	-	0	ID=MGA_771;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDF8;translation=MTINFDEISNSKAWPCVEAKRIYDAIGGKTPEKGYVLFETGYGPSGLPHIGTFAEVTRTIMVQKAFEQLCDIPTKLICFSDDMDGLRKIPGNIPNQEMVAEHLGKPLSAIPDPYGEKESFGHYMNAKLRSFLDRFGFKYEFYSATECYSSGKFDHMMVKAIEKYDDIMNLMLPTFREERRKTYSPFMPVCPDTGVVLQVPIESVSLENQSVSYKNESGELVEVPVTGGHCKLQWKPDFGMRWSALDVDYEMYGKDHRPNAEIYSKICKILGGTPPVQFFYELFLDEEGSKISKSKGNSISVDEWMHYAPIESMSLFMFQSPTKAKRLHFDVLPKSVDEYITFNKKYHAEEDLQKKLANPVYHIHHGNVPVVETYGISFSLLLNLASVCNPEDKSVLWGFISQYAPEATPENAAYLDHMTSYAVNYYNDFVKSKKDYLIANEKHKILLKQISDMLGSLSGSETGEEIQNEIYAIGREAGYENLRDFFKEIYQILLGQTQGPRLGSFFKLYGITDTIKLIENKIS;locus_tag=LOCUS_07560;gene=lysS;EC_number=6.1.1.6;note=Q9ZDF8 lysine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:65.3%25%2C q_cov:99.8%25%2C s_cov:98.9%25%2C Eval:1.6e-218],MGA_771
sequence24	MetaGeneAnnotator	CDS	7550	8026	.	+	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDF9;translation=MSIKLKDPYILLLLLSSFGLAFAYVVEYIMKLPACPLCIYQRFPYLILIVLSIISISGQNGLGKYYIATAIFAIFLATYHTGVERDIFEMSGFCKPLVKIRDNMSVSDFTKMLYSSGPLGQCNKPALVIFGLSMTEWNLILNLFLLTMFIKYRNYKSS;locus_tag=LOCUS_07570;note=Q9ZDF9 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:39.0%25%2C q_cov:83.5%25%2C s_cov:77.9%25%2C Eval:8.6e-22],MGA_772
sequence24	MetaGeneAnnotator	CDS	8028	8564	.	+	0	ID=MGA_773;product=5-demethoxyubiquinone hydroxylase%2C mitochondrial;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDX4;translation=MPKPYFSSAKKIQEIIRVDHAGEFGAKRIYEGQIAYTKNANDKKLIKHMLDQEAEHLEYFDNQIKKSNARPTVLAPIWNMFGYTLGAISAKAGKEPAMLVTESVEEVIVDHYQEQIDYLNSIKSKNQLLTKIKKFKQDEADHIHIALENNSTNAKLHDTMSAVVKTFCKIAIFLSKKV;locus_tag=LOCUS_07580;EC_number=1.14.13.-,1.-.-.-;note=Q9ZDX4 5-demethoxyubiquinone hydroxylase%2C mitochondrial (Rickettsia prowazekii str. Madrid E) [pid:50.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-44],MGA_773
sequence24	MetaGeneAnnotator	CDS	8606	8839	.	+	0	ID=MGA_774;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNKVALFKSLFNKNLKKITKSPEKYDFLKFSVVGAFSIIFYCIENTFYKENGENEQLKITGQTAGEDYFTNNYNDV;locus_tag=LOCUS_07590;note=MGA_774
sequence24	MetaGeneAnnotator	CDS	8857	9351	.	+	0	ID=MGA_775;product=phosphohistidine phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011088598.1;translation=MRLMLMRHAKTENGQDKEDFQRMLTDIGKEQAGQAADFLHEHQIDKMLVSYVKRTMQTSAIIAEKAPAEESEMVSELYEGDEEAIINLIASQEDRNKHLLVIGHNPLIYNVVMSLSNSNSDKYNELIATSMPTARIVIIDFRDIDSWKKILTQKGDILEIFTPV;locus_tag=LOCUS_07600;note=WP_011088598.1 phosphohistidine phosphatase (Bradyrhizobium diazoefficiens USDA 110) [pid:32.2%25%2C q_cov:98.8%25%2C s_cov:91.9%25%2C Eval:3.4e-16],MGA_775
sequence24	MetaGeneAnnotator	CDS	9575	9892	.	+	0	ID=MGA_776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKARNTTSEAVKKPSLWPKFTKWLASKFTCFGKDIQEDIQEHLEDIGEEILAPIVKTGADVLGDLVNSEVPGIGGKILTSVVDSAGDTVVEMLGGTSSADGAAS;locus_tag=LOCUS_07610;note=MGA_776
sequence24	MetaGeneAnnotator	CDS	9985	10260	.	+	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNTKKETILKDLEQRVEPIIDFAINIFGSVFRFCISLKPAISKIGKSTSSFSSVEDLIFSDADNTNTTSKVDITGEKSEPTINIGTDTDS;locus_tag=LOCUS_07620;note=MGA_777
sequence24	MetaGeneAnnotator	CDS	10272	11471	.	-	0	ID=MGA_778;product=Bcr/CflA family drug resistance efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010958418.1;translation=MSYKTVQFLVLILIGLFSQFAADVYAPSIPAMARDLSTSIDSIQWTMSIYMFGVAVMQFFYGAVSEAFGRKAPMIFGVSIMFIGSIICIYASNIETLITGRLIQGIGISACACLWRSIFRDTFSGDELAQYASYATMVVMFVIPGAPLLGGFIQDYFGWQATFVFIASYAVLSIILLVVGMQETSKHHKISNIKIQVIVKKYLILLKSSLFMGTIFAVFLSFGAFFSWFVIGPVLLIDRIGITPSEFGVISCICGIIGFGIGGFTNGKFVKKYGIPTMLRFGWSLMVVGGVMLFLGHFIFGLELWSIVIPIAIFFYGSSFIWPNAFATAFSPFGHMAGYAGALYGTTQVGGGAVLASIFSYLPDDNQLIFSIIITIAAISAWLLYEFFVFPNIEKQIEE;locus_tag=LOCUS_07630;note=WP_010958418.1 Bcr/CflA family drug resistance efflux transporter (Coxiella burnetii RSA 493) [pid:48.7%25%2C q_cov:96.7%25%2C s_cov:98.0%25%2C Eval:3.3e-114],MGA_778
sequence24	MetaGeneAnnotator	CDS	11646	14213	.	-	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKSILKQVGLFATTCLFSINVVSATERVTTGSPAEFSSNNGLLPFVSGADYVRLGGNHTLVTSAAIAIDHDIRGINLDSNSGIFQVFRNTTIGSIVNPGANGGLNVEFKGANSNITLSGLSGNVAIPANDYSGLRSVDFGNFDNKLIIQSAGINFSNTFTSTGGDNGTINVENTGTTFSGSFDANAGSRVKEIFIKNDIESTIFDTNLNLSGDLTVTQGSSVTFTEGRTVNADHLYFGNVTQAIFTTVPNMIFEDNTTVNAPIQRDAFSFAGNIEFKGRTTINGVIGSEFRRVSKVEFTSTNPNHRSSLNHDIYSGRINANNSTLGIDAGTVQFAALSNFDGTTFDLGKNSAKFSRANTTFVGSPVFNTTYDGIAGGHLIAEGVAIDMSGVDAITINLTDTSSIPGPDGRKFTLFAELLNVEIEGEGEGEEIIEGTITLTDNENVTLNVVDRPLVQWTHDNGVLCQTLVDNPEQVVINNVTDTENAEIILASPAASDLLNAVNNVTVDNTGNTGGDVVLNALQPVIALGAEAAAAALETASQMVSGDVKTLTGKVSARIQQVQAIGVSSGSDSRSYGAWFAPVYGIAKQDKRSSNPGYFSRYYGGMVGIDTLIDEDTTIGFAASYMHHIIRHKHENQGDKTNMDTASLLLYGSRSLSESLFIQGVTSVGSTYVDNKEVRQTFPNPSIACAKYNARSFTAEIIGGYNHKLSKTTTITPLLGFEFTSLGKVEYDENGAGNQDLSVKRKIYNRGEVIGGIKINKSIECSDFTFIPEAHGFVRHDLLKNKFKVDIRFKNDRSSVLIPRTAVQNRTTYLIGGGADIKKESFEYGFAYDFRFAKKYRAHQGVLTFRTEF;locus_tag=LOCUS_07640;note=WP_004599704.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:24.6%25%2C q_cov:33.5%25%2C s_cov:83.3%25%2C Eval:1.1e-15%2C partial hit],MGA_779
sequence24	MetaGeneAnnotator	CDS	14404	17562	.	+	0	ID=MGA_780;product=DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCJ7;translation=MNLLQVQASDPSFSTWVSASAGTGKTKILTDRVLRLLLQNAEFSKILCLTFTNAAAGEMKERIADALSDWANITEEELKEKLCSTLGRKCTFKELEQAQSLYSKYLNSDEKINVQTIHSFCQKLLKKFPLEAGISPSFTIIDETKSYQILKRVKNELLSKNALLPINNYLNANFHEVTIDEIISEIVENKTKFFNSNYKYNCIKSESEKIIDSLNNFTSSEWEVIASISTIQNIVGLNQTPKQIKKLFLTDSGQKRKKIVPQKIAKEGSNLYADLERIQDKIFILDQKEKTKQLELHSKLLSILGSAILSEYEEYKSKKGLLDYDDLIIYSSKLLKASDAKEWVLYKLDGGIDHLLVDEAQDTSFNQWQIIEALIEEFYSGDSKETLQERTVFVVGDEKQSIFSFQGADVQSFAKMNSELKNKMHYGGKNFRDLQLEISYRSAKEILDGVHTVFDNICKKMPGLFNESIKQLSAHRNIHSGSIEIWPLCTSNEDTNDFWPIADSTETKTPQIVLAEKISLFIKKQLLSKRILPATGKEIAPNDFMILFRTRDELTNEVIHALKKNDIDVTGLDRISLCDSIAVMDLISVAKFVLNPDDDLNLCSLLKSPIFGLSEKEIYEISVNRQKDSVWKILQSNETYSSLNKKLQNFIELYQTTHIGNFFQYIIEILDYRSLLNSNCGPDSDDAIDELLYACNNFYKQNSTSIQNFIFWIEEHATSIKRTSSDSGKVKIMTLHASKGLQSPFVILCDTTSIPSQTNKLQWNDENTLLSSKNSNLTPEFFKDLKKQEQSKIYAEYLRLLYVGMTRAEDHLIICGYQGKKSIPENCWYELISSSLSKKSALNESGNLIFGSESNDICITIPHKDQSSQMEFFSSEIAQETIKIKTKSISSYAHPSPLAKKDPMNYGVIFHKILEDSLVVPDLNIMKTHPLIQTINTESKTRMLKSIDKIINNQKFCDLIKEDLLTEIAIGTEDNNLAKIGRIDLMIIKNSETIIIDYKSDITPAKNTNKLPKTYKTQLDFYKDTVQKIYTDKKIITMILWLENGELMEISS;locus_tag=LOCUS_07650;EC_number=3.6.4.12;note=Q9ZCJ7 DNA helicase (Rickettsia prowazekii str. Madrid E) [pid:42.0%25%2C q_cov:79.7%25%2C s_cov:99.6%25%2C Eval:1.5e-184],MGA_780
sequence25	MetaGeneAnnotator	CDS	521	1069	.	-	0	ID=MGA_782;product=putative intracellular septation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDD9;translation=MLKFVTEFGPVVVFFIGYKVGGILEATLYMLVASVVSLIVTYIKERKINNMNLISSSLLLATASLTLLSGNSIFIKMKPTVLYCIFACIFLVTNFKWKPAVQYLLGTAIKFREDKSWYSLNIRFMWFFILMACANEVIWRNFSEDTWVSFKVFGAMPITIVFILLQMPFIMKNKLPDDASSS;locus_tag=LOCUS_07660;note=Q9ZDD9 putative intracellular septation protein A (Rickettsia prowazekii str. Madrid E) [pid:47.8%25%2C q_cov:97.3%25%2C s_cov:98.3%25%2C Eval:1.8e-46],MGA_782
sequence25	MetaGeneAnnotator	CDS	1062	1877	.	-	0	ID=MGA_783;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599446.1;translation=MIKLAIVVFRECMEIAFLLGVILAVTKPVKDSRKYVILGSITGVFLAALFAFFAKTLSESMGGIGDEMFDSCVILITAILISWTVVWMQGYTKKIRKDLSKLSDKITAGVVSKLMLVFVVAAAIFREGAEIILFVYSITSAGNIDGNEYITGIGIGAFGGLLVGTLLYLGLMKYAGKYVFKISTILLTLIAAGLAAEAAGIMTSSGIIEVLSDQLWDTSWLVENSSITGKILNITVGYDSRPNAMQIIFYFATIILTFGMMKFRSRVSKDA;locus_tag=LOCUS_07670;note=WP_004599446.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:50.2%25%2C q_cov:99.6%25%2C s_cov:96.1%25%2C Eval:1.3e-70],MGA_783
sequence25	MetaGeneAnnotator	CDS	1870	2235	.	-	0	ID=MGA_784;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLMKTKLLFFSILFFLLQTPVKMVFAGFVEVDLIIKDHKFEPEILELPAGEKIRITVHNKDNTIEEFESIDLKREKIVLANSKARVILAPLKPGEYKFFGEFHEDTAQGKIIVKEKQEDND;locus_tag=LOCUS_07680;note=Q9ZDD7 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:60.9%25%2C q_cov:71.9%25%2C s_cov:69.6%25%2C Eval:6.8e-26%2C partial hit],MGA_784
sequence25	MetaGeneAnnotator	CDS	2542	4362	.	+	0	ID=MGA_785;product=GTP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011387909.1;translation=MTSSIRNIAIIAHVDHGKTTLIDNMLKQSGLFRDNQAVAERAMDSNDLEKERGITILAKCTSVKWEETKINIIDTPGHADFGGEVERILSMVDGVVLLVDAAEGPMPQTKFVLGKALKLGLKPIVAINKIDRSDARADEVLDEIFELFMSLDASDEQLDFPVVYASGRSGWAVKELTDARENLNALFDVILENVSEPESDVDSAFSMIATTREYDSYLGRILTGRIETGTAKINMPIKVMDRDGNLVESGRITKMLTFKGLERLPIDEAKAGDIIAIAGLEKANVSDTIAAPEVEIPLESQPIDPPTLSMKFSINDSPLAGKEGDKLTSRVLRARLMREAEGNVALKISETGQTDSFNVAGRGELQLGVLIETMRREGFELSISRPSVLFKTDENSGEKLEPLEEVQIDVDSEYVGSVVESMNLRKAQMQDMRETGAGKTRLIFIAPSRGLIGYHGTFLTETRGTGIMSRIFHSYGPYTGKIEGRRNGVLISMEDGSAVAYALWNLEDRGDMFITTGVPVYKGMIIGEHNRDNDLEVNPIKSKQLSNVRASGKDEAIKLSPPRLMSLEQAISYIQDDELVEVTPQSIRLRKVYLDPHERKRMSRQS;locus_tag=LOCUS_07690;EC_number=2.7.7.4;note=WP_011387909.1 GTP-binding protein (Rhodospirillum rubrum ATCC 11170) [pid:67.9%25%2C q_cov:99.5%25%2C s_cov:99.2%25%2C Eval:1.2e-241],MGA_785
sequence25	MetaGeneAnnotator	CDS	4431	4778	.	+	0	ID=MGA_786;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTDKNIEQETDSQFQKAYDALKSKILDGSISVEETRQLYDACNTIVGDSDKRIAISGVIEDLENSGITHEKYHDFVSNLVEVEKQVVTERFPIDPTQPAQKQEADMKKNVLNI;locus_tag=LOCUS_07700;note=MGA_786
sequence25	MetaGeneAnnotator	CDS	4775	5647	.	+	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNTSLAKNAMLHECTKNGLGYDIYKDLKENNIEAATKKFQEFNVPDYLQDHYSTIGEFYKENGNTQGAATNLTFHALTTSINEYAKVELTGNERNNIIRTSGKTCKSVYSPSIEGSLDRLMDQIPGPDESVIVDFSNITPPDLKPSTPSVEEVAPPEQKPKTTNIGEKIANTFKGFKEKIQNFGKEIKDFVTSAFKKSDKPKTDLPETTKPETKKVGPDKTVQKEKTVSVSRPRVNAMTSETAPSIKAAAENVRKNVSTGKKTGSVSKGAPRTAISASKKQDQNKGASR;locus_tag=LOCUS_07710;note=MGA_787
sequence25	MetaGeneAnnotator	CDS	5650	9117	.	-	0	ID=MGA_788;product=DNA polymerase III subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05974;translation=MANRFVHFRVQSSYSMLESTIKIDQLVDLAKKNDMGAVCLSDRGNLFASLEFSMAASKASLQPIHASILNVLFTNNGTEDFAEILLIAKDQIGYQNLLKLVSLTFTQNDRKICNHITFNDLQKYNEGIVVLSAYTEGVIGKLLLESSKDAAMNAARKLQKLFGDRFYFEITRHGRSNEKKIEAEYLDIARGLGIPLIATNQVLFGDISMYDSHDVLLCISDGVVREVQDRRRVSNQCYFKSSDEMISLFSDLPEAIENTVCLAQRCSVMSETRPPSLPNFTDGSLSEDDLIRKEAKDGLDSKLSQKFSHEKIKKNDQVSIIKEYNERLDYELDIICKMGFSGYFLIVSDFIKWSKQNNIAVGPGRGSGAGSIIAWTMQITDLDPIKFGLLFERFLNPERVSMPDFDIDFCQERREEVISYVRSKYGDERVGQIITFGKMQAKAVIKDVSRVLGLSYTAADYLTELVPFNAINPVTLNQAISDVAELKGAAKGNGLYNYDGDEELIAQVLSTALKLEGLQRHASTHAAGVVIANQDMTDIVPVYKDINAEMLVVQYSMKYAEAAGLVKFDFLGLQTLTVITKALELIEDSGIKVDIESIPYNDSKTYEMLSNGLSTGVFQFESVGMKNALRKLGPDSVDDIIALGALYRPGPMDNIPTYIACKHGEQEVDYLHPLLEPTLKTTYGVIIYQEQVMEIARILSGYSLGGADLLRRAMGKKVKAEMDAQEEMFVNGAVENKVPAQQAKSIFATVAKFAGYGFNKSHASAYGVISYQTAYLKANFPAEFLVACLNLEMDNSDKINIFVQEAKIFGIDVISPDINRSHGKFSIDVIDGKKSIIFAIGAIKNVTANFGEAVTSERTKNGEFKSIIDFAERINPKLINRRLLENVIKAGCFDKINHNRAALILSIPKIMAYCASYHEEKNSNQFSLISVGANSSDIILSADEYSTKELAYSEFEVMGLFLKNHPFTEILQSLDKCEIKTSSHIKNDINDGSHKLKLAGVITKKDSRMSPRGRFITLVLSDQEGIFEVTIFDEDILRNYAHLINVKEAVVVYCDVFKDKGGLRVTALKFMSIEDELDGVEHSLKLYPEGEDEVKQIINVLASKKHESKSNSSIEIFLPIEGEFVAKVSMPKQFVLDESDVTNLEKSKFLRKVLT;locus_tag=LOCUS_07720;gene=dnaE;EC_number=2.7.7.7;note=O05974 DNA polymerase III subunit alpha (Rickettsia prowazekii str. Madrid E) [pid:60.5%25%2C q_cov:98.7%25%2C s_cov:99.2%25%2C Eval:0.0e+00],MGA_788
sequence25	MetaGeneAnnotator	CDS	9107	10411	.	-	0	ID=MGA_789;product=UDP-glucose 6-dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05973;translation=MKISFIGTGYVGLVSGVMMSHVGHDVVCIDVDESKIAKLRQGGCPIFEPGLDEYISKYGNSEQLKFVCGYDESISGSDCLFITVGTPPKENGEADLSGVFGCLESAAPYISSKCIIVMKSTVPPGTCNKVVEFLRSKDLSNSVVSNPEFLREGDAIKDFLEPDRIVIGASNEESFAVMRKVYDPLTKDGVSLVETDLNTSELIKYASNTFLANKIAFINEMADLCEVVGADISQLSRGIGLDKRIGSAFLQAGPGFGGSCFPKDIMALQQLSKSIDSDFLILDAVIAANSNRPQIMLNKIANAIGGDMANKKLAILGLTYKAGTDDLRSSPSIELINKLREQGADIIAYDPEGMKNTDRYFDNLNCVKSMYEAIENSDAIIIITEWQEFKDIDLKQAKDMVNQPVIIDLRNIIDSSYAQDSGFKYYSVGRKSGK;locus_tag=LOCUS_07730;gene=udg;EC_number=1.1.1.22;note=O05973 UDP-glucose 6-dehydrogenase (Rickettsia prowazekii str. Madrid E) [pid:52.0%25%2C q_cov:98.8%25%2C s_cov:99.3%25%2C Eval:3.8e-127],MGA_789
sequence25	MetaGeneAnnotator	CDS	10555	13050	.	+	0	ID=MGA_790;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599649.1;translation=MKIIIKLLSIILLLAAIAFGLISAANNGALDKQIKVGLQYYFSNLGVKAKFYNLKFKNGTISASKLNIQAGTGITQINNVKLQTSLSSNFQLSIKLQPTNLKIIDENSKKIMEASVNGSLIADINGIQKAELSLPKINIIETIKDINNKQIQDGSAHFIYSNNLNQSILKGDLQFGKSIRLSISPSEKQQDNLHLHAENIPLLFYKIADKMLPNNGLLEFFKSSIQDGYIKNADINFNNNTANLSKESLNGKAKILKLDYKYDDYFPILSSIDVDVIIEGAKTQFIINQAYSSEILLSNGTINMDWKGQEDTTLYINITANGPTKSLTDFIHQDDHESMNKANIDLRKIKGKVNTTIYIEIPLKPGTKNLYDIRAEIPNASLNIFKGYVRLEKAKISGVFNGEQLKLHGVGKLNSFNTNLNFVYNVENQSEFNHKLDIKTHFKTKASKTKKEQKIAFISLLGGDSIVDVQYLNKDSKGYIKVDSDISNLELYFDKLGIRKAKNAPARVKVDGLFEDPTQGIINFHTYNDKNLSIKGDVTIENNEAKIDLEEIKNKGTNINGKIHLFNDEVIAELRGKTLDLSDADMLQFLEKERDGGNSKLRINIDRVKLKNNVWLDDLKLMFKCDNTRCYSGYIDSKIGSRDIEMLLTAENDREDWLIKCGNAGAFLKGLGAYDSMKSGSMVLKINTSRKEVRPGEIIPILDGTFTFERFKLQDTPAITRLVSFVSLPGFISIISGNKDIAFSGMNGNFSFENNLLKISNSFATGPYFDFSMKGSIDTKNRLLDLKGHVNPALYGASKIIGSIPIVGRIFTGNKKHRGLVSGTYKMQEKY;locus_tag=LOCUS_07740;note=WP_004599649.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:33.5%25%2C q_cov:95.9%25%2C s_cov:96.2%25%2C Eval:2.9e-127],MGA_790
sequence25	MetaGeneAnnotator	CDS	13190	14740	.	-	0	ID=MGA_791;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599410.1;translation=MNKITKLSLAAVIYTALFNIPIFYLKSVIGNTLIADFVMEMAIIIPITIILFFILSMFPYIGILCISIFFVFGIISNFFIYNFKKSFDEGVLNDILSVEVDLIVEYLNVLTVASAVIGFLLIYYLLYKFLGSSKYGESKKYSIATIAICISILGLMSKGFTSRSLGYTLTNYIPYNIIWSIKEYNKKYKKQLERRNNKTDLTKKYTFKFDSNDRKPLTVVLIIGESMRGSTVSEKNMPLIHGRKNLILFRDAKSSETSTRESIPYMLTSAKSPNIEQSLSEKSVISIFKSLGFETSWIGNQGIFGVFETSFASIALEADYIITKLELRKTFPNNQIIDEYLIPFIDQRLQNYKENSLTVMHLLGSHWRFDQRLPEAFKAPFMPECKNSIPSQCSKEQLMNSYENSFYYTDMVIDSLLKKLEHKNAIVIYSSDHGFSLGENGFFGNASKDPLAQKEQTDIAMFMWLSDYFIKKNPAILERIKKHSKHSVSQDYIFHSILDCSGVKSNYIDSSLSFCR;locus_tag=LOCUS_07750;note=WP_004599410.1 membrane protein (Rickettsia prowazekii str. Madrid E) [pid:30.8%25%2C q_cov:99.6%25%2C s_cov:97.5%25%2C Eval:2.6e-56],MGA_791
sequence25	MetaGeneAnnotator	CDS	14823	16058	.	-	0	ID=MGA_792;product=3-oxoacyl-[acyl-carrier-protein] synthase 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCH8;translation=MSSRRVVITGVGLINSLGLNAKDSWSGILSSKSGVKNITHFDTSQYPCKIASIVSEFNPEDYISPRDIRKMDKFIHFGIAAATEAVEDSGWEPEGEIARERTGVMLGSGIGGLGTIEETSVELRQSERCRVSPYFIPASLVNLLSGHVSIKYGFAGPNSAVSTACSTGAHAIGDAARMIKYGDADVMIAGGAEAPITPVGVAGFAAAKALAIDFNDKPTRASRPWDEDHAGFVMGEGAGVVVLEEYEHAVKRGAKIYAEIAGYGLTGDAFHITSPNGRGAFRAMENALKDAKVNPSQVNYINAHGTSTKVGDAIELTAVQTLFNGNDSLKMSSTKSAIGHLLGAAGSVEAIFTALAIRDQVAPPTLNLHNPIEEVKMNLVPLSSQETEIEYALSNSFGFGGTNASILLRKV;locus_tag=LOCUS_07760;EC_number=2.3.1.179;note=Q9ZCH8 3-oxoacyl-[acyl-carrier-protein] synthase 2 (Rickettsia prowazekii str. Madrid E) [pid:61.9%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:9.0e-147],MGA_792
sequence25	MetaGeneAnnotator	CDS	16095	16337	.	-	0	ID=MGA_793;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A5I4N3;translation=MSENIEQKIIKTVAETLRVEESSISPESKFVDDLGADSLDLVELMMAFEAAFDCDIPDEEASKIATVADAVSYVQKNIKA;locus_tag=LOCUS_07770;gene=acp;note=A5I4N3 acyl carrier protein (Clostridium botulinum A str. ATCC 3502) [pid:54.5%25%2C q_cov:96.2%25%2C s_cov:96.2%25%2C Eval:3.1e-18],MGA_793
sequence26	MetaGeneAnnotator	CDS	117	842	.	-	0	ID=MGA_794;product=3-oxoacyl-[acyl-carrier-protein] reductase FabG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P50941;translation=MIDLSGNNALVTGASGGIGKAIVKQLHKLGAHVYISGSNIEKLEALGSELGENYTIKQCNLSDADACESLFDDIEKLDILVCNAGITRDTLAIKMSNADFEDVIDVNLKANFILNRAAVKKMMRARYGRIINISSIVGVSGNPGQANYCASKAGLIGMTKSLAIEVATRGVTVNAVAPGFVKSNMTDALTDAQKDAIMQKIPSKTLGQPEDIANAVSFLASPLSSYITGQTIHVNGGMLMV;locus_tag=LOCUS_07780;gene=fabG;EC_number=1.1.1.100;note=P50941 3-oxoacyl-[acyl-carrier-protein] reductase FabG (Rickettsia prowazekii str. Madrid E) [pid:68.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-91],MGA_794
sequence26	MetaGeneAnnotator	CDS	1004	2026	.	-	0	ID=MGA_795;product=protein RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P41079;translation=MTKESALAAALSQIEKNYGKGSVMKLGQRQEMNVEAIPTGSVGLDVALGVGGIPKGRVIEIFGPESSGKTTLTLHAIAEAQKQGGTCAFVDAEHALDPVYAKKLGVNIDDLIISQPDTGEQALEITDTLVRSGAVDLLVVDSVAALVPKAEIDGEMGDSHMGLQARLMSQALRKLTASTSRTNCTIIFINQIRMKIGVMFGSPETTTGGNALKFYASVRMDIRRIGSIKDKDEVIGNQTRVKVVKNKVSPPFRTVEFDIMYGEGISKHGELIDLGVKHDLVEKSGAWFSYGEERIGQGREKAKQYMKDNPEIALELENKLKELLLNNNSGFTEEKTMEEN;locus_tag=LOCUS_07790;gene=recA;note=P41079 protein RecA (Rickettsia prowazekii str. Madrid E) [pid:74.3%25%2C q_cov:97.6%25%2C s_cov:98.5%25%2C Eval:1.8e-142],MGA_795
sequence26	MetaGeneAnnotator	CDS	2116	2325	.	-	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVMHWSDIEEIATGLEEAYAEEEIPEYNLGYLKEMVLSLPEFEDQEVEVSDDNLKQILESWIELRTEE;locus_tag=LOCUS_07800;note=MGA_796
sequence26	MetaGeneAnnotator	CDS	2428	3264	.	+	0	ID=MGA_797;product=nicotinate-nucleotide diphosphorylase (carboxylating);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010920753.1;translation=MQLKCNIIKNLLDSSFKEDFGIKGDITSNSVIDKQENIEFSINSRQAAILCGMQIAKYYLDNYSSIKYTIHKNDSDTINTGDRLISGQGNAREVLLIERIILNYIQHLTGISTLTNKFVKKTSGTKAKILDTRKTTPMLRSLQKYAVTCGGGHNHRLALDSSIMIKDNHIAICGGIEKAIQNAKKHNPHYAKIEIECDTTEQVKSAIEEGVDIILLDNMSIDQINESINIIDGRAEIEASGNVSLETVESIARTGVDYISVGKITHSAPSADIGLDIK;locus_tag=LOCUS_07810;EC_number=2.4.2.19;note=WP_010920753.1 nicotinate-nucleotide diphosphorylase (carboxylating) (Caulobacter crescentus NA1000) [pid:44.3%25%2C q_cov:97.1%25%2C s_cov:96.1%25%2C Eval:1.3e-62],MGA_797
sequence26	MetaGeneAnnotator	CDS	3261	5327	.	+	0	ID=MGA_798;product=DNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCK9;translation=MNNMISKEQAKKEIDSLSEQIKKHNKAYYLDDAPVISDAEYDQLFHRLQKIEEQFPELIPESSPTQTIGATIQDKFTKHEHKQAMLSLGNCFSEDDLTDFIDRIKRFLSIDKFPEIFCEPKIDGVSFSVTYENGKLSTGATRGDGYVGENITQNIKTITNLPHTISDSTDFLEIRGEIFIEKKDFEILNDQQEKEGKPRFANPRNSAAGSLRQLDTSITANRPLKYFVYAIGHSSEVFANSQAELLNKLKKLGFQVNPDGVLANNTNEILKFYNEQMLARDNLAHEIDGIVYKVNDFALQERLGYIARSPRFAIAHKFPAVIAETKLLDITVQVGRTGALTPVAELEPINVGGVQVSRATLHNFQEIERLDIRIGDTVLLHRAGDVIPKVTEVNLGKRPKNTSPYSTPINCPSCDSKLHIDPIDVIVRCDNGLNCPKQLGESIKHFVSKNALNIDGMGAKQVEFFIEKDMIQNPADIFKLEELNSNSLQKIENMPGWGAKSVENLFNNIKQAKQTTLPKFIYALGIRHIGESNAKVLSKQFGTAQIFIDSMIKLEKGDEEIFSNLENLDGIGHKILIDIKNFFECEQNINTARELLDILDIEDFVDNIKSSSLSGQSIVFTGSLSSLSRSEAKAQAEQIGAKVVSSVSNNTDLVVAGEKAGSKLKKAEELGIKVISEEDWQKIIEESK;locus_tag=LOCUS_07820;gene=ligA;EC_number=6.5.1.2;note=Q9ZCK9 DNA ligase (Rickettsia prowazekii str. Madrid E) [pid:56.9%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:2.0e-227],MGA_798
sequence26	MetaGeneAnnotator	CDS	5328	7037	.	+	0	ID=MGA_799;product=Xaa-Pro aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599501.1;translation=MIESRVEVLRENLKKHNYSGYIISTTDEYLSEYTPTYAKRLEYITGFTGSNGLAIILTDTILFFTDGRYINQSLTQLDDHLFEVFDQQLLPDFLWEDYIEQDQKIAYDPKIFSCKSLNYLKKLNLKPHNENLIDQIWENQPTKPNSTIYDYSPEFTGEDYAEKISRTREFIKKHQAESLIITNSDSVCWLLNIRAHDVEFSPLLLAHAIITMDKIYLFTNEDRYKNDHNKDITILPDKEFSNIIDSLKGKILFDKNLCSDYISTIIENKNHKHISNPCIDWKAQKNATEIKYMQKGHIQDAVAVCEILAFIDSEDISNLSEYDIGEKLTKLREKGKSYIMDSFPTICGFQDNGAIIHYRAEKETAKKIDGEGLLLIDSGGQYLGATTDITRTIPIGTPKEKHKEYYTKVLKGHISLGLLKFPEDKVTGANLDILARQFLWQTGKDYAHGTGHGVGSFLSVHEGPHNISLISTKSTIKKGMVMSNEPGYYIPGEFGIRIENMMYAKESKYPGFLEFEMLTLAPYSKDLIIQEMLTEDELSYLKEYYYNIETSVAPHLSDNAKSWFKKQLL;locus_tag=LOCUS_07830;note=WP_004599501.1 Xaa-Pro aminopeptidase (Rickettsia prowazekii str. Madrid E) [pid:48.5%25%2C q_cov:99.8%25%2C s_cov:98.6%25%2C Eval:3.1e-151],MGA_799
sequence26	MetaGeneAnnotator	CDS	7354	7563	.	-	0	ID=MGA_800;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKSKKEILIVDDSKVFRALLSKYFAKQGYKISIAHNGKEALDLINSRLPDYAFEAIISIGRCQLWMA;locus_tag=LOCUS_07840;note=MGA_800
sequence26	MetaGeneAnnotator	CDS	7734	8381	.	-	0	ID=MGA_801;product=toluene ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596492.1;translation=MRAIVSIFLSLIFFVSSVYASNDAEAEDLKKYVEDLIDEGYKLVHDKNLTESQRYRKSSRLIRSHLHLDWMAEYTLGRNRRMISDKKIAEFAKIYSQFVVKVYADLSSNYNGEKAVLKNVKKIDDDMFIVNMEIVRPSGQQPVKIDYLIHKLENGTKNPYRIGDIITEGISILNSQQSEFNSVISSRGIDALITELKQKLEKPEEIKQTKVRHRY;locus_tag=LOCUS_07850;note=WP_004596492.1 toluene ABC transporter substrate-binding protein (Rickettsia prowazekii str. Madrid E) [pid:34.4%25%2C q_cov:86.5%25%2C s_cov:95.0%25%2C Eval:6.7e-31],MGA_801
sequence26	MetaGeneAnnotator	CDS	8486	9274	.	-	0	ID=MGA_802;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE54;translation=MLLRSIISTTILAIICGLASVSRADIASEDKYSYNYAALNNRCQVYDPYESLNRKIFFVNGVLDTFILRPIAKGYGRFTNYYTKQRVGSFVDNISEPLSTVNYGLQGKSNGMFKTFWRFTINSTFGILGLFDVAGKFGLTAEPQTFGNTLGHYGVGSGPYIVLPLIGGTSGRDVMDPLLLNSLLNPIKTMLIPANYQMHRDFKNVVTGVRIVHKREMIMPFTDHVSKNSPDPYVAIRDAIIQQREAKMDYPVGFKCPTVNNQ;locus_tag=LOCUS_07860;note=Q9ZE54 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:48.2%25%2C q_cov:94.7%25%2C s_cov:96.4%25%2C Eval:1.2e-62],MGA_802
sequence26	MetaGeneAnnotator	CDS	9291	10238	.	-	0	ID=MGA_803;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE55;translation=MSIPNFFRQQFKRFTDDIKKLRYKLKNLTESNLDLGVYHLRCRNYNDAIFRFKLVDRFLDPDNKLANYWLGWTYFMKQDYSKSIVCLTKAEEVDGIGLLSFVKSIDSTTFIPSAIQSMHRDIIADIIVDKYVTEEQNLIVELVSEFNNQAKNLPEEYSILELGANIGMLADEMHKRMQESYTLTGVEISDKMIQLQPKCFPNSKPYDDIINAPIDEFLEKEVNLYDVVYSLDGFATNIDLKKIFTSVFSVLNTNGYFAFVVRTDKQNGLSAKLLEFAYNPQYVRDMLEETGFVILSVNDFSLEIKNNYSIFMCTK;locus_tag=LOCUS_07870;note=Q9ZE55 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:36.4%25%2C q_cov:100.0%25%2C s_cov:94.6%25%2C Eval:9.0e-53],MGA_803
sequence26	MetaGeneAnnotator	CDS	10404	11606	.	+	0	ID=MGA_804;product=aspartate aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE56;translation=MSLIATRLQAVKPSPTLAVTAKAKELSAQGINIISLAAGEPDFDTPENIKKAAIEGITNGATKYTIVSGTMELKRAICDKFKRDNQLDYDQSEIIVGTGGKQVIYNLFMATINDGDEVIIPAPYWVSYPDMVLLAGGSPVTVLSDMSTGFRPKPSDIEAAITDKTKWFILNSPSNPSGAAYTESELQALAEVFRKYPHVNIMCDDIYEHITFDGFEFKTLATVAPDLKDRIFIVNGVSKAYSMTGWRIGYGAGNKDIIKAMTVIQSQSTSNPSSVSQVAAVEALNGTQDFINSNAENFCAKRNLVLSLLGNAQELECYKSEGAFYLFPKCSKLFGKKTPNGDTIENSSDLATYLLESANVAVVPGIGFGLEGYFRISYATSEKLLTESCNRIAEAISQLN;locus_tag=LOCUS_07880;gene=aatA;EC_number=2.6.1.1;note=Q9ZE56 aspartate aminotransferase (Rickettsia prowazekii str. Madrid E) [pid:64.4%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:2.8e-145],MGA_804
sequence26	MetaGeneAnnotator	CDS	11606	12268	.	+	0	ID=MGA_805;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE57;translation=MIKKGFKNFLKNSDLIHNLSVNILFLYLKTAYYTSKWEFIWPEDLDKEKLNQLDGALFALWHNRLAFGMHIFRKIDNVYALASPHTDGRLITDVIRKMKFGVIEGSTNRNPTGALKEIISKISSGNNVVITPDGPRGPVYKINSSIARIAKKFDKPLIPLSCTANRYYELKSWDKMIIPKFFSKMTVRFGKPIDLKENEKANNALLEQTLTQLSTPVKPE;locus_tag=LOCUS_07890;note=Q9ZE57 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:42.4%25%2C q_cov:98.6%25%2C s_cov:99.5%25%2C Eval:3.2e-47],MGA_805
sequence26	MetaGeneAnnotator	CDS	12265	13518	.	+	0	ID=MGA_806;product=3-deoxy-D-manno-octulosonic acid transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE58;translation=MIFLYNLANLIFYPIYCLILLFRILKNKDNVKSAIQRLGVIEIKRPKGKLIWMHAASVGESMVAITLTKALNKLYPNVNFLITTGTLSSAKILEKSLPENATHQFVPMDNLIIVKRFLSHWKPDLGIFIESEFWPCLVSESAKKFDTIVVNARLSDKSYSRWMDRKRLFNTIVSHFKLIATQSVTDLKKYKDLGCEKAINLGNLKFANKELDVDENQLKDLKNIFKNKQIFVASSTHAEDEEVTLQIIKDFKKDKVDYYPIIILRHPERRSEISKKCRDLGLSYTLRSENKSPSLQDDLYIVDSFGELGLFYSLSNITFIGGSFKRGGHNLVEPAYFDNIIILGPDMSNFQNIATDMIQGGCAIQITDKEELATKILFFLDRSNKKKSQELIGNARKFVENREETLDNYLKEIKKFL;locus_tag=LOCUS_07900;gene=waaA;EC_number=2.4.99.12;note=Q9ZE58 3-deoxy-D-manno-octulosonic acid transferase (Rickettsia prowazekii str. Madrid E) [pid:43.3%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:3.1e-102],MGA_806
sequence26	MetaGeneAnnotator	CDS	13515	14486	.	+	0	ID=MGA_807;product=tetraacyldisaccharide 4'-kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCL0;translation=MIKLVYPKFWASNGLIPILLTPLSWIYRCLGFFRKITANPIKLDAKVICIGNITVGGTGKTQIVESLAKYYKEQNKSILVITKGYGSSLKTAKLVDKTDIAENVGDESILLSKITQVIATKKIQYALPHIEKIKPEIIIFDDGLQNPNFIKDCKIIVIDNLRGIGNGKIFPAGPLRTKSDIAITECDALITIGDNDCKDFTIIQNATSNNKPIFKAKIKLVSTLKNSEYFAFSAIGNPDKFFSTLVTSGANIKQTKTFPDHHQFTKGEILELKTIAKKNNYTLITTKKDYVKIHDTEKIDCAVVDIVFENKSEFIKLINETLS;locus_tag=LOCUS_07910;gene=lpxK;EC_number=2.7.1.130;note=Q9ZCL0 tetraacyldisaccharide 4'-kinase (Rickettsia prowazekii str. Madrid E) [pid:40.4%25%2C q_cov:99.7%25%2C s_cov:97.5%25%2C Eval:1.8e-59],MGA_807
sequence26	MetaGeneAnnotator	CDS	14533	15336	.	+	0	ID=MGA_808;product=lipid A biosynthesis lauroyl acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598029.1;translation=MDKSANLCSFLARKIGPLIGVTKIARRNLENIYQDNIDIDQTIDDLWDNFGRYIGEFPFINKLSEEELTKRVTFTGLEKIEDLCQNNQPFMLFLGHQANWDIVIRKINNIYPKFGIVYRKANNPLVDKEILSERNNDSNVIMIAKGPSGAKGLVRAIKSKMSIAMLVDQKMNDGIEVPFFGKPAMTAPAIARLALQYNYPIVPCQLIRNGRSSNFEIKIYKPLKIDKTGNTEQDCYNIMKTINQMLEKWIRQHPGQWFWFHNRWKEK;locus_tag=LOCUS_07920;note=WP_004598029.1 lipid A biosynthesis lauroyl acyltransferase (Rickettsia prowazekii str. Madrid E) [pid:52.3%25%2C q_cov:99.6%25%2C s_cov:90.3%25%2C Eval:4.7e-81],MGA_808
sequence26	MetaGeneAnnotator	CDS	15431	16153	.	+	0	ID=MGA_809;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD73;translation=MPEIFFNGPAGRLEGMYAESTNPKAPIALVLHPHPMYGGTMNNKVVYNVYKTLFENDFTVLRINFRGVGRSMGEYDEGVGEMTDAATALDWLQVHYPMSKVNLIAGFSFGAWIAMQLIMRRPEITNFLAVSPPVDKYDFSFLSPCPIPGLIVQGDMDSVVSEESVHELAQRLAKQKNIDVDYRMIPGADHFFREKIDLLNNEIDDYLRLTFNHQESKPKKNKKSDSTTVKAKPAKKIFLE;locus_tag=LOCUS_07930;note=Q9ZD73 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:61.1%25%2C q_cov:92.9%25%2C s_cov:98.3%25%2C Eval:2.4e-78],MGA_809
sequence27	MetaGeneAnnotator	misc_feature	1	556	.	+	.	ID=MGA_810;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q9ZCJ0:phosphatidylglycerophosphatase A,Q9ZCJ0 phosphatidylglycerophosphatase A (Rickettsia prowazekii str. Madrid E) [pid:44.1%25%2C q_cov:96.2%25%2C s_cov:88.1%25%2C Eval:1.8e-44],MGA_810;locus_tag=LOCUS_07940
sequence27	MetaGeneAnnotator	CDS	557	1033	.	+	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003808604.1;translation=MLDQKLIELVKQIKSLTKGRFISTAESCTGGLVSSYLTSISGSSDYFTTGIISYSNAAKMKLLNVSSKTLDEFGAVSEEVAKEMAVGSLKVAGSDIAVSVTGIAGPGGGTKNKPVGMVCFGVTAKDKVTSVTHYFSGTRTEIRQQSCEVCLRLILDIL;locus_tag=LOCUS_07950;note=WP_003808604.1 hypothetical protein (Bordetella parapertussis Bpp5) [pid:51.9%25%2C q_cov:98.1%25%2C s_cov:84.6%25%2C Eval:7.5e-34],MGA_811
sequence27	MetaGeneAnnotator	CDS	1069	3009	.	-	0	ID=MGA_812;product=primosomal protein N';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD10;translation=MQVVRVLIPKISLFPLDYYSSSNHSVGDLIRVPFRNKNITGIIWEVNCLDSGKKLKSICNEDIFSASIKSEVIELIKKAAKYYLSELGTVAKLVLPVDINEPPIKIHKQEIQNNIRLAKLTDSQEKALRAIESNTKPTVIKGVTGSGKTEIYFHAILNQIKSGKQALIMLPEIALSTQIVARFQERFSFEPAIWNSSVTKAKKKRILRGIISGDVKIVIGARSSLFLPYQNLGIIVVDEEHDASYKQNEGILYNARDMAVLRGFIEKCKTLLVSATPSIESLHNVENKKYNIVYLKSRFNDAYLPDVKIIDMKQEDIEMNNWISPTALNAIRQNIEQKQQTLIFLNRRGYAPLMLCRACGYRVNCKSCSASMVLHKRLNKMECHHCGAISKIHTKCPDCDETDSLILCGPGIERIHEEIKKIFPEVNSEMVSKEQSSKPAEMQKLLESMENGKIDILIGTQIVTKGYHFPDLTLVVIVDADLGFVGGDLRASEKTFQLLHQVGGRAGRTGKNGKVLIQTYYPEHKVIEALAEKKEDIFINEELLSRQKSEMPPFSKMAAITITGKNSDKTLQMAKNFVALAPKSDAKIMGPAEAMMLKLSNRYRYKILVLANREFNMQKYLKLWKEYSKIPSSYQVKFDIDPHNFL;locus_tag=LOCUS_07960;gene=priA;EC_number=3.6.4.-;note=Q9ZD10 primosomal protein N' (Rickettsia prowazekii str. Madrid E) [pid:53.8%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.9e-208],MGA_812
sequence27	MetaGeneAnnotator	CDS	3328	4074	.	+	0	ID=MGA_813;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTKQNKTKEDGLSFENNENQVSYFSKIGHELKTPIHGIQGLAEYLINNWDNTNVETQKKCISSILEASQKLIELVSTLSFEKLEQTAIEFNFAQADIVEITKNAVENFKDVYLLDSKISLDLKVSEDSFISDVDEFWYKQLLTNLLVNAYNYSEDGVISIEMRLQKVQQSEYLFISITDQGIGIPESELNSIFTPYSRSSRTNSSTEGTGLGLSICREIVQAHKGNITAVNNEEAGSTVEFSIPKYR;locus_tag=LOCUS_07970;note=WP_011459091.1 hypothetical protein (Desulfitobacterium hafniense Y51) [pid:31.7%25%2C q_cov:89.5%25%2C s_cov:21.4%25%2C Eval:7.7e-27%2C partial hit],MGA_813
sequence27	MetaGeneAnnotator	CDS	4078	4467	.	+	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPVPNKQKVILFIDDEKICHTLVELIIPNFTEYKLVGAFNGKEAIMLAKRYSKELSLVLSDIMLPDINGYEVYDALRKDPRFTNIPFVFQSGLEAQEKELRKNMSEDVKILYKPYKQEELLKIIKETV;locus_tag=LOCUS_07980;note=WP_012256316.1 hybrid sensor histidine kinase/response regulator (Chloroflexus aurantiacus J-10-fl) [pid:33.9%25%2C q_cov:89.1%25%2C s_cov:22.7%25%2C Eval:2.8e-11%2C partial hit],MGA_814
sequence27	Aragorn:1.2.38	tRNA	4556	4640	.	+	.	ID=Aragorn_13;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00130;note=Aragorn_13
sequence27	MetaGeneAnnotator	CDS	4619	5023	.	-	0	ID=MGA_815;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYVKVLIECFEQTNPSVNFCLFSAQGAKLDGSSLFRFGNAKGEAEKILLDSQITDKSIFRPGYINPGKNTNRFSIFEYIFKTLFLILPFIGINDSDLAKCIVEVGLKKNKKQILENSDLRKLTAGLNGTSGRT;locus_tag=LOCUS_07990;note=MGA_815
sequence27	MetaGeneAnnotator	CDS	5292	6212	.	-	0	ID=MGA_816;product=tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDG8;translation=MQYIEQFIETTVAERGIAKNSVVSYKRDLQDFREFLSKHKLSELDTSSSNIEDYIKILATNNIAPRSIHRKISTLKNYYNFLISEGYTKQNPTLIVDLPKYSNKLPNVLPIEDIKILLEYCDQDQTHEGIRLCAMIHLIYASGLRVSELVSLKLIEIISGIKASEVRKTFAVKGKGGKERVVVINDKARHALTKYLKIRENFCKGKSTNAKQYFFASSSKEGHMTRQNFALQLKKASLNCGLDSDIISPHVLRHSFASHLLEGGADLRVIQELLGHSDISTTQIYTHVQTDHLKKTLDQFHPLKKS;locus_tag=LOCUS_08000;gene=xerD;note=Q9ZDG8 tyrosine recombinase XerD (Rickettsia prowazekii str. Madrid E) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:3.0e-98],MGA_816
sequence27	Aragorn:1.2.38	tRNA	6242	6316	.	-	.	ID=Aragorn_14;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00140;note=Aragorn_14
sequence27	MetaGeneAnnotator	CDS	6518	6967	.	+	0	ID=MGA_817;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKESNNRIEKLFKLTCTQIYDSETKRFDLDKAIKITRQVEEMAPTDEELSYVRKSDKSSLLHLAIYAKNAALVAYYVDIGVDQNKKSDVGVKAVKLVEIIGGIYEDIKNAFYAAEEYLISNKVFEEFESDDETIDIQFMGAFERENDS;locus_tag=LOCUS_08010;note=MGA_817
sequence27	MetaGeneAnnotator	CDS	6978	7412	.	-	0	ID=MGA_818;product=putative sugar phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDM8;translation=MQNYDLAIATDHAGVKLKAKIIKFLQKKNLNILDLGSDGDESVDYPDFAYKMTEEIIEETVPKGILICGTGIGMSIAANRSSSIRAALCTSEYMAERARMHNDANILVLGSKLVPDDLSLKMVEKFLETKFEGGRHTRRLAKIN;locus_tag=LOCUS_08020;EC_number=5.3.1.-;note=Q9ZDM8 putative sugar phosphate isomerase (Rickettsia prowazekii str. Madrid E) [pid:54.5%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:1.6e-39],MGA_818
sequence27	MetaGeneAnnotator	CDS	7508	8347	.	+	0	ID=MGA_819;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNCSFFILLVLILTSCQFKKEPAPIVYNHKNSSLSSSAETIPTLSNDGEIISRDMIGEKQSEIIGPMNDDNYVVPAQSPIEQNYKIIYHEVQVGETIEEIALKYEQTVDEIAQLNSLFPPYYLDEFQIIKIKVLKEGIKNNESEPKKHVLKSKGPDFVNPVDGKVLVKFGEKTPYGVNKGVNIAAKEGTKIMAAAGGKVIYADYDATFGYLVIVKVDGQNIVNSYAHMEDLIISKGKTVKQGDIIGYVGNTGKVDKFQLHFGIREGKSAKDPMKFIKF;locus_tag=LOCUS_08030;note=WP_011070463.1 non-catalytic member of peptidase subfamily M23B (Shewanella oneidensis MR-1) [pid:32.7%25%2C q_cov:52.3%25%2C s_cov:38.7%25%2C Eval:1.4e-14%2C partial hit],MGA_819
sequence27	MetaGeneAnnotator	CDS	8416	8889	.	+	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTYKKTKYQNVDNIIGAEKAAKKYCKLVKELRDYLLIGGDQTSEQVEEIKNSISEVKDSLDYYKKKIDSDACDRKIKDGEYLYGNQVDSGKVEELEIVCEMLFQYSSCVNSGKTEESKIIYSVLYQYLSGGYDLVLSRCNDETRLVGDFDQSDDSLE;locus_tag=LOCUS_08040;note=MGA_820
sequence27	MetaGeneAnnotator	CDS	8994	9443	.	+	0	ID=MGA_821;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKTKYQDAQSIRNAEKAASVYFKLVEEFKNYILYKYDGNSNDKLNKMRTEITIAQKKINECKKNIDQDAKDKSLSEYSYGRKIDSGKVEEYDDFLRKLDSSYKKYEVIEVEIYLPESIEEVFSKKYDKKSDLLGDSNMQISVEETPE;locus_tag=LOCUS_08050;note=MGA_821
sequence27	MetaGeneAnnotator	CDS	9479	10351	.	-	0	ID=MGA_822;product=serine/threonine dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597675.1;translation=MDAVQKTGAFKIRGVLNHLLALKEQNKLPKAIVAYSTGNHALAMSYAAKLFEIKARVYLPKNVSPIKKRIADYYGAEVVEVETREEAEEAAKNDGAKDFHYLHPSDDDETIAGAGTMCYEALLEMLQMGLKPDAIFGPCGGGGLLAGSYLAKELLSPKTELHGVEPKLANDAFQSLNSENIFRFKDSPETIADGLRSLSVSKRTLAYLKKLDGFHLADEESIRYWTAWLIQMMKVTCEPSAAISMSAAHSWLKNNSKGKVILILITGGNVDPEFYQELCASDECLEDIPF;locus_tag=LOCUS_08060;EC_number=4.3.1.19;note=WP_004597675.1 serine/threonine dehydratase (Rickettsia prowazekii str. Madrid E) [pid:57.4%25%2C q_cov:97.2%25%2C s_cov:83.8%25%2C Eval:2.1e-90],MGA_822
sequence27	MetaGeneAnnotator	CDS	10610	12955	.	+	0	ID=MGA_823;product=Lon protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD92;translation=MTVQKKTLPLLTLRDVIIFPGTIAPIFIGREKSLNSLLAAKKIDDGQHILITTQKKQDVEDPKASDLFRVGVLAKIIQTVKLPNNNAKILVEATNRVRLTHINGEDMFISDFVIVPDKEVTDLDTLNDTTMAAMESFKEYARNNKKINLEILNILSEQKNPSYITNIIASHLTSKIEVKQGLLEQTDIQKRAEQLTEIITTESTQMDTEQSVQDRVKKQIEKTQRDFYLNEQMKAIQQEMDGGDEKSDFYDLERKIKRLKLSKEAQEKAEGELKKLKMMNQMSAESSVVRNYLDTLLALPWGKRTKTNIDINKTEEILDRDHYGLKKVKERIVEYLSVLKRSRKIKGPILCLIGPPGVGKTSLVKSIAEAMGRKYAKFALGGVRDEAEIRGHRKTYLGSMPGKIINLIKKSKVDNPVMLFDEIDKMSADFRGDPASALLEVLDPEQNSHFVDHYLEVEYDLSDIVFIATANSYDLPAALIDRMEIINIAGYIEEEKLEIAKKHLVTKQLKLHGIKASELKITDETILELIRYYTKESGVRSLEREIGALARKVLTKILKNKDIKSLTINPKDLEEYLGVKKYRFGLAEEEDQIGTTTGLAYTQVGGDLLSIEAASFPGKGGIKATGKLGDVMKESAEAAYSCFLARASDLGLKEKDYKDFDVHLHVPEGATPKDGPSAGIAIYTTLVSLMTKIPVSKHVAMTGEITLRGKVLPIGGLKEKMLAAKRGGIKTVIIPKENVKDLKDIPENIKDNLEVVPVSNIEEVLEHALVKKGKASATKKK;locus_tag=LOCUS_08070;gene=lon;EC_number=3.4.21.53;note=Q9ZD92 Lon protease (Rickettsia prowazekii str. Madrid E) [pid:65.4%25%2C q_cov:98.3%25%2C s_cov:98.5%25%2C Eval:2.6e-292],MGA_823
sequence28	MetaGeneAnnotator	CDS	228	797	.	-	0	ID=MGA_825;product=ribosome hibernation promotion factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P30334;translation=MQVDTSGQHMSVGQSLNGYVDGRLKEVVGKYFSNAPSAHVHFSKQGHEFKCDIVLHEGTGRHVVIKSNNSSDEVYNAFDIALSKLEKQMRKYKSKLNNHHRGVKASELSPDAVKYVISSKGEEEQEFDIDNPAIVAEKPTQVLPLTVGEAVMKMDLENLPALMFENAKTGRVNVVYYRKDGNISWVDSK;locus_tag=LOCUS_08080;gene=hpf;note=P30334 ribosome hibernation promotion factor (Bradyrhizobium diazoefficiens USDA 110) [pid:37.3%25%2C q_cov:98.9%25%2C s_cov:94.1%25%2C Eval:1.6e-32],MGA_825
sequence28	MetaGeneAnnotator	CDS	975	1295	.	-	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYNVIKFQAPFERLKEYDLTPEVRLYKAIITQAIIDVSNTSNTVTSKKIELEAKNWLFGDSSHFKDICNKAELSPQKVIKMARDAIEMNSNKIFYVSHRCQKIA;locus_tag=LOCUS_08090;note=MGA_826
sequence28	MetaGeneAnnotator	CDS	1560	2414	.	+	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSKKTHNKVHNFKIPKQLKKCFANLSDFINIELDKAVKLNKTLQILVGEKHSGIAELIAKTLVAIACTKIGLSNFNLEINQNTFNEKLDKDRFFKFLERIERIFQDTNINLVDEYSEENLNKVFSYPKNKNYKAEEYYKLIGEFHSLRNIKMTKNSDLKLNNVFFIGLEHVKGINEILLNKGCYTVCINVSEIFTIDSLKKFLLKVSEELSTEFGRNILLDQRFAPSTFEYIKNGKCKNLKVDLDKKIVENKYDEFLLDKMFFDNKNEAYSIETIGDNMAHEE;locus_tag=LOCUS_08100;note=MGA_827
sequence28	MetaGeneAnnotator	CDS	2482	2967	.	-	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKERKKFFDNNRLNKGHKKLSNSSQSDANVVRKKYQHVLPPIDMLEHYEELNPGTLDKLLDMAEREQNHRHSIDLMAMEKHNRATTLGRVFSLVFVAFISITALMLVIAGSIFVAAVFAFSAFACITIVSYFYSKNSLSKESSRIKSTKSKPSRNAKKSRG;locus_tag=LOCUS_08110;note=Q9ZD18 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:46.9%25%2C q_cov:59.0%25%2C s_cov:87.3%25%2C Eval:4.5e-21%2C partial hit],MGA_828
sequence28	MetaGeneAnnotator	CDS	2942	3118	.	-	0	ID=MGA_829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFQRFFSGFLSVFRFGSVPIKNNINTDCPEEYIDKVEKDLYLSYERLKDNHEGKKEIF;locus_tag=LOCUS_08120;note=MGA_829
sequence28	MetaGeneAnnotator	CDS	3135	3893	.	-	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNSLIYLFHIKSKYGDELYFTSSSSHIHHDDKVYVPFSGLSVFSGEFNDSSQNKIILHGVFEERGVTSDQDLVGSSIKIIIFEYGKANELVTYICTKQISEGLEFKLVCEPEIIKLNQSLLPVFSKTCRANFCDKDCKLDINNFKTEISVVKIEGNSLFCTDLSKHKNNYFSGGKLFVESNNRQYEYDIKSHYANKIELLHVHNLNIKDISKFYLAPTCDKKIRTCCYSFNNTVNFRGEPDIPEHRIIKN;locus_tag=LOCUS_08130;note=MGA_830
sequence28	MetaGeneAnnotator	CDS	3890	4486	.	-	0	ID=MGA_831;product=glycoside hydrolase family 24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011337517.1;translation=MSDFHNVNLPSYIEIFAVATIEFSTICASTKSGREVRNAISLRPKRTYQLKDCRLSRTQFDIFNSFFYARCGKRYAFRLKDHFDYKVKKQLIGKGDGAIKEFQLVKIYQDSKAPYIREITKPLDKSVSVFTDEDKIVPEEINLKTGKIRLSEALPENTELFVNFEFDVPVRFDKDSFQYSFNQDGTISLDDVRLVEVL;locus_tag=LOCUS_08140;note=WP_011337517.1 glycoside hydrolase family 24 (Rhodobacter sphaeroides 2.4.1) [pid:31.6%25%2C q_cov:98.0%25%2C s_cov:98.1%25%2C Eval:6.6e-19],MGA_831
sequence28	MetaGeneAnnotator	CDS	4479	4892	.	-	0	ID=MGA_832;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSITFISDFQKQIYKILSNNSEISNSVNKIYFGAVQDGKCPFLLISIQKAEEVSLHVNQVYSVEFQISAYAKDHHHNLLISLADHVVGALNSSEILFKDFNVAGMKANKISFEKAKDLVLNKLLINYKALIKRTRDE;locus_tag=LOCUS_08150;note=MGA_832
sequence28	MetaGeneAnnotator	CDS	4902	5234	.	-	0	ID=MGA_833;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQSIVSRFAHKISVLKNTAETELDEVKWEEFAVCFAEVQPVCDNKYISMEGIAFGDVITEEYFHFRTRYIKDITKEMRISFHKRTFEIKRIINHQEKDRMLSIIALEV;locus_tag=LOCUS_08160;note=MGA_833
sequence28	MetaGeneAnnotator	CDS	5254	5775	.	-	0	ID=MGA_834;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKYQILEKESKAILKLKEVKNFLRISHDYDDSLVKELILAATEYAENFIGKFINVRKIQCSVFRSKRRINIKYTPFNKLISAEKIVKDKAEDITDSFDESNLGESYIEINPIYIDQDMIIKFCCGYGEKIPQAIKMGILKHVAAMYELNENSLDPVDEVRNLYLPYRAFKI;locus_tag=LOCUS_08170;note=MGA_834
sequence28	MetaGeneAnnotator	CDS	5837	6898	.	-	0	ID=MGA_835;product=phage capsid protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013383948.1;translation=MQENKINEMASDIKSFISRESKKSEKINKLEERINKMQNYISRPEMMNIDNTEEQSSFCDYIRKGVQDNLITKSLSGDEGEAGVVITPTLSKQIIAMVNQRSVMRQVASVENISTRSLDVIYEDGNFAAGWVAETGARGITDTPKLKKKSIHAHEIYAQPKATQSLIDDSEVNIENWLSERIADSFIKLENEAFVAGDGTNKPNGFLLNAKIEKIDAGSAVNVEMLMKLINSLDEGYIANASFIMNRKTLSLIQGLKDEEGRFIWNQSLANPLQQTIFGIPVVISSHMPDVETDKLAIALGDFKSAYKIVDRTGINLMRDPYTEKPFVKFYAVKRVGGDVVNPSAVKLAKFTE;locus_tag=LOCUS_08180;note=WP_013383948.1 phage capsid protein (Ketogulonicigenium vulgare WSH-001) [pid:33.7%25%2C q_cov:98.6%25%2C s_cov:97.3%25%2C Eval:4.2e-57],MGA_835
sequence28	MetaGeneAnnotator	CDS	6906	7433	.	-	0	ID=MGA_836;product=prohead peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011337911.1;translation=MEKGCFCSDLIIKSSRASNTVISGYASVFGILDSQNDVIVKGAFRSIEIRNVKLLWQHDPNRPIGLIKSLCEDEYGLKFEAEINNKIEVGREASELIKQKAICGLSIGFSINSSSYNEKGMRVIDDVNLAEISVVTFPANKQAEITHVKNKSLSEYENSSTLDELSKLVKKLKEY;locus_tag=LOCUS_08190;note=WP_011337911.1 prohead peptidase (Rhodobacter sphaeroides 2.4.1) [pid:39.6%25%2C q_cov:92.6%25%2C s_cov:90.2%25%2C Eval:9.9e-23],MGA_836
sequence28	MetaGeneAnnotator	CDS	7614	7910	.	+	0	ID=MGA_837;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFFGWLLVIFGLFFIISGIIALFRFPDFYTKLHAASVIECCGGPLCFIGLALLQSELTSSLKLLFIAALVFILNPISTHALGRASLLYKVDENGRIK;locus_tag=LOCUS_08200;note=Q9ZDQ9 UPF0091 protein (Rickettsia prowazekii str. Madrid E) [pid:59.0%25%2C q_cov:79.6%25%2C s_cov:73.6%25%2C Eval:2.3e-21%2C partial hit],MGA_837
sequence28	MetaGeneAnnotator	CDS	7911	8489	.	+	0	ID=MGA_838;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDFFLIPIKSEFYINEILLCISAIIMIITCLKLITSKNLVESIIIMSVFSLFIGICYLFMDAPDVAMTETALGACLSTCVLLNLVKIVGEDVGRTRKSKVIFASILCTTLIICLSWAALDLPEFGAGDSPLQNHLTKYYVENTHKEIAIPSIVAAILASYRGFDTFGETAVILIAGLAVLVITSRRKKTNA;locus_tag=LOCUS_08210;note=WP_004599366.1 cation:proton antiporter (Rickettsia prowazekii str. Madrid E) [pid:50.9%25%2C q_cov:87.0%25%2C s_cov:47.4%25%2C Eval:2.8e-43%2C partial hit],internal stop codon at [8487:8489](+)%2C[8496:8498](+),frameshifted%2C insertion/deletion at around 8561,MGA_838
sequence28	MetaGeneAnnotator	CDS	8482	8898	.	+	0	ID=MGA_839;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKEFNIIKIILPFIVPYIILYAIYIQLNGEVSPGGGFQAGVIFATGIIAYDLVFGQEALKKRFSIKGLTICGILGVFIYAGTGVIALIRGAEFLNYSALLKDDIAGQHLGIFMIEIGVGLTVSSIMCLIYSLLREEQ;locus_tag=LOCUS_08220;note=WP_004599366.1 cation:proton antiporter (Rickettsia prowazekii str. Madrid E) [pid:50.4%25%2C q_cov:98.6%25%2C s_cov:38.8%25%2C Eval:1.3e-32%2C partial hit],internal stop codon at [8487:8489](+)%2C[8496:8498](+),frameshifted%2C insertion/deletion at around 8561,MGA_839
sequence28	MetaGeneAnnotator	CDS	8901	9263	.	+	0	ID=MGA_840;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHNLIYFFAVIVLTSGLFIMLTSDNFIRKIIGLAVFQSSVLIFYIALGKAANGIVPIDLCQSSQGCDYIYSSPLPHVLMLTAIVVGFATMSVGLALIYQIRKEYGTILESEIDNIKEDMD;locus_tag=LOCUS_08230;note=WP_010886256.1 monovalent cation/H+ antiporter subunit C (Rickettsia prowazekii str. Madrid E) [pid:61.9%25%2C q_cov:94.2%25%2C s_cov:74.0%25%2C Eval:1.1e-31%2C partial hit],MGA_840
sequence28	MetaGeneAnnotator	CDS	9263	10723	.	+	0	ID=MGA_841;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886255.1;translation=MISIIKFAPALQIVIPLFAALISALSFHRFFSWIVAVTSTTTCLLLSLYCMQNINGGLTYSFGGWDAPVGIEYKLDYLNQPIIVLLNAILFFFLVFGRELVNKTVTAYIETRKQHLFYALLLFAHVGYLGVICTNDLFNIYVFIEISSLATYVLMSKGKNPRALIGAFDYLILGTIGATLILIGIGFFLAMTGSLNITDVAKILEGNYSSRVVVTAIVFFLSGAILKMAFFPMHFWMVRAYSSASPFILTYLASISSLMGVYIILRFIHFTIDGEVIHEALTSILRPASMATIVICTILALRADTIKKIVIYSTASQIGYIFLLMSIWSARELLFQLLILDAINKISLFTIIAHIQHKTDDLKFASFKSIKNSICFKILVAAALIFSAGLPLTSMFVVKVKMFDLLFSQNLYLEFVIVILGAVFGLLYHLKFTKAIFFSPKSNGTIEINTKLYGLTTIIIFQMVTIIYVKDIANLAGYTESVIIGI;locus_tag=LOCUS_08240;note=WP_010886255.1 cation:proton antiporter (Rickettsia prowazekii str. Madrid E) [pid:45.1%25%2C q_cov:87.0%25%2C s_cov:95.4%25%2C Eval:3.5e-100],MGA_841
sequence28	MetaGeneAnnotator	CDS	10745	12283	.	+	0	ID=MGA_842;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597357.1;translation=MIDFVAPQLLVISTLLIGLVNLITPFATKEDSKIRSTFLLIVSVSFLANVLLLDYLFLSGIQTSFMLLDFGKYNIALHLEPLGMIFLTLLAILWICALLYTIKFLDINEMKNSNRFLFFVNCCVMIGSFIALSANLFTMFIGYEVLTLCTIPLIAHYNNEKVSKGLTKYLKILMLSGLVLFLPAIIIVYSTIGHGNFTSGGFVQGHFSDMHAIILLLLFIFGIAKAAMYPFHSWLPSAMVASYPVSALLHAVVVVKTGLFCIYKILSYVFGLSYLQILFADYNWLVILPIITIVYSSLQAIRFTQVKMVLAYSTINQLSIALLSAFLLTPKGLIAAVMHMISHSFTKICIFYAAGNIYSVKNAYHIGELIGIRRTMPKTSFVMLIAGLSLMGIPPFAGFISKFYIMLAAAEVGNLLVMITLGISTLFSAIYVIKMLIFIYRPTSDNFILHLKLKPYFDEAPNSKASKRVVSGKHTAENRLPIFMILSIALCLTGVIAFLPIQQAITKFLMFI;locus_tag=LOCUS_08250;note=WP_004597357.1 cation:proton antiporter (Rickettsia prowazekii str. Madrid E) [pid:51.6%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:4.5e-146],MGA_842
sequence28	MetaGeneAnnotator	CDS	12300	13940	.	+	0	ID=MGA_843;product=cation:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597355.1;translation=MLYHPTTIILTSVIALIISFQHNRVFNIIALLLPLVSAVIFFNFAENNSLEIVNLTLSFGFSNYDTLISISFFCVLFAANSYAIGQNKKLEVILGSCYGAFAFMSLFAKDFISMFIGLELMMVFSSAIIFIGGNKASLRSSKKYFITHLMSSNMIIIGITYLITKNNELTIVPVTTFLNDPNYSSIMLYIMLIGMLINIAAFPFSGWMVKYYPKASPSGFLYLISFTTKVSVILLAKIFLGLEEMKYVAVIMIVYSSFKAMMEENILSLLCYLSIMAMGLMLLGISVGTEEAILATTCYLFIHIIYKSLLSISAAILVDEGGINNCQDIKKINNKILLLGIVVGILMMINIPLSSSFTVKSALSQLFYNSLTYAAIIFLSFMTVFILPWKKYFRASKSTEITLNIYSKISIIFMTLILIVIAISGKLIPVLNEISGFDKLEIFNFDIFKQLIIILSALFTAYLYMTSRKDTKPINFTEWLGNLFFDVYANWMNIRVQKDENGEPWAFENLEKQTANKLGSIHNQQNAIFIVFTIFIVMLLVLTTSI;locus_tag=LOCUS_08260;note=WP_004597355.1 cation:proton antiporter (Rickettsia prowazekii str. Madrid E) [pid:31.7%25%2C q_cov:89.9%25%2C s_cov:96.9%25%2C Eval:4.1e-60],MGA_843
sequence28	MetaGeneAnnotator	CDS	14027	15376	.	-	0	ID=MGA_844;product=methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599076.1;translation=MMSKDSRFKKDLKQVQEQYLDYPYPLRDPEDEKKRVIRTLEGYLSSINHYLYNGKQNFKKGFRVLIAGGGTGDSTIWLAKQLMDYPKSEIVYIDFSKTSMDIAKKRAENHGINNITWIEDSILNIPSLNLGKFDYFNCSGVLHHLENPDLGIKILYDALKENGGGSIMVYGQYGGTGVYQVQELLRKTGKGIKNRQEEVSSAWDVINSLPKTNWFVRGEELVNDHKIFGDIGLYDLFLHKQDRAYTIPQLYEFVENAGLNITCFHDPYIRAVLNIESYFKDSATKERIKKLPLREQQAICELMAGNIIKHDIYVSKKKNTTANFNDFDNIPFVFNSPNLCKDIINAIEKGGDHMLNRYVEYKYTDAHNREMHTKLAILPHTKSFFTQLEKGNKSFFEIFEAVRKDTGSKSSDQELWNEFMMNLNPLYSIGVILLRHKSIKSFNNFEELL;locus_tag=LOCUS_08270;note=WP_004599076.1 methyltransferase (Rickettsia prowazekii str. Madrid E) [pid:46.5%25%2C q_cov:96.7%25%2C s_cov:97.9%25%2C Eval:2.8e-112],MGA_844
sequence29	MetaGeneAnnotator	CDS	736	1587	.	-	0	ID=MGA_845;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPVMANKKDDIKKLEKELRLEVSSSDWKSIIESSDKLLSIMPDHPIANLEKGKALIELGKYNEALKPLKMVYTFFDTSIRYNYQHEFSGIISAQASYYRAKCLEQLGDLEFAIIKYNSAIIYGYDNPQVHADLERVTKKYNEQLPKDPYSVKIRELEKKLSYASLERLKWKKIVSAADELLALEPQHPMAHLEKAWALMRSKNGYEEAIKSFNKAIKYHHQEKRFKEMIIRESFYHRGQCLRALGRLEEALESFDLAIMHGLDHRYIYNERAEVQMQLGLELD;locus_tag=LOCUS_08280;note=MGA_845
sequence29	MetaGeneAnnotator	CDS	1770	2858	.	+	0	ID=MGA_846;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKPLKEEMAEIIRDTTHNLIVTEESELDNEIYFDRLKYFIGMLEGYRKDVYLNGIPNPRNRAKYISVRHFNSFNKKRQGKMIADCIKDYKREPIVTVGIGANLEIRGILDRFDQILGEPGLMQLVYNGKANLTDEQVAIIFRDCIEERFYRLRNIYKSSWNNLRVNEQITIISLYFNLPALADGRTSFYKHITNYVETGDVRYLKLAVHEVEKRSNPDKTKGIQNRRDVEGALLVSYKSPTYTKPYESPDSVKIKTAELNKTIVPLNNDYPVTGINSDYFIWRTKMDNNVRAEHAKKEGKIYRKDNRPGKLPGEDYNCRCSAEEVPDYIVIKDTATINKAFELYMRTGIRHSILLRTVTAT;locus_tag=LOCUS_08290;note=MGA_846
sequence29	MetaGeneAnnotator	CDS	2832	3965	.	-	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDELMIRFDVPTELADGLKDWYNGYDVLGQLIYNPWSVIKALETFDTYRQVVDMSQIRALVLQNYWQESGNLGFVSPLFKHQNVEGAFRKLSEGGKIEFDLNKQISVSNFMMLREMLGHSSSYEITPYGQDILFSYLFASGYLTPSGKEGYYRAPNKEARDEFTKRLLTHYKATYKIDTAFFRKLTDQIQLVFDAEKDSEYALVMGGIRKTLSTLLEKLPGFVKLDRGKIDPVGSEDVLHANESLIQGIVSHAAMQVLSATQFGTEVYVGDGRTDCLVINDKSKKAIIIELKYEGDSSEAVAQIDKRGYAKPIPEGYNIINIGLNVDYDKTVSVKHKLYSGGAFEIIDLVADAIDTGEVEEVMLSGDNDSSSSDSTQ;locus_tag=LOCUS_08300;note=MGA_847
sequence29	MetaGeneAnnotator	CDS	3984	5258	.	-	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRKVWGLLKNKDVSDKLDYAVKSAWNKFAPVDGIFKFASVFWNLDPKISDRFEIKDSNTESDKYVELAEKRVSDRRHVETYSIKRYWLHSHIETTLTKFPLSFQIRNYHTSSKKWKKEDVIVDSEDGLDTSKEPEKPKAFKFTIGSSDFRELRFGDDYVDKTGFIAAFENSGYKVCVNTFPRRFQKSTNLSTVEHFYDIEVDEAGEPLPFEERKNPVLFTGGESVGIDGASRLLEPLKVSAYPDIMRLQGTIPVISADFQGVSGNSYEKSLTKVKQVIHSAAAKHTYLASSDRVNWDNLKYKFKFQRFIKFLESGDVLEDELPYIMSDLCEFLHAHFGIKPIVLIDEYDTGVNKAYRNLNVNLNEADKIIELHREILGTLLKGNIYLDKALVTGILRIAKANIFSGLNNPGEFSISDKKFAGL;locus_tag=LOCUS_08310;note=WP_011015728.1 hypothetical protein (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:26.6%25%2C q_cov:65.3%25%2C s_cov:41.5%25%2C Eval:6.6e-15%2C partial hit],internal stop codon at [3984:3986](-),MGA_848
sequence29	MetaGeneAnnotator	CDS	5468	6349	.	-	0	ID=MGA_849;product=porphobilinogen deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD77;translation=MKIRIGTRKSKLALIQTEIVISELKKYFSELEYEIVPIVTTGDKITNKNLYDIGGKALFLKELEEKLIEKQIDIAVHSLKDVPGVISDKLEIGAVLEREDPRDCFVSFKYKSINELPEGSIVGSSSVRRKVLIAKQRPDLKLVQFRGNINTRLQKLKDEEVDAAILACAGLIRADLFDLDFCYPLEPEEMLPAAGQGIIALQIRSNNREIQQICEVINHKPTWYLSQAERSYMSYLDASCRTPMSAYAYYVGDEIKANYMLSDIDGKNIRFISKICTVEDVNQVGIDAAKELQ;locus_tag=LOCUS_08320;gene=hemC;EC_number=2.5.1.61;note=Q9ZD77 porphobilinogen deaminase (Rickettsia prowazekii str. Madrid E) [pid:49.1%25%2C q_cov:98.3%25%2C s_cov:96.7%25%2C Eval:3.7e-74],MGA_849
sequence29	MetaGeneAnnotator	CDS	6354	7268	.	-	0	ID=MGA_850;product=putative carboxypeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDC9;translation=MIKFDKKTDKIAFIAPASGCSSKSGKLSIEKSKKRLLATIKLYNDNGFNCIYDESIFLKSKLGYFAAPREKRLEQLKNAILDPEVKIIAAFRGGYGSIEIVFDCLDIEPTTPKTLIGFSDITALHFLFNQKYKLPTIHGAMGIDHMHMIKEVIDVLDGKEMNFNLNAINDLSKSCGKIDGEIVGGNLSLICNMIGTKLHPHLEGKIVFVEDVNEKGYHVHRFLMHMKNAGLFKGVSAMIFADFSNSDEYIQETIQEFSNSHIKDIPAFTTGGIGHGKINYPIAIGSLGTIDKKIFRVVSPFKTA;locus_tag=LOCUS_08330;EC_number=3.4.16.-;note=Q9ZDC9 putative carboxypeptidase (Rickettsia prowazekii str. Madrid E) [pid:34.0%25%2C q_cov:89.5%25%2C s_cov:83.9%25%2C Eval:4.7e-35],MGA_850
sequence29	MetaGeneAnnotator	CDS	7261	9078	.	-	0	ID=MGA_851;product=elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDQ1;translation=MTDKKFIRNFSIVAHIDHGKSTLADRLIEYCGGLQKREMSQQVLDSMDIERERGITIKAQTVRLEYKAKDGNTYQLNLMDTPGHVDFSYEVSRSLAACEGSLLVVDASQGVEAQTLANVYQAIENNHEIVPVLNKIDLPAAEPEMIKQQIEDVIGIDSSDALLVSAKTGIGIEDVLEAIVNRLPAPKNEYIEKEHPDALKALLVDSWYDQYLGVVILVRVFQGSLKKGMKVKMLSTDKVYHIDNVGYFTPKKEMCDSLDEGMVGFITASIKQVSDCKVGDTIIEDSKKKIEMLPGFKPNLPVVFCGLYPSDASEFENLKDSLEKLRLNDASLEFETESSSALGFGFRCGFLGLLHLEIIQERLDREFNLDLITTAPSVIYKINVRGGEQLEVHNPADFPEVQTIDSMLEPWIKATIMVPEEYLGSVLALCTDKRGTQVDMKYVSGRIMLIYRLPLNEIVFDFYDRLKSCTKGYASFDWEMDGYEESNLVKLSILVNSEPVDALSTIVHKSRAEFRGRELCKRLKDLIPRQLFQIAVQAAIGGKIIARENVKAMRKDVLAKCYGGDVSRKRKLLEKQKAGKKRMRNVGNVEIPQSAFIAALKVGDD;locus_tag=LOCUS_08340;gene=lepA;EC_number=3.6.5.n1;note=Q9ZDQ1 elongation factor 4 (Rickettsia prowazekii str. Madrid E) [pid:73.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-263],MGA_851
sequence29	MetaGeneAnnotator	CDS	9434	10366	.	+	0	ID=MGA_852;product=peptide chain release factor 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDQ2;translation=MLEKQLASFDYVNDGLAEAVELAEIAEEENDSEMLKQIEIDLNNISSTSEKLETQCLFSGEADSNNCFLEINAGAGGTESHDWASMMMRMYLRFGERMGFKTEIVNIIAGEEAGIKSCCIKFKGDMPYGWLKTESGVHRLVRISPFNAAGKRMTSFASCWVYPEVDENIDIVIEDKDLRIDTYRASGAGGQHVNTTDSAVRITHIPTNIVVQCQNDRSQHRNKAEAMQMLKARLFELELQKKNEEANIENAKKTDNGWGHQIRSYVLQPYQMVKDLRTNYETSNSSGVLDGDLEKFISSSLADRAGNKDD;locus_tag=LOCUS_08350;gene=prfB;note=Q9ZDQ2 peptide chain release factor 2 (Rickettsia prowazekii str. Madrid E) [pid:69.5%25%2C q_cov:99.0%25%2C s_cov:83.5%25%2C Eval:3.3e-124],frameshifted%2C insertion/deletion at around 9324,MGA_852
sequence29	MetaGeneAnnotator	CDS	10389	11714	.	+	0	ID=MGA_853;product=UDP-N-acetylmuramoylalanine--D-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDC2;translation=MHSLKNKKIGIFGLGITGISIYSDIEHHANEIICWDDSEKNRTNFQNQEILFDLKNERWKSIDTVFISPGVPKNHQIFLLAKQYNILISSDIELFLHHNPHSKIIAVTGTNGKSTTTALIGHILNNCGYDFPIGGNIGMPALSLPKNKTGYVLELSSFQLDLISFFNPTISVLLNITPDHLDRHGTFDEYCKAKMRALRGDGIKIVGIDTEASKEIYNTLTQSGEKNIIAISTSSKKNTISLSNSILHDDFYDANSHKIPELKNLAGKHNKENITAAYAVCRSLGLKPNDIIDQLTSFQGLKHRMQNLGSRNHITYYNDSKATNASSAAGSLASMQNIFWLAGGIFKEESLDPLEKSLSNVKKAYLFGESSLLFSKYLKDKVDFEVFSTMQKAFSKANIDAKKSNEHAYIVLAPACSSFDQFKNFEERGNKFIDLCNEELQ;locus_tag=LOCUS_08360;gene=murD;EC_number=6.3.2.9;note=Q9ZDC2 UDP-N-acetylmuramoylalanine--D-glutamate ligase (Rickettsia prowazekii str. Madrid E) [pid:45.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-105],MGA_853
sequence29	MetaGeneAnnotator	CDS	11698	12831	.	+	0	ID=MGA_854;product=cell division protein FtsW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886287.1;translation=MKNYNKNNIFLRWWRGVDQQTMIALSILIGFSMMLVTTTSSAVAEKIGLTEHHFSSRQMIFLFIASVVVIALSSVEKKWVKRIGIVGFVISIFSLVLVKFYGYEVKGAVRWMRIAGFSYQPSEFVKPCFAVVTGWILSLRYQEDFPSFRVCAVLYLIVAALLITQPDFGMLVLTTAVFAVQLFVGGLPTIWIFVSGIVELFGVISAYILLPHVATRINNFLDPAANENYQVTKSILAFEHGGLYGKGPGEGSIKQHLPDSHTDFIFAVAGEEFGAIICIMLIAVFAFIVLKTLIRLNSEDDKFVQLAAVGIITQFGLQATINMGVTLNLLPTKGMTLPFVSYGGSSTIAISLAIGMLLGLTKRQTSLVKYKANNIDI;locus_tag=LOCUS_08370;note=WP_010886287.1 cell division protein FtsW (Rickettsia prowazekii str. Madrid E) [pid:60.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-133],MGA_854
sequence29	MetaGeneAnnotator	CDS	12838	13923	.	+	0	ID=MGA_855;product=UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDC0;translation=MSNKKTIILAAGGTGGHFFPAIALAEELAKSEHDIHLLTDLRCKKYITKEMPIIPHIANLHIRMSGLFNKIKSAYQLIIECMKAIILFLKIKPSIVIGFGGYPSFPAMLAASFLKVPIIIQEQNCFLGKSNRIFAKHAKYIALSYKETSNISSENKDKIIYTGDIIRESIKNLPEKKSFDSKIFNLFVVGGSQGALVFSKIIPQTIEALKKLKPEIQIKITQQVSDEHKPQILETYNKLGIECKLQSFFHNINDIYSEADLVIARSGASTIAELTSIGLPAIFIPLPHAMEDHQTFNAMALVDNDASWCYAQKDVTPENLAKKLHELITNRHLIKQASQNLIKRKTNGTEYLADTVLKIIE;locus_tag=LOCUS_08380;gene=murG;EC_number=2.4.1.227;note=Q9ZDC0 UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase (Rickettsia prowazekii str. Madrid E) [pid:46.1%25%2C q_cov:97.5%25%2C s_cov:98.2%25%2C Eval:3.3e-86],MGA_855
sequence29	MetaGeneAnnotator	CDS	14075	14677	.	+	0	ID=MGA_856;product=putative lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDB9;translation=MLSACVTGPEGYLKRSANNKLFDTKGFQGGKRAPLYNKKYISQAKKNILTNNLDEDMDEERDDLYEDSNPSQENIEMYRAMIDADIERKRKEKNKSSWWWNRKKKQSYPSVTDANDRIDPRTHAQNLELREELNQIKAMLNDAKREMASHKCPTAQEQEKKASQAVKQDDLPRPTLNQKIPEDLEQKTKEIVTKEHVHSI;locus_tag=LOCUS_08390;note=Q9ZDB9 putative lipoprotein (Rickettsia prowazekii str. Madrid E) [pid:32.0%25%2C q_cov:97.5%25%2C s_cov:89.0%25%2C Eval:2.5e-21],MGA_856
sequence30	MetaGeneAnnotator	CDS	173	2245	.	-	0	ID=MGA_858;product=oligopeptidase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599378.1;translation=MNNKNKNTPPIADKIPFSYKHHGVKLEDEYAWLRADGWPDNVKDKKVLSYLEEENAYYRDYITPLEDRKTEFFEELKGRIKLEDISTYTKRDSYYYYSRTEADKDYPIYCRKAGSTRAKEEILLDVNELAKGKEFTALGAFSVSPDHKLLAYSVDFTGGEKYSIKVYNLETKKFLKDEIDNTIGNVVWHEKQNGFFYSPTTENWRREKVMYHKLGSNNKDDKLIYHEKNPLYLTSASKTSSKEYILINIGGHDSNEVYYIDMNDRTFTPKPLSKRKEKVLVSIDHGDGYFYKSTNDGAKNFHLLRTESKDYSMNKIWDSYIEEEKDKYLSSYDITKDYLLLNYKVKGLSESIVKKLSDNKEKSIKFPDEAYTASLYSTNYKENDIRVNYASLAKPSTVYEYDYDKDKLKTLKVQEIPSGFNPKEYKVERLYVKTDGVQVPVSLFYKKSLFKKDGSNPLYLYGYGSYGISTPPAFRNSAVSLVNRGFVYAIAHIRGGDDLGHDWYEAAKFLTKKRTFNDFLACAEFLVDKKYTSKGNIVVMGGSAGGMLIGNVINQKPELFKAAIAHVPFVDVLNTMLDEDLPLTPGEFKEWGNPKNKEYFDYILSYSPYENVSVQNYPHLFVTAGLSDPRVGYWEAAKWVARLRDRKLDNNKLYLKTNMDFGHMGASGRFDYLKEAAEDLVFITDIFDIK;locus_tag=LOCUS_08400;note=WP_004599378.1 oligopeptidase B (Rickettsia prowazekii str. Madrid E) [pid:55.9%25%2C q_cov:98.8%25%2C s_cov:99.6%25%2C Eval:1.2e-235],MGA_858
sequence30	MetaGeneAnnotator	CDS	2310	2759	.	-	0	ID=MGA_859;product=transcriptional repressor NrdR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8THE3;translation=MKCPFCETKNTSVKDSRETDESRVIRRRRHCSKCNGRFTTFERIQFRELVVIKRTGAKRPFDRTKILKSIATALRKRNFTNEDIEKLSDRIVLELESSTTKEIKSRAIGKLIMQELAKIDPVAYIRFASVYKDFSNAQDFAKFISKIKN;locus_tag=LOCUS_08410;gene=nrdR;note=E8THE3 transcriptional repressor NrdR (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:50.0%25%2C q_cov:99.3%25%2C s_cov:93.1%25%2C Eval:6.0e-40],MGA_859
sequence30	MetaGeneAnnotator	CDS	2763	4031	.	-	0	ID=MGA_860;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O08370;translation=MINQNLSTIDPEISSIVTDENNRQEDCIELIASENFTSRAVMETQGSVLTNKYAEGFPGKRYYCGCEEVDKAENIARERLKELFNCSYANVQPHSGSQANQAVYLALLKPGDTILAMSLDCGGHLTHGAAPNQSGKWFNPVFYGVDKEKNHIDFAEVERLALEHKPKLIIAGFSSYTQELDFKKFREIADKVGAYLMADIAHISGIIAAGEHPSPFPHAHVATSTTHKTLRGPRGGIILSDDPEIGKLMNKAVFPGLQGGPLMHVIAAKAVAFKEALSDDYKKYIKQVLKNAKILGKTLQDRGYDILTNGTVNHIVVIDLRKHSITGKLASESLDRAGITSNKNTVPYDDTSPFITSGVRLGTPACTTRGFAEEEFVITGNLIADVLDGLKKSEENSKIEEEVRIKVRNLTSKFPIYQKHNL;locus_tag=LOCUS_08420;gene=glyA;EC_number=2.1.2.1;note=O08370 serine hydroxymethyltransferase (Rickettsia prowazekii str. Madrid E) [pid:68.8%25%2C q_cov:98.8%25%2C s_cov:99.3%25%2C Eval:8.7e-169],MGA_860
sequence30	MetaGeneAnnotator	CDS	4045	4677	.	-	0	ID=MGA_861;product=putative hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05958;translation=MYNNYPEIKALNDKPTKLMVFLHGVGSDGNDLISLVPYIQKSLKEYHFVSPHGIESYDMAPFGRQWFSLQDRTPQTIIKLAQDNAPKVQEQIALKQKELGIDNENTVLFGFSQGTMMGVYLTLTQETPFKAMIGFSGRLIPPLSLKNTSTPICIVHGMDDDIVEASQSVELAEYCKENNIEHKLLLIPNLTHSIDGEGMEFALKFLNKLK;locus_tag=LOCUS_08430;EC_number=3.1.-.-;note=O05958 putative hydrolase (Rickettsia prowazekii str. Madrid E) [pid:51.9%25%2C q_cov:98.1%25%2C s_cov:95.8%25%2C Eval:3.0e-60],MGA_861
sequence30	MetaGeneAnnotator	CDS	4670	5305	.	-	0	ID=MGA_862;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05956;translation=MNSKTINQIFQIFSNNNPTPKTELEFTNNFTLSVAVILSAQATDISVNKATKNFFPSYDTPEKILSLGEDGLKKYIKTIGLYNSKAKNVIALCEILIDKYNSNIPSEFDELIKLPGIGRKTANVILNCAFGKPTMAVDTHVHRVSNRIGFSSGNTPEKVERDLLKKIPNKWLNHGHHWLILHGRYTCKARKPLCSECQITEYCKYYRENNV;locus_tag=LOCUS_08440;gene=nth;EC_number=4.2.99.18;note=O05956 endonuclease III (Rickettsia prowazekii str. Madrid E) [pid:67.0%25%2C q_cov:97.6%25%2C s_cov:97.2%25%2C Eval:6.5e-79],MGA_862
sequence30	MetaGeneAnnotator	CDS	5410	5787	.	+	0	ID=MGA_863;product=glutaredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q3J271;translation=MSENKIFEQIKEQVSNNEIVLFMKGTADFPQCGFSAMVVGILQTMGLKFKDINVLEDNDIRQGIKDYSDWPTIPQLYIGGEFIGGCDIVRELYESGELNNILKVAHDAPANNIDQSQHQRVEVEN;locus_tag=LOCUS_08450;note=Q3J271 glutaredoxin (Rhodobacter sphaeroides 2.4.1) [pid:58.5%25%2C q_cov:82.4%25%2C s_cov:87.6%25%2C Eval:1.0e-32],MGA_863
sequence30	MetaGeneAnnotator	CDS	5808	6740	.	+	0	ID=MGA_864;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010918077.1;translation=MSQDAILIENLTKKYEERRADSSFLALNDLNLKIPQGSIFGLLGPNGAGKSTLINILAGTVVMTKGQVSIMGTDIVEYPKKAKSLIGIVPQEVVYDTFFPIEQALEFTAGYYGVPKGERKTAEILKALGLWDKKKSFPQQLSGGMKRRFLIAKAMVHSPKVLVLDEPTAGVDIELRNQLWEYVVELNKGGMTIIITTHYLAEAQELCDEIAFINKGRIIKQDTKANLLSDLGTRHIDIEFNNDVVRDNLKISSEFEYEIIADNKVRFQLNSEENNYTNLLKQISSTDVDIKDIRVSQPDLEKIFHEIMRD;locus_tag=LOCUS_08460;note=WP_010918077.1 ABC transporter ATP-binding protein (Caulobacter crescentus CB15) [pid:49.3%25%2C q_cov:96.8%25%2C s_cov:89.2%25%2C Eval:3.9e-77],MGA_864
sequence30	MetaGeneAnnotator	CDS	6746	7561	.	+	0	ID=MGA_865;product=aminomethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597696.1;translation=MIELLENRSVIKIYGPDAEKFLQGQTTNDIIKNQYSYNFILNNQGRYLFDFFVFRENNEIFYIDIHNDSADKFLKRLAMYKLRSALDLENVSSDFSVLYSKKQVENTLFSLQDPRSSKLGFRSIIKQDNIDQSKSYPKNLYLADKYDMAIIDGDVDLEYEKSIPIEYGADNFNAIDYKKGCYIGQEVISRAKYQGVIRKKIYKLNFGTEIALISKGAVITDLDGNKIGIVCSCYEKIAIAQLREEKYLGLDKKIAIIDHHSADISVPGWRS;locus_tag=LOCUS_08470;note=WP_004597696.1 aminomethyltransferase (Rickettsia prowazekii str. Madrid E) [pid:45.6%25%2C q_cov:91.1%25%2C s_cov:91.9%25%2C Eval:2.1e-57],MGA_865
sequence30	MetaGeneAnnotator	CDS	7616	8884	.	+	0	ID=MGA_866;product=transcriptional regulatory protein FlbD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P17899;translation=MRLLIIGDINSEIKTAIDIAKSKNAKVVMVESCDQGVDFLCQGKGADLVLVDVQFDIKSLTKAMKNEKISTPVIAYGVQCSPKEAVLAIKSGAKEFLPLPPDERLIAAIFAALSDDTVKVIGDSEPLKNALAVADKIAASDANVLITGQSGTGKEVFSNYIHSKSKRKDQQFVSVNCAAIPENLLESELFGHEKGAFTGAVSRRIGKFEESSGGTLLLDEISEMDIRLQAKLLRAIQEKEIDRVGGNTPVKVDLRIIATSNRDLQKEIENGNFREDLFFRLNIINIELPALSERKDDIEILSQHFIDKYIKNNGLSAKTLSSEALEKMTSYSWPGNVRELENVLHRAVLMSDGDSIKADDVHIVEREETNTENINQQTGSAAEKQMVFNTLGYCLGDMSKAANILGVSIDILREKLEKFTQK;locus_tag=LOCUS_08480;gene=flbD;note=P17899 transcriptional regulatory protein FlbD (Caulobacter crescentus CB15) [pid:50.9%25%2C q_cov:99.5%25%2C s_cov:96.3%25%2C Eval:3.2e-123],MGA_866
sequence30	MetaGeneAnnotator	CDS	8908	9492	.	+	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSELSKYGYFSDNGLIFCIIYFSVYLIFFAIMKTKKFGKNFQYLTKIALVFYIIAGFIYLPMTFATYETGSWQILLGMYAIYFSIFGTTVFITLIISFIRSVIFGRKNRSVLFSLAYTIPGLPLILLYIYIDDFGRGKTLANTLAEPFFAGVITSVIYLLDYKFNFSVRLRAIMILVCILAACLIGVFIPSLPE;locus_tag=LOCUS_08490;note=MGA_867
sequence30	MetaGeneAnnotator	CDS	9513	9668	.	-	0	ID=MGA_868;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEKLPNPIPIKLPPILKNIFLFIVKIEYMLFLANHFFVIVIKNAWKYAIN;locus_tag=LOCUS_08500;note=MGA_868
sequence30	MetaGeneAnnotator	CDS	9756	9926	.	-	0	ID=MGA_869;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNKKKQKTVIDELFPVYASSNLSFFGDSLVHSDPLKDAQTENVDPMPGLVDNPK;locus_tag=LOCUS_08510;note=MGA_869
sequence30	MetaGeneAnnotator	CDS	10116	10364	.	-	0	ID=MGA_870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MANDVAITPVAHAFIRYDVIGKGAKVNAKLAGLRTLTEKAKLQRTFYNIGAGINAAYGAGLRNFCRCKLCREICRSSRYIKS;locus_tag=LOCUS_08520;note=MGA_870
sequence30	MetaGeneAnnotator	CDS	10737	11957	.	-	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVIYPEIIICAGIDKEEIRQFEYTNSDIRKLAKIIKLENDFANSPNISHHLKKKSSVNGKKLKFSDVTNDETVILSEFESGKAKFHATLCMLKIRENLYHSNSMLIASAAVEAGATACNIKPDLVMLNIGRNLMVKSLSIQSSLLQKSKEDNPYESMYVVLLLNNLALINCKMCNVTLALELYKQAWFLSNNFFISIENIPFMKNIKEILDKHVEGFTSNKNSACKYIADRGVDKEDDITILIKASIQKLIIDYCDKYVKSGKWDNTMLSYGLGSYLTPKYIAKVLSKSLEMVSDKTVEKAQMLCFQQICVVTNTSKNTICLDKFVDTYPTLALKILKTHPEYCIDGWLFSRVSKKLSENSYELEDVPTLVTTIDILLNKSDDMPEESKNSSDKDVETIGEIFT;locus_tag=LOCUS_08530;note=MGA_871
sequence30	MetaGeneAnnotator	CDS	12060	12785	.	-	0	ID=MGA_872;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLIEFLKGLKFGKFLLVFFIYSGIGAAIAAFILDHYWNSNQTPVPIMIHSDLSGVAPKKIKFDGSNSTDPDGDELKFSWCINGVEISSNPQFEYIFRNIGNYNITLNVEDSAGHLAKKSVFVNIGPPKIASSIKEALTHFEYKVGWNSSIRSEVKYYPIDVIKFVNKHTVMLYDFNGISEIHAILLEHNRKIFGIWKDSENIGELSMTFNKDYSEAKGWWSYDNETEKYTIKLKRLNASD;locus_tag=LOCUS_08540;note=MGA_872
sequence30	MetaGeneAnnotator	CDS	12977	13942	.	+	0	ID=MGA_873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKKSFTDIVFQDKNYTPFQKAVAEAVAENEVSNSSDLAFKLSAAPTTKSGYSFGGNQLDLGIKINKKGKKVINVHAAATFLDIMKNAVDQNGNKIVTQSFLDEIATVNDKGVLIGGVITNIGNARDLTPQQEDIINKEFTSDYGKQKITQDYMGEITKRIKKVSKQIDSKIKSPGKPDRYRIKSSEMRAKLKREQYLILLVDYDNQFYFSSKGNMMKFLQKSEANSKFSPKDIEKFVLENTTYGKKEPEDIKRRYGNAAKALKKFNVQISGMESDIADEMADIMMDKLKEKQKKCIAPKKAIPPISFKNHSKTRKSGQGR;locus_tag=LOCUS_08550;note=MGA_873
sequence30	MetaGeneAnnotator	CDS	14184	14303	.	+	0	ID=MGA_874;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEARNYTITNFMDLQIEEEFKDLIGETIHTNLDDAGLF;locus_tag=LOCUS_08560;note=MGA_874
sequence31	MetaGeneAnnotator	CDS	651	1796	.	-	0	ID=MGA_875;product=chaperone protein DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDY0;translation=MSKKDYYDVLGISRSASPQEIKKAYLKLAKKYHPDKNSDDPDAEKKFKELSEAYDILKDDQKKAAYDRFGHGAFENGGAGAGGFGGFGGQSGFAGADMNDIFGDFFSDFMGGGQRGRTRSPQVRGSDLKYNLEISLEDAFKGLDKKINFTTEVKCTDCDGYGTKDKGSTNTCPQCGGAGAVRMQQGFFAVEQTCSKCNGSGTVIKNPCNTCNGHGRHSKQKHLMVNVPAGIENNTRIRIAGEGEAGIRGGSSGDLYVFISVKPHDIYQVDGADLHFKLPLSFTKATLGGEVSVPLIDGSKVKLKIPAGTETGDRVRLKEKGMSKVRSSARGDLYAHAYIHTPKKLSKKQRELLEALDKELGEVDTNYKDEGFFSRMKNMWS;locus_tag=LOCUS_08570;gene=dnaJ;note=Q9ZDY0 chaperone protein DnaJ (Rickettsia prowazekii str. Madrid E) [pid:56.1%25%2C q_cov:99.2%25%2C s_cov:99.5%25%2C Eval:2.4e-122],MGA_875
sequence31	MetaGeneAnnotator	CDS	1872	3809	.	-	0	ID=MGA_876;product=chaperone protein DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDX9;translation=MGKVIGIDLGTTNSCVAVMDGKEPKVLANAEGERTTASMVAFTEGDERLVGQPAKRQAVTNPNNTLFAIKRLIGRNFEDPTVKKDKEMVPYKIVKSDNGDAWVEVEDKKYSPSQISAYVLQKMKETAENFLGETVTQAVITVPAYFNDAQRQATKDAGKIAGLEVKRIINEPTAAALAYGLDKIENKTIAVYDLGGGTFDVSVLEIGDGVFEVKATNGDTFLGGEDFDMKILNYLIEEFKKETSVDLKNDPLALQRLKEAAEKAKKELSTTQQTDINLPYITADASGPKHMNIKLTRSKLESLVEDLIDRSMEPCKKALKDAGIKPTEVDEVILVGGMTRMPKVIEKVKEFFGREPHKGVNPDEVVALGAAIQGGVLQGDVKDVLLLDVTPLSLGIETLGGVFTRLIDRNTTIPAKKSQVFSTAEDNQHAVTIRVFQGERELAAHNKILGQFNLEGIPPSPRGMPQIEVTFDIDVNGIVHVSATDKASGKEQKVTIQASGGLKDDEIEEMIQDAEKNSADDKKRKESIETKNKADALIYSTEKNLKDNSDKISESDKKNVEEAISELKKAMENEDDIEQINAKTESLAAASMKIGEAMYGATADAEAAASAASGPEQQQASGGSAEAASDAKVVDGEFKDVSDSK;locus_tag=LOCUS_08580;gene=dnaK;note=Q9ZDX9 chaperone protein DnaK (Rickettsia prowazekii str. Madrid E) [pid:72.7%25%2C q_cov:99.4%25%2C s_cov:99.5%25%2C Eval:8.9e-267],MGA_876
sequence31	MetaGeneAnnotator	CDS	3931	5382	.	+	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKILKVFAAIVLFIDLNAVAKDKIENIEKVRKAIVTINSRVPVSAYQNTGSWSGTGFIVDGKDGYLVTNNHVVGRASVGTYFITFHNGKQAEAKVAYYDMYADFAILKINPADFPEEIESINFTDEMPKLGTDVFIVGNTEGLGFSFHSGYLSDLYEINGDMPQGSYVINMNSAGGASGSPVLNSENKAIGVLYGGGKTHSIALKGSYVQHVLGELKSNKLTPTRNHIGVITTLYSLDKAVKHRGFSKNEMEKYIKEFPDSRNRVIVVHSVLPGGTAKSILKPGDILWKIDGKKIAADLTIFDLGMNNAKSNKVSLTIIRDGKKIDKEVKLYDIEKNKVTTMLDFAGGLFFEADDFVSSKSGVPIGSVALANVQTGSSFSSIPEMFVQDYKSVYRLCIKSLNGSTINNLSELISATNKAIADKYINIEYRNFQPYYPTFAPDRGFISAHRNLMEDITFDSIDTKPRIIKFDRQKSEWVSEGI;locus_tag=LOCUS_08590;note=WP_010886228.1 protease (Rickettsia prowazekii str. Madrid E) [pid:58.3%25%2C q_cov:60.5%25%2C s_cov:93.3%25%2C Eval:1.1e-93%2C partial hit],MGA_877
sequence31	MetaGeneAnnotator	CDS	5833	6255	.	+	0	ID=MGA_878;product=nucleoside diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RSC6;translation=MSIEYTFSIIKPDATERNLTGKINSYLEAADLKIVAQKMVHLSEEQAKEFYAEHSERPFFGSLISYMTSAPVVLQVLKGENAVLKNREVMGATNPEEADNGTIRKDFAQNIEANSIHGSDSLESAKREIEFFFNESEIVA;locus_tag=LOCUS_08600;gene=ndk;EC_number=2.7.4.6;note=Q2RSC6 nucleoside diphosphate kinase (Rhodospirillum rubrum ATCC 11170) [pid:66.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-46],MGA_878
sequence31	MetaGeneAnnotator	CDS	6277	8130	.	+	0	ID=MGA_879;product=tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE90;translation=MKKEFSVIVIGGGHAGCEAAAAAARTGADTLLITLKPENLGEMSCNPAIGGVAKGILVKEIDALDGLMARVIDKAGIHYKMLNESKGPAVWGPRAQADRTLYRAAMYEEITNYPNLSVLYDSVEDIEIIDEKVDSVITKNQNKITCKKVILTTGTFLDGVIHIGKKTIPAGRAGEDPSIGLSNTLKKLDFALGRLKTGTPPRIDGNTIDYSKVETQPGDKIPRPFSEMTENVEVKQINCFITRTTPETHKIIRDNLDQSAMYSGQIEGVGPRYCPSIEDKIVRFSSKENHQIFLEPEGLDDSTIYPNGISTSLPEDIQEKWLKTIPGLENAKILQPGYAIEYDYVDPRELKNTLETKKINGLYFAGQINGTTGYEEAGAQGLISGINAALACKSSKEFILTRSDSYIGVMIDDLITLGTSEPYRMFTSRSEYRLSLRADNADIRLTSKGIEAGVIGNKRKKEFLAKIDNISNAKDRLSEKKITTSELAKFGISVSQDGSKKSAYKLLGLPNFGINKTAEIFPEILEISPGILNYLQIESKYSAYLKRQNQDIKLFNDEEKCEIPSKVDYSLVKSLSLEMQEKLSYHRPATIGAARRIPGVTPAALTAIIVHIKTNSL;locus_tag=LOCUS_08610;gene=mnmG;note=Q9ZE90 tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG (Rickettsia prowazekii str. Madrid E) [pid:66.9%25%2C q_cov:99.0%25%2C s_cov:98.4%25%2C Eval:5.4e-237],MGA_879
sequence31	MetaGeneAnnotator	CDS	8147	8734	.	+	0	ID=MGA_880;product=ribosomal RNA small subunit methyltransferase G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE89;translation=MDKIRDFVSREAFKQIVEFEKLLLKWNKTINLISAKTSEDIMNRHILDSLQLLPLIDLDAKIIDLGSGAGFPAIILSIAGIEDITLIESDSRKTAFLLQASKLSNNNIRVINDRIENIDNLQCDIVTSRAFAELDSIFEYSSKINIRNKFLLHKGAGYKNEILKAQKHWLFNKTVHDSITSETGKILEITDLTRK;locus_tag=LOCUS_08620;gene=rsmG;EC_number=2.1.1.170;note=Q9ZE89 ribosomal RNA small subunit methyltransferase G (Rickettsia prowazekii str. Madrid E) [pid:48.9%25%2C q_cov:95.9%25%2C s_cov:97.9%25%2C Eval:1.8e-45],MGA_880
sequence31	MetaGeneAnnotator	CDS	8735	9532	.	+	0	ID=MGA_881;product=chromosome partitioning protein ParA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596591.1;translation=MTAKIISIVNQKGGVGKTTTAVNLSTIFAVMEKRVLLIDLDSQGNSSSGLGIKQEDRKITSYHVMCDLDSASNAIIETEIPKLSVITANTNLAAIELDLINKDNHETVLKIKLSSIAEQFDYIIIDCPPSLNILTLNALVASNEVIIPMLCDFYSLEGLSHLLKTIEIVEKKLNPIIKVGGILLTMYDKRNRLTEQVERDVRNCLGKLVYNTIIPRNIKVSEAPSHGKSVIIYDHNCSGSRAYINLAKEIVKREKVGNKKLTASA;locus_tag=LOCUS_08630;note=WP_004596591.1 chromosome partitioning protein ParA (Rickettsia prowazekii str. Madrid E) [pid:67.6%25%2C q_cov:94.3%25%2C s_cov:98.0%25%2C Eval:4.9e-91],MGA_881
sequence31	MetaGeneAnnotator	CDS	9551	10414	.	+	0	ID=MGA_882;product=putative chromosome-partitioning protein ParB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE87;translation=MKNKALGRGLSSLLKEEVVPIEVTESTNQVDIDLIYANSDQPRKYFDDEKIQELADSISTHGLLQPIIVKKDTSGKYKIVAGERRYRASKIAQLKEIPVIIKDFDEKEVFEVALIENIQRDELTAIEEAQGYQKLVNEYGYTQNEIASVIGKSRSHIANLLRLNQLPESVKNMINDGSLSMGHARCLVGLDNAEEIAKKIIANDLSVRKTEELVSADKNVHDPRKPKKLKRSEPKYQEQDEDLIMLSDSLSEKFGVKVIVENSNNGGRISIYYSNLEELDSILTKFD;locus_tag=LOCUS_08640;gene=parB;note=Q9ZE87 putative chromosome-partitioning protein ParB (Rickettsia prowazekii str. Madrid E) [pid:52.4%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:4.7e-74],MGA_882
sequence31	MetaGeneAnnotator	CDS	10423	11073	.	+	0	ID=MGA_883;product=putative transaldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A6UDM7;translation=MEIFLDSVDFNEITKYQSYGIIDGVTTNPSLMASADVDFHEVASKICSLVDSDVSIEVPSNDYENMIKEGEKILKIAENIVIKLPVTWDGIKACKYFTDRGHKTNMTLCFSANQALLAAKAGATYISPFIGRLDDIGSDGMQLIADIRDIYDNYEFETKILAASIRTAEHVSESAICGADVATIPGKLLSQLINHDLTDKGLAKFNADWVKSGMKI;locus_tag=LOCUS_08650;gene=tal;EC_number=2.2.1.2;note=A6UDM7 putative transaldolase (Sinorhizobium medicae WSM419) [pid:57.4%25%2C q_cov:100.0%25%2C s_cov:99.5%25%2C Eval:7.7e-67],MGA_883
sequence31	MetaGeneAnnotator	CDS	11114	12781	.	+	0	ID=MGA_884;product=energy-dependent translational throttle protein EttA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599721.1;translation=MSYQYVYVMKGLTKSINGKEILKETWLSFLPGAKIGIIGHNGAGKSTIMKIMAGLDKEYEGEAFVADGVKIGYLPQEPQLDPNKNVFENIMDGLAEKKALIDEFNEVSAKFAEEMTDDEMNDLLAKQADLQEKIDACDGWSIEREIEIAMNALRCPPKDADVTKISGGEKRRVALCKLLLEKPDMILLDEPTNHLDAESVSWLENYLKDYKGTVVAITHDRYFLDNVAEWILEIDHGRCVPWHSNYSSWLEQKQKKLADEEKEESDRQKQLKHELEWIQQSPKARQSKSKARINAYQELLNKKRDVGNGVAQIIVPNGPRLGDLVIEVDKLSKKFTDRDLLKDFSFRVPPGAIVGIVGPNGAGKSTLFNMITGKVKPDSGSVNIGDTVKLGYVDQSRDHLDDGKTVWEEISEGLEVLELGDTSVKSRAYCSAFNFKGPQQQKKVGQLSGGERNRVHLAKLLKEGANVILLDEPSNDLDVDTLRALEDAILDFAGCVFVISHDRWFLDRIATHIIAYDQDGSATWFEGNYEDYNNYMINVVGEDTKNPKYRHKKLA;locus_tag=LOCUS_08660;note=WP_004599721.1 energy-dependent translational throttle protein EttA (Rickettsia prowazekii str. Madrid E) [pid:76.4%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.7e-255],MGA_884
sequence32	MetaGeneAnnotator	CDS	192	965	.	+	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDLNIVTKILLMSCNEIVLVPVIIGGFLAIDRKIFGHATILLMFIMILNSFLKSIFQVPLAAHLNIEGYAFPSGHMSSAITFYGWLILNIKNNFIRFALAVLIAGIGFSLIHKGYHNIYDIAGSIFFCSILLAIYTWLSKTKQASDKPFLLGYLMIGFSAGIMWYFNKHNDIPNHVWMASMVLTGFTLSWTFFANSIKSNPSVLSAIVGFLCIIGIYYLSMQIKVMINIPYDFQWAIVGILIPVTAKLTSGISLKR;locus_tag=LOCUS_08670;note=WP_010963925.1 phosphatase (Clostridium acetobutylicum ATCC 824) [pid:28.2%25%2C q_cov:51.8%25%2C s_cov:49.0%25%2C Eval:3.1e-10%2C partial hit],MGA_886
sequence32	MetaGeneAnnotator	CDS	970	1296	.	+	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNYLEYIMEILAPHGEMTSKPMFGGHGIYKNGIIVAFIAYDELYFKVDESNKSQYEDFDSEPFIFESKGKKTSMSYWKVPMEILENEDQIGVWLDQSYEISLKTKR;locus_tag=LOCUS_08680;note=MGA_887
sequence32	MetaGeneAnnotator	CDS	1312	3117	.	+	0	ID=MGA_888;product=ATP-dependent DNA helicase RecQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010970631.1;translation=MQDKRSPLQILQTIYGYQNFRSQQEEIVNHIIEGKNAFVLMPTGSGKSLCYQIPSLCMDGIGIIISPLIALMHDQVSALNQLGIKAVAINSGLSYSEVYKAQTMIREGAVDLVYVAPERVLMDEFLDLLSEVKISLFAIDEAHCVSQWGHDFRPHYTELSVLADKFPNVTRVALTATADAPTRRDIVERLCIDDGKVFVSGFDRPNINYTILEKDNGKKQLLNFIKENHQGENGVIYCLSRKNTEDITQFLLENGYNALTYNAGMSSDKRALNQNRFLREENIIMVATIAFGMGIDKPDIRFVVHMSIPKNIEAYYQETGRAGRDGLPSNALMLYSIGDAALLRNFIETSNAPTNQKRIEHHKLNALLGFCEATCCRRQILLQYFDDHCKPCNNCDTCLTNPETFDGTTAALKAISCVYRSNQRFGVNYLIDILLGVETDRIINFGHDNISTFGIGNEYSRKEWQSIYRQLIAQNLLMVDVVGHGSIKITPDGFKFLKEKNTLNLRKYSKKITAKKATQKKTIQSITNKDDQNLFAALKNKRTELAKTQNVPPYIIFHDKTLIEFAIQKPLDTETMSTITGVGQKKMELYGEEFLNVIKSF;locus_tag=LOCUS_08690;gene=recQ;note=WP_010970631.1 ATP-dependent DNA helicase RecQ (Agrobacterium fabrum str. C58) [pid:52.7%25%2C q_cov:98.5%25%2C s_cov:98.2%25%2C Eval:5.5e-186],MGA_888
sequence32	MetaGeneAnnotator	CDS	3172	3990	.	-	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKKYLVLNNHSNLLVNKWTIEFVRNLCKENKNLKVLFEGIPSGVSFLKQSEDVFGFYSKLCNSLRYDKLTRKQEKFVKEYFDIEQLENMPFTLMLIGISEFADNTGIDIIDSLLEEEPKVDSIEDFVEGYIYSNPTKKRDDFMREEVEKYNGDCVVIIGGNHIIHWLESDLLESKSDYFVVVPTVDKKIIPLKEVINCFNKAYGKKIKYDSKLDKEVNEKTDKKLGEASKNGFNIDYYLGLNEFKYDMECFSENDDIKEILGGLEINQSDG;locus_tag=LOCUS_08700;note=MGA_889
sequence32	Aragorn:1.2.38	tRNA	4175	4251	.	-	.	ID=Aragorn_15;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00150;note=Aragorn_15
sequence32	MetaGeneAnnotator	CDS	4392	6794	.	-	0	ID=MGA_890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRKKQTAYGKNVFENSGSASKEQVSKELVSKKRQVKKKPSVSGVSFLPRIVIEPVTIEDLKEYIESQNQNYKADLTLNAFITHLRGDKKCYLITDLSNLNVGKSKAKQPFNLKNANFIGSIFNNTKFINCDLEGAKFCGMHLEDVTFKDSNLSSADFRGTDLSSCEFSENYRDSVWSSQVGLRFNSTSSCIRIFADIKNNQAKKNEQQRLFHNKKLELYEVRNRTPLISRVALFFNLTDGYHEYRRVQSEYRKMQRGIFHNDHMIHTSFQNIFHPESFTFEPVMLEGEDFYSNNNKKLVALNRRDIIEFLKRGEKSKKLSLNAFAKEIYIKSLPKDASIDKDIKIIADISSRVNVYGNNEWNRINLSGLDFSGTDISEANFAGTNLSKCIFKNTNISYSNFESAFMDSSIFDKTIANNSRFYNADLSNSNFKNSNFTKARFDWSSINSANLENVNLDYVRAVNSNWRKTRLSKCNINNADFCHSDFRLSSCTKIVAKHSLFNKSNFNKSHFVDCCFSSSLFNFVKSLHTIWDNTKAESIEARYANFTGCKISEKCHFENSDFSHSILDGIKAPRANFANARMDYVKIGYGKFAEGRFDNVSMRFADLDSCVFSESKCKKLDFTGGNMFNVRMIKSDMSGSVWNGSEVRDSNFSGADFSGANWKNTNIKDTILEGVNNHRIQINDNTEIIDCQFKDLTGQFYHYDEDNFMDIMFIEQLELNMKNIQNSDRLMRWGMFAFILRMLNSEYRIPSKEVKRLHNYRMRNKKELRKCLRKLKLEEYHGINVHEFISINSIASQEA;locus_tag=LOCUS_08710;note=WP_010886324.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:22.7%25%2C q_cov:42.4%25%2C s_cov:52.9%25%2C Eval:1.4e-14%2C partial hit],MGA_890
sequence32	MetaGeneAnnotator	CDS	6798	10097	.	-	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKLSSPKEIAESLEVKIQRHKLNSSDMAEFVKYVQEQKELDPSVKVSLKDYVQEKFYSGKKNIVVVPDFSGVTVGETISYDAEALKDAFELDRSAGMSEPDQQNEPDFLKNMKEVIDAKREENLDLSGVDFTGCRMEGARFESCDLTGVDARDADLSGVVLHDCVAKEMDFRGSNISGLEFSEIDLGEVLYDNYVAIKPISESALLEYKNDNVYVDMHFSTAESMLHRYRDENERLEIEAEERFNEKQEEVLEQKSEELAAAEKRVSDAYDKVSYWQLARGGSEYDQYTEINRIEAPKIEKLKAEISELAEQEFGDEERKQIKYVVHPSVIGNLLMVSDSVRNKYDPAYRRGSSQEKGQDKTQYIRLSREDAESYLEACESNPDLSINEFAKGLMQSKGIEAVAGAKVVADFSVHIDESQENPLYAGVVTDLSGLDFSKRDLRGACFVGANLQDCKFNNAKLDQATLEGADASRADFTGVSAKDTNLQATKIQSAVIENADFSRAYMPHARVHDLERDEVSGDIGTPEKLRVAKSKFDFADLSNANLDGARIEDSTFDYAELSGVSLANADIQRCKMRHANLERAILNNCKIIETDLSGSILRQAESKKATFKETILENVDARSMDLSESEIDELCKLSGAKLEKAIMRKVKADRVNFVGANMKQANLQYAQLKGAIVEGVDMQFSNLEGAVAEGIKASGADMTGANLTDISARGAEFKEAQLEGIKAHRAELSEAVLEGANLRGAKMHKAILEKVNLKKADLRNAEMERANLKKANVEEAQINDGTDLHHAEAEEISGSFEHEAEDGSRTKMKPEVKIEQDNRAYDAKKRTFLGKFVAKVAGVVGGLAKKVGAFIKQPLSAKWGRIIGAVIGVAIAATIIATTVLTAGLSIPVMAAVAGGTVLACGGAGVVAGHFAAKHSGLSTFIGAVAGFAFGGPVGAGLGAAAMGAANSASKQTFGTTADRFAGEGMENLGEHGVKYAENVREGEKFAQAQKRSNEAYTAPKKSSVSQEEEIDRTGESLDREVVKARSKKADLSKAPSQTRPNRKKSSSKSKTHDQLEREARDVGKSLGDKRSSEVSGERAVMNNKKPIGRERS;locus_tag=LOCUS_08720;note=WP_011056556.1 hypothetical protein (Thermosynechococcus elongatus BP-1) [pid:30.0%25%2C q_cov:33.4%25%2C s_cov:88.0%25%2C Eval:3.3e-33%2C partial hit],MGA_891
sequence32	MetaGeneAnnotator	CDS	10259	10507	.	-	0	ID=MGA_892;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDV4;translation=MSMVKHREQENVQVQDDEDKKDIFSDLKYICNSTSLIVESLQRGLDVAQLPSGDIIVTEVKTVNTQYSWDKLKQRMVKISQN;locus_tag=LOCUS_08730;note=Q9ZDV4 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:43.2%25%2C q_cov:90.2%25%2C s_cov:77.8%25%2C Eval:7.4e-12],MGA_892
sequence32	MetaGeneAnnotator	CDS	10691	12478	.	+	0	ID=MGA_893;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886237.1;translation=MDKNFVNQAPCYSDKSLKIILKQCISFLFKRQKIKLLSLVLIIIFVGLIPSIDSIFLQQLTDSIESYSDEDLENINLISIIFKWVIIYGAWWESQNAILRLYDYAYLKIMPKIKAQVIDEIYNYIQFHSHDYFQKNLAGDIANRITEASRSLEMIFAYMNEKIIRKLAIITFALITLFTVHTSVALIFLTWVSVFISISLYFSKTINRYSTIYGKDKALVAGKIVDSVSNISVIRMFSSQRHEHQYIKQFLEQSVISDQNMQWFMLKLRYILGISCSVMICSMIYYIILLRGNLEITIGQCVLIITLCLTVVSDIWDLTQEFGDLFEQIGSFTQSLTLLEKQTIVDKKNAKKLTINNPKIEFKNVTLFYKNNDNIFNNKSITIDAYQRVGLVGFSGSGKTTFACMIARLYEIESGQILIDNQNIQDVTQESLRNNISVIPQEPILFHRSIRENIRYGKLSATDSEVYEAAKSTHIHEFIMNLPDGYDTICGERGNNLSGGQRQRIIIARAFLKQAPILILDEATSSLDSHTEHLIQQSLQQLMLDKTVLVIAHRLSTLLNMDRILVFDKGHVVEDGPHSVLQKDGALYKLLWNTV;locus_tag=LOCUS_08740;note=WP_010886237.1 ABC transporter ATP-binding protein (Rickettsia prowazekii str. Madrid E) [pid:58.7%25%2C q_cov:91.3%25%2C s_cov:98.7%25%2C Eval:2.9e-187],MGA_893
sequence33	Aragorn:1.2.38	tRNA	223	299	.	+	.	ID=Aragorn_16;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_16
sequence33	MetaGeneAnnotator	CDS	528	1253	.	+	0	ID=MGA_895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011337106.1;translation=MKQTPVNVICMKWGTKYTSKDVNVLHSMVKRHLTIPHRFVCLTDDKSGISEEVECFDMPKIDVPEAKDVSPWRKLGMFSEEIGDLSGKALFLDLDIVIVENIDCFFTFSNKFTIIENWTQKGRGIGNSSVYCYTIGAHSDVIQYYRDHVEEVTNKYSNEQIYLSRKIGDIDYWPASWCKSFKRHCIPPYIIRYFKTPVKPKDVKIVVFHGNPKPEDAIKGGFFGNIWKYIRPTPWIEDNWR;locus_tag=LOCUS_08750;note=WP_011337106.1 hypothetical protein (Rhodobacter sphaeroides 2.4.1) [pid:32.4%25%2C q_cov:97.1%25%2C s_cov:98.1%25%2C Eval:9.1e-38],MGA_895
sequence33	MetaGeneAnnotator	CDS	1250	2101	.	-	0	ID=MGA_896;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011338925.1;translation=MQNHLFIFGYGYTANTLAKNLNPDKWSITGTSRSKAKDEYCKILGYNKLEIEAAFKKTTHMLISIPPNNIGDIVFQEFKDLIEDCKNIKWIGYLSSTAVYGNHNGNWVDETTSINPSSQRGQNRKLAEDQWLNFGRENNISINIFRLSGIYGPNRNALSQIKSGRARSIYKKDQVFSRIHVSDIARVIEVAMNNVPLNEIFNLSDNHPCSPIEVNNYAASLLKTPNPEIINFEEADLSEMAKEFYNDNRRVSNKKIKEKLGINLKFPTYKEGLDKLFACEYNN;locus_tag=LOCUS_08760;note=WP_011338925.1 NAD(P)-dependent oxidoreductase (Rhodobacter sphaeroides 2.4.1) [pid:41.4%25%2C q_cov:96.8%25%2C s_cov:97.8%25%2C Eval:3.7e-55],MGA_896
sequence33	MetaGeneAnnotator	CDS	2171	3766	.	+	0	ID=MGA_897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRLLAMLFVIVTISSCTNYYEGKVSDHFDGSRFFDPEVQNKKSFGAFLKWQITRKSVPWPNRIELSEYDVPPVRVLGDDLRVSNVGHVTFLIQTQGVNILTDPVWSDRASPFSFAGPKRVIDPGIKFEDLPPIDVVWISHNHYDHLDVPTIKKLWKEHKPRIITPLGNDSIIHSHNKKIKVEAYDWGDEVSISDNVKLHLTPMQHWSARGLFDRNKALWSALTIETKGGNIYFIGDSGYGEGRYFKRDKEKFGEFRLALLPMGAYEPRWFMKYAHMNPDDMLKAYNDLGQPHTIPCHYDIFKLTDEGRGEAKIALRKAMQEQKTGDKVKLLEVGKVFEVPKLEDGKEEKMTLSYNDVIKFWFEEIDPKQRWVKDPKFDALIAQRFGDLYEKAARGELASWRKNAKGALAEVIILDQFSRNIFRDTPNAFATDVLALEAAKQAIANGFDKEIDESYLSFLYMPFMHSESKEVHEIAVELFNKPGMEGSYDYELKHKAIIDRFGRYPHRNDILGRESTPEEIEFLKEDGSSF;locus_tag=LOCUS_08770;note=WP_011083311.1 membrane protein (Bradyrhizobium diazoefficiens USDA 110) [pid:49.5%25%2C q_cov:60.3%25%2C s_cov:98.2%25%2C Eval:4.1e-89%2C partial hit],MGA_897
sequence33	MetaGeneAnnotator	CDS	3891	4109	.	+	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVTKIKEDILNNNQDKDLTIRLSDAVVSGDIDKAGKLIAEGADVNGWCEYLDKNMLFSLFFSCINLKSVDC;locus_tag=LOCUS_08780;note=MGA_898
sequence33	MetaGeneAnnotator	CDS	4168	4431	.	+	0	ID=MGA_899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKHASIECVRIIVSKGKFDFSGRDEELIVAHNQVKAKMQFEKQAKWDLDRMELAISKHNTDILEGIISAKILRPMLEFYAGGYKI;locus_tag=LOCUS_08790;note=MGA_899
sequence33	MetaGeneAnnotator	CDS	4580	5329	.	-	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNKKLTEQEKLEDAIKSSNIEEVIKIVDNNIELCTQGNLYLAFDKNNEQIALEIIKNNKSLCTQEFLFGAMAQGFKKIFCHIVEHNHELCTLSNFLSAIPQSNDLATAKIFETSGAVKDKITSAHLELALSFECSNTAKMIRNYLETKEVQKNTKISTTSPQVIEEKSSVKIENDSKKEVIKPDSKLDPKLSNTEEYIPESNENLSSGDKILNLGVKLIQELELTSDVDTNDDTKEVLGGSTPEEGE;locus_tag=LOCUS_08800;note=MGA_900
sequence33	MetaGeneAnnotator	CDS	5510	5677	.	-	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRMSAQNLAKSNDDIVVVFITKNTDKLSIVVSVSKPVSEKYNAEKIAKNLRIHR;locus_tag=LOCUS_08810;note=MGA_901
sequence33	MetaGeneAnnotator	CDS	5779	5958	.	+	0	ID=MGA_902;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNWHQVNCIVKDPDAYLVLKVEENGQEIEKKYEIPGDVMLLIGEFTSLDDVRLDAQILE;locus_tag=LOCUS_08820;note=MGA_902
sequence33	MetaGeneAnnotator	CDS	6005	6922	.	-	0	ID=MGA_903;product=putative membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05976;translation=MHEGLLSWGIFGTIIITLLILDLGVFNKKDHVISLRESLIMSIFYILIACAFGIFVFYELGTQHGKEYFTGFILEKAMSLDNIFVISIIFKFFNIPPKFQHRVLFWGILGVIVLRAIMIGAGASLVANFEWVLFIFAIVLIYTGIKTFYISKEKPMNVKDMFIYKFLSKRMNVTHEFHGNKFFVKKDNKLFATPLFMALATVEAMDVVFAIDSIPAIFAITQDTYIVYTSNIFAILGLRALFFLLADIVERFRYIKYSLALILILIGIKIFVVHFVHIPTYIPLVLTIGLLIAGGVASVLIKEKR;locus_tag=LOCUS_08830;note=O05976 putative membrane protein (Rickettsia prowazekii str. Madrid E) [pid:53.9%25%2C q_cov:97.4%25%2C s_cov:99.7%25%2C Eval:6.5e-93],MGA_903
sequence33	MetaGeneAnnotator	CDS	7200	7547	.	+	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTIRLIKAAANNNLHLAFQYLRVGDDINFQEGLYGQTPLHCALQSGHNNMVQLLLNFGANPNIQNYKGYTPVDIYHGVHLQHMDELFLTRQEDESELLGSNYYNYLNDNYGSDYS;locus_tag=LOCUS_08840;note=MGA_904
sequence33	MetaGeneAnnotator	CDS	7602	7727	.	-	0	ID=MGA_905;product=50S ribosomal protein L36;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD87;translation=MKIVKSLKSLKARDKNCRIVKRKGRVLVINKMNKRFKAKQA;locus_tag=LOCUS_08850;gene=rpmJ;note=Q9ZD87 50S ribosomal protein L36 (Rickettsia prowazekii str. Madrid E) [pid:72.5%25%2C q_cov:97.6%25%2C s_cov:97.6%25%2C Eval:1.1e-10],MGA_905
sequence33	MetaGeneAnnotator	CDS	7966	8661	.	+	0	ID=MGA_906;product=phosphatidylserine decarboxylase proenzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDT4;translation=MKPYSDLAKMIHKEGYIFITIFAVVTFVLGSFSTTLAWIGGICTVWCAYFFRNPERVTPVSDDLIISAADGVVQKIVEVTPPAELELGDAPMIRVSVFLNVFNVHINRIPASGKILALKYHPGKFFNASLDKASIHNERQSVLMETKSGTKIGFVQIAGLVARRIVCDLEEDQEVLAGQRYGLIRFGSRADIYLPLKTALMVTEGQTCIGGETVIADMKKKVTEQPKFERR;locus_tag=LOCUS_08860;gene=psd;EC_number=4.1.1.65;note=Q9ZDT4 phosphatidylserine decarboxylase proenzyme (Rickettsia prowazekii str. Madrid E) [pid:70.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-93],MGA_906
sequence33	MetaGeneAnnotator	CDS	8718	9494	.	+	0	ID=MGA_907;product=CDP-diacylglycerol--serine O-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886243.1;translation=MIKKFKGKKLIIKPVPFTKLLPNVVTLVGLIIGVSSIRFALESAWEKSVYCILIATIIDGLDGRVARMLNATSHFGAELDSLCDFINFGLCPALLLYLWSFQQYEYKVISWASIMLFVVCMAIRLARFNTAIVETDKDKKQNDTRFFTGVPAPSGAILALIPMILDFELTTMISEFSVRNHTLLINLYIVIIALLLASRFPTISLKNIQIKPEYLSLSMIISAMIIIVAVIYPWYSLPVAAIIYILSIPLCIYYARKF;locus_tag=LOCUS_08870;note=WP_010886243.1 CDP-diacylglycerol--serine O-phosphatidyltransferase (Rickettsia prowazekii str. Madrid E) [pid:62.7%25%2C q_cov:85.3%25%2C s_cov:96.9%25%2C Eval:2.0e-78],MGA_907
sequence33	MetaGeneAnnotator	CDS	9506	10579	.	+	0	ID=MGA_908;product=hemolysin D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596056.1;translation=MSSMLEKISSHKHAKLIAVISVIFLLFVTYKVYVWANTQSTDNAYIEADISSVSSEVGGVIDRVLVKENNFVKEGQIIAQINAADYKAKYEQAEASLDEAVRNIEMIDQNIKLAIIEENKAVEAHEFAEENFKIEEVNYKRITELNKDNFASKKNLHSTKIAYEKAKNDLSQAVLGLQASKENVKLLEIKKLAAIAKSNTALQERNLAKRALDNTNIRSPIDGIIGNSSIRDGNFIRPAVVLFSVVPIDKLYVKANFKETQISKFRPGMVATIEIDSESGTKIEGVIRNVSPATGAKFSLLPPENATGNFTKIVQRVPVIIDFTVPDDIKDKIVPGMSTLTSVRVDQKIDENSNSKE;locus_tag=LOCUS_08880;note=WP_004596056.1 hemolysin D (Rickettsia prowazekii str. Madrid E) [pid:42.5%25%2C q_cov:97.2%25%2C s_cov:99.4%25%2C Eval:1.7e-74],MGA_908
sequence33	MetaGeneAnnotator	CDS	10937	12199	.	-	0	ID=MGA_909;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946347.1;translation=MSNISFRKALFLWSLASIFFAFQFILRLSAGILREEITQKFAIDAASFGTLAGYYYLGYSGAQIPLGIMLDRLSFRFVTSLAIATAAIGTFTFVATDSWNILLFGRFLIGVGSGVAFLSVAKIIKSCFEEKYHSPMLGFSFSFGLVGAVFGATPMKYLFDKFGYDTVFNMLAVTGFAISAVILFLGKLDKNEKTSTAKDTFNSVLKLILNPKIILIGISGGLMVGSLEGFADVWAIPFFNQSFGLSKTDSTTITSFVYVGMCFGGPVLTIAASLLRSTNLMIFLTGILTITIFVVLFYIPGYYFNFALSAALMFFLGILCCYQVLVFIVTSESVDQNSTGLAIAVINCINMSFGHFFHTIIGSAFELSWDGALTENGSPLYTHENFIYALAVIPICAFIGQFGFALLATKKPKQTEYIAD;locus_tag=LOCUS_08890;note=WP_010946347.1 MFS transporter (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:38.0%25%2C q_cov:95.7%25%2C s_cov:92.0%25%2C Eval:6.0e-77],MGA_909
sequence33	MetaGeneAnnotator	CDS	12389	12565	.	-	0	ID=MGA_910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGPRNDILGRTIPADFFNQFQVLMLEVVNFDVTNLRQAPVEADAGVALAGAEPMDAEI;locus_tag=LOCUS_08900;note=MGA_910
sequence34	MetaGeneAnnotator	CDS	261	440	.	+	0	ID=MGA_911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGQPEKERGKNPLKALARYRNTPKGIIFGKYMIHQSTGTIKLGQKIEVLKKSPSTLQTT;locus_tag=LOCUS_08910;note=MGA_911
sequence34	MetaGeneAnnotator	CDS	561	902	.	-	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARKKHVILKAKLRVAYIIAEAYSFFSHNNPNSSANEENVVNPPRNPEIKKHLTLYETVQCIVIISVNRPITKHPRTLTNKIGRGMPQSIFGNSFAMAIRDIAPNAPPRPIKI;locus_tag=LOCUS_08920;note=MGA_912
sequence34	MetaGeneAnnotator	CDS	950	1417	.	-	0	ID=MGA_913;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNNVMSKNNSNINLLVGALVTVVASGVSGGPAAGALVMSSAVYGAVIGGIIGLLIGYQLFDATDIPKEICALVGSIIGTVLGIVSAKSQEGNEEIDNTDYVKGIDCTRKSVQNHLPNAGKCVLGDLGACAKTLEGYDEIVACMGDSNNNDTIA;locus_tag=LOCUS_08930;note=MGA_913
sequence34	MetaGeneAnnotator	CDS	1944	2216	.	-	0	ID=MGA_914;product=DNA-binding protein HU-beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005382341.1;translation=MNKGNFVSYIADKHNCTKAEAERVVDMFTSSVIGALGEGNDVSLVGFGSYSVSEVASRPGRNPRTGDPIQIKAYKQPRFKVGQKLKDACN;locus_tag=LOCUS_08940;note=WP_005382341.1 DNA-binding protein HU-beta (Vibrio parahaemolyticus RIMD 2210633) [pid:51.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-18],MGA_914
sequence34	MetaGeneAnnotator	CDS	2354	2770	.	-	0	ID=MGA_915;product=ribosome association toxin RatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDZ7;translation=MPYEASLINDIIMDIEKYPEFLPWCRKARIIEKNDDFLTAELFVEFKGFTESYVSKVITSSENNNYYIEVVAISGPFELLKNVWSIKQLDNGAKVDFSIDFAFKSRILDMVIGMVFSVATEKMIGAFEDRADKLSKIV;locus_tag=LOCUS_08950;gene=ratA;note=Q9ZDZ7 ribosome association toxin RatA (Rickettsia prowazekii str. Madrid E) [pid:46.7%25%2C q_cov:98.6%25%2C s_cov:93.8%25%2C Eval:5.9e-30],MGA_915
sequence34	MetaGeneAnnotator	CDS	2799	3704	.	-	0	ID=MGA_916;product=lipoyl synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05959;translation=MKESETLKRPDWIRVKAPISKGYQGTKKLIDDLKLNTVCEEAACPNIGECWEKKHATVMILGSVCTRACAFCNVKTGLPDLLDPHEPERLAAGVGKLGLEHVVITSVDRDDLPDGGAEHFANCIKAIRDTAPNTTIEILTPDFLKKDGALEIVVEAKPDVFNHNIETVPSLYKTIRPGARYFHSLNLLHNVKKLDPTIFTKSGIMVGLGETNEEVVQVMDDFRAADVDFMTIGQYLQPTKKHAVVDRYVTPEEFKYLERVARTKGFLMVSSSPLTRSSYHAGDDFRKMQQARNKQLSNNIN;locus_tag=LOCUS_08960;gene=lipA;EC_number=2.8.1.8;note=O05959 lipoyl synthase (Rickettsia prowazekii str. Madrid E) [pid:75.3%25%2C q_cov:96.7%25%2C s_cov:98.0%25%2C Eval:7.2e-129],MGA_916
sequence34	MetaGeneAnnotator	CDS	3701	4783	.	-	0	ID=MGA_917;product=DNA replication and repair protein RecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEB6;translation=MKPVYLEQLSMENYRNFSEWSIEFDKGINIIVGPNGSGKTNILESISYLSPGKGLKSAHFDEVRKHEEQKWSTHLKLKSKLGVAEIISSYTQNDRSRKMLYNGSKISGSELSNLLNVIWLTPQMEGLFLGSSSARRKFLDRIVYSFNPNHAKNIAKYDHYMRERNKSLANGDLNSQDSWLGTLEEKMAQEALKIANAREEAISLMQDAIDSLKTEFPKADLSITSLFESEEQWDSFEISYMQVLKDDRQKDFYSGRTSFGVHKADLNVFHKEKAQQARLCSTGEQKALLISIVLASIESVIQNTQTTPILLLDELFVHLDDSRKKYLSSYIMQSKLQTFITTNDIIGIEDLASKAHIIKL;locus_tag=LOCUS_08970;gene=recF;note=Q9ZEB6 DNA replication and repair protein RecF (Rickettsia prowazekii str. Madrid E) [pid:47.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-87],MGA_917
sequence34	MetaGeneAnnotator	CDS	4780	5658	.	-	0	ID=MGA_918;product=hemolysin C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05961;translation=MPKASDKEGPTGSGKSKIKSLMGLKTFLKYYLFKRGKDKEQLPTEASEPSPTSLIHDSEDEIVNNIDNFSEKAVEDVMVPRSDIISVSHDATLEELSDLIVKHSHTRTLIYKERLDNIIGFIHIKDLFEVIAHSKKFILKKLIRKHIISPHSMKLIDLLAQMQVNRTHIAVVVDEYGGTDGIVTIEDIMEEIVGRIDDEHDIDEDVDSYKILRPGLLVASARVEIEELENVIGVTLKSEHDEFDTIGGLVMAKVGNVPEKGDVIDLDDDVIVEIIESTPRTIKQMKITYIAR;locus_tag=LOCUS_08980;gene=tlyC;note=O05961 hemolysin C (Rickettsia prowazekii str. Madrid E) [pid:53.9%25%2C q_cov:78.4%25%2C s_cov:75.9%25%2C Eval:2.4e-65],MGA_918
sequence34	MetaGeneAnnotator	CDS	5680	6177	.	-	0	ID=MGA_919;product=endoribonuclease YbeY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05960;translation=MNIKVEIASELDDWNLFKEINIALISDITKNIINRYKNLKIVKEIELSVLLTDDKKMLSLNSEFRGVEKPTNVLSFQDLEINWRHLLEFKPDADYMYLGDIAFGYETIKKEAKEKQISFEDHFKHLLVHAILHLIGYDHIEDEEAQIMEALEIEILSNYNIKSPY;locus_tag=LOCUS_08990;gene=ybeY;EC_number=3.1.-.-;note=O05960 endoribonuclease YbeY (Rickettsia prowazekii str. Madrid E) [pid:52.4%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:2.6e-43],MGA_919
sequence34	MetaGeneAnnotator	CDS	6306	7400	.	+	0	ID=MGA_920;product=flagellar biosynthesis protein FlhB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390448.1;translation=MAEGDDQDKDAKTEDPTRKKLEDAVKKGQVVNSKEVTSFAMFLLLTIVTIWIIPYSLTKLGNKLRFFVENAGNIPMDQGMLYILIPNIIESALIYLSPLFLIVIIAAFASSYFQHGEFIFSGESLIPKLSKISLIKGFGRIFSMKSFVEFLKGIFKIGLVGTFVLLVILADVKELSQYQELSTDGILDQLFTMIKDIIILVTIIMAVIAAIDFSYQSYEHFKELKMTKQEVKDEHKQTEGNPEVKQKLRKLRREQSQKRIKVTVPQATVVITNPEHYAVALKYDPKSIEAPICVAKGLDLIAQNIKTIAKEHDIPIVESPPLARALYKDVDYDQEIPVEHFEEVAKIISYVMSLEQKAKDAKMK;locus_tag=LOCUS_09000;gene=flhB;note=WP_011390448.1 flagellar biosynthesis protein FlhB (Rhodospirillum rubrum ATCC 11170) [pid:40.4%25%2C q_cov:97.3%25%2C s_cov:99.2%25%2C Eval:6.2e-72],MGA_920
sequence34	MetaGeneAnnotator	CDS	7413	8048	.	+	0	ID=MGA_921;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8RFL5;translation=MIKISPSILSADFANLEKEIKDLENAGADMIHIDVMDGHFVPNLTFGPPVIQAIRKHTKLPFDVHLMIESPEKYVKDYAEAGADIITVHPEATTHLDRTINEIKKYGAKAGISLLPTTSVGPLEYTIDNIDLILVMTVNPGFGGQNFINNQLMKIEMIANIIQETNIILAVDGGINDKTAKLCIDAGADMLISGSYIFKGNYKKQIGLLKN;locus_tag=LOCUS_09010;EC_number=5.1.3.1;note=Q8RFL5 ribulose-phosphate 3-epimerase (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:58.4%25%2C q_cov:99.1%25%2C s_cov:96.3%25%2C Eval:5.7e-67],MGA_921
sequence34	MetaGeneAnnotator	CDS	8067	8738	.	+	0	ID=MGA_922;product=D-alanyl-D-alanine dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q47749;translation=MNTDTQITATANDSEKKLTTLPEGFVYLSQVCPTIIQDLKYASNDNFTGTIVNGYNKNSVILTKEASKALRQVQEELEAENQGLLIWDAYRPTRASDYFLEWEQQPDNLQIKERFYPHLTKEELFKNGFIAPGHSTHSRGSTVDLTIIDKASGQALDMGTDFDFFGENTYTNNENISQEAQNNRKYFVNLMDKYGFENYHKEWWHFTLRNEPFPDTYFNFPVE;locus_tag=LOCUS_09020;gene=vanXB;EC_number=3.4.13.22;note=Q47749 D-alanyl-D-alanine dipeptidase (Enterococcus faecalis V583) [pid:42.6%25%2C q_cov:90.6%25%2C s_cov:99.5%25%2C Eval:4.7e-46],MGA_922
sequence34	MetaGeneAnnotator	CDS	8879	9154	.	+	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNLKIFFVLTTLIFLVSIKAVVAKDFESESDIENKQKNKVIKISNIDHIVLTVKSINSTITFYKALGMEEITFGNNRKALKFGKQKINLH;locus_tag=LOCUS_09030;note=WP_014208236.1 virulence protein (Acinetobacter pittii PHEA-2) [pid:66.7%25%2C q_cov:54.9%25%2C s_cov:39.8%25%2C Eval:2.2e-11%2C partial hit],internal stop codon at [9152:9154](+),MGA_923
sequence34	MetaGeneAnnotator	CDS	9431	10396	.	-	0	ID=MGA_924;product=peptidase M23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389350.1;translation=MHMRVVSSFFIILLFSFSAAAIELVFPLDCDLGKDCWISNLPRHYLRNKQVDFRCGPNTYDGHKGTDFALKDYKQMEKGVKVLAPFEGEVRAIRNKISDVSVRIAGKNSVKGIECGNGVVISNGKYEAQLCHLKKHSITVRKGQKVKAGEVLGLVGLSGFTEYPHLHISLRKNSKEIDPFYGDQDGCGNKPKSMWKDKDKIHKNAKTGIVYNYGFTFNQPHSEQIRKGRYIKKQPEYPNSLVGFVDIFSVDKGDKIELTIANSSGKTIVTRDHLFGKYQARYFFFIGKKLRGNRMSGEYQLNIKYHHAKGGVDNFTEYIKL;locus_tag=LOCUS_09040;note=WP_011389350.1 peptidase M23 (Rhodospirillum rubrum ATCC 11170) [pid:36.1%25%2C q_cov:86.0%25%2C s_cov:79.0%25%2C Eval:1.6e-41],MGA_924
sequence34	MetaGeneAnnotator	CDS	10553	12127	.	+	0	ID=MGA_925;product=NAD+ synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012708228.1;translation=MKIFVCQTAPKVGALKENATIIRQNYKKSQLSAAEICVFPELCITGYLAEDLFLKKDFVDKSHKYAQEIIQETGETYLLLPTILREDDLLYNVVIIAQNGKIVKTTYKNELPNHGVFDERRYFTPGKSNIINIDGIKIGIPICEDIWHSSVCTDLKNQGAELFIVPNASPYEKDKMAIRAKLVRKRYEETSIPIIYCNQALAHDGIIFDGRSFIYDSELKIIGKSFDTDAIEVEYKDKKFASDNSFLNTKNVYEEILDATMLGVRQYVHDNGFRKVIIGLSGGIDSAIVAFIAARALGNENVLCYMLPSKFTSQESLDDASQLTKNLNISLESISIQNIVDEYEKALPYNKNSITYQNFQSRTRGTILMGLSNDLGALLLTTGNKSEYATGYATIYGDMNGAFNPIKDLYKTEIFELAKYINLQSEIIPSNIITKPPTAELAPNQRDTDSLPNYDILDQILYQLIENRICHETLYSKFNKQTVDKVYKLLKISEFKRFQSAPGIKISSMHFDKDRRFPITNFYS;locus_tag=LOCUS_09050;gene=nadE2;EC_number=6.3.5.1;note=WP_012708228.1 NAD+ synthase (Sinorhizobium fredii NGR234) [pid:41.0%25%2C q_cov:99.4%25%2C s_cov:97.1%25%2C Eval:2.8e-106],MGA_925
sequence35	MetaGeneAnnotator	CDS	1072	1440	.	-	0	ID=MGA_928;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCU8;translation=MSVFSLKNQKEFDFVNKHGSKKHGPCFIIIISQNISSLECPSENTTFLGLKISRKFSKKAVVRNKAKRRIKHLVNTLIQDPTVDINMKALIVIPKIGLEKAKFSILQDDFKKTVLQIMQRCN;locus_tag=LOCUS_09060;gene=rnpA;EC_number=3.1.26.5;note=Q9ZCU8 ribonuclease P protein component (Rickettsia prowazekii str. Madrid E) [pid:43.1%25%2C q_cov:95.1%25%2C s_cov:95.9%25%2C Eval:1.7e-21],MGA_928
sequence35	MetaGeneAnnotator	CDS	2479	3621	.	+	0	ID=MGA_929;product=sodium:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048226.1;translation=MPVILAILIAIIISLGSFIPKIVAVNLFAISLTIKSAIIFVLPFIIFSLLYKASVSLAKDASTIILIILSAVVISNFIATTLTQFIGSWIYNFDISIEMPNDKDLLHAESLINFPTLISNHIAMFSGIILGILSAKIAPNECLRFAKILELLVKNLLKAITFLIPIFVTGFVVKLQFDGIIMQIVRDYTSIFAIVGATQFGYIILLFFILNKFKFSKAIRSIRNMLPAALSGFSTMSSAASMPLTIIGTEKNAKNKDLVHTVVPATVNIHLIGDCIAIPCFAFAILKNFDIAQPDIIAYFMFTIYFVIAKFSVAAIPGGGIIVMLPILEQYLGFNSDMLSLITALYILFDPIITSANVLGNGAFAKIIDIITPKNTEEES;locus_tag=LOCUS_09070;note=WP_012048226.1 sodium:proton antiporter (Clostridium botulinum A str. ATCC 3502) [pid:29.0%25%2C q_cov:89.5%25%2C s_cov:84.9%25%2C Eval:6.9e-29],MGA_929
sequence35	MetaGeneAnnotator	CDS	3618	4013	.	+	0	ID=MGA_930;product=histidine triad domain protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002117900.1;translation=MNFKIDPTLEKDSVFIKNLRLCQLRLINNSDFPWLVLIPMKNNLVEITDLSDDEYVQMNHEIKNIAAKFKEIMKADKLNIASIGNVVSQLHIHIIARYANDKLFPKPVWGSELVAYSKDELNKMIDSIREF;locus_tag=LOCUS_09080;note=WP_002117900.1 histidine triad domain protein (Acinetobacter pittii PHEA-2) [pid:39.3%25%2C q_cov:93.1%25%2C s_cov:84.7%25%2C Eval:1.4e-23],MGA_930
sequence35	MetaGeneAnnotator	CDS	4229	4639	.	-	0	ID=MGA_931;product=NUDIX domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003114423.1;translation=MRPKVGIGVLVFNDLNQLLLGRRTSTHGEGEFGPPGGHLEFGESFEECAIREVKEEAGFDIREPKFLSLTNDIFIESSKHYVSIFMCASFDEGQEIVNREPEKVIDWGWYDLNDLPMPLFLPLNTLISQGGLDDFK;locus_tag=LOCUS_09090;note=WP_003114423.1 NUDIX domain-containing protein (Pseudomonas aeruginosa PAO1) [pid:43.0%25%2C q_cov:94.1%25%2C s_cov:91.9%25%2C Eval:2.9e-24],MGA_931
sequence35	MetaGeneAnnotator	CDS	4804	5100	.	+	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKRKITSDITEKAKSLNLRLDLSNLPDIEDIGPHLSRDKVGATFNLSSIPEDEAVSFASEDGEFSSEFTGEDSWSEREWNEVFVLDALGEQEFIDFE;locus_tag=LOCUS_09100;note=MGA_932
sequence35	MetaGeneAnnotator	CDS	5366	6562	.	+	0	ID=MGA_933;product=Bcr/CflA family drug resistance efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947943.1;translation=MIKNLPFLLVVSLLTCCVEVDISVPSFPDISDYFNISDGLTQMTVAMNFLGFCISSAIYGPLSDAFGRRKIMLYGNAIMMAGAIGCTIADSIELLLLSRLIQGIGASTSAVVAFAMVADAYSSEKSAKLIGTMNSLITVFMSIAPIAGGFINETLGWRGNYSTIAVISVISWIMLYFWLPETKERLEIFSTKKIAGDFKTLMSDKAFMYASLTPSLTFSGWMSFVACGSFLYIETYNLPIMYYALHQGIIISAFSVCSLYSGQINKLIGAHNCVVYGTILMITGSISMLLVSLLLDIAPYLTSISMIIYGLGAAISYPVVFARSLELFPKISGTASSVIMAIRALLCAAFIAVSSIIYHGKLWTVAVMILTATLSLAILTFLLLKLISFDKKESIPKL;locus_tag=LOCUS_09110;note=WP_010947943.1 Bcr/CflA family drug resistance efflux transporter (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:28.5%25%2C q_cov:87.4%25%2C s_cov:77.6%25%2C Eval:9.0e-43],MGA_933
sequence35	MetaGeneAnnotator	CDS	6569	7081	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDA5;translation=MKKQIIYPKFIPRIFAMVIDLVILSVTLAPLMNIVSQYVFVLHFQDFFIASGINTSDVEAMAAASKTPEFAAQITASKLITYIGSLFIVNTTFMGVYFVFCWRKFCATPGKIIMRMKIVNVDDYKTPTTFQLVKRFFGYITALIGMWTILFSKKGLALHDKIAGTVVIKS;locus_tag=LOCUS_09120;note=Q9ZDA5 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:39.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-25],MGA_934
sequence35	MetaGeneAnnotator	CDS	7311	8243	.	+	0	ID=MGA_935;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597523.1;translation=MHSVFYSVLPIFLIAFLGSIIRRKWLTSDEFWRGLEKLSFYVLFPSMLFEHTLKVDFSSSEFTRLTFALIIANLLVASMLIIYQFKNEYDRIQFTSVFQGATRYNNYIFFAVGAALFGEEGLKIIATISPYLLILTNITAVMSFAHYIPKDGRKLTKRKSLLLMVKSIGANPFVLASIAGVSLNYFHITLNTGVEKTIHNFSDSALAIGILIVGAGIKLKIKPEHFKQIILTSGVKLILMPIVTFIVLWMMKITGTSKSVGILFSCLPCASSSYILSRQLGGDPETMSSIITFTTIFSILSLSLLVYILG;locus_tag=LOCUS_09130;note=WP_004597523.1 permease (Rickettsia prowazekii str. Madrid E) [pid:47.1%25%2C q_cov:100.0%25%2C s_cov:96.0%25%2C Eval:1.3e-80],MGA_935
sequence35	MetaGeneAnnotator	CDS	8291	10573	.	+	0	ID=MGA_936;product=putative NADP-dependent malic enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDF6;translation=MDNTKSPEYIKALEYHQKGQPGKIALKATKELVSQQDLALAYSPGVAAPCLEIQKKPEDIYKYTAKGNTVAVISNGTAVLGLGAIGAKASKPVMEGKAVLFKKFADIDCFDVEVDCPDADEFINVVKHLGPTWGGINLEDIKAPECFIIEEKLKELMDIPVFHDDQHGTAIITAAGLINAVFLTKRKMSEIKVVVNGAGAAAMSCINLAISLGVNKNNVILCDTRGVIYKERTDRMNKWKEEKAADTKHRTLEEAMVGADVFLGLSAKGAVTKKMVASMAKSPIIFAMANPDPEITPEDIASVRDDAIIATGRSDYDNQVNNVMGFPYIFRGALDVRAKSINEEMKLAAAKALADLARKPVPGEVYRAYGSKKKSFGPEYIIPVPFDPRLITTIPVAVAQAAIESGVAQVKDLNIKAYKAELASRLNPTSTYMHFVYEQIHHADLQRVIFAEGEEEEVIKAAMMMRDENYGTPIIVGRDAKINPIVESMGDGYSLDGIKVINAATNPNIDKYIDKLYAKLQRKGYLRRDCARMVTTDRNVFSACMIECGDADAMVTGITKSYYNSLDDICKVIKPKKNKRIMGYSIMLSSKHNMIIADNTACEFPQSDDLVEITLQTAEAAKSLGFKPRVALLSFSNFGNPEKEKTQRVRDAISKLDQMNLDFEYDGDMTADVALNTELQKIYPFCKLSGPANILIMPGLHSAAISTHLLEELAGGVFIGPILNGFEYPVQIVPMGSSANDILKVAAFAAIEAINAKKKK;locus_tag=LOCUS_09140;EC_number=1.1.1.40;note=Q9ZDF6 putative NADP-dependent malic enzyme (Rickettsia prowazekii str. Madrid E) [pid:65.1%25%2C q_cov:97.5%25%2C s_cov:97.9%25%2C Eval:1.6e-289],MGA_936
sequence35	MetaGeneAnnotator	CDS	10802	11869	.	-	0	ID=MGA_937;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNEEFSTEALSELERQVSKQLEISENELEKVMRENSALLSEYEKSTMRLHEIFSNPEEDRLVEEELRRLESEMGVSSATHERESQTLEKQIKYMPDRSDIEDIEIQQLLNEIDNEQAQARKDRSEDVSTLLTVHSDLADKVVEKSSNPQEIEQLTNFSKGAKELSSTIDKAISKKQIGKNSDKKNSDRFLSAVGEGVKKLYTGLKSGISSAVDAVKKLGMQLEQAITSLFTKAPKKQNLEFSKAINETRKEVEKRHPDKKGINEAKSILKKNFLKLQQDYAKIVPEERKAVFKKWCEKKNTNLDKMSMKELYKEVQKIRKGILSQKRKNLLAKQPQNLKQIGRKSYSSGMGLG;locus_tag=LOCUS_09150;note=MGA_937
sequence35	MetaGeneAnnotator	CDS	12022	12162	.	-	0	ID=MGA_938;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSNTESKAEGRGVGLALCKAAIEAHGGAIIVESDGVNGARFRFVL;locus_tag=LOCUS_09160;note=MGA_938
sequence36	MetaGeneAnnotator	CDS	183	521	.	-	0	ID=MGA_939;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLINIKTKKISTKNTSYHYKKRNDLVILFLIPNNKTRFQDDNRACTLYDIFIFLLSPTQEPLDNSAIGYINTSFHNHRTKITAPVLAMLFDLRHYEGPKAGAGNPQMDRRGR;locus_tag=LOCUS_09170;note=MGA_939
sequence36	MetaGeneAnnotator	CDS	451	783	.	-	0	ID=MGA_940;product=ferredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCC8;translation=MTYVVTDECIKCKYTDCVEVCPVDCFYEHELMLVINPDECIDCGVCVPECPIDAISEESPDLIRWVEINKELSETAPNITKIKDPLPDADKYKDEKNKYEKYVLPLQETK;locus_tag=LOCUS_09180;gene=fdxA;note=Q9ZCC8 ferredoxin (Rickettsia prowazekii str. Madrid E) [pid:70.8%25%2C q_cov:94.5%25%2C s_cov:97.2%25%2C Eval:4.9e-40],MGA_940
sequence36	MetaGeneAnnotator	CDS	796	1350	.	-	0	ID=MGA_941;product=heme exporter protein C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596831.1;translation=MVRVMYIHVPSAWMSLGIYSFMAVCSFSSLVWKTRLSYLLSIAAAPIGATFALITLVTGSLWGKPIWGAWWVWDARLTSMLILFLLYLSYISVTNSGTNILRAEKPASAIAIIGFINIPIVKFSVDIWYSLHQPASVFKMSGPSIHSSMLIPLMIMFASFICFFLLLLLMRTRILLNNIKYKNY;locus_tag=LOCUS_09190;note=WP_004596831.1 heme exporter protein C (Rickettsia prowazekii str. Madrid E) [pid:64.8%25%2C q_cov:97.3%25%2C s_cov:77.8%25%2C Eval:2.8e-66],MGA_941
sequence36	MetaGeneAnnotator	CDS	1494	2225	.	-	0	ID=MGA_942;product=laccase domain protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD53;translation=MEIEFIKDKVYYKIFDRTYTASSGKYAKYKAENAAILAEIQKNIDVIQKEYNAQELVILKQVHGTKILDADTLYQPQEEADGSITTKKNIALGILTADCVPVLLASADGSVIGAAHCGWKSAKNNIIFNLQNKMKMQGAKQIKALIGPSIQQKSYEVDAKYYQDFIHDDAKYKKFFIESKNKNHYMFDLPGYVRSKLEQENIEIAVTIDDDTYELEDKYPSFRRCTHRNEKYSQNILSTIIIR;locus_tag=LOCUS_09200;note=Q9ZD53 laccase domain protein (Rickettsia prowazekii str. Madrid E) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-59],MGA_942
sequence36	MetaGeneAnnotator	CDS	2262	2993	.	+	0	ID=MGA_943;product=glutamine synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599088.1;translation=MNKLADNQEKYNLLGEITNVLKNNFGLTPCIGVEIEFYLSNIKDISALEEIIKHTIKAEKGRNQYEIDLKPSNDLIGYAKYIESVRDKVAFGAKELGGNADFSSKPYINDYGSSMHIHLNFLEDDDIEKFAQILCYYLSDSIPIFLPLEGDRERLDEKFMAPTHICYGGNNRTVAIRIPDSIPRRLEHRLPAASADPASVIYAILASIVKGLSDRIDTKIYAKIFGNAFDKQYSLQRILQHKT;locus_tag=LOCUS_09210;note=WP_004599088.1 glutamine synthetase (Rickettsia prowazekii str. Madrid E) [pid:44.5%25%2C q_cov:96.7%25%2C s_cov:88.8%25%2C Eval:9.6e-51],MGA_943
sequence36	MetaGeneAnnotator	CDS	3132	3536	.	+	0	ID=MGA_944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDV2;translation=MSNLLSLILLVALLIAAFFLYRRIKGGGKKDVDSGADNTMSQEEYQAKKYPKDEEISLTLEEKIELSWQFLTNITEQILNKFSKEDRNVVHDAGEKMNRHGMSYQHDVKQEAKVTIDVVKSRTKEQSKDKGRSR;locus_tag=LOCUS_09220;note=Q9ZDV2 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:40.9%25%2C q_cov:84.3%25%2C s_cov:94.1%25%2C Eval:2.3e-13],MGA_944
sequence36	MetaGeneAnnotator	CDS	3631	5064	.	+	0	ID=MGA_945;product=deoxyribodipyrimidine photo-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010945973.1;translation=MNNKKTIVWFRKDLRLSDNPALFEASQQGEILPIYILEEDDDDSRWCLGAAQKWWLYNSLKNLDSDLKQNNAKLILRKGNSLSIISQLVKDVKADAVFWNRCYEPSSIQRDTSIKEYLKGSGIEAKSFGANLLFEPWKVKNNSGNYFKVFTPFWKSCNLNHNPRSLYSVPVIKTCDNNIETDDIDSWELIPTAPNWAKKFSKCWIPGENNAQNLLSEFIDSNIGKYATNRDIPGVNGTSRLSPYLHFGEISPHQIWYKIKDYHNMNILGSSVDKYLAEIGWREFSYHLLYNYKDLPSREFNLKFQNFPWKLDSENLIRWQKGMTGYPIVDAGMRELWSTGWMHNRVRMIVASFLTKHLLISWQEGAKWFLDTLLDADLASNSAGWQWVAGCGADAAPYFRIFNPIMQGMKFDTSGEYIRKWIPELGPVSNKYIHKPWEASKEELKSSSIELGITYPKPIIDHTYARNRALELYSKLV;locus_tag=LOCUS_09230;gene=phrB;EC_number=4.1.99.3;note=WP_010945973.1 deoxyribodipyrimidine photo-lyase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:53.9%25%2C q_cov:98.5%25%2C s_cov:98.1%25%2C Eval:1.3e-142],MGA_945
sequence36	MetaGeneAnnotator	CDS	5077	6396	.	-	0	ID=MGA_946;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKRILSLSIISTLLTSPALADKANHSYVEMDSVYSYKMMDPTTDISKKQQFLFKNKDEHLSEGTLYIGASVIAIADYQTSNRESKFGYLMRHPTATNQIGKEVSEIALHSVQVQASGSLTPWMALYSELLYNPQQSFGGGNNTSLGRNQVQVRKAYILLGDKNEYPIYASFGKQDVPFGLMDTVSPFTASTVWHAFGPLAYSGIIGIDVAGFNASVTAIQGGAQFRSANVPVKGTNVPSRVNNFAADISYSHEIMNRSNIMVGASYIKGSAYNQEFPVTHFNPGKKHNPAWDVYARLKLNNLTLQGEFAQTLKKWPGTHNPSPPLNIFAASKVSSFSVGGKYNFQNLICKKDVALSLEYSEFKAGPKGAPWRLQSQIVAGISSMVRPNVKIFGEAIRIQGYAPLNNISGDLNGVPGTTHSDKSAKTHAFIVGLQASL;locus_tag=LOCUS_09240;note=MGA_946
sequence36	MetaGeneAnnotator	CDS	6500	7735	.	-	0	ID=MGA_947;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886361.1;translation=MSKNRKKVTGAFLGTIVEYYDYSLYAFSAGILAEKFFPGFGKIESLMYVFAIYAFSYLAKPLGSIFFSRIGDLYGRKISLRITMIGIAVPTLTIGLLPDYNSIGFVSTQILILCRFFQGFFVAGEYDGAAIYVIEHLGNKYHYTASAVARATGVCGLILGIASTNFFNSSIFPEWGWRIPFLLSMPLALLTIYYRRYLEETPDFIKSQENGFKFNGFFDFIKEKWRILVLVILLAGGFGVTYQISIVFMKQYLPIVVPKTSTIITTFSVLIVLVFGLTMPLAGFLADKFSLKAVVKSSVLMTLISSALLILSIYSELFNLTLVACVLLAASVAPFNALAHGVIVKAFNVNERYRGVSLGHTSGSMLMSGTANFICLFFMKNFNLTLFPIFYVSFFGILTFIILGIFDKKHK;locus_tag=LOCUS_09250;note=WP_010886361.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:55.8%25%2C q_cov:98.8%25%2C s_cov:95.5%25%2C Eval:2.2e-132],MGA_947
sequence36	MetaGeneAnnotator	CDS	7722	8297	.	-	0	ID=MGA_948;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCH7;translation=MIVILSAPSGGGKTSISKKILDDDKNIKLSISVTTRNPRPDEKEAVDYFFKSITEFQKLKNSDEFLEYAEVYGNFYGTPKKYVNEMLAKGHDVLFDIDHQGAQQIKQKLSDQVVSIFIVPPSIEALRDRLESRGQDSNDNIEKRLKLAEQVISHSDSYDYVVVNDNFEQAVKEIQKIIKKERMGKVSNEQK;locus_tag=LOCUS_09260;gene=gmk;EC_number=2.7.4.8;note=Q9ZCH7 guanylate kinase (Rickettsia prowazekii str. Madrid E) [pid:50.5%25%2C q_cov:95.3%25%2C s_cov:91.9%25%2C Eval:1.4e-47],MGA_948
sequence36	MetaGeneAnnotator	CDS	8357	9136	.	+	0	ID=MGA_949;product=short-chain dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388186.1;translation=MANVKKTIIITGASSGLGAELAIKYSASGNNLFLIARSEERLNKIAEKCRGNGASVRSIIADVTDADAMNTNINEIADKHKIDIVIACAGVSAGTLDGPETTKQTNKIFATNINGVLNTILPAVPHMIRMRSGNIVIVSSMAGFLGLSSAPSYSASKGAARIFGQALQGYLKSYNVHVSTVIPGYIKTPMTEVNSFPMPFMTSADKAARKIVQGVDKNKNVIAFPLIMFFSLKLLSLLPSALISYINSKLPGKPAFEDS;locus_tag=LOCUS_09270;EC_number=1.1.1.100;note=WP_011388186.1 short-chain dehydrogenase (Rhodospirillum rubrum ATCC 11170) [pid:42.8%25%2C q_cov:96.5%25%2C s_cov:97.7%25%2C Eval:4.3e-52],MGA_949
sequence36	MetaGeneAnnotator	CDS	9283	9864	.	+	0	ID=MGA_950;product=adhesin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886380.1;translation=MKKIILSAIASTCFLASSANAVESDFFVKANIAYSKLNKVKSIKSKNDIAFGIGAGYNYLDNVRIDLTFDHFVNPKFKSKDKTISGDINTLLLNGFVDLVDISVAKIFAGVGAGVGQAQAKVSGDQDPKNNGKAKQRYSLAYALYLGTGVEFAPGITAEVTYSYRSLGETKKLNGSDIKFQGQHLSAGLRFDL;locus_tag=LOCUS_09280;note=WP_010886380.1 adhesin (Rickettsia prowazekii str. Madrid E) [pid:27.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-20],MGA_950
sequence36	MetaGeneAnnotator	CDS	10107	10691	.	+	0	ID=MGA_951;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKVLLTAAAVSVLATSSAYAMEDMFYVKANVGWSKLNKVDGAKSKNDVHFGVGAGYHVMDNARVDLTFDHFVNPTFKATGAKLKGDINTLLLNGYFDVFNVDAMKVFVGAGVGLGQVKAKVTYTGNTPSISTKQKNTFAFAGYVGAGYEFTQGVTGELSYSYRDMGKTKKFGNGAKAVHFRGHHVTAGVRFDI;locus_tag=LOCUS_09290;note=MGA_951
sequence36	MetaGeneAnnotator	CDS	10789	11379	.	+	0	ID=MGA_952;product=adhesin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886380.1;translation=MKKILLTAAAVSVLATSSAYAMENQFYVKANVGWSKLNDYKGGGVKLKSKNDVHFGIGAGYHLMENARVDLTFDHFVNPTFKKSGVKVKGDVNTLLLNGYLDVFDVDAMKVFVGAGVGLGQVKAKGTYAGTSSSAKKTNTFAFAGYVGTSYEFTQGVTGELSYSYRDMGKTKKFGNGAKAVHFRGHHVTAGVRFDI;locus_tag=LOCUS_09300;note=WP_010886380.1 adhesin (Rickettsia prowazekii str. Madrid E) [pid:34.6%25%2C q_cov:92.3%25%2C s_cov:85.9%25%2C Eval:1.5e-23],MGA_952
sequence37	Aragorn:1.2.38	tRNA	1385	1459	.	-	.	ID=Aragorn_17;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_17
sequence37	MetaGeneAnnotator	CDS	1559	1879	.	-	0	ID=MGA_954;product=rhodanese;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002904590.1;translation=MKKILSVDAKGLKDMQSEQQVQIIDVREPAEYNDGHIENSTNIPLSCLLNEIDQFDFSKEMIMVCRAGVRSRLACEKLIAEGYHFDLFNLEGGVIAWENAGYKTKK;locus_tag=LOCUS_09310;note=WP_002904590.1 rhodanese (Streptococcus sanguinis SK36) [pid:39.6%25%2C q_cov:90.6%25%2C s_cov:90.4%25%2C Eval:1.6e-11],MGA_954
sequence37	MetaGeneAnnotator	CDS	2020	4806	.	+	0	ID=MGA_955;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKSSGNESALSSKAQAAIRDLNLLVGRYGSYVSSIDKGVEVGTFTNDEVAARRHDSCLSVIDGLGAAELRNHLTPEQKEELINSLRETSSAISNTLQDAKEQEKLAINTAKVEAALKGFELPLALGGRSDELKPHGLNMNEHYPKIIKATQESLVELAGQGIPHEQYAEKLQASILEKVQNQFTPEQLESVEKIVAQGKKLKDSEKPLEKQKFQQSDLQSLKDAATKASNQFQEILNKNKKEAGIISIIQKATRNIEEDHNLKTTQARENKILKDISPALSQLDPEYLVQYNDVISHQLAKSLREQGTYMGRARGELRVSEANRARIADNLLKDHLAASEKFVYNKIRGGIYKQELTNTQIANRLNEFAKATGAREVYSTSNIPSDNELVQIRKANQKLFDNLVLGNGPERTVQNVEIPEPKKETVAPKKPEIVSPPALSSVSNPIRKTVRSSSEAQSPAVKPKPDNELVANEPAKPEKPKISDAKVDATIKALRGDFAGITGFIAGEFVKIAKANNGVIDIENPTFAKAADSLINADPRIINSEENVKKRGGHSAVLSFTGTKQGIEEKIDKLIAKGVDPSKFTSLREDLSKLETELRTQTSSSQGIKELVGKKMTSELIANQTVLFIHDEKGEIQSMPMVQKKDIIAKIAKNVHLDNAAVSTMLSGEQDVQNIIKGTTNRLISETLGKKDKNFYVLDESKLTPGNLEKLSKSVENAVSQAPLVSGIVKSIEQESGLEINDARKAKLLKNLSPALSQLDPEYLEQYKDVISKDLAKEIQAQGSRWGRMNGELRTSTKSQQMIANNLLEKHLASSEEFVTKKISGTFYKKQLTNAQMADRLNEFAKASGSEYEFKPSKIPSDKELAQMRKANPKLFDEVVLGDKAKPKIPDDVRKKLSGNMKIENSKKASVHPTARGKVNQSTDRGM;locus_tag=LOCUS_09320;note=Q9ZD94 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:26.2%25%2C q_cov:40.6%25%2C s_cov:84.8%25%2C Eval:1.8e-21%2C partial hit],MGA_955
sequence37	MetaGeneAnnotator	CDS	4874	5110	.	-	0	ID=MGA_956;product=UPF0335 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE35;translation=MSEVIAADQLKQYVSRIERLESDKADIADDIKQVFDEAKANGFDTKVMKQVMKLKKLDKDSLAEQEAILDLYRAALDV;locus_tag=LOCUS_09330;note=Q9ZE35 UPF0335 protein (Rickettsia prowazekii str. Madrid E) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-18],MGA_956
sequence37	MetaGeneAnnotator	CDS	5268	5825	.	+	0	ID=MGA_957;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMTSNTGEFALTLFVILLQILLFYKVISYKKVLDNKNVQLIQFHLDTKFLCKGLIDSLSISDSVTFCNALIKKIKEYYNLEDIIIIDSLSMMDGENNTAARSEIVNFIQNNIKQITKNLHDHKLTKVSIDNSQMQYVLYLSRLMGKDEGDGLIVCVENTPALLNKNEKTSLENCINLLKTRLIYE;locus_tag=LOCUS_09340;note=MGA_957
sequence37	MetaGeneAnnotator	CDS	5839	6681	.	+	0	ID=MGA_958;product=NADPH-dependent 7-cyano-7-deazaguanine reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9KTK0;translation=MKIQIIKMQTPLGKPTEYKSQYDNSLLVPIPRSLGRNEIKLPKKLPFNGVDFWNCYEVSWLDLKGKPHIRILEFEVPATSEFLIESKSLKLYLNSFNNTKFENENKVYGIIQKDLSETAQKNVTIKLSTLSDYNRKEIRQFKGKSIDNLDVEILDYQVNPNLLKLCDSNEHVEEIIFSDLLKSNCLITNQPDWASVQIKYKGNKIDHRSLLQYIVSFRNHNEFHEQCVEHMFNDIMSICKPESLTIYAKYTRRGGIDINPMRTTKNIGKSKNYKIRDIRQ;locus_tag=LOCUS_09350;gene=queF;EC_number=1.7.1.13;note=Q9KTK0 NADPH-dependent 7-cyano-7-deazaguanine reductase (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:52.3%25%2C q_cov:94.3%25%2C s_cov:94.0%25%2C Eval:1.2e-77],MGA_958
sequence37	MetaGeneAnnotator	CDS	6792	7358	.	-	0	ID=MGA_959;product=flavin prenyltransferase UbiX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD09;translation=MVKKLIIGVSGASGVIYAIRFLEMLKKLKIETHLVISKSANLAIKCETDYSIDSVKKLADFVYNPADIGARISSGSFQTDGMVVLPCSMKSLSAIANGYEENLLIRSASVIMKEQKKLVLMIRETPLHSIHLENMLKLARCGVAIAPAVPAFYNNPSTIDDLITHSLARILDLFNIDASAIHRWDGLK;locus_tag=LOCUS_09360;gene=ubiX;EC_number=2.5.1.129;note=Q9ZD09 flavin prenyltransferase UbiX (Rickettsia prowazekii str. Madrid E) [pid:57.7%25%2C q_cov:96.8%25%2C s_cov:96.3%25%2C Eval:3.6e-56],MGA_959
sequence37	MetaGeneAnnotator	CDS	7483	7644	.	+	0	ID=MGA_960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSHINSLKQKHSQLEISIKSANDNHLDDITINTLKKQKLLLKEKISRLEQQV;locus_tag=LOCUS_09370;note=MGA_960
sequence37	Aragorn:1.2.38	tRNA	7804	7878	.	+	.	ID=Aragorn_18;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_18
sequence37	MetaGeneAnnotator	CDS	7911	9104	.	+	0	ID=MGA_961;product=acyl-CoA desaturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599713.1;translation=MFKHLNYVAVFALIIYPIILICLGVSYALINSVGWFELILFLTGYYMANISVGLGLHRLWSHDAYKTNKYVEFVLAVLSAGTLQGPALSWASNHFDHHTYTDTEKDPHTPQKYKSKFMGFLWSHMGWMLVGEGSYKSINRVTMVKLGRNKILRWQLKYYWHIAVAMNTIVPAFVGFVFGGTALAAYAGFVFIGLGRALQQQATFFVNSLCHFVGTQKYTNGTSRDIWWLAFMLLGENWHNFHHAFPSDYRNGAQWYQTDVHKWLIYLMSKCGLAWGLKRTAKVRVDAKITQTMDQLIDLKKQKIALMQKTLNELNSMCAEKFSELENSSIDVKKRFWKSLSVAQYKVNKLKFQLHEHVKNYENPSDKIINALNKKMKRAELAMQKLYSEIEKIRSLV;locus_tag=LOCUS_09380;note=WP_004599713.1 acyl-CoA desaturase (Rickettsia prowazekii str. Madrid E) [pid:55.8%25%2C q_cov:99.2%25%2C s_cov:99.7%25%2C Eval:1.3e-134],MGA_961
sequence37	MetaGeneAnnotator	CDS	9669	10049	.	+	0	ID=MGA_962;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLHIFVGTLFFIVPGIIIALSYTFIIYFTICYNQPFETARENSMKLMDGYKFYFFLLYIVLFCFIFIVGFSLELPFSFTDKPKILKYALFSIEYGISYLTEIITYTVIYLFWKDRVKNSNTQEEH;locus_tag=LOCUS_09390;note=MGA_962
sequence37	MetaGeneAnnotator	CDS	10046	11506	.	-	0	ID=MGA_963;product=sodium-independent anion transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011268206.1;translation=MSISKIKAEWFGNVKGDVLAGTVVALALIPETIAFSIIAGVDPKIGFYGSFCIAISIAFFGGRPGMISSTAGAMAVLMVTLVKDHGLQYLLAASVLTGVLQYIAGYVRFSFLLRFVSRSVTTGFVNALAILIFLAQLPAFQDAGIQMYMMVGFGLLIIYLFPKITQVIPSTLVSIIILTAVSLMMDLDLKTIGDMGELPSMLPVLMIPDIPFNLETLKIIFPYSATLAVVGLLETLMTSVIIDDLTDTDSDKNRECRGQGIANMIAGFFGGMAGCALIGQSIINVESGGRSRLSALFAGCFLIFLILAAGDFVKQIPVASLVAIMIMVSISTFNWSSIKDFRSTPITSNLVIFVTVLVVVVTHDLAQGVFVGVLLSVMFFAYKVSHSFTVESCLLECGTKRVYKIIGQVFFASADSFVSVFNYKENISIAVIDLSDAHFWDVSAVDALNKVSDKLKKNGIEVNIIGLNAASATIISKVLGHQVENS;locus_tag=LOCUS_09400;note=WP_011268206.1 sodium-independent anion transporter (Pseudomonas syringae pv. syringae B728a) [pid:58.8%25%2C q_cov:97.7%25%2C s_cov:96.6%25%2C Eval:2.9e-158],MGA_963
sequence38	MetaGeneAnnotator	CDS	2278	3132	.	-	0	ID=MGA_965;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNQQVVIKKVKKIEGGGHHGGAWKVAYADFVTAMMAFFLLLWLVSVSDKATLQGVAQYFTPTESISDKAGLGFDGGADANLEEGVGAPNAASSSLIYGSPSKGHRVDAARLPSNMSDVEKDHFISIMNSIQQNSELQKYSDNLHVDITNEGLRIQIMDSDNRPMFEPNTSQLQPYMERIINVIGKMVSSQPNYISISGHTASVKSAEASGIDFWSVSAERANEVRKYMGKKLIDKKQVVKILGKADREPFDAKDPYSIKNIRVGITLLNDASVSEFQKSSPN;locus_tag=LOCUS_09410;note=WP_005763003.1 flagellar motor protein MotB ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:37.3%25%2C q_cov:89.4%25%2C s_cov:74.8%25%2C Eval:1.6e-42%2C partial hit],MGA_965
sequence38	MetaGeneAnnotator	CDS	3136	4005	.	-	0	ID=MGA_966;product=flagellar motor stator protein MotA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389595.1;translation=MFYIIGIVVVFGSVALGYTMHGGSLIILFQPSEFIIILGAAIGSVIIGYPPSCLKKALAGLKHFFKGKPYTKKDYMELLLFSFNTFKLMKIKGMLEIESHIENPNDSELFKLAPSLKKDPFVQNFMADNLRLMTMGMDNPHQFEDVMDQETDLYKGNSAIPGDIYSNLGDSLPALGIVAAVLGVIITMRSIMEPPDVLGALIGAALVGTFFGVLMAYGFFGPMGHFLHKYGDYKVKFVYCAKSGFISYLNGNPPIIVVEFMRKNIPEDLRPSFEELDTYINENSMKIMG;locus_tag=LOCUS_09420;note=WP_011389595.1 flagellar motor stator protein MotA (Rhodospirillum rubrum ATCC 11170) [pid:45.7%25%2C q_cov:97.2%25%2C s_cov:98.9%25%2C Eval:1.4e-65],MGA_966
sequence38	MetaGeneAnnotator	CDS	4075	4557	.	-	0	ID=MGA_967;product=tRNA-specific adenosine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCC6;translation=MISKASDFNNKYMKEALKEAQKAFDAGEVPVGCVIVDRIRGKIIAQTHNLMQSKKNPNLHAEMLAIDIACNQKDNKNLLDCDIYVTLEPCTMCASAISNARLGRLYYGASDLKQGAVENGVQFYTSNSCMHRPEIYSGINAHESGKIIESFFGKLRKNKL;locus_tag=LOCUS_09430;gene=tadA;EC_number=3.5.4.33;note=Q9ZCC6 tRNA-specific adenosine deaminase (Rickettsia prowazekii str. Madrid E) [pid:58.3%25%2C q_cov:90.0%25%2C s_cov:97.3%25%2C Eval:3.1e-43],MGA_967
sequence38	MetaGeneAnnotator	CDS	4538	5473	.	-	0	ID=MGA_968;product=protein p34;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCC5;translation=MLNALSANKKFNMLKLKDNTLIKSASYASVVIAGIILIIKIYGWVATESQSLLASLIDSFLDISSSLINLIAVTVALMPPDDNHRFGHDKFQDLAIFSQSIFFFASCLFMLFSSGRALYLGDAPENPEVGANAMYICIFLTFVLVCYQSYVVKRTGSKIIAADKLHYFSDFLTNVVVVISLYLSSSMWYIDAIAGIGIAIYIMHASYVLFRDAIRNLSDEEFNPEERKKIISIVREFSEAKGLHELKTRSAGSKPFIQFHLELDGSLSLNKAHEISDRIADRLIKEYPRAEIIIHQDPAGLEGEMNDLESV;locus_tag=LOCUS_09440;gene=p34;note=Q9ZCC5 protein p34 (Rickettsia prowazekii str. Madrid E) [pid:52.9%25%2C q_cov:93.6%25%2C s_cov:97.0%25%2C Eval:1.5e-84],MGA_968
sequence38	MetaGeneAnnotator	CDS	5536	6006	.	+	0	ID=MGA_969;product=17 kDa surface antigen;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P16624;translation=MEKTAKLLLIAFTCFALQGCNGQMNKQSGGTLIGGVAGGLLGSQFGGGEGKLVATGVGALAGALIGGQIGKTMDEYDRQMMEKSSRQALEFSPSGNSVEWKNPDSGNSGSITPTKTFKESGRYCREYVQEVMIGGEKQKAYGKACRQPDGNWKIIK;locus_tag=LOCUS_09450;gene=omp;note=P16624 17 kDa surface antigen (Rickettsia prowazekii str. Madrid E) [pid:48.7%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:1.2e-41],MGA_969
sequence38	MetaGeneAnnotator	CDS	6276	6974	.	+	0	ID=MGA_970;product=zinc import ATP-binding protein ZnuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCC4;translation=MTTLVEFKSLSKSFHKKVLVDNISFKLNKGEITTLIGQNGVGKTTLAKIILGKEKYNSGELFIKPNIKIGYVPQKLDFSFNIPMTAKGLLKTLAPDGIDYNLINLEEFTGYNKIKNKDISNISGGELQKLLLVGTLMSKPDLLILDEPTQFLDVTSRQEFYQILRELKEKLEITIFMISHDLFTVMKNSDQVICLNGHVCCSGKPTDLDTNSDFKNALSEIGVYVHNHDHKH;locus_tag=LOCUS_09460;gene=znuC;EC_number=3.6.3.-;note=Q9ZCC4 zinc import ATP-binding protein ZnuC (Rickettsia prowazekii str. Madrid E) [pid:53.7%25%2C q_cov:98.7%25%2C s_cov:98.3%25%2C Eval:7.6e-71],MGA_970
sequence38	MetaGeneAnnotator	CDS	6993	7751	.	+	0	ID=MGA_971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEYQIEFWKHLAVDAVSDDTCYVFSTGLQSPLINLLIFKKQDIKDITPIIDTATRFFAEHKNIPWGINIVDDEYSSNIKNILLEMGFQNICQQYEIDTEIKQINTSDLSETDIIEVSNADMLDDWVIPITSAFEAAAQDSKLYLDLSKKAFNSNSNRLKHFILYENDKPISSATLCFFDKIARLDNVATLKEKQGLGYGKKIVQYCTNKSKLAGSNRMVFESSKQGIKLYRKLGFSETGKSHIFSKFSLDE;locus_tag=LOCUS_09470;note=WP_011013734.1 N-acetyltransferase (Corynebacterium glutamicum ATCC 13032) [pid:25.9%25%2C q_cov:54.8%25%2C s_cov:88.8%25%2C Eval:6.2e-08%2C partial hit],MGA_971
sequence38	MetaGeneAnnotator	CDS	7758	8531	.	+	0	ID=MGA_972;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886337.1;translation=MTTIIAISTLIGLIFAPLGCLVLWKRYVFFADGLAHASMLAAVISVLLDIPIFYAGIINTALFAFIVFKLKRKSGNNAAIGLTSSLMISSALILSYIFPGKFNFASLLFGDIVVSSLKDILTLSILLVSVIAFFISFYKKIILLIISKDIASSREINVNLIEFIFLSILSFSVLATIKIVGGLLVTSIILIPAMSARIISSSPLMMIILSIFFAQIMNVLGIILSFHADLPFAPTIILCGGGIFIMISIYNKIKIKF;locus_tag=LOCUS_09480;note=WP_010886337.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:45.7%25%2C q_cov:96.1%25%2C s_cov:97.6%25%2C Eval:2.3e-53],MGA_972
sequence38	MetaGeneAnnotator	CDS	8648	11218	.	+	0	ID=MGA_973;product=chaperone protein ClpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEA9;translation=MNIDKFTAASRSVLSTAQMIAAKNNHQQILPLHFLEALLADENNIIANLINIVGGDIQNISTRCEDELSRIPSVEVSGGGQVSMSSEGLKLLEKSLSLAKSNKDSFVTIERIFEALTQDKTQAGKILKENSIDAKKISAAILSMRKGRKADSESAEEGYDALLKYGRDVTELAAEGKLDPIIGRDEEIRRAIQVLSRRSKNNPVLIGEPGVGKTAIIEGLAQRVYSKDVPESLMHCKIIELDMGALIAGAKFRGEFEERLKAVLNEIKEASGEIILFIDELHLLVGTGKTDGAMDASNLLKPMLARGELHCIGATTLDEYRKYIEKDTALARRFQAVYITEPTVEDTISIMRGIKDKYEVHHGISISDNAIIAAATLSNRYITDRFLPDKAIDLLDEAASRLKIEVSSKPEELDELDRRIIQIKIELSALKKEKDENSKKKVKILSNELEELESKSMDLNSKWLAEKSKMHSAQKLKEELEEAKINLDKAERNGDLAKASELKYGIIPELSEKLKLSEENSENKLLKERVTDQDIATLVSKITGIPVDNMLSSEREKLLTLEKNLGKTVIGQDDAISAVSDAVRRSRAGIQDQNRPLGSFLFLGPTGVGKTELTKALAEFLFSDRSAVLRIDMSEYMEKHSIARLIGAPPGYVGYDQGGVLTEAVRRRPYQIILFDEVEKAHPDVFNIMLQILDEGRLTDSQGTLVDFKNTIIILTSNLGSEILVNQPDGEDTSMVYDQVMKHVHAAFRPEFLNRLDEIILFHRLNRSHMNKIVEIQLEQLKSIIASQNIALEFDEKAVNYLAGKGYDPAFGARPLKRVIQREVQNPLAKDLLSGKYSAGQTINLSANEQKLSIFN;locus_tag=LOCUS_09490;gene=clpB;note=Q9ZEA9 chaperone protein ClpB (Rickettsia prowazekii str. Madrid E) [pid:72.2%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_973
sequence39	MetaGeneAnnotator	CDS	241	1068	.	-	0	ID=MGA_975;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947341.1;translation=MKKIEVTEHNPEWSLWFKEEAAKLKYSLGNNCVNIYHIGSTAVPGLYAKPKIDIIAEMKSLSESHLSLQKIDYEFRGEFNIPMRHFFRKNDPHDINLHLYEKDNPDIELNILFRDFLINSSEAKAEYNKLKLSLLKNNKSHVKENSIFTGYNLGKDVFIRKTLDKSGYNGLSFRFCTHHAEWNAYHDIARDFFKEHDISYNLNHPNFSDRNYYHFTLSRGTKIVAIAELKWESKTKPSIKYVYSINPQNRPNLEKHLRNLITRWIESIQSTHKHI;locus_tag=LOCUS_09500;gene=yqkA;note=WP_010947341.1 hypothetical protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:28.8%25%2C q_cov:97.8%25%2C s_cov:84.6%25%2C Eval:1.9e-29],MGA_975
sequence39	MetaGeneAnnotator	CDS	1082	1741	.	-	0	ID=MGA_976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011085111.1;translation=MVKMMEANKSHLVVLLHGIRKTNSCLKGLEQFIQTRGFSVLNITYPSTRHSINELANFINNITTSKIKEYKIVSFVGFSMGGLVIRAYLNKYKVPNLGKVVMVGTPNNGSEVADFLISNPLYKKLYGPAGMQLVTNQEKFKNLLGEVNYECGIIAGNLPLDFCYPIMRKKSSDGKVSVDSTKLRNMKDHIVLNVTHWYMPQSRTVWKYIVSFLKYSQFN;locus_tag=LOCUS_09510;note=WP_011085111.1 hypothetical protein (Bradyrhizobium diazoefficiens USDA 110) [pid:38.9%25%2C q_cov:94.1%25%2C s_cov:92.4%25%2C Eval:8.8e-34],MGA_976
sequence39	MetaGeneAnnotator	CDS	1824	3338	.	-	0	ID=MGA_977;product=ADP%2CATP carrier protein 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P19568;translation=MENSEKKNFLSELRRIFWPIEWNENKKFVPMALMMACILFNYATLRSVKDGLVVTNIGPEAISFLKLYVVLPSAILLMILYAKLCNIMSQRKVFYTVATFFIGYFALFALVLYPNPDAFHPSKEAIESLAASYPNAQWFIRIIGKWTYASFYVAAEMWGSMMLTLLFWQFANQITKTNEAKRFYSMFGLIGNTALLLVSPVGAIFSIEVDGVSTVQLVPIMFVAIGSGVFILFLYTWINTNVLTDPTLYDPNQSGGKKKKKAKLSLGESFKMIFTSKYLGLVVTLVLAYGISINLVEGVWKSKIKELYPTAGAYTAYMFSFQTMQGYAAIFFMLIGSNILRRVSWSVAATFTPVMILFTGLAFFSFITYESTLGLEVAAFFSTGPLVLIVGIGMAQNVLSKATKYSLFDSTKEMSYIPLDDEMKTKGKAAVDVIGGRLGKSGGGLIQSTVFILMPSYTFAEATPFFAAIFFGIVILWIFAVRGLGKEYNKKLAENEAATATSSS;locus_tag=LOCUS_09520;gene=tlcA;note=P19568 ADP%2CATP carrier protein 1 (Rickettsia prowazekii str. Madrid E) [pid:60.8%25%2C q_cov:98.4%25%2C s_cov:99.8%25%2C Eval:1.2e-175],MGA_977
sequence39	MetaGeneAnnotator	CDS	3427	4359	.	-	0	ID=MGA_978;product=ribosomal protein L11 methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q8UDP9;translation=MNNPFSQPKITHKICFNTNYKYIELFEKFFPEDEILGISTYEIESQTIEAEPDDIWAFEVFVEQEPNLPNTQKELQNYAAKNKLNIISNISVEAIEDKDWIKEYQEQLEPLEIGRFFVTSSLRKQACPKNKTPIYIEASRAFGTGDHVTTSLCIKAMEELENSEFRNIFDIGTGSGILSFAAAKLWPSAQILACDIEEVSIKVAKDNQSFNNSNIEFYQNNSTSLNIPKNRDNSFDLIVSNILATPLISMKNSIKSLCHNNTKVILSGFLDYQQQEIENHYKSIGFEIEKVFSENKWVALVLKTQATAQK;locus_tag=LOCUS_09530;gene=prmA;EC_number=2.1.1.-;note=Q8UDP9 ribosomal protein L11 methyltransferase (Agrobacterium fabrum str. C58) [pid:32.6%25%2C q_cov:90.6%25%2C s_cov:93.2%25%2C Eval:6.8e-29],MGA_978
sequence39	MetaGeneAnnotator	CDS	4451	4837	.	+	0	ID=MGA_979;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIKNIIAGLVLVLFAVNVIAAEEESKTKKPMAKLRGPAEFQKVIDDYKAYVAKIPPKIRDEIIEYRKSVAKLNKHKRLLYRQLSQDSQNYLKKEQQYKKKLPLNRKSLINIESPGQKAKKAPAKKK;locus_tag=LOCUS_09540;note=MGA_979
sequence39	MetaGeneAnnotator	CDS	4839	5555	.	-	0	ID=MGA_980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFIDNKKELEEYAKAYASKTPPNSLKNLAFKHLPPLFKKYNTDNKALDFGCGVGYSTNFLKSLGFDCSGVDINPKMVELAKENDKKGTYQSIANSKIPYDNETFDLVFASFVLLEMSSLEQIEEALIEISRVLKPEGHFVAILDNENMYKYSWGALNTDFPQNKTLENGQKVKVEFIHNNLSIEDYFWTQESYLRVMQKATLELLEISNPLADPNDEMEWRDETHISPISIYFARKT;locus_tag=LOCUS_09550;note=WP_013525084.1 methylase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:38.1%25%2C q_cov:44.1%25%2C s_cov:44.3%25%2C Eval:7.9e-10%2C partial hit],MGA_980
sequence39	MetaGeneAnnotator	CDS	5578	6063	.	-	0	ID=MGA_981;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVKNLGGNMKYQDITILLVDDDFDHANLFKTNLQRKGITSEVKHFGNSFILKKYLFDKNVDHKKYTYLMILDINIAGLDCTKLLENIEKEYLLENLTIITLSEAHSRLKENSTFEKGDYASLSKPLIQTVFEETLSNLNIFIHNCKISCTKKLVMTIPDR;locus_tag=LOCUS_09560;note=MGA_981
sequence39	MetaGeneAnnotator	CDS	6238	9036	.	+	0	ID=MGA_982;product=alkaline phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599494.1;translation=MSVDIDIAIVIVFLVATLVIGLGYGNKVRTIEQYALGDRNFSTGALIATIVASWIGGGTFFTSLSRTYSDGITFILPVYGMVLSFLIMAYVFIPKMSNFLGKLSIAEALGDLYGNKVRVIVAIAGTVGAAGAIAVQFKVFGNILSYFLYFSPLEGVLLSALIVTIYSAFGGIRAVTFTDLLQTVTFGVAVPIVSIMIWNHAYYEDISIMETLSNKKFDIARIFEISNVELLSMLSLFLYFSVPGMQPDIFQRVSMGRNTKQAQKAFIGSAFLITLILFSVQWVPFLIFSIDPNLEAKNLLGYIVDNYSYTGFKGVLIVGIIALAMSTADSILNSSAVLFGHDICRPLNLKPKTELFISKVFSIVIGIIGVILALYTKNILQIILDTSSFYMPIVTVPMMLTILGFRTSTRVILAGMAASFATVVIWKFLGIDIDPIFFAMGINCAFLLGGHYLLNESGGWIAVPNLSHPQRNKISYLNKLRSNLNFNFINYCRRNSPVNGMSYVGLGVYFIIFTVTTMYNTQTCLLQEGCGWILYIYQAMMVCGVILAVYPIWPGSYQNSRLLVAQIFWPISIFAILILCNCFFMLISNSSSLQFAIFTVNLLVVATLLGWRMAIFSILVGCFLLVSMYSYFDVSLYFDIKSESPAFISIYLLMIVGSTILLFLKPKQEQQELTEAKVGTLEIEISDLSEKVTHYTERVAYQSKEIERLGATAQRILNNVNHELRLPVGNVMNFAEMLNDGLGKFNEEQLKRLSDEVYKNSNRLSSMILNMLDLATLEAKKIELQKKIVNFSELVHDRVQSCRKIYLVDKKIDIEMHIEENILINIDPNYIRQTVDNLVINAINFSTEGVIRISVLRKGKRVEFVISDNGIGIPKEDLYDIFTPFKMGSNAESKAEGRGVGLALCKAAIEAHGGSISAASRGRMGARFRFVL;locus_tag=LOCUS_09570;note=WP_004599494.1 alkaline phosphatase (Rickettsia prowazekii str. Madrid E) [pid:34.5%25%2C q_cov:98.2%25%2C s_cov:97.6%25%2C Eval:5.1e-165],MGA_982
sequence39	MetaGeneAnnotator	CDS	9054	9644	.	+	0	ID=MGA_983;product=IclR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005456472.1;translation=MKNYKDLVREVKECTLCASNLPLGPRPVFQIHPDAKVLVVGQAPGRAVHNTGIPFNDPSGDRLRDWLGVDKDDFYNPEKFAILPMGFCYPGTGKTGDLPPRKECAEKWRNQLLETIPNIEITLAIGQYAIDWHLHKKKKKNLTETVKAWREYWPEYLPMPHPSPRNNIWLKKNPWFEKEVLPELKKNIRDKVYCFD;locus_tag=LOCUS_09580;note=WP_005456472.1 IclR family transcriptional regulator (Vibrio parahaemolyticus RIMD 2210633) [pid:56.5%25%2C q_cov:93.9%25%2C s_cov:96.3%25%2C Eval:2.1e-65],MGA_983
sequence39	MetaGeneAnnotator	CDS	9790	9939	.	+	0	ID=MGA_984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEEFKDEPYDGFFYFQCGVLASERSILPPQPGESDESAPLVGDFTTEE;locus_tag=LOCUS_09590;note=MGA_984
sequence39	Aragorn:1.2.38	tRNA	10192	10268	.	-	.	ID=Aragorn_19;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_19
sequence40	MetaGeneAnnotator	CDS	607	2550	.	-	0	ID=MGA_986;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEA2;translation=MNNQNKHILIWIVVFILMIMTFNAMQGDGVGGRTEKLAFSDFLARVDDRQVNSVKIQGRYIEGKLADGTSFSTYSADYPGLIDKLSINGVYVEVTPPDTKMNSLFSIFVSWFPMILLIGVWIFFMRQMQGGSKGMGFGKSKAKLISDKGPKITFSDVAGIDEAKEELAEIVDFLRNPGKFQKLGGQIPKGCLLIGPPGTGKTLLAKAIAGEANVPFFSISGSDFVEMFVGVGASRVRDMFEQGKRNAPCIIFIDEIDAVGRHRGIGMGGGNDEREQTLNQMLVEMDGFEINEGVVIIAATNRPDVLDPALLRPGRFDRQITVSNPDLIGREQILKVHMKKIKHSDKVEPKIIARGTPGFSGAELQNLVNESALIAARRGKKIVDMSDMEEAKDKVLMGVERKSMAMSDAEKKLTAYHEGGHALVGLHCPASDPIHKATIIPRGRALGMVMRLPENDRFSMALEKMKADIAVAMAGRVAEEIIFGHEKVTSGASSDIKMATKMAQAMVTEWGLSDKVGPVFHGKSNEDMYASGAGDKTRSEKTSEAIDHEVRRIVDEGYDFAKHILTKHLDQLHTLAKALIEHETLSGKQIKNLLLGNSIDSEEDPEFPGNGKKKALVKKVEKSAEEKDEKKPVRKTVQKKEQENSKK;locus_tag=LOCUS_09600;gene=ftsH;EC_number=3.4.24.-;note=Q9ZEA2 ATP-dependent zinc metalloprotease FtsH (Rickettsia prowazekii str. Madrid E) [pid:70.8%25%2C q_cov:99.1%25%2C s_cov:99.4%25%2C Eval:9.6e-261],MGA_986
sequence40	MetaGeneAnnotator	CDS	2604	3902	.	-	0	ID=MGA_987;product=tRNA(Ile)-lysidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEA3;translation=MLQEQFNDFMNQNFDKAISSEVALAVSGGSDSIALLFLASKWAKQNQIRLVVFSVNHRLRKESSDELEFVKRVSLTLEHKFVEFIWQHDNSKNSLQERARLARYEMMTNKCHELGINSLLTAHHYDDFLENYLMRKRKKSGILGLSNSYSTFYDNIQILRPLFNIKKNDLVDYLNANSITWMEDKSNNLDFYERNRVRHHILSMPKEDKISLEEEANTADIKATEFNNKFIKAIAENVEFNKLGFVFIDLDSYRKLDYEIAVYIINFVLTSISGKIDTPRYRSTKKLIDKVSAGDSFDSSLHECILREVNDKILIFREKNAINSNSVNLKNGVIWDNRFKFNIDNEFVDEELKICLLDMEDYIDIKDKLDFQNLSKSSMNNHKDILFTLPVIKNLEKVVAIPHISYYDGFKSNSGVDVIFTPGFVSRFTHFL;locus_tag=LOCUS_09610;gene=tilS;EC_number=6.3.4.19;note=Q9ZEA3 tRNA(Ile)-lysidine synthase (Rickettsia prowazekii str. Madrid E) [pid:42.5%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.3e-90],MGA_987
sequence40	MetaGeneAnnotator	CDS	3902	5473	.	-	0	ID=MGA_988;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05979;translation=MINNVQKAYAKTPYQSYPHAQSSTEKLATLGALFGMNPPKIETARVLELGCAEGGNIIPHAVHYPKGEYVGVDLSKVQIDAGNKHIKEMGLKNIELKHCSITDIDDSFGKFDYIICHGVLSFVSDVVQDKIIEVSKKNLNKNGIAYISYNTLPGWNMVRTVRDMMMYHAKSFAEDDKVAQSRAMLEFIKESLEGTDSPYAKVLKQEAELLSILGDHYIRHEHLEENNKQFYFSDFMQKANDNGLQYLADCSLSSMYIGNMKQRVAEKLQEINDIVRTEQYMDFITNRRFRSTLLCHNDIKLNRSLNNDSIKDFAISLDIAAEKNIKDAVIEDNEPMKFYFKGDKEQFMSTTSPALKAVFYVLIENKGYPVGFKDLVNKADKLLKGNNKDIIESEILQNAMNLVIKGYMDIHLHNRDKEKVKFNKPNVSKLVMHQVEKTTNNWVTNPAHAPISISFFDKFAVKHMNGKNTKEQILDKLMKESAEGKITLNKDNKKIEDEAQIRKELSAHLEDTIARFTVQGIFQ;locus_tag=LOCUS_09620;note=O05979 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:52.9%25%2C q_cov:97.1%25%2C s_cov:92.0%25%2C Eval:3.8e-164],MGA_988
sequence40	MetaGeneAnnotator	CDS	5504	6364	.	-	0	ID=MGA_989;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05978;translation=MKNLKIAALASVILLNHNVALASNAEDRYVYIGTELGISEPVVKEFSYKSQRGETKMRLKQSRMYGGRIGYSFYPNMAVELSGTHQPKYRLAYRLPAIDLTSTIQGLVTQSLIIGQGLAPAAASAVAQAQFPSAGIPTTHDITKVSANVFTLNWIYEFEKQKMGLKPYVIFGAGVAQINIRPNKTFWQPEGNLATLPGFAGPIEFFRVKKNVHNCFAYQLGGGISKDISDHFAVDLGAKLQVVKDIKIKYETLDMTTQSFKSQTPIKKTIGVGEFTLGFTFKIPVK;locus_tag=LOCUS_09630;note=O05978 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:33.9%25%2C q_cov:77.3%25%2C s_cov:99.4%25%2C Eval:9.3e-30],MGA_989
sequence40	MetaGeneAnnotator	CDS	6757	8610	.	+	0	ID=MGA_990;product=ribonucleoside-diphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD34;translation=MTVAKKTKFNIKIDRSRDSNLTDFGKAVLKDRYLLEGEDYQDLFARVSSYYADDQKHADKMYDYMSKLWFMPATPILSNGGTDRGLPISCFLNETEDSLESIVETWNENVWLAARGGGIGSYWGNVRSINETVRGNGKTSGIIPFLKVQDSMTLAISQGSLRRGSSAVYLPIDHPEIEEFIDLRRPTGGDVNRRALNIHHGVCVTDAFMEAVEKNEDWKLISPLTKKVITSISARELWSKLLTTRIETGEPYILYVDNVNKHIPEHHKKLGLKVKTSNLCAEITLPTGVDHLGKNRTAVCCLSSLNLENYQAWKDDKEFIPNVMRFLDNVLEDFIQNAPDTMSRATYSAQRERSIGLGVMGMHSFLQSQNVPIESVMAKVWNNKIFEHINKEANRASELLADERGACPDAEEVGAKERFSNKTSIAPTASISIICGNSSPGIEPYAANSFTQKTLSGSFTVKNKNLVKLLETKGFNNDQVWSSISTHEGSVQHLNFLTDHEKDVFKTAPEIDQNWLIELASDRTAFVSQAQSLNIFMPGDTSKQYLHDIHFKAWKKGVKSLYYCRSTSIQRADKVSHTVTQAQEMVELEKRNKAEPGLPATRPERIENNYDECLSCQ;locus_tag=LOCUS_09640;EC_number=1.17.4.1;note=Q9ZD34 ribonucleoside-diphosphate reductase (Rickettsia prowazekii str. Madrid E) [pid:70.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-264],MGA_990
sequence40	MetaGeneAnnotator	CDS	8631	9638	.	+	0	ID=MGA_991;product=ribonucleoside-diphosphate reductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD35;translation=MSLLDAQPIYKPFAYPWAYEAWHTQQKIHWLPEEVPLADDVKDWKYNLSSGEKHLLTQIFRFFTQADIEVNNCYMKHYSQVFQPTEVQMMLAAFSNMETIHIAAYSHLLDTIGMDETEYQAFMKYKEMKDKYDYMQKFGVETKEDIATTLAVFGAFTEGLQLFASFAILLNFPRFNKMKGMGQIVTWSVRDETLHTNSIIHLFKTFVQENPEVWNEQLRSRLYEACATIVHFEDAFIELAFEVGGIEGLTAREVRQYIRYIADRRLMQLGLKEIYLVDNNPLPWLDEMLNGVEHANFFEARATEYTKAATTGTWENVFADMDAKRSNNKEEEKTE;locus_tag=LOCUS_09650;EC_number=1.17.4.1;note=Q9ZD35 ribonucleoside-diphosphate reductase subunit beta (Rickettsia prowazekii str. Madrid E) [pid:86.7%25%2C q_cov:96.7%25%2C s_cov:100.0%25%2C Eval:8.3e-169],MGA_991
sequence40	MetaGeneAnnotator	CDS	9799	10161	.	+	0	ID=MGA_992;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKQKPVFGPERPSESAYKANTIPNITPEFFHKFWMPLVEAQLIKAGGIEEVFNQNPIFRQFAQDLLNERGLEIASWVKENCDTGAQTPTQIVDSFQDRINASRQETPIVGEDSEESLDS;locus_tag=LOCUS_09660;note=MGA_992
sequence41	MetaGeneAnnotator	CDS	2400	2969	.	-	0	ID=MGA_994;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596551.1;translation=MSKKQQYPLMQKATAVWLIDNTTLTFEQIAHFCGIHELEVKGIADGEVASGIIGVDPVVSGQLEKSEIERCSKDPKARLVLKTSSAYEAANKANKKRSHYTPIARRQDKPDAIYWLLKNFPDIKDSTIIKLIGTTKSTIAAIRDRTHWNMSNIRQRDPVLLGICTQVDLDRAIEKAKLEVADDNPSNGE;locus_tag=LOCUS_09670;note=WP_004596551.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:61.8%25%2C q_cov:94.2%25%2C s_cov:95.7%25%2C Eval:6.3e-61],MGA_994
sequence41	MetaGeneAnnotator	CDS	3052	3840	.	-	0	ID=MGA_995;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599526.1;translation=MSFKIVTWNVNSIKVRLNHLREFIADHDPDVICLQELKCETDKFPSEELSDLPYNLYIHGQKTYNGVAILSKIPADEVITEFSDNPIPEQARFIECSFDTPIGYARIISLYAPNGGEVGSDKFEIKLNFYDAFTKYINSKKSFEEKLFVGSDYNIAPFDIDVHSPNKLRDSTCFTLTEQKKLRIILNSGFIDNFRAKYPTKKEFSWWDYRAGAFEQNKGMRIDTIISSSNALQNLEDCIIDYKTREKEKPSDHAPVIAIYNV;locus_tag=LOCUS_09680;note=WP_004599526.1 exodeoxyribonuclease III (Rickettsia prowazekii str. Madrid E) [pid:60.7%25%2C q_cov:98.1%25%2C s_cov:95.2%25%2C Eval:8.2e-91],MGA_995
sequence41	MetaGeneAnnotator	CDS	3844	4665	.	-	0	ID=MGA_996;product=formamidopyrimidine-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q5NGY3;translation=MPELAEVETLMRYLKKNILDQEIVSFQKNRNNLRYVLASNLQELIENSSIIDVQRRAKFLNIKLSNDNSLVVHLGMSGRLTVQPKSYQRQKHDHVLIGFSSGNQLVFNDARRFGMIYGCASDEFHKQDFLKNMGIEPLTDEFNASYLQNQLQNKNTPIKTAIMDSRIVVGVGNIYAAESLFESRISPKRIAAKVTKDEVAKLTDAIKLVLTRAIQAGGTTLKDFVSGDNKPGYFKQELNVYDRAGMPCYSCKNPIKKIKQAGRSSFFCPKCQG;locus_tag=LOCUS_09690;gene=mutM;EC_number=3.2.2.23;note=Q5NGY3 formamidopyrimidine-DNA glycosylase (Francisella tularensis subsp. tularensis SCHU S4) [pid:44.3%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:4.7e-60],MGA_996
sequence41	MetaGeneAnnotator	CDS	4783	5538	.	+	0	ID=MGA_997;product=ubiquinone/menaquinone biosynthesis C-methyltransferase UbiE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCP3;translation=MSEKDEKNFGFEKVSSKEKRTLVDGVFSDVAGKYDLMNDLMSFGVHRLWKDEFCNMIPNMDSKILDVAGGTGDISFKLKEKGKAQNKDTHIIVSDINQEMLEICQSRAIDRNILNNFDLVVADAEKLPFPDNSFDYYTIAFGIRNMVSIENALAEALRVLKPTGKFLCLEFSKVQNDIVKPLYDFYTFNVIPKIGNCVAGNQDAYRYLAESISLFPDQEDFKTMIQKTGFTNVVYKNLTFGTAAIHYGFKG;locus_tag=LOCUS_09700;gene=ubiE;EC_number=2.1.1.163,2.1.1.201;note=Q9ZCP3 ubiquinone/menaquinone biosynthesis C-methyltransferase UbiE (Rickettsia prowazekii str. Madrid E) [pid:58.8%25%2C q_cov:96.8%25%2C s_cov:98.0%25%2C Eval:5.5e-81],MGA_997
sequence41	MetaGeneAnnotator	CDS	5555	6937	.	+	0	ID=MGA_998;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINFVKYFPKIMWVIYIISKKQLLTHPGQYRLPTSIKCIGYVFCTIFYFKGLFIKPKDSFGKRLTDCFYDLGPIYIKFGQTLSTRPDLIGIEVAENLKYLQDKLPPFDKKIVHEKIESKFGKKISDLFTKFNEKPVAAASIAQVHKAQLKNGDIVAVKILRPDISEKYERDMQFLEFGAKIVSILIKKAKRLKPKEVIAVFRQSMKFELDLRSEAAAASRLYDNFINDDSLLIPKIYWELTSSDIITLEWVEGVSIYDKDQIIKLELDPKEAAAKIAVIFFNQAYRDGFFHADLHPGNILVCRDGRIALVDFGIVGFLPENDRLAIAEILYAFLKRDYQLVAEIHKRIGYIPENTDLYQFGMSCRAVAEPIIGLAIKDISIGNLLAQLFKVTEEYGMETQPQLLLLQKTMVVVEGIGQSLDEDINMWQLAEPWIKKWAAKNLSPEAKILRVMKKLFNDLI;locus_tag=LOCUS_09710;note=Q9ZCP5 putative protein kinase UbiB (Rickettsia prowazekii str. Madrid E) [pid:63.3%25%2C q_cov:72.2%25%2C s_cov:87.3%25%2C Eval:3.5e-118%2C partial hit],MGA_998
sequence41	MetaGeneAnnotator	CDS	6943	7725	.	+	0	ID=MGA_999;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598520.1;translation=MRIITWNINSVRLRINLVEKLNNEHNPDIICLQETKAEDKHFPQQAIRDIGFNHIVFSGQKSYNGVAILSKFSIEDSFSIDLYNEDRRHICAKINDFELHNFYVPAGGDEPDTEVNPKYKHKLEYVKSMQEWFESNTKPSDKIILVGDLNIAPHEQDVWSSRQLRNVISHTQPERESLLSLQNSFDFIDTARRFVNLDEKLYSWWSYRNRDWKKSNRGRRLDHIWTSRPLEKQLRSIEIVKQARDWEKPSDHVPCILDIN;locus_tag=LOCUS_09720;note=WP_004598520.1 exodeoxyribonuclease III (Rickettsia prowazekii str. Madrid E) [pid:62.3%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:4.7e-99],MGA_999
sequence41	MetaGeneAnnotator	CDS	7850	8179	.	-	0	ID=MGA_1000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIQQAYFRNFVFIIFRRARNSSISEFFYRPLWNNFKKNNPDHQIVKDFSTENSIGSLLDKYGLINNIEKRISQHPELQNSTQDIDKVLKFGELSKDIDSKIQSFRNYF;locus_tag=LOCUS_09730;note=MGA_1000
sequence41	MetaGeneAnnotator	CDS	8165	8521	.	+	0	ID=MGA_1001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNLQLNITQEDKQQPIAAFQIGYFGENKDLKIIQTLPLGIRLEAGTSIISSKKLIAPGKYTICTQTGCQAVAPISDADLETLMSTQENPVVFTNLEGKQLTLPLSIKGLKAGLKYIK;locus_tag=LOCUS_09740;note=MGA_1001
sequence41	MetaGeneAnnotator	CDS	8625	9905	.	-	0	ID=MGA_1002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKEITEETIKKMYAACIKYKDNPKSLQVVKDRIVDSVERPDLEDIFDVEQPSSENTKKELTALDEEALNIAAALELQVKYADSKNPDIKEIVDGMIPALQSNDLEKLLDLEQKLSDFSQKSPKHEFVIDSSRKLFTGSDLDPYQVRDNLEQKILQHPDLLNNEMDIDKVLVLGKKLESFVNRQNKSSFKKMEFKIDVESLNQDLDKKAKSFEDKGASKQEITEFMIKLHNSKSFLEEKGVDVKQRIKNLEKLRGKGLATPEIFNKHSATDIAKLIEAESKKIGTDKQNDKPLNGKETCRAVLSSVPYESWGKMHEVAKELDKREAARGSAIGRVVQSFSDAIASLVSKVSSIGKSTSNKDLKALANSFNASLKESKSKSGISNKLQDQAKKISQEMKESGANKVVTKRPKVQSTKDVSGMGRQI;locus_tag=LOCUS_09750;note=MGA_1002
sequence42	MetaGeneAnnotator	CDS	136	1143	.	+	0	ID=MGA_1004;product=ferredoxin--NADP reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD33;translation=MDITMQTDVAIIGGGPTGIFSAFQAGMLGMKSCIIDALDVAGGQCSALYPEKPIYDIPAYPDILAQELVNNLVKQASTYDPQYLLSRQVTALEQEGNQFILGTSSGDIIKAKTVLIAAGAGCFGPNRPPLKDLESYEGKSVFYLVSKRDKFVGKKIVIAGGGDSAVDWALSLSSIADVTVVHRRAKFRAAPASIKKMHELADAGKISLVTNFQLSELKGKNGALEQVIVSDLDGNKKPIDADILLPFFGLAQNLGPLLEFGLDIKGHHIIANQPHYETNIPGIYAVGDVATYEGKLKLILTGFAEVASALHHSYARVFDGKALHFEYSTTKCASK;locus_tag=LOCUS_09760;EC_number=1.18.1.2;note=Q9ZD33 ferredoxin--NADP reductase (Rickettsia prowazekii str. Madrid E) [pid:57.3%25%2C q_cov:98.2%25%2C s_cov:98.8%25%2C Eval:2.5e-109],MGA_1004
sequence42	MetaGeneAnnotator	CDS	1172	1783	.	+	0	ID=MGA_1005;product=membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005462324.1;translation=MLDSRVRKLIDKPLDVVGKKLGLFGVTANSVTIFGFISGILSIIFIANDSLNYALLFLCLNRLSDGLDGAVARASKLSDFGGFLDIVSDFIIYSGIVFAFAIRDTSVALYAAFLIFSFVGPITSFLAYAIIAAKKDVNTVKRGKKSFYYLGGICEGTETAFILILMCIMPSIFAEICVVYGILCWLTTAGRVYATWHDFAKNS;locus_tag=LOCUS_09770;note=WP_005462324.1 membrane protein (Vibrio parahaemolyticus RIMD 2210633) [pid:44.4%25%2C q_cov:97.0%25%2C s_cov:97.5%25%2C Eval:5.5e-40],MGA_1005
sequence42	MetaGeneAnnotator	CDS	1906	2955	.	+	0	ID=MGA_1006;product=6-O-methylguanine DNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946884.1;translation=MFTEKKQQEFYQALLAKDAEYEGVFYVGVRSTGVFCRPTCPARKPKFTNCEFYASAQEALLASYRPCMRCKPLSHPNEVSELVAKLVDMVESRPEKRWKNADLEKLSIDASTARRHFKSRFGITFIEYARARRLGMAMKHIRSGEPIIEAQLTAGYESSSGFRDAFSKIMGAAPIDRKKHKSLLYASWIDSPLGPMLAVANKKYLYLLEFVQRKGLEREIERMRLKTKSIILPGAPEPIKSIKEELQLYFSGKLKIFKTPIYIYGTDFQKKAWEALMKIPYGTTRSYKEQAGIIGKASAFRAVANANGSNQLAIIIPCHRIINSDGNLGGYGGGLHRKKWLLNFELKNK;locus_tag=LOCUS_09780;note=WP_010946884.1 6-O-methylguanine DNA methyltransferase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:63.8%25%2C q_cov:98.9%25%2C s_cov:96.1%25%2C Eval:2.3e-132],MGA_1006
sequence42	MetaGeneAnnotator	CDS	3465	4124	.	-	0	ID=MGA_1007;product=TVP38/TMEM64 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003022397.1;translation=MGFTIWYTGIYKYISLGTLKENQNFLKDYVKNNLIIATLIYSFLYFVIVSLSIPAATIMTLTGGFLFGQTIGTLCVVLSASLGACSIFLSTKFAAKNSSKKEHGSWVQKMKAGFQENAFSYMLTLRLIPIFPFVIVNIVAGILQIRLKTFFFGTLIGIIPGSYVYVSVGVAMQTLLNHDNFTPESLLSPDIIVALTGLGILALLPIIYKIIKRRTKKKS;locus_tag=LOCUS_09790;note=WP_003022397.1 TVP38/TMEM64 family protein (Francisella tularensis subsp. tularensis SCHU S4) [pid:40.9%25%2C q_cov:90.0%25%2C s_cov:82.8%25%2C Eval:3.1e-39],MGA_1007
sequence42	MetaGeneAnnotator	CDS	4184	4942	.	-	0	ID=MGA_1008;product=P-type conjugative transfer protein VirB9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597362.1;translation=MQKFITFVILLFIAQSAYAIRESRPTPIDSRIRVMVYNPNDVFKFTGYYGYQASIELGKNEQVISISMGDTTAWQIVPAGNRIFIKPMEQDATTNMTLITNKRTYFFELYAEETLDIRDPGMVFNVKFLYPDEEEEEDGIRTFASSGGMGSSGPDMSHPEKLNFNYSISGHEEIAPIKIFDDGEFTYLQFRDKNNEIPAIFAVDEELRESMVNFRLDPNNSNRVIVEQVFHKLTLRAGKKIVCVFNEAFKPY;locus_tag=LOCUS_09800;note=WP_004597362.1 P-type conjugative transfer protein VirB9 (Rickettsia prowazekii str. Madrid E) [pid:67.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-95],MGA_1008
sequence42	MetaGeneAnnotator	CDS	4947	5648	.	-	0	ID=MGA_1009;product=virB8 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886257.1;translation=MEPLYKSLKEYIETGEYFTDARHWYKYKYIHPFSQRSFIFILSVIICVLFVGVVININSLFPSVIQVKYSISATTSANKTAQIIRANQIKNDPQSSVTDILIKNYVLSREKYSYSDLKKQFIFVKNNSTRIVFRRFYNFMNIDNPSSPVLKYQKNTKRTAKIISTSYPSKTKAVVKFNSIVQNSAGEITEDIVWQATIDYEIDKINPNLPSGSRFNFTVTDYQLKLIKDRSKK;locus_tag=LOCUS_09810;note=WP_010886257.1 virB8 family protein (Rickettsia prowazekii str. Madrid E) [pid:43.3%25%2C q_cov:100.0%25%2C s_cov:93.9%25%2C Eval:6.1e-52],MGA_1009
sequence42	MetaGeneAnnotator	CDS	6223	7680	.	+	0	ID=MGA_1010;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKISNESSSGDDFLTPDFCVIGAGSGGLSFAAGVVQMGATVALIERSEMGGDCLNYGCVPSKALIAAAKSYHEVQRASKFGWSCSSTKVDFKKVQKHVKDTIGRIAPHDSVERFEKLGVNVIRAEAKFLDLDTVQAGKQKIRAKRFIISTGSSPFVPDIKGINDVKYYTNETIFDLKTLPKELVIIGGGPIGIELAQSFLRFGSKVTVLEAFSALPKDDKEIVDRLKSTIISEGLDLKESVEIKEIKKSGRGAEIHFKHNNKKHIIKASHLLVAAGRRANLDSLNLDSAKIEYTARGIAVDRFLKTSNKRVFAIGDCIGGYQFTHVAGYHAGLAIRNSLFRLRSTIKTIQIPWVTYTDPEIAHVGFTQSELKEQSMDHKVFSMDLSENDRAQAEHKTNGMIKVLVSPSGNIYGATIMGSGAGELILPWAMAIQNNLKISAIAGLIAPYPTMSEISKKVAGEYFKDKIFGPFMQKIVRFLMGITK;locus_tag=LOCUS_09820;note=WP_010947291.1 mercuric reductase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:47.3%25%2C q_cov:96.1%25%2C s_cov:65.3%25%2C Eval:4.1e-125%2C partial hit],MGA_1010
sequence42	Aragorn:1.2.38	tRNA	8360	8434	.	+	.	ID=Aragorn_20;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_20
sequence42	MetaGeneAnnotator	CDS	8499	9368	.	-	0	ID=MGA_1011;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFPNIPHPAVSTVHAVLDRNDLVKRRKRRLYKAKGTELSSPTKVKQLWCCDYKGEFMLGNKQYCYPLTIADSHSRYLLACEGQESTKEIGAFSVFETVFKEFGLPGAIRSDNGVPFSSPNALHGLSKLSVWWLRLGIKIERIKPGNPQQNGRHERMHRTLKQDAAKPAAFNLLQQQEKFDHFQKVYNNERPHQGIANKYPADLYTASSRIYRGLPEIDYPFADRIVTITTCGRICIGKKKINVSSVFAGQNVGITQIDDKIWLVQFMDYEIGYFDTDSCRIEPTANPFG;locus_tag=LOCUS_09830;note=WP_010976026.1 transposase (Sinorhizobium meliloti 1021) [pid:65.7%25%2C q_cov:100.0%25%2C s_cov:74.1%25%2C Eval:4.7e-114%2C partial hit],MGA_1011
sequence43	MetaGeneAnnotator	CDS	184	1380	.	-	0	ID=MGA_1012;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLTLGNDLTGTTAREVGEASRRLKSLGDSMVTGDDKGVEVVDGFLGSSLRDTEIILGAVAQTTSYATNIVSITEQYLDTIASFLQKGLITIATVSSLSTDKVAVLQKNINDIRAQIDLLISSASFDGRALLGGQAQDIDVQVGLNIVDKLNVSVRNISGDNLYRTSINKALNDWIAADPTGARSDRHANAQELAEAVKNNENLFFANIDGAYASVGTGGLMSNADAGTAIENIRNVQPKLFGDAGRMLPQMTAELDRLYGAAVTVETAAGHQIAGALADAGVQIEFAGFLNQTDTNISTTAGRTIALDVFTSAINEIRAEQANLRNQKTNLFEAVDALRATINVTQKASDSYLKTDYVLSAQQYSELIRTIVASITALQAANKIPEAAQRLVDALAR;locus_tag=LOCUS_09840;note=MGA_1012
sequence43	MetaGeneAnnotator	CDS	1660	2976	.	-	0	ID=MGA_1013;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCB7;translation=MKIAELKNDKTEFHAKVTIPAKEITGEVDKELKEIAKTAKMDGFRVGKVPAHILKKKYGSSIKADIMRKKINSSVDEIVEKNKLNVAMDPAIEDLKDEDGKDLEFTVKFDLLPEIKLPEFKKISVEKPILEVADKDVDEQIDKIANFSKTYDKESKGKAASGDQLTIDAVGYVDGKAFDGGKLDDHKLVLGSNAFIPGFEDQLIGSKTGDDVKVKVTFPEEYHAKDLAGKPSEFKVKVKAVHKPSTPKIDDEFAKKFKCDTVAKLKEQIKENFSTSYEEPIHVMMKMNLFDKLEGMLKFDVPKSLIEREVSILEKQSDQFVDPEIGKKSDKEKAEYFEKLASRRVRIGLVLAEYVKQKNLKITEDDVRQAIIAQARNYPGQEQQVIEFYQKDRQALEALKGPILEEKGVKEIFDNEIIVNEKTYSKDKLEKLLEKEVK;locus_tag=LOCUS_09850;gene=tig;EC_number=5.2.1.8;note=Q9ZCB7 trigger factor (Rickettsia prowazekii str. Madrid E) [pid:50.6%25%2C q_cov:97.5%25%2C s_cov:96.4%25%2C Eval:1.9e-121],MGA_1013
sequence43	Aragorn:1.2.38	tRNA	3089	3173	.	-	.	ID=Aragorn_21;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00210;note=Aragorn_21
sequence43	MetaGeneAnnotator	CDS	3207	4340	.	-	0	ID=MGA_1014;product=succinyl-diaminopimelate desuccinylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC93;translation=MNQEILSILGKLISYKSVTPKGADAIKYVSEILKPLGFKCEVKCFGEGEEEVTNLYAVYGRNKPNICFAGHLDVVPAMHEELWNANPYEMKIVEDIVYGRGTVDMKGAVACALAAIIQFLKSNKPNGSISFLLTTDEEGEAKYGTKMMLEHIKNQKPSIDFCILGEPTTMQNIGDIIKIGRRGSVNFDLTINGKQGHAAYPEKAINPLPIMVNILKEINDEIFDNGSEFFQRTNLELTSIDTGNKVTNIIPESVNAKFNIRFNDMQNASDLNVRITKIVSKYSDNYDIKHRSSSSPFIQKYSKNMQDFASIVEEECKTKPTIETGGGTSDARFIHSYAEVVEFGLNCNLAHKINEHTKISDLQTLYNVYYNTLVKFL;locus_tag=LOCUS_09860;gene=dapE;EC_number=3.5.1.18;note=Q9ZC93 succinyl-diaminopimelate desuccinylase (Rickettsia prowazekii str. Madrid E) [pid:52.9%25%2C q_cov:97.9%25%2C s_cov:98.7%25%2C Eval:5.1e-109],MGA_1014
sequence43	MetaGeneAnnotator	CDS	4460	4849	.	+	0	ID=MGA_1015;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNLTQIYCLIICLVATITLMITLGVAFNSVTEIALTEYKFSSSLDKFSSNEKYIEYKIQYNSDKKNEWDSFSSEEIMEKRTSEKEGYIESRKREAFSTIISCMTWLFVAALFFIVHWRLHKKYSLSS;locus_tag=LOCUS_09870;note=MGA_1015
sequence43	MetaGeneAnnotator	CDS	4853	5674	.	+	0	ID=MGA_1016;product=diaminopimelate epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDB7;translation=MYNMPQKIPFVKMHGLGNDFVIINEDHMPKNCDINSFVQEISDRELGVGCDQFIVYQQNPDKINMVIYNQDGSGAKACGNASRCLTRLLFDQTGARNIKLDVDGRVVSGEYIDEETIKVDMGPPSFESKWMPDSADLWSLAERYMIEPKEMICVDVANPHLVIFSKLSKKDMGIIGSNFQENELFPDGINVNFARIDDNKIHLKVWERGAGFTYACGSGAIATFAAANRLGFVGNEVDIAFKLGSLNMQTQNDSVLMSGPASYVFTGDYLYDK;locus_tag=LOCUS_09880;gene=dapF;EC_number=5.1.1.7;note=Q9ZDB7 diaminopimelate epimerase (Rickettsia prowazekii str. Madrid E) [pid:49.3%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:7.9e-76],MGA_1016
sequence43	MetaGeneAnnotator	CDS	5664	6908	.	+	0	ID=MGA_1017;product=threonylcarbamoyladenosine tRNA methylthiotransferase MtaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDB6;translation=MTNNQEVVTFGCRLNIYESEIIKDNLAKSGNDNVAVFNTCAVTKQAEKQARQAIRKLRKNDPSKKIIVTGCAAQNNPEMFAKMAEVDKVIGNEEKLSDKYYQLDSERVIVNDIMSVKETANHMVTSFDGKARAFIQVQNGCDHRCTFCMIPYGRGNSRSVPIGVIVEQVRMLHAKGYKEIVLTGVDVTAYGADLPGEPTFAQMIRRLLSLVPELKRLRLSSIDVAEIDGDLFDLMAHNERLMPHFHISLQAGDNMILKRMKRRHNREQVIEFCHNLRKIRPEVSFGADIIAGFPTETDEMFDNTRRLISEAGIQYLHVFPYSERAGTPAARMPQVPMHIRKERAAILRGEGVKELNKFFNENLGRRVELLVEKNNMAHAENFIPVKLEGEFVSGQVVDAKLVSVSPEHMSAKIA;locus_tag=LOCUS_09890;gene=mtaB;EC_number=2.8.4.5;note=Q9ZDB6 threonylcarbamoyladenosine tRNA methylthiotransferase MtaB (Rickettsia prowazekii str. Madrid E) [pid:72.0%25%2C q_cov:98.8%25%2C s_cov:97.6%25%2C Eval:1.5e-173],MGA_1017
sequence43	MetaGeneAnnotator	CDS	6925	7857	.	+	0	ID=MGA_1018;product=glycerol-3-phosphate dehydrogenase [NAD(P)+];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDA0;translation=MSASKKISVLGGGSWGSALACLATRAVGNCLVHTIEQEAADEINSQHTNSRFLGDNRLPDGLKATLNIQDTIDSDIIIIAVPSFAFVETLEDLKAAGVSDKTVFLIATKGMCENPLQLFSERIESMFKNSFGFISGPNFAKEVAQDKFASVTISSKDTDLARKIASTLSTDKLEVSITDDIITVQIAALVKNIVAIKSGMMEAEGHGENARAWLISMGLSEIKAIAGTLGGKPDSLSLPAVVGDLVLTSYSKTSRNTRFGFDFHNNSYSREYLKNYPVLVEGISSARLLKKYLSNSNLELPIISSVADRV;locus_tag=LOCUS_09900;gene=gpsA;EC_number=1.1.1.94;note=Q9ZDA0 glycerol-3-phosphate dehydrogenase [NAD(P)+] (Rickettsia prowazekii str. Madrid E) [pid:42.4%25%2C q_cov:100.0%25%2C s_cov:99.4%25%2C Eval:3.0e-61],MGA_1018
sequence43	MetaGeneAnnotator	CDS	8212	9969	.	+	0	ID=MGA_1019;product=choline transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000606001.1;translation=MGDIKLGQDHEQPEFKNLSWFSMLFSAGMGIGLMFWGVAEPIMHLSQPPVGEAFSLDSSKAAMQITFFHWGIHAWAIYSMLAVTLAYFAYRKDLPLLPRSIFYPLLGQKIFGPIGNLIDTFTIISTIFGLASSLGLGVSQINAGLNYLFGIREGIISYITLILFITLISIISVIYGIDKGIKRLSNINVVIALILMTIILCFGDSILLLQSFVQNTGSYFSSLINKTFNLYAYERKESWIGGWTLLYWGWWVSWSPFVGMFIARISKGRTVREFMLGVLFTPTIFTFLWMTIFGNSSIAIAISSEGSTLVEAVNNDITIALFKFFEFFPFSSMLSFLGVILIVTFFISSADSGALVIATLANYGRASSPVWTKVLWSLIIAIVASTLLLAGGINALQTMTIIMAAPVLVIILLGSFCLVKSLREDTLLHISVKQHNTVLQYSNASSTWKERLQSLVMHPQKKEVAGFITHTVLPALGELTEEMKILGMNSSLEKINTNSIALKVEKDEAEDFYYEIKLRKYEMPEYSIDNNKKFYRAEVFLLSGGQNYDVFGYTKQQIIADALTQYEKHIHFLHQSIGEESFHEE;locus_tag=LOCUS_09910;note=WP_000606001.1 choline transporter (Escherichia coli UMN026) [pid:48.9%25%2C q_cov:97.9%25%2C s_cov:87.4%25%2C Eval:1.4e-170],MGA_1019
sequence44	MetaGeneAnnotator	CDS	594	2066	.	-	0	ID=MGA_1020;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCD6;translation=MSYKDLPAFLKFLEKNNHLKRITKQVSTNLEITEISRRYLAIDGPALLFENVIKENGEPSKYPILTNLFASKERIAMGLSMKDSSELRAFGELLAFMKNPEPPSSLKETFSMLPIAKRIMSMPPKNVSKGSSQEVVITNPDLTDLPIQTCWPGDIGPLITWPLIVTKGMGKEKTDNYNLGIYRMQPIGKNKLIMRWLKMRGGAQHHKKWQSLGEKSMPAAAIIGANPALTLAAVMPIPNTMSEYNFAGLLQNKSIELVKCKTIDLKVPANAEIIIEGEISLTESYPEGPFGDHTGYYNDVEEFPIFTVTAITMKKEPIYLSTYTGKPPDEPSILGEALNQVFVPLIQQQFPEIVDFYLPPEGCSYRFAIVSIKKTYPGQAKRVMMGVWSFLQQFMYTKYVIIVDDDIDVHNWKEVVWAISTRTDPKRDSTFIENSPIDYLDFASVESGLGSKLGIDATNKLPPETKRNWGEKIDMDEDVIKKIDDMWDEL;locus_tag=LOCUS_09920;note=Q9ZCD6 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:68.2%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:1.7e-206],MGA_1020
sequence44	MetaGeneAnnotator	CDS	2063	3139	.	-	0	ID=MGA_1021;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC95;translation=MNTYKKYIFKTILPTFLILSTVLTSLVWITQTLRLVHLIDKGIEFKSFIKIVMLIIPSLLFMILPVITVISVIVVYNRLQEERQLIIFQSAGLSNFRLSQPALYITMLITIFAFYTSAYLMPSSYSKLKHETSNFQKGYVSNIIDTRTFNQISRTSTIYIDSKNSDGSMDGVIFFDNKMPENRTIFFAKHGKIITTNPENTQFELIDGTRHSYDRNGKLTKLYFDALSVAITSETAGEESRNKTSLELYLNEMLWPDSNLPIEKQNRLITDGHVRIIWPLFNFVFVFLALSIFLKQPYNRKSNIKQYILTFSPILIASYFHFTLQKIAYKDLNYIFLCYANVFICIILSIWLNTRKSL;locus_tag=LOCUS_09930;note=Q9ZC95 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:40.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-81],MGA_1021
sequence44	MetaGeneAnnotator	CDS	3260	3589	.	-	0	ID=MGA_1022;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLPTIFAIFFDKNSHRCLSATICSFNLIGVMPYLIRMWESSSVDYVAKQILADVGTWMIIYGAAFIGQLLYASMPLLIVKLYSTKINVKIAKYEKKHKALCDQWGIDLK;locus_tag=LOCUS_09940;note=MGA_1022
sequence44	MetaGeneAnnotator	CDS	3525	3710	.	+	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVADKHLCEFLSKNIAKIVGSIAAAKKINAYLEITSTIKEITKAMTLISEDANLKLLSVVS;locus_tag=LOCUS_09950;note=MGA_1023
sequence44	MetaGeneAnnotator	CDS	3725	5806	.	-	0	ID=MGA_1024;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388862.1;translation=MSQTHSTTNKKKLNFKNMENKKEQSVNIQLPKSNTDDTVDNIFRIHLNEEVVELSNEFCKYYYATDDSEQDEFFAVVFENNFIPRINVLEFLSKTPIAGLNNVLAYSIVRLSTTKEEHLVAIVNSYDTNSTLASQLQHGQTIKLQEIEKIVESINNILINLKDEKIFCCNINPSNILMKDGTFYGLREFIDTYPNFHQEEQYLAPELIECHRAARYIKNPISDIYALGISMFEAYTNKPHWNDHPTMHDYNHARFENSTNKYLLGRVKVPERLRTFLKWTMHDDASVRWKTSKIKEWIEGKNSKSTHESLSDTKNIIGFKENNYSTLKSLAYALYNSWTDGMKFIKDTKLFKWASREQLSSDSLEAIQAIVDKKSESPFVVTNTLSSHIKLSKLLSLIDYNGSIRQEGLALSASSIPFFIHNLVMDNNKDVIEKVIKIMKDEDWKLYSSRLSASGHLNRSDSDNFVGKANNVQSGSIARGIERLAYSLNPTLVCQSKLLKGKYVTNIQELLIGLDSYAEKHPKNFTIDRHIIAFIAAKLDLKEDVKAAILPNFPKFSEHPVIRGLSILNLLQQHEPSIEIPNICKAISSDLKQMFEEHLHNVEFKKQTISKIDEISKEGSLDQIIQMLSDQQQFINDYNGYYEACRQAKIIEQKIKALNNQDSIFNGALLLGQKTTVLLSYVLCFIVTVTVII;locus_tag=LOCUS_09960;note=WP_011388862.1 hypothetical protein (Rhodospirillum rubrum ATCC 11170) [pid:22.0%25%2C q_cov:90.0%25%2C s_cov:91.9%25%2C Eval:1.2e-22],MGA_1024
sequence44	MetaGeneAnnotator	CDS	5790	6629	.	-	0	ID=MGA_1025;product=rod shape-determining protein MreC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886366.1;translation=MAILANRIKIRNNLLELSKFIIYSVGRFFTIILLASSCYLLYFSIPKPISNIMLETAGKTLSAGSLIYNETVNSFRWVSSRLSYFKDLETTNLKLKLQVAHLQKTIQITSDLQAENRALKQMLNVTKDVTKNFVTAKVIGISNTPFASSATLQSGSRNNIKVNDIVRGSSGLIGRISEVSENYSTAILINDHNSRIPVVSGTSKAKGIIARQDDNLKIIYLEEDHNISVGETLYTSGDGKIFPKGIPVATTVNITGNTASVKAVEQFNKIEYVVIESNS;locus_tag=LOCUS_09970;note=WP_010886366.1 rod shape-determining protein MreC (Rickettsia prowazekii str. Madrid E) [pid:38.3%25%2C q_cov:100.0%25%2C s_cov:92.4%25%2C Eval:2.3e-46],MGA_1025
sequence44	MetaGeneAnnotator	CDS	6636	7679	.	-	0	ID=MGA_1026;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596966.1;translation=MKLLNLFDRFSSDIAIDLGTANTLVYEKNKGIVLDAPSVVALINENGALKPYAFGHEAKMMLGRTPTDIVAKRPLQDGVIADFKGAEEMIKYFIRSVRDRRSFTGPMILVCVPSGSTPVERRAIQEAAEIAGAREVYLVEEPMAAAIGAGLPVTEPTGSMIVDIGGGTTEVAVLSLGGIVYARSVRVGGDKMDEAIISYIRRHFNLLIGESTAERIKKQIGTAFVSSDSPLREMEIKGRDLINGIPKEMILNEKQIAESLTEPISQIVEAVKTALECTPPELSSDIVDKGIVLTGGGALLDNLGYVLRDATKLPVFVADNALACVALGIGRVLEDFPKLKHVLFKQE;locus_tag=LOCUS_09980;note=WP_004596966.1 rod shape-determining protein (Rickettsia prowazekii str. Madrid E) [pid:79.1%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:8.8e-153],MGA_1026
sequence44	MetaGeneAnnotator	CDS	7760	8848	.	-	0	ID=MGA_1027;product=permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886367.1;translation=MINYQTITKYLAKVYVWQLIVTAGIIVCILFTTNAFDTLQKFKSVELTPKHFWQLIIFKVPYLFCEVSSLCCFIATILFLRNITKQNELIIVLSNGIPIWRIFVIPISVTFIFGVIILTTISPIGTYGLKEYEKIEANVTNTPHLNFVISQSGIFFFEKFAGNNRIIQAKSINSKERTLYDVTILMVDSQNNLTKRIDAPTALISTGSFILDNSTITLKDSTRNKEKVNLPTNLSIDNLMQTFTAPEMIPIWSLKNSIEKFAKSGLSITKYQIHYYKQLFRPISMVAMAFIACWFISLNVRDNSGAKTIVIGLILGICTYFFLEMTLRILAYSGIHPILAALLPILFIILLSNFVILHFQEA;locus_tag=LOCUS_09990;note=WP_010886367.1 permease (Rickettsia prowazekii str. Madrid E) [pid:41.3%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:7.2e-81],MGA_1027
sequence44	MetaGeneAnnotator	CDS	9021	9761	.	+	0	ID=MGA_1028;product=D-alanyl-D-alanine dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9KZN6;translation=MKLFFLIFLHLCILATSVRADELRSGFVYLSDVDPSILINLKYHRSENFTGKPVRGCRRSRAVVTQEAAEALRNVQEDLVMYGYSLVVYDAYHPEKSYNEFNEWLQSEDSQDIKSSHYPNIKKADIQNRGYIKAKYDHVRGSTVDVTVISLKEKLKSPGKKKKRSYKGQKDIIYVYDGSLDMGTSHDIFDPLSELDNMNIPEIARDNRKMLRDAMQNHGFTANNKFWWQFTLIREPYIDSKFDFDV;locus_tag=LOCUS_10000;EC_number=3.4.13.22;note=Q9KZN6 D-alanyl-D-alanine dipeptidase (Streptomyces coelicolor A3(2)) [pid:36.8%25%2C q_cov:89.4%25%2C s_cov:80.7%25%2C Eval:3.1e-36],MGA_1028
sequence45	MetaGeneAnnotator	CDS	332	1573	.	-	0	ID=MGA_1029;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDU2;translation=MKKIILFGLLPVLLISCDRFGSGRVKNLIDLTPKLEVQSKEKLKFNASQIKKNPFSDQKSKSYSLAKNTIIAKPAFAKGVMYSTDSKGFVSAYSLKEKKILWQTDIAKGVLDRNFNDGGVLYSNGKLYVTNSSRYLVVLDAKSGDEIIRKEYPDIVRNKPVMATDRLLLAQTVSNQLIAYDIKTSKFVWLHEGELETISTRSHVHPVVYDGNVIVSYSSGEIVYLDAQSGKEKWRYNLTKISDIGIPSFDPSVIVTVPIISGEYAYFATSNGKIIKMDLDNGAPAWIKVADDIQSLSLVGDYLLVTNNARQVAALSSHNGKALWVGNLIAQKDRSKRKVRTALFQEPFVAQDGNSFSINVIASNGDLYQFKPDASGFIPSEPTIISITKNVKYHWISCCNGKMHLITGRNIVY;locus_tag=LOCUS_10010;note=Q9ZDU2 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:42.0%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.8e-86],MGA_1029
sequence45	MetaGeneAnnotator	CDS	1610	2260	.	-	0	ID=MGA_1030;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADILDEALSDEKDEKKIMLFRKIFPIIITLTVIIAIAMGGFSWYQNRIESHNQKVGDMLVDLISGEYGEKKLINESLDNLIQDGDNRQVEMAEIQRVVNVIESGDSPAAFEQLESIIANANYNDITRSFTRLLWLNLILDEKNLSDELKMKARNHMQYFKEPSQVFFINATLLKAVFYKKNNQNDLAAEYANTILDLESASLIAKEQARAILSGL;locus_tag=LOCUS_10020;note=MGA_1030
sequence45	MetaGeneAnnotator	CDS	2301	3002	.	-	0	ID=MGA_1031;product=tol-pal system protein YbgF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886242.1;translation=MIKKILLSISLISICSSALADSQSYGPIIQRQSKQIQELKGRMLDLENSIEEMKSILKKAGLSTHKTAGVSVASLGEVVGDNAAEAILLPDADNTFFGDKPSKSGPKDKVDYDLALATLKDGNLALAEAKFADFIKQYPSSRLQSNATFWYAETFYRRGVYNKAAINYLQSYKKYPKGSKAPDALLKLSYSLASLNKNKEACSMLEKLELEFPKRPISSIKRAKDARTKFRCK;locus_tag=LOCUS_10030;note=WP_010886242.1 tol-pal system protein YbgF (Rickettsia prowazekii str. Madrid E) [pid:37.1%25%2C q_cov:88.0%25%2C s_cov:81.6%25%2C Eval:6.2e-28],MGA_1031
sequence45	MetaGeneAnnotator	CDS	3169	4587	.	-	0	ID=MGA_1032;product=two-component sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886241.1;translation=MIEEVVLKQVADQNLHVAETYKNRVWDENRKVVSKLEKISYLELLQDQKFINFIQDSSGFLKSIGSDIALYDHSGAKFLVNNTNNIVNVDKHNSSRYYDKFLLHLDRYFLQNYITEQPLTEAFRGKTSHSLVSRAIITDSNYNVYEKSYISSYIPLIESSMGGFNIVGVIEITTDITEQWDNIIYLEKRIFIAFVIVFLVFFIIVMYNTNYAQRIINKQFETNRELEEAKTRAETESSAKTDFLANISHELRTPLNAIIGFSEIMIAETYGKIGNDQYKDYVSDINGSGKHLLSVINDILDFSKASADKLQVDKVELDLNKLASSSMRFVKPRADEASVKLIEKMPSSHIIIVADPKRLKQALLNLLSNSVKFTPPEGSVTLTLKKDGTRKLVNIIVTDTGIGMSDQEIPKALSSFGQVDNKLSRRYEGTGLGLPLTKKLIELMDGKFDLQSKPGKGTTVTITFEYSDSIDL;locus_tag=LOCUS_10040;note=WP_010886241.1 two-component sensor histidine kinase (Rickettsia prowazekii str. Madrid E) [pid:50.5%25%2C q_cov:100.0%25%2C s_cov:94.2%25%2C Eval:3.1e-133],MGA_1032
sequence45	MetaGeneAnnotator	CDS	4692	6413	.	+	0	ID=MGA_1033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVDIKIKDIRVLPGSLDLKNNAGKSLSEILGQLQSGSIVKGLVVGTTPRGEVIFHTAHGRFAAKNDINLVRGDTISLKLAHENKDLSGTIVSVNDKKRDNIEPVKLSLPPTTENTKSTLSTDKTSSAVSFSNNSNIPKSINGEISYLNLSKIDKNTPLFRVLNSITTPKDSKIGISLNIVSNKQVSNTAFTISGEVSGNAKDGSQLIKTAFGVILSKNTNMLVGQKLNLEISSVNNQSLANATSRSVNDFLFSANKNWPLLKSLVQTVQGSGGTTGTQSATITSNSSVAQQNNPANSIISNVATDTLSIKTLQTQQSSTVSSSNVDTRTPIPNLSANISRTDTQAIGKSPNISIPSGEQIAAKTLAQETFIGTKELIANAEKLQTIVPRNIKSRNRSDSTSKEDIQSPRRFRTEQKNNNQIQTTQDKEKASINSIIKNLGQTEEIRKLSSELMNLKELILPSIREGENPEKWQTILIPFYNGRNVEDHEVKIQRSREYFLRFIVDVNLLDNPMQIDGLIRFENDNITPKNFDLTVRAKNTLEPHIRSHIAEIYQLNQNLSGVRGTLAIEQQDF;locus_tag=LOCUS_10050;note=MGA_1033
sequence45	MetaGeneAnnotator	CDS	6441	7025	.	-	0	ID=MGA_1034;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFEIQDIPLDIENRMIEKNVWSSECVIPIQRLKLLNVSHYNFEYEVTAGQIIVLDSMVNSVISIFKELFNLKFPIHSIRLIDEFDGDDELSMDANNSSCFNFRKIEGSELLSIHSYGLAIDINPLQNPFIQEGKIFPSNGKEFLDRSNKRPGMVEPIVDIFYDFGFTVWGGNWQEPVDYHHFQVPRDQVEKLL;locus_tag=LOCUS_10060;note=WP_011263657.1 hypothetical protein (Vibrio fischeri ES114) [pid:40.8%25%2C q_cov:89.2%25%2C s_cov:61.1%25%2C Eval:1.7e-35%2C partial hit],MGA_1034
sequence45	MetaGeneAnnotator	CDS	7144	8439	.	+	0	ID=MGA_1035;product=peptidase M48;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390178.1;translation=MKLIHLLIIILIILINSARANIIRDSEIQEAVDIIVKPLKEAANLPNLKIHIIDDPVPNAFTAGGNDIFVNSGLIIDFPDPDILRGVIAHEIGHILGNHIIRRQEVIDNYMKASIGATALGLATAISGGAAEGLAIAMGGTHFSERSIYAYSRTFESSADQTALKLLEKSSHSAVGLINFFEKMQIFSKTDMINPYEQTHPLSNDRLLILRSYNKRSKFKTSQNHDDIVYKYARSSAKLAAFTLDLDKILDCTYEENSDELTHYMKAIKCFRIGNFDDSLNHINRLLMQHPDDPFYHELKAQIYFEAGKSAAFTEYDIASKARPNDVLIRLGMAIVGITTHIDDAHYITRFYKDLKFVIKHDPDNLLALHYLAIYYEKKGLIGKSHLNSALIALKSGRTTDARTLAAAAMRTLPKKSPDWYKAGDILAATE;locus_tag=LOCUS_10070;note=WP_011390178.1 peptidase M48 (Rhodospirillum rubrum ATCC 11170) [pid:31.1%25%2C q_cov:96.3%25%2C s_cov:91.7%25%2C Eval:1.1e-46],MGA_1035
sequence45	MetaGeneAnnotator	CDS	8534	9421	.	+	0	ID=MGA_1036;product=thiol:disulfide interchange protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597640.1;translation=MLRNIFNFALAITFIVLVALYAYKAVNKPEITKVPISDSKQQKEDIAKSEKTQSSYTKEEIELIVKNYIIDNPDILVTSLENMHKKKVLESTEKANKYLETNRDKIETSGIPPILGNKDGDISIVVFYDYNCTFCKKANIETNKIISSDPGVKIILRPIPILGGTSLYAAKASLAIQKISAENFPAIHDDMMQMQVLDEVSIKKLMEKYSIDYSIVENEINSYSTKQLITKNYNLARSLNISGAPSYIINGIFVPGFIPEDKFKQIILQIRASEDSTEDNSTEISDKESNEELKK;locus_tag=LOCUS_10080;note=WP_004597640.1 thiol:disulfide interchange protein (Rickettsia prowazekii str. Madrid E) [pid:34.6%25%2C q_cov:91.2%25%2C s_cov:97.7%25%2C Eval:2.5e-49],MGA_1036
sequence45	Aragorn:1.2.38	tRNA	9485	9561	.	+	.	ID=Aragorn_22;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00220;note=Aragorn_22
sequence46	MetaGeneAnnotator	CDS	157	417	.	-	0	ID=MGA_1037;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHMGDVRRQEELRREANKYKYEATHQRQDPPIDRETQANVERVVAQWNEGCLESLFSCLNCFTYVLSCFGCCGKESYEEWDIFDD;locus_tag=LOCUS_10090;note=MGA_1037
sequence46	MetaGeneAnnotator	CDS	630	1883	.	-	0	ID=MGA_1038;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLTLKSSLTSTVSREIRAASNLNHTLGASLTTGNNKDIEVVDSFLGSTLQSDEIIKGAIAKTSAYGINMLNVADAYISLTRELVRDSMNLISTAEGKSPDKVAVLQKNLNDKQEQISLLINAAKYDGKYLLNGSVRDLAMQVGRNVNDKIEMNIINIGDGKLLRSSLASAYNEYIHANFAALQADIVYYQNQSEIDTDYRENKNLLQLAEGEAPYPGSGTGGIPGWQNVANVWHAILNGPNGAQYAATLNKAAPNTLAALKNVGVANPNRDFSNASANEIRQALVATAIHAPFGGGPRYYADEIKRVIYDNQPLSLSSSQDIAVAYDIFKGALRTLRSAQAQISNTKKNIISAIDALKTTTVVTGKAADSYLKTNYVETSNKYAQNLRTIVGSVSALQASNKIIDAAQRLVDNLAD;locus_tag=LOCUS_10100;note=MGA_1038
sequence46	MetaGeneAnnotator	CDS	2113	5508	.	-	0	ID=MGA_1039;product=transcription-repair-coupling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05955;translation=MKKFEIPLVSKCLFAHEHFNNNNENILLIFADEESTISAYKQFKFFDNKKNKKSNILHFPSLDTIPYDRVSPSTEVLSKRANILTTLAQKADKYILVTAAQNLITKLPTPDVFSNSTMVLEPGMKLDVENLLIFLVKNGFTRAASAVDSGEFAVRGEIVDIVNANNKGYRINFGWELIESIREFDTYSQISKANLKTLTISPASESLLNSETITTFKNNFLQIFGVNYISTPLYESIISGHKFHGYEHLTPLLYEKMCLLPDFLDKHTIIYDNLCMQAILEHENSYKDFYESRLLSNKNNPDSFYFAIPPKDQICSSDEAKDLLEKNNNIRIEGGNKEGFETLEDISKIAKIEKKSEFEKLFEIITDNKRKIPIIFCNSKSSVERIKKIASDYGYVSVDIKNLSEAKKNIINLAIAPLKHSFSSNKYLLISERNILGDKFITQSHKSSKKKLQNILTELDNISEGEMIVHKEHGIGMFEKIQTIYVDDIAHDCLKIIYANGDILYLPVENIDQIKKYGNDGAQLDRLGGVSWQKRKAKLKNRIKDIADKLIKVTAKRLLAKTNPIKFDINEYQKFANKFPYSETEDQLTSIDDIKNDLESGKLMDRLICGDVGFGKTEVAIRAAFMVAHDINDDRPQIAIISPTTILAKQHYTSFTERFREHGIKIGQLSRLVKPTEAKKVKEGIENGEINIIIGTHALLASNIKFKNLKMIIIDEEQHFGVAQKEHLKQMKTGVHVLSLSATPIPRTLQMSMVGIKDLSLIATPPIDRLPVRTNIIPFDPVVIRDALMRERFRGGLSFYVVPRIKDIEWVEKQLAKFVPELRYKIAHGQMPASTIDSVMNDFCDGKFDILLSTTIIESGIDIPIVNTMIIHRSDMLGLSQLYQLRGRVGRGKVRGFAYLTLPHHKKTTQHSMQRLDVLQNIDSLGAGFTIAGHDMDLRGFGNLVGDEQSGHIKEVGSELYQEMLDEAIIELKKNKDDTKLVEFIPSINLSIPVLIPSKYIEDSSLRLAIYRRAGSLKTNTEIEAFKDEMVDRFGALPNEFDNLLNMVKIKNTCIELKIESLDSGPNGFVMKFNENFDVSEMVLSFVAKHPRHAKIKPDNKLVFLISLKSETLLHETEELLLKLTKCNSES;locus_tag=LOCUS_10110;gene=mfd;EC_number=3.6.4.-;note=O05955 transcription-repair-coupling factor (Rickettsia prowazekii str. Madrid E) [pid:54.0%25%2C q_cov:97.3%25%2C s_cov:97.7%25%2C Eval:0.0e+00],MGA_1039
sequence46	MetaGeneAnnotator	CDS	5505	5774	.	-	0	ID=MGA_1040;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKNREQLLKKLLYQSCNRGCKETDLIIGQFAKSNLDKMNNSDLTTFEEILQMNDADIYDWYTKKKPLPEEKSSKLMLQILDFEPSNK;locus_tag=LOCUS_10120;note=WP_011975556.1 hypothetical protein (Sinorhizobium medicae WSM419) [pid:36.8%25%2C q_cov:85.4%25%2C s_cov:73.8%25%2C Eval:1.4e-10%2C partial hit],MGA_1040
sequence46	MetaGeneAnnotator	CDS	5947	7347	.	+	0	ID=MGA_1041;product=chromosomal replication initiator protein DnaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q59758;translation=MKQLNCANSKQNETAFDAAVWNDVSRDLKAHYGDDLYKSWLSKISFEEKQTDGTLILSAPSNFVRDWIKSNYLEIISRLWIHHDPNIRYVDIITKEAQEDSKLANSSTTVEVIKPNFLSDNVDEELASLDPRFTFDNFVVGSPNELAYAAAMAVAESDEAVVKSNPLFLYGGVGLGKTHLMHAIAWHCKEKNPKRKVLYMSAEKFMYRFIKALRSKDVMSFKEEFRSVDVLMIDDIQFICGKESTQEEFFHTFNAIIDNNKQMVISCDRSPSDLDNVEDRIRSRLGWGLVADVHSTTYELRVGILESKLEKMDIKISQNVIDFLASKITSNVRELEGALNKVIAHSTLVGREVTLESTQDILRDLLRSNERIINIEEIQKKVASRYNIKIADMSSARRLRSIARPRQIAMYLSKTLTSKSLAEIGSKFGKKDHTTVMHAIKKIEELITNDSDFREEITLLTRILQS;locus_tag=LOCUS_10130;gene=dnaA;note=Q59758 chromosomal replication initiator protein DnaA (Rickettsia prowazekii str. Madrid E) [pid:67.6%25%2C q_cov:95.9%25%2C s_cov:96.3%25%2C Eval:3.3e-172],MGA_1041
sequence46	MetaGeneAnnotator	CDS	7374	8528	.	+	0	ID=MGA_1042;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDB3;translation=MSENKNILEIVVQTKDLVHALSFASSVVEKRNVMQELSNIKLLSSNGVLEIGATDMDLYLNQNIGAEVISEGETTVSTQTLSDVVRKISDTEIRLKQIPDSDKLEITGSNCRFELLTLPAVQFPAMEDIDSKSSLKISCADFARIIEYTNFAMSSEETRYNLNGIYMHVKNGEFAGVATDGHRLSIASTKLNEKSDEFGVIVPRKSVSELLKIVKDTKYSQGDLQIFLSTTKIKFVCDNLVMISKLIDGTFPEYSSFIPEDNDNKLIINTKLLAGAIDRVATVTVDKFRAVKLSISDKEMFITASGEAKGAASETLKYSEEDSDFCNFSGSDVSIGFNPRYISDVLSALSEDQVEIYFKDAFSPVLIKTAENPNDNFVVMPVKV;locus_tag=LOCUS_10140;gene=dnaN;EC_number=2.7.7.7;note=Q9ZDB3 DNA polymerase III subunit beta (Rickettsia prowazekii str. Madrid E) [pid:53.9%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:1.3e-112],MGA_1042
sequence46	MetaGeneAnnotator	CDS	8641	9315	.	-	0	ID=MGA_1043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRPNTQETYTDQHSRIELVQQILDDLADNSNANIRQIMPRIWRYARAGDIINFGDKQITFFAAIKRMSNILDKFKPVLFELILSETRQLYIAEHAKDIDLQELLVLAQPKLERHLPTAIYNNQFGPAGAPDIEVANFNRDIHIIVRRLRDLDTQNVDQAIDINRDLMLLEEMGFVLPILRRFLGEVISNDPIKDDVDEAILLEIDDIESALIGDSKHDVDGEE;locus_tag=LOCUS_10150;note=MGA_1043
sequence47	MetaGeneAnnotator	CDS	1144	2469	.	-	0	ID=MGA_1046;product=tryptophanase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2S1V4;translation=MTNLLPPFKIKTVEPIFLSSMDERREWLKQASYNVFNLRSDQVMVDLLTDSGTGAMSAEQTAQLITGDESYAGASSHRYFSDTIGDITGFKHIYPVHQGRAAERILFTLLTDKTKIVPNNNHFDTTRANIEFMGAEALDLVEESNRDFKGNMDIKKLEALLEKKADIIPIIMITITNNTGGGQPVSMQNIKDVSNLAKKFNKPFFIDSCRFAENAYFIKTREEGYADTSIEDIAREIFSYADGMTMSAKKDAIVHIGGWIAANDDELAAKIENLLILTEGFKTYGGLAGRDLEAIATGMLSGMEFDYLDHRISQVKKLGKMLEDAGVPIIGPTGGHAVYVNAKEFLPHIPSDQFPGVALAVEVYIEGGVRGAEIGSLMFGKNAAKELLRLAIPRRVYGSEHIEHVASTFAKIKKRKDDIKGMKIVREPQCLRHFSALLDYV;locus_tag=LOCUS_10160;gene=tnaA;EC_number=4.1.99.1;note=Q2S1V4 tryptophanase (Salinibacter ruber DSM 13855) [pid:53.4%25%2C q_cov:99.3%25%2C s_cov:95.8%25%2C Eval:8.7e-135],MGA_1046
sequence47	MetaGeneAnnotator	CDS	2504	3862	.	-	0	ID=MGA_1047;product=sodium-dependent transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010958644.1;translation=MKQARKSWHNTTYFVLSAIGAAVGLGNIWKFPYAIGANGGGYFLLAYIICVFFCVLPILIAELAIGKYSKKNTIDAFKDLSRKYNLSKFWNYVPILGLVTALLILSFYTVVSGWSLYYLIISLTGKLSNVTTAESVEIWVNFSGSGELVILCHTIFTFLTAWFVSRGINSGLEKLNIIAMPILFILLLILIFYVAFENYDSFIKALRFIFSFDAGNVATSDILLSALGQAFFSLAVGIGAMIMYGSYLKDDTKLLSSSYIIVFAQLIVGLLSSVAIFSVVFTTSLSKISAGPELMFIVIPSIVSNMAYPQLMSLSFFVVLFIAALTSSVNIAELLIATLHEKMNISRKKSSVIIAIIVWLIGSLLSLSFNICSEFLIFEKFNMFEFTIHISTDYMLTIGGALIAIYAGWVLPKHLEMESFTDGNSCIAKIWVFLLKFISSVVPIIILIYPNN;locus_tag=LOCUS_10170;note=WP_010958644.1 sodium-dependent transporter (Coxiella burnetii RSA 493) [pid:37.6%25%2C q_cov:98.2%25%2C s_cov:96.9%25%2C Eval:7.5e-81],MGA_1047
sequence47	MetaGeneAnnotator	CDS	4114	4341	.	-	0	ID=MGA_1048;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE47;translation=MKKDIHPAYQKLKIKIGKDEFITGSTLKSGEILMDVDYRKHPAWNKEAGNVVNQSNKNVSDFNKKFGGLSFGMKK;locus_tag=LOCUS_10180;gene=rpmE;note=Q9ZE47 50S ribosomal protein L31 (Rickettsia prowazekii str. Madrid E) [pid:70.7%25%2C q_cov:100.0%25%2C s_cov:96.2%25%2C Eval:9.9e-25],MGA_1048
sequence47	MetaGeneAnnotator	CDS	4338	4631	.	-	0	ID=MGA_1049;product=50S ribosomal protein L28;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE48;translation=MSRRCELTGVAVQYGNNVSHSQRKTRRRFEPNVRSVIYTSEVTGEKYKLKVVAKTMRTIEKLGGLDAFMLKAKASSMSLRAKKLKREITKKVSGAAA;locus_tag=LOCUS_10190;gene=rpmB;note=Q9ZE48 50S ribosomal protein L28 (Rickettsia prowazekii str. Madrid E) [pid:59.1%25%2C q_cov:90.7%25%2C s_cov:90.7%25%2C Eval:9.8e-25],MGA_1049
sequence47	Aragorn:1.2.38	tRNA	4750	4826	.	-	.	ID=Aragorn_23;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00230;note=Aragorn_23
sequence47	Aragorn:1.2.38	tRNA	4870	4944	.	-	.	ID=Aragorn_24;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00240;note=Aragorn_24
sequence47	MetaGeneAnnotator	CDS	5163	6017	.	+	0	ID=MGA_1050;product=UDP-3-O-acyl-N-acetylglucosamine deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDS1;translation=MQQTLQNPISCYGIGMHSGRKTQVTLKPAPANCGIVFIRTDISQVDNRVFAQYSNVCDTTLSTSIKNIAGTQISTIEHLMAAIWGCGVDNIIVEIDGPEVPIMDGSSKPFVFMIEYAGIKAQNASKKHLKLLKEVYVTDNGCDLFAQPNDGLHIDLSIDFASPVIGKQKHSLVKKQNFRDEIADSRTFGFLHELDYLQSKGLAKGASLDNAIGIDKDVILNHDGLRHDNEFVRHKMLDLLGDLFNAGGGFIGKINGHKTSHALNNKFLHKIFEDPYAYRWVEDK;locus_tag=LOCUS_10200;gene=lpxC;EC_number=3.5.1.108;note=Q9ZDS1 UDP-3-O-acyl-N-acetylglucosamine deacetylase (Rickettsia prowazekii str. Madrid E) [pid:59.1%25%2C q_cov:98.6%25%2C s_cov:97.6%25%2C Eval:1.4e-94],MGA_1050
sequence47	MetaGeneAnnotator	CDS	6159	8327	.	+	0	ID=MGA_1051;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTNYKILEQNKSSVIQFADGIQSQPAPSNDEISSKYANVRRMISNADLSGAIQKLDEIKDNKIGIVWHESGDLGNGTKALVRDARGVTNNLDDLRNDAGEKYAMQILNGVRAGMQLLDQANLTPDQLETAKQKLMHVATTAVKNPSELNDKTVKEFNTQIIHTLEQTGIGTDISVADQLNFAKETANLHDDHKHIVTLTSAEDKSGKKHTVMEAEIMLNGLTKTQKEQYEAIAASKPGSPSGVEWFDKMPQHKQNLLRDVAPDIASGKKVIPTQLLGDAVGLRNAYQKVTAIKGPDQDKPKILSETLHCGAPATKIKVVDKEARQKIVDENIKQLQSFAPPGEKLNLNILNSKTPFNARNENFIFDQVKKGGKNIGASVSASPINRWRLLGGGRDTSQFKDNLGKIGGDLKDKPELENVAKHLNKGTSTFAKFAERITFGAYKSTETKAKIELEALSKKNPDLARDLGVAIESRNLADSSTLFANSQNVNLELTSKMNIVRNSVKHGALTNALKPETVKKYPNTVNFCKSGKDRTGYVQKKNTQRVVANHLGVDPKSELGQKNFLNQVAGGHTQEMAGIQGGTTGCHSIKTNPEFALNSEDKIANKIVNQKSSHFNSKIKTVKKEKKAAKVIESFEQSCKTAPKYSLPAAKTRPRSNTISSESTVSVTEKRSRSNAVGPKSEAAKIAANMRKSKLSTSTSKTSSSLPGKPPANKGSGLGM;locus_tag=LOCUS_10210;note=MGA_1051
sequence48	MetaGeneAnnotator	CDS	229	921	.	-	0	ID=MGA_1052;product=transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011140159.1;translation=MAPIEDIFCEIDDFCKEYYTKESQYILPNPERQRIRPCRLSASEIMTILILFHLSHYRTFKDYYHECVVKHLKPYFPEFLSYNRFLEVKSFVIPGLAMYMKHKAGIKTGIYYIDSTTLKVCRNQRIHQHKVFKDIAKRGRSSMGWFFGFKLHLVINHQGEIMSFCLTAGNVDDRKPMETLFKGLKGVGCGDKGYISKEVAQKLENKGLAMITKTKSNMKKLLDLSLRNIF;locus_tag=LOCUS_10220;note=WP_011140159.1 transposase (Gloeobacter violaceus PCC 7421) [pid:47.1%25%2C q_cov:96.5%25%2C s_cov:76.6%25%2C Eval:2.7e-52],frameshifted%2C insertion/deletion at around 249,MGA_1052
sequence48	MetaGeneAnnotator	CDS	1266	1511	.	-	0	ID=MGA_1053;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCI8;translation=MATKKAGGSSKNGRDSAGRRLGTKKGDGQGVVPGNIIVRQRGTKIRPGKNVGMGKDHTLFALTEGKIEFLSKRNHKLVNVV;locus_tag=LOCUS_10230;gene=rpmA;note=Q9ZCI8 50S ribosomal protein L27 (Rickettsia prowazekii str. Madrid E) [pid:78.8%25%2C q_cov:98.8%25%2C s_cov:93.0%25%2C Eval:2.9e-32],MGA_1053
sequence48	MetaGeneAnnotator	CDS	1523	1840	.	-	0	ID=MGA_1054;product=50S ribosomal protein L21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCI9;translation=MFAVVKTGGKQYKVARNSVIKVEKIEGTLGSKVELDQVLMLGESSKASFIGTPIVKGAKVTAEITNQFRDDKIIIFKKKRRQNYRRKSGHRQSLTELKILDIVKK;locus_tag=LOCUS_10240;gene=rplU;note=Q9ZCI9 50S ribosomal protein L21 (Rickettsia prowazekii str. Madrid E) [pid:78.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-41],MGA_1054
sequence48	MetaGeneAnnotator	CDS	2241	2996	.	-	0	ID=MGA_1055;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDNSPVEQLIDERMNALVENYMGNPNGIPKQEIQKQLEAAFQDAHSQGLISDTELQDLTHREEIMESIPQEARVEIENTGKEFVPKVHPSVIKEYQEGIEAFESAGLNEAAEDMRKKMMENCYQEVGTGKINEIAQPDKIVGTGKFKSSKLDNAVDKVMEGKESISVPKFKETVWQKIKNALHIGKGHEARKQEHIQKFAKDSIKSGIPKDVLDKAKSIGTKARTSNTNSPTKKTANSKPISRGAGGRGT;locus_tag=LOCUS_10250;note=MGA_1055
sequence48	MetaGeneAnnotator	CDS	3042	3803	.	-	0	ID=MGA_1056;product=organic solvent ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599741.1;translation=MKDNLKFKIRDLNKSFGTHHVLKGIDLDVKKDSSLVILGGSGSGKSVLIKSMIGLLRPDSGSILFNGAESINFTNKERLKMLESCGYLFQAGALFDSLNVQDNITFFAQKKLSLNKTDTRDLACRKLRSVGLEERILDLFPSELSGGMQKRVALARAVATDPKVIFFDEPTTGLDPIMSNVINDLIIKVRDELGATTITITHDMQSARKIAKEVAFLFEGRIVWNGEINDIDEAENPRFQQFINGYTEIPETL;locus_tag=LOCUS_10260;note=WP_004599741.1 organic solvent ABC transporter ATP-binding protein (Rickettsia prowazekii str. Madrid E) [pid:57.8%25%2C q_cov:98.4%25%2C s_cov:97.6%25%2C Eval:2.0e-75],MGA_1056
sequence48	MetaGeneAnnotator	CDS	3803	4576	.	-	0	ID=MGA_1057;product=putative ABC transporter permease protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE51;translation=MLSAIQSLGGRTIDSLRNLGVLSIFISKTILSFTKRPYYFGLILRQFIVIGYYSLPVVAMTAFFSGAVLALQSYTGFSRFSAESSIATVVVLSITRELGPVLAGLMVAGRVGASIAAEIGTMRVTEQIDALYALSTDSIKYLVAPRVLAAVITLPLLVLIGDIIGVMGGYLVSTHKLGFNSSSYIISTVQYLESIDVISGLVKAAAFGFIISVMSCYHGYYSDKGAKGVGNATTSAVVSSSILILISNYLITEIFFS;locus_tag=LOCUS_10270;note=Q9ZE51 putative ABC transporter permease protein (Rickettsia prowazekii str. Madrid E) [pid:69.9%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:5.3e-95],MGA_1057
sequence48	MetaGeneAnnotator	CDS	4604	5698	.	-	0	ID=MGA_1058;product=alanine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89MX2;translation=MQSSKPTLRINLKNLQHNFEELKKACPSSDVGAAVKADAYGLGVHKVAPILLNSGCKHFFVANCEEGIELRSIVGGDANIYVFHGVFHDEAEAFLQYGLVPVLNHLEQIKIWQEYANSLKRNLPCMIHIDTGMHRLGMQETEITELNLDTHTKNLDILCVISHLTSAEDIDSNRNKNQLERFNKLSKKFTNSAKSLANSSGIFLGPDYHFDLTRPGAAIYGIDPTPYMNNSVIKPVASLFAPIIQINTLLPGETVGYNGTYTNTGKKSCSIATIPVGYADGFLRHFSNKGKVIIGEYEAPIIGRISMDLTIIDMTNIPRNLLHLGQKVELLGENLTADKIAKLCSTNGYEILTSLGSRYERIYS;locus_tag=LOCUS_10280;gene=alr;EC_number=5.1.1.1;note=Q89MX2 alanine racemase (Bradyrhizobium diazoefficiens USDA 110) [pid:39.6%25%2C q_cov:97.8%25%2C s_cov:84.4%25%2C Eval:3.0e-66],MGA_1058
sequence48	MetaGeneAnnotator	CDS	5700	6206	.	-	0	ID=MGA_1059;product=phosphopantetheine adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8GVE7;translation=MTNKIIGIYPGTFDPITNGHADIIARASKITDTLILAISENSGKNPMFSIEDRCFMANLYLNKYDIASNVEVMKFDGLLTKFASSVNAKFIVRGLRAVSDFEYEFQMACMNSRLDETIETIFLPASEKNQFISSRLVKEIVSMDGDISAFVIPEIRQRLIEYYKNNGK;locus_tag=LOCUS_10290;gene=coaD;EC_number=2.7.7.3;note=B8GVE7 phosphopantetheine adenylyltransferase (Caulobacter crescentus NA1000) [pid:52.9%25%2C q_cov:92.3%25%2C s_cov:95.1%25%2C Eval:1.5e-41],MGA_1059
sequence48	MetaGeneAnnotator	CDS	6429	8540	.	+	0	ID=MGA_1060;product=flagellar biosynthesis protein FlhA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388297.1;translation=MFDILKRITDYGDIALACSVVGILMVLLFPIPTSLLDFLLAFSIGSAFVILMTTLFILKPLDLSVFPTILLVTTLLRLSLNIASTRLILSKGHGGSDAAGEVIEAFGGFVMQGNVVIGMIVFLILTLINFIVITKGSGRIAEVAARFSLDAMPGKQMAIDADLAAGLIDEKTAKSRRKELEDESTFFGAMDGANKFVRGDAIAGLIITFINLIGGMVVGILQKGLTFDVAVQTYTILTIGDGLVSQIPSLIISMSAGLLVTKAGASGTADKLIFGQLGKYPQALMMTSVVTGLMAFLPGLPFIPFAIISGVIGGAAYAIYNMNNQDGLATSYGAAGSAPAMAGTGNVGEGEDAGSGEDSEKISDVLQIDLIRLEIGYGLMSIVNNNNGHNLTEQIKGLRKQIVQEYGFVMPAVRIQDNIQLDTDTYVIKIKELEAGRGVVRPGKLMIMDPQGSDIDIPGESTKEPAFGLPAKWIDESYKEEALFNNCTVVDPSTVITTHLTEQIKENITDLLSYSETQKLLDKLGDEHKQLVKDVIPDIVSVATLQKVLQNLLSEMISIRDLPNILESIADAARANKNLMAMTEAVRVQLSRQICHHNTNRDGFIPIVALSPEWERVFIESLVDDGSGDKQLSMQPSKLQEFVKSVKKAFDDQAIKGHIPVLLTSAYTRPYVRSVVERFRPATVVMSQNEIHYKAKIRTLDSI;locus_tag=LOCUS_10300;gene=flhA;note=WP_011388297.1 flagellar biosynthesis protein FlhA (Rhodospirillum rubrum ATCC 11170) [pid:55.2%25%2C q_cov:99.4%25%2C s_cov:95.1%25%2C Eval:3.2e-217],MGA_1060
sequence49	MetaGeneAnnotator	CDS	815	988	.	+	0	ID=MGA_1061;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC89;translation=MSKKKSKNLLVKLVSTAGTGYYLVKKRNPKTLTEKLSFRKYDPKVRKHVEFKEEKIK;locus_tag=LOCUS_10310;gene=rpmG;note=Q9ZC89 50S ribosomal protein L33 (Rickettsia prowazekii str. Madrid E) [pid:78.8%25%2C q_cov:91.2%25%2C s_cov:92.9%25%2C Eval:2.2e-16],MGA_1061
sequence49	MetaGeneAnnotator	CDS	1001	1345	.	+	0	ID=MGA_1062;product=30S ribosomal protein S16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC90;translation=MSVKIRLARGGAKKRPYYRVVIADARAPRDGSFIEKIGTYNPLLKKEDGDRVTFKADRVEHWLSKGAQPTDRVAKFIKAAGIKLPESILKKMAVKEKAQTKKPSKKELKEQAAS;locus_tag=LOCUS_10320;gene=rpsP;note=Q9ZC90 30S ribosomal protein S16 (Rickettsia prowazekii str. Madrid E) [pid:62.7%25%2C q_cov:96.5%25%2C s_cov:99.1%25%2C Eval:2.5e-36],MGA_1062
sequence49	Aragorn:1.2.38	tRNA	1430	1504	.	+	.	ID=Aragorn_25;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_25
sequence49	MetaGeneAnnotator	CDS	1706	2824	.	+	0	ID=MGA_1063;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKLSKKILFIITIFFSFRVLASDLVDDQYVRGYISSLFRNSYNITEESFSYKNGILTLDKNYTGGENPEIFIEKITTNTKHIKKIKKIVWKDEISKNISNKNASSKKKKRRPFLENLSMPSGYLFQPLIADPSWPRFTLSYQYYTRDKYSTHVFAPNFGASFGLLKFTEEDNSESWELGVQAGLFAIMDIGSKPTALINADYYVGLPLTYSSGAYSQMFKFYHLSSHLGDEFMLTKEGKKIKRINLSYEGIDALFSYYFGKIRVYGGGGYLVHKEPNFVKRGKVQCGLEYISETTFLNDMLRPVSAIDFKFLESTKWSSQISIKTGIQFENHNSFSKKVQLMLEYYQGNSIHGQFFRNKVQYFGIGLHSFI;locus_tag=LOCUS_10330;note=WP_009873776.1 hypothetical protein (Chlamydia trachomatis 434/Bu) [pid:30.2%25%2C q_cov:65.6%25%2C s_cov:60.5%25%2C Eval:3.7e-27%2C partial hit],MGA_1063
sequence49	MetaGeneAnnotator	CDS	2838	3680	.	-	0	ID=MGA_1064;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599493.1;translation=MRCSSYCVAESYEISEKNVNFEKYNYKCEIIDKVMHLQNINRANQKNIDIFVFSFGCCIIWNASDEDEELRILKTLENCQLKALEELHSEFIDFNYNVKGDRSYIDEEKNIIFLASTETLIKLSVSHALAQAVKLNVLEESVTKLLENTKPIQQELAEKGRVSLSKSEISKQLGVLFSSRYSVNMHSDILDTPEFFWRRPRYEPIYLMTVEFQDIGTRQGILNNHLNLIQELYNMLSSDLDHKHSSRLEMVIIILIAIEIFIALYKEGFLETIISALFRI;locus_tag=LOCUS_10340;note=WP_004599493.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:49.5%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:1.9e-72],MGA_1064
sequence49	MetaGeneAnnotator	CDS	3816	4289	.	-	0	ID=MGA_1065;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886378.1;translation=MNRNIILSILTVFIAFSSYAVPKKLPVPRYVTIKFNEVNARTGPTEDCPIEWVFIKKGEPVEVIAEYDQWRKIRDINGEGGWVHSRVISGNRSVVFVAKNTMPLVASPGKYDQIVAKLTPQIRCSLHRCEKDWCKVSCRSYKGWIARKFLWGVYPDE;locus_tag=LOCUS_10350;note=WP_010886378.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:53.3%25%2C q_cov:95.5%25%2C s_cov:91.0%25%2C Eval:2.2e-46],MGA_1065
sequence49	MetaGeneAnnotator	CDS	4282	5982	.	-	0	ID=MGA_1066;product=potassium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599662.1;translation=MLIATAVFVVAIFKRLNLSPVLGYLVAGALIGDNGFKVVTYDQTSLLGEMGVVFLLFAIGLELSIERLKAMRRYVFGLGSLQVLITSVIISGAVVLVSGDYNAAIIISGGLALSSTAIVMQVITETKSQSMQVGRVALAILLLQDFVVVPLLVIVPILGSGAGVESLPMILGNSLLKAVLALGVIFIAGRVLLRPLFSFISPDHNESSELPIAVTLLVVLTASWGTEHFGLSLALGAFVSGVLVAETDFRGKAEESIYPFKSLLLGLFFMSVGMKIDVWEMYEQIYNIVTFCIALIVLKTTIIAALCILFGFNRGVAVHAGLLLSQGGEFAFILFGLGKEFGVLEEGISNILLLVVTCSMALTPLLALAGQKFAERIEKGLGRTPNQIIEYGARDLANHVIIAGFGKVGKMVARVLEAEGINYIALDVNDEIVREEIANGLPVFKGDASLTATMRAVGADRALTLVVTVNNEVTVKKISKMVNGKFSNLEVIVRLKDLKNSTEMYNQGVTTIIPQDCETGLQLGSAVLKSVGISEYELNRIKDQFRAGNYEIVMQHDNMLEAEENE;locus_tag=LOCUS_10360;note=WP_004599662.1 potassium transporter (Rickettsia prowazekii str. Madrid E) [pid:66.3%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:3.9e-210],MGA_1066
sequence49	MetaGeneAnnotator	CDS	6046	6375	.	-	0	ID=MGA_1067;product=ribosomal silencing factor RsfS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCE5;translation=MNLSKEELRDFILKCLEEKNAVNISCIKIENETPLAEYMIFASGRSVRNIKAIAEFTSIELKKELNWRADIEGLKGSDWILLDAGDVIVHLFHPEAREHLKLEELWDKK;locus_tag=LOCUS_10370;gene=rsfS;note=Q9ZCE5 ribosomal silencing factor RsfS (Rickettsia prowazekii str. Madrid E) [pid:48.1%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:2.0e-25],MGA_1067
sequence49	MetaGeneAnnotator	CDS	6376	6981	.	-	0	ID=MGA_1068;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSTQKIYGLQELSFLNNSKVKVGVLGGTFDPAHSGHLMISKRALDFYNFDYVIWLVANQNPLKKKNERNIFKRAEQSLSIVDDDRILVSIVEHDFDTQYMYDSMSCLIKHFPNVEFTWMMGIDNVVDFPKWHRSREIPKLCNIIIFDRPCATRDVNPKDFGLKPTGNLDNAEVHNIIIDRNDLYDISSTQIRQKQKELEL;locus_tag=LOCUS_10380;note=P54455 nicotinate-nucleotide adenylyltransferase (Bacillus subtilis subsp. subtilis str. 168) [pid:33.8%25%2C q_cov:64.2%25%2C s_cov:69.8%25%2C Eval:3.9e-14%2C partial hit],MGA_1068
sequence49	MetaGeneAnnotator	CDS	7025	7255	.	+	0	ID=MGA_1069;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCE4;translation=MAISETKLISILQQSFPNAKIKITDLAGDQDHYSLDITCTSFKGLPLIKQHRLVKDALSEVLEKELHAITIKTRDE;locus_tag=LOCUS_10390;note=Q9ZCE4 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:63.0%25%2C q_cov:96.1%25%2C s_cov:94.8%25%2C Eval:1.2e-19],MGA_1069
sequence49	MetaGeneAnnotator	CDS	7277	7942	.	-	0	ID=MGA_1070;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGKIFVSKNIFNIALLIIISILVSACQGGGSSRKSHAKTYRYLSKEDRGNNKYLGHYKVGKPYKIKGKRYRPREVSRYTRAGVASWYGKRHGFHGRKTANGDIYNKEMLTAAHKTLPLPSLVKVTNRENGKSVIVLVNDRGPFVRNRLIDLSERAAARIGMRNKGTAKVRLQYLNSETMRFLRTLGLQKKTGSRAKRSLRNQRCTVNCHIKLVNMKYKLM;locus_tag=LOCUS_10400;note=Q9ZDE1 endolytic peptidoglycan transglycosylase RlpA (Rickettsia prowazekii str. Madrid E) [pid:52.3%25%2C q_cov:92.3%25%2C s_cov:66.9%25%2C Eval:6.8e-58%2C partial hit],MGA_1070
sequence49	MetaGeneAnnotator	CDS	7932	8663	.	-	0	ID=MGA_1071;product=BON domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886282.1;translation=MSLYIMKNVCLNIILFTLSIFLLSGCLPTLFAGAAGTTMEFAKDRPAGDTLTDVRISTAIKGAFLKNNFRNLYSKIKIEVVQGRVLFTGDIDKEEDAITAVQIAWNQEGVTEVINELKVDKNSNKFNIVQYTRDALITSQIKSKTFMNRDIKFVNYTVITINDIVYLFGIARSEEELEKVASIASNISGVQKVVSHVKVQKLARKTKSGSNNLDSTSVDSDGSSEYLIDQGEDLTLENVGNDW;locus_tag=LOCUS_10410;note=WP_010886282.1 BON domain-containing protein (Rickettsia prowazekii str. Madrid E) [pid:53.3%25%2C q_cov:87.2%25%2C s_cov:98.6%25%2C Eval:3.6e-58],MGA_1071
sequence50	MetaGeneAnnotator	CDS	317	877	.	-	0	ID=MGA_1072;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNYKIYAPLVLVMGMLMFLLNYCTKIAACAFVFTLLMLTVNTISKIFGFKRALQTISAYVGINILFLADYDYTFGGQVFEYLVPTSLLAVLFASLALMKTTAMLEGKIGALKSTFIALISAAVIDGVAMSVYFANYLSASTIGPIVLKEISFKCLYAFVILSAIKLVSAALGKYEFQDFRFKLRN;locus_tag=LOCUS_10420;note=MGA_1072
sequence50	MetaGeneAnnotator	CDS	1145	2017	.	-	0	ID=MGA_1073;product=succinate--CoA ligase [ADP-forming] subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RV32;translation=MSILINKDTKVICQGFTGSQGTFHSKQAIEYGTKMVGGVTPGKGGQTHMDLPVYNTVKEAIDKTGANASVIYVPPPFAADSILEAIDAEIELAICITEGIPAIDMLKVKRALAGSKTRLVGPNCPGVITPEECKIGIMPGHIHRKGKVGIVSRSGTLTYEAVAQTTAVGLGQSTCVGIGGDPINGTNFIDCLDLFIKDDETEAIIMIGEIGGTAEEEAADFIKQSKTKKPVVGFIAGVTAPPGKRMGHAGAIIAGGKGSAGDKLEALKSAGVVVSDSPSDIGKTMQKLLG;locus_tag=LOCUS_10430;EC_number=6.2.1.5;note=Q2RV32 succinate--CoA ligase [ADP-forming] subunit alpha (Rhodospirillum rubrum ATCC 11170) [pid:74.7%25%2C q_cov:98.3%25%2C s_cov:97.6%25%2C Eval:4.9e-127],MGA_1073
sequence50	MetaGeneAnnotator	CDS	2037	3194	.	-	0	ID=MGA_1074;product=succinate--CoA ligase [ADP-forming] subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05966;translation=MNIHEYQAKQVLNKYGVPTSSGIVALKEEEIDELMKDFDADLYVVKAQIHAGGRGKAGGVKVVKDKEEARKQAHEMFGKTLVTHQTGPDGQVVKRVYVESGCDIEKEYYFSAVLDRATSRITFMASTEGGVDIEDVAEKTPEKIIKVSVDPATGLQPFHCRSLAFGLGFSGDQAKQMMKMVSCVYDAFVSTDASQVEINPLVVTTEGNLLALDAKMNFDENGLFRHPEIAALRDEDEEDPLEVRASKHDLSYVRMDGNIGCMVNGAGLAMSTMDIIKLYGAEPANFLDVGGGADTERVTEAFKIILSDKAVKGILVNIFGGIMRCDVIAEGVVAAAKEVGVDVPLVVRLAGTNFELGKEILANSGLKIIAADDLGDAAEKIVKAI;locus_tag=LOCUS_10440;gene=sucC;EC_number=6.2.1.5;note=O05966 succinate--CoA ligase [ADP-forming] subunit beta (Rickettsia prowazekii str. Madrid E) [pid:70.1%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:2.0e-153],MGA_1074
sequence50	MetaGeneAnnotator	CDS	3311	3802	.	-	0	ID=MGA_1075;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIEKFAAAKVLILHPTEDKLLLVSRVIDGQVVFEPAGGRLDVDFDQKIAETFEECAIREAKEELNLDIKLGAYVGNYHFFWERVPDPSIRAFTICNVYMAESISDFAQLNKVGDLESAPVYPQWVSYESILNGKIPFADSCIGLRDIIYSVVKNTKSRLEVV;locus_tag=LOCUS_10450;note=MGA_1075
sequence50	MetaGeneAnnotator	CDS	3853	4575	.	-	0	ID=MGA_1076;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKLLTLIIFAITFSFSNAYADDDKRKGAHLNISASESVEVEEDLLVVNLRFETEGKNPQEVQKAINDKITTALAEVKKYKKIKVSTEHYSVYKYSPRVKKGEKRRTIWKGSQSMQLKSKDSAEILKTTGILQSMGLAVNGLNYVVSPDLREETRDSLMEKSVEKLLSKAKRVAKVLGKDEIEVLNINVDSNNYYPSPMPMRASGMTMKSMDAESVPVASPGQSRISTTVSATILIKDD;locus_tag=LOCUS_10460;note=MGA_1076
sequence50	MetaGeneAnnotator	CDS	4597	6237	.	-	0	ID=MGA_1077;product=DNA repair protein RecN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDY2;translation=MLQSLHIKDFILIEKLELDFSEGFTVITGDTGAGKSILLDSILFCLGEKFSGNPVRPGGENCSVSCIFSTNKKTNQFLESHDIESDEQIIIKRTQNNQARKKFFINDQIVSVKILQQLFDFLLEMHGQHNHTLLLNTNSHMEILDGYGGLASLKSQISKIYKEWQNVEKQISEFAKNKSNLEDETEYLKHICDELEKAEIKIGEEQELADIKKRLQNKDKEVKLLDNIISEIEESSFSQIIARAQRALAEIEDNTALAQINADLELAYDKIEDSKSALNSVIRNYDLSEYSLEEIDDRLYEIRDLARKHNVRVDELPEFLNKSKERLYLLEATISDSSELEIKAENYKKEYFVNAKLLSEKRNKAALNIEKKTMSELAFLEMKKAVFRVEFETDEQFASANGMDKIRFTASTNPGMALLPIDKVASGGELSRFMLAFRVALFDSAPKNTIIFDEIDVGISGSVAESIGQRLNLLSKAVQIIVITHQPQVAGKADSHILVEKLQGDDHTHVNAKILQEEDKSLELARMISGKTITKAGIDAAKELIT;locus_tag=LOCUS_10470;gene=recN;note=Q9ZDY2 DNA repair protein RecN (Rickettsia prowazekii str. Madrid E) [pid:45.0%25%2C q_cov:99.8%25%2C s_cov:98.2%25%2C Eval:4.6e-128],MGA_1077
sequence50	MetaGeneAnnotator	CDS	6242	6982	.	-	0	ID=MGA_1078;product=outer membrane protein assembly factor BamD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDY1;translation=MKIIRSLFIVTALISLVACQSKSKDADKIVPAQELYNLGIKELEAKNYGKASNAFEKVFFQHPGNSITADAELMQAYALYLDGEYDEVGDVLDIFLKLHPRHKDVAYAYYLKALANYVQISNVKLDQSRTRYAKEGLEEVIRRYPGSKYAIDAALKIDLVNDHLAGKEMLVGRYYLKKRNPVAAIKRFQTVVEEYDTTTHIPEALHRLVESNLMLGLADEARKYAGVLEHNYPQSKWTDFSKKLLK;locus_tag=LOCUS_10480;gene=bamD;note=Q9ZDY1 outer membrane protein assembly factor BamD (Rickettsia prowazekii str. Madrid E) [pid:52.7%25%2C q_cov:99.6%25%2C s_cov:96.8%25%2C Eval:7.7e-72],MGA_1078
sequence50	MetaGeneAnnotator	CDS	7080	7253	.	-	0	ID=MGA_1079;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGVSLLQLLVILLIVLLLFGAGKLPKVMSDLGKGLKSFKSAINEEEKKDDSSGEDKK;locus_tag=LOCUS_10490;note=MGA_1079
sequence50	MetaGeneAnnotator	CDS	7344	7784	.	-	0	ID=MGA_1080;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILKKREKAVTDPQEMKLKFAERKAKTRHLIETGGLVVKAGLDHLPNNALYGALLSIKEELEKNDLVMAAWVVKGEKELNKEQMESVSVILNFETQPEKEMRDQIRSLGLRWNNFRSEWYGTIDDIKLLKKLVSNHKHKIEILGD;locus_tag=LOCUS_10500;note=WP_013525231.1 conjugal transfer trad family protein (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:38.6%25%2C q_cov:45.9%25%2C s_cov:72.2%25%2C Eval:2.9e-07%2C partial hit],MGA_1080
sequence50	MetaGeneAnnotator	CDS	7845	8357	.	-	0	ID=MGA_1081;product=NAD(P)H-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000497611.1;translation=MQSKYVIIFGSSRSNGHTRKAVDIAFENVDHEFIDLQHFSISEFDYEARNHDDDFLSVIEKMRAYDHIVFATPIYWYGPSSKLKIFLDRFSDLLKDPLKDIGRSLRGKKIYVVSSNGTAASPTFEKQFELICEYMSMDYIGCYNHHSGEDKQQLSDSEQSLIAFRKKISS;locus_tag=LOCUS_10510;note=WP_000497611.1 NAD(P)H-dependent oxidoreductase (Bacillus cereus ATCC 14579) [pid:31.5%25%2C q_cov:79.4%25%2C s_cov:79.6%25%2C Eval:4.2e-15],MGA_1081
sequence50	Aragorn:1.2.38	tRNA	8394	8468	.	-	.	ID=Aragorn_26;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_26
sequence51	MetaGeneAnnotator	CDS	457	1110	.	-	0	ID=MGA_1082;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLPTTTKTLNFLNKLFDTNTDFSETHSDEFFETFKQEQNPYLTILKCSDSRVQMESFDKTPQNGVFAIRNIGNQIHTSEGSIDFGVRILKTPFLLIVGHSGCGAVECTIKNVKTNIEAIDRELSTIKLKSTSMEEAIVENINYQVEKALSKYSDKIENGELTVFGAIYDFQNEFGFGSGKVVLTSINGENNSETVKGLYKEHVKNFNILDSDFFTN;locus_tag=LOCUS_10520;note=Q887F6 carbonic anhydrase ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:29.3%25%2C q_cov:79.7%25%2C s_cov:73.6%25%2C Eval:1.6e-11%2C partial hit],MGA_1082
sequence51	MetaGeneAnnotator	CDS	1127	1876	.	-	0	ID=MGA_1083;product=ubiquinone biosynthesis O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCT9;translation=MNNVSSIDDKELKKFSKTSQEWWDLNGEFKALHEINPVRIEYIKSVILKHFNITDSLTKPLENIKILDIGSGGGLVCKPMYEFGGDVTGIDANEHNIKAATAYAKEHNLNIKYVNSTVEEYAPAHKAQYDVVLCLEVIEHVANPIEFAQNISKLVKRDGILIFSTINRTLKSFAQAIIIAEYVLGWVPKNTHKHSKFVRPSELVSMLKDTSLSLSELKGLKLSLPNKIWQLTDDIDVNYFAVFKNLSLK;locus_tag=LOCUS_10530;gene=ubiG;note=Q9ZCT9 ubiquinone biosynthesis O-methyltransferase (Rickettsia prowazekii str. Madrid E) [pid:49.8%25%2C q_cov:95.2%25%2C s_cov:90.5%25%2C Eval:8.1e-61],MGA_1083
sequence51	MetaGeneAnnotator	CDS	2028	3221	.	+	0	ID=MGA_1084;product=aspartokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RWE8;translation=MAIIVQKFGGTSVADIKRIKNVATIIKSEYMAGNQLVVVVSAMAGVTNSLISKCSQVSDLNSFQALREYDVAIASGEIVTSALLALELQKLKLNAKSMQGWQVPIRTDDVHGNAQAIDIPSDSLKNLVADGIIPIITGFQGITNEGNITTLGKGGSDTSAALIAASLQAERCDIYTDVDGIYSADPRVVHDAKKIDQINIDELCILCSSGAKVLHPRAALAAKRYGFKLRILSSFNMNDGTIIEEKKSHMEKRKVTAITSNKNLLKIDISHKDTNLADLCKVFADNAIQIEQMNNIDNSNSYIISNLSDKAKCFPILEDLKNNSKIVNYNLNTNISTVTIVGYGIKNDSSLTWQVIDILNSNKIKIISSQADDIKMSILINDQDNEKVIKLLHGSFC;locus_tag=LOCUS_10540;EC_number=2.7.2.4;note=Q2RWE8 aspartokinase (Rhodospirillum rubrum ATCC 11170) [pid:35.9%25%2C q_cov:99.7%25%2C s_cov:98.8%25%2C Eval:1.3e-70],MGA_1084
sequence51	MetaGeneAnnotator	CDS	3242	5266	.	+	0	ID=MGA_1085;product=potassium-transporting ATPase ATP-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q2RV88;translation=MKKRKSTKIHNIFFDALLKMRPKHLINNPMLFIVFIFACIATALFLKEVKLANGHIGLYFQMTFWIWMTLFFSSFADSYAESKMHYHDEDEDDIKSKSYIKKVANIDNIKNFKKLDYHEVKSGNLILLKSGDTVPFDGKIVRGRCYVNETDITGDLESQFKDCNNGDILTAGSIIQGSDSVVLKVSFAKNISFFARAAKRIKGISRESLPSEIALQRLILGLSILFMSVIFTVWVIAKYSGFNIPAIYLIDLVVILLPTTISGLQHAIIIFGKAKLSKHGIVVHDLVSLDNVVDANIIILDKTGTLTVGQRQMTGFTLLSKLSEEEYLEYLFLSSVEDKTIEGEGVKEYALRKLIKTPELIEREYKYFPFSSSKPISGCNYKGTHIRKGSVSEICKYIGKKESKLPVVIKELITSIAKSHGTPLLLAVNKEIIGVIHLRDRFRKGVQKQVDRLHKQGVKVIMVTGDNEQTASYVSEKLGIESFHFDATPEKKLEIVQSLQEEGYIVAMCGDGINDSLALAQSDIGFTFEGTKDLHPIMAGNIISKTHDLSALLELKNTCKKMTVKRGALTVFSLASDIAKYFVIVPALFTTAFPPLAILNFMNFHSLESVVLASVMFNSLVIFVLTPVLFKDFNKPKSKYSLWLGIVFYGIGGLVSPFICIKIIEIFILSVGLL;locus_tag=LOCUS_10550;gene=kdpB;EC_number=3.6.3.12;note=Q2RV88 potassium-transporting ATPase ATP-binding subunit (Rhodospirillum rubrum ATCC 11170) [pid:32.6%25%2C q_cov:97.8%25%2C s_cov:96.6%25%2C Eval:1.8e-108],MGA_1085
sequence51	MetaGeneAnnotator	CDS	5263	5793	.	+	0	ID=MGA_1086;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNIFASLALYVVCLAFICIYCGVVYFAGHTFWQDNAKGSLIYDENRNIRGSILLAQKLEKKKYFSPRTKEKFDSSCDVALYNDDLKKSLLERYKEADDPYDISSIMPSSSLLDPYIMKRDAIKQAIQIAENRGIDSDVLLRLVEDNSLNNSEPFFELEIVNTTILNAILAGYSE;locus_tag=LOCUS_10560;note=MGA_1086
sequence51	MetaGeneAnnotator	CDS	6016	7392	.	-	0	ID=MGA_1087;product=sodium:pantothenate symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886329.1;translation=MIDIIIVFSYLILLLFIGIFQRSKQDGFKNFSRATGSTIQKSKLILVATIFASTIGGGTTFGIAEKTFADNISYSYGLFLVIPVDLAIAYYIIPRIIKHYGAESVGDIMDVYYGSVGRYIAGLSSILVSVGLVAAQISVSGRIFEYILQINYIYGVILSYGIVVVYTTIGGFRSVLFANQLQFFAILFAIPVISIFGIYELGISNFIESIPHEKVSLFNNEDLLTATISAALGFAVMNMFPTFIQRALINKNNASTSKAIYIKSIIYAFFLVFITINGLLAFAIFPNAKASLALPQLIDHIIPVGIQGFVVVGLLAAVMSTADSDLNITSITLVKDFLKPIFKISQQNRMLFFVRIINVLIGSLAIIIALCFDRVADLVIFIAGFWGPVILTPLIFALFNIVISKKAFAISCLAGAIGFIGWETIFSTSINFKGVFVGTVINLVCFILFYLCGSRDNK;locus_tag=LOCUS_10570;note=WP_010886329.1 sodium:pantothenate symporter (Rickettsia prowazekii str. Madrid E) [pid:55.3%25%2C q_cov:98.5%25%2C s_cov:97.4%25%2C Eval:3.0e-138],MGA_1087
sequence51	MetaGeneAnnotator	CDS	7385	8665	.	-	0	ID=MGA_1088;product=putative transporter AmpG 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD69;translation=MLTKKKFLIVWLMGLMSGFTLMITGNTLNFWLAIEKIDIRTIGIFAIVTMPYALNFIWAPIFDVVKVPILDRLFGQRLSWVITIQILLSASIYLMSIFNPTEDILKIASAAVLVSFLSSSQDAALGGIRTEIVKKKDQVAISGVYIFGYRIGMVLSNAGAIFISQYISWNLVYELFSVIVITFPILLILLSNDIKPARFKLDNSLDLISIKSKNKFKKFISIISKVTRPVGSPKYIIFVLIFLVLYRLPDNFISMMINPFLIHIGYPAVTIATAGKLFGTISALIGGLLGSYIMRKSNVFDSLLLFGSIHAIAHILFVVQDICGQNIYLLFIVTGFESISGGITMTAYIAFIATLCDGKFRSTQHAFFSSMMGLSRSIFPALSGYMVANLGWTVFFLFTTIATVPALIMILHLEKLHNKTEQESYD;locus_tag=LOCUS_10580;gene=ampG1;note=Q9ZD69 putative transporter AmpG 1 (Rickettsia prowazekii str. Madrid E) [pid:44.0%25%2C q_cov:97.2%25%2C s_cov:99.1%25%2C Eval:2.1e-109],MGA_1088
sequence52	MetaGeneAnnotator	CDS	1525	2208	.	+	0	ID=MGA_1090;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEB5;translation=MSEVDDKKRKRDEEFESILDIIDPHIKNKFESELSHIFEDMEKDDDLGAAVDKLIDECSELTELQSKLILLIQEHLKKRKKELDPKKAEGVDADEEKIARDAEELCRKLLKDVDEELDPTLGRISRKDRAHILSLEAKKNIKRIMKNFAVYEVYKVMNPKRIAGETAKDNYKHNLIEGGEKLASRYEGGKESDLKRYGSVEVAQLKRQVAAFKKGGGGMDRGGGIGR;locus_tag=LOCUS_10590;note=Q9ZEB5 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:34.9%25%2C q_cov:92.5%25%2C s_cov:94.1%25%2C Eval:1.4e-29],MGA_1090
sequence52	MetaGeneAnnotator	CDS	2212	2919	.	+	0	ID=MGA_1091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILTYSVIFIFGLLIGNFATTLLYRLPRDIIPYGFSRKGMKPPFCSKCKHALRFYEYLPVLSWVSTRGICNYCHEKVSNSYFYLEVACGVFAILCAYLYSQNIDIFFLKFCFCVTASLSIAIYAEHNKVSRVLTIALIAEAAFFRTLQDQSIISWVVAFSFGAIFSMLLFQMQDNRQLREETIHIILPTSILIDGYYLFFILMIFALLYFLRKNLYNGLSFYNFCIVIVLAFSFL;locus_tag=LOCUS_10600;note=WP_010881038.1 prepilin peptidase (Aquifex aeolicus VF5) [pid:34.2%25%2C q_cov:49.4%25%2C s_cov:43.3%25%2C Eval:3.9e-14%2C partial hit],MGA_1091
sequence52	MetaGeneAnnotator	CDS	3059	4195	.	-	0	ID=MGA_1092;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCJ2;translation=MHNIKQKILKFIISFACLFFITSCDQVKNFTDFKNVLGKNVVDIAILLPMTGPEAELSKEYAKMIKIGLSDGVKTKIRVTTYDSTNQAKLNASIDKILDIGTDIVIGPIYSETTKTVAQKVKDKSTIVLSLSNNPVLAEKNVYIYGHAPMRQLEQITNYFLDHKYQNYIALLPAGRYSTTVSKILNDMITNRGGTLARVEFYGGAPEDMAKSVHLVSDTVDNLNENDLNLKQPVILIADDPATLEVLYSNAKNLHLDKRAIIAGDSRIDIDFTPPIDVTFTGSLNITNTNLVMRAMKSGIKHVSFMHAIAYDAGKMIGDYIGSGYNRTNFITQMNTTEPFVGISGSIHFIDSIAQRKYDIVKKEDGKYKTMNEQVDKY;locus_tag=LOCUS_10610;note=Q9ZCJ2 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:42.5%25%2C q_cov:98.7%25%2C s_cov:99.7%25%2C Eval:5.3e-90],MGA_1092
sequence52	MetaGeneAnnotator	CDS	4222	5055	.	+	0	ID=MGA_1093;product=ribosomal RNA small subunit methyltransferase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCJ3;translation=MNFKPGLYIVSTPIGNLSDITLRAIEVLSGSDIIFCEDTRVSSKLLAKHGIKVPLKVYNDNSDETQRSYIKALIASGKIVSLISDAGTPLISDPGYKLVRDLKESGVNIDVVPGACAIIASLSISGLPTDRFMFAGFLPKTKEGKVKIFKEFISLDSTIVFYETANRLLQSLEAAQEILGDRDANVSRELTKLYQESRYAPLSELIKYYTDNPAKGEIVLCISGKSNQVVTEDILKAELKALLVNGATAKSASDSVFAKYKNQYSRKEIYRLANSLK;locus_tag=LOCUS_10620;gene=rsmI;EC_number=2.1.1.198;note=Q9ZCJ3 ribosomal RNA small subunit methyltransferase I (Rickettsia prowazekii str. Madrid E) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:5.6e-77],MGA_1093
sequence52	MetaGeneAnnotator	CDS	5157	6866	.	+	0	ID=MGA_1094;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKHLSEKEKADYLINAVTKGEGNIEVREVEKTGDVILKTDDKSAGFLQSILNAPKRLVEYVYHAIVKPGKNEKAEEKKEFEEKEKKTVEGSSELDEKDLIEEVIELDISNTKTKQQRGTRDVMNIEDEEMLEEVFTERMVSDFSIDEFSSSGFGCVKKVSNSSSGFWAKRQVSNYELIQLALSNPRQIAKILLGRTTKIDSENDIEAEDLSEHASDIFSITRHGKQVTSVFNVAAFKKMLLVHLKCNLSEYSPIVSKIISGNKKGLYSINLEHLKVYLGKQVAELVFNPEVGKDNKMVLKPVMLPSIKSSEEESQSTDSVHVKLLIDLSESMENCMWTCMKKVKNVITKIVQSAEHWQIDLTPFNTKSTTSSFNSDEDSLESIIKFLYNLESRGCTKLYGTMHEELKEMSKNNTKFTHSVFIVFTDGGDNASGSIGASDVNSSALTVRENVGNLQMFSMELGDSNKSFFEKIGVESGFTHIQLGKIEDLGLFEQYVAGLLKNTVILKLFDESLKVWAQQVAVEGEITVGNIVVKPNTMLDFGDVTYTISNPSEDFGDLLGDNDSLESL;locus_tag=LOCUS_10630;note=MGA_1094
sequence52	MetaGeneAnnotator	CDS	6996	7196	.	+	0	ID=MGA_1095;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCV1;translation=MPKMKSHSGAKKRFKLTASGKVKAAQAGKQHFMRRRTKSQLRDQRGTEVLCDQDAKRLKKIFLPNS;locus_tag=LOCUS_10640;gene=rpmI;note=Q9ZCV1 50S ribosomal protein L35 (Rickettsia prowazekii str. Madrid E) [pid:65.6%25%2C q_cov:97.0%25%2C s_cov:95.5%25%2C Eval:8.1e-19],MGA_1095
sequence52	MetaGeneAnnotator	CDS	7217	7570	.	+	0	ID=MGA_1096;product=50S ribosomal protein L20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCV0;translation=MTRAKSGKISKNRHKKIIKMAKGYRGRANNCFRVAIERVEKALQYAYRDRRNRKRDFRGLWIQRINAAARQHGMVYSTFIGGMKKAGIEVDRKMLAEIAVSNPESFAHIVEQIKKAG;locus_tag=LOCUS_10650;gene=rplT;note=Q9ZCV0 50S ribosomal protein L20 (Rickettsia prowazekii str. Madrid E) [pid:74.6%25%2C q_cov:97.4%25%2C s_cov:97.4%25%2C Eval:3.9e-45],MGA_1096
sequence52	MetaGeneAnnotator	CDS	7761	8366	.	+	0	ID=MGA_1097;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSSNSTSSGGGGLSPENVVSIVGMGVSLCLSIITFLTVMLTCTYIAIRSKFRDKQDTNIKISTETTKDGDITSTLHISLKNNESYSLNSKKFDNKKKSDKKEVEKNSGDQNDDLKDVLDNNIDGDNIIAGTRGEVIHGAYQTYLKSQKIQALHLNGSNRAPLEVSTLYLNKKEEKTETVLVNIEDEENNSKTEILGDVIIE;locus_tag=LOCUS_10660;note=MGA_1097
sequence53	MetaGeneAnnotator	CDS	15	293	.	-	0	ID=MGA_1098;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKSASLKIQSKTMIKPGLYEHYKGLKYEVIGVCRHSETLEELIVYKALYGDYRMWVRPFKMFNETIEINGKETKRFKFIESLLDTAPIINK;locus_tag=LOCUS_10670;note=WP_011104594.1 hypothetical protein ([Pseudomonas syringae] pv. tomato str. DC3000) [pid:54.4%25%2C q_cov:73.9%25%2C s_cov:78.2%25%2C Eval:2.4e-18%2C partial hit],MGA_1098
sequence53	MetaGeneAnnotator	CDS	307	1887	.	-	0	ID=MGA_1099;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKRMKIDYIDINTKGIKATNYQNLNEYYQKKYFKFIDSEGKLAIAATEDCSIEFGKEKIFRVKQEDFIEILERDFAEENSSWAINYLSNKSPSSSAKNVSYIKSIAGFSIIFTAFLFLFINLFNVLNNIAYLTQNLLKAVLFNRSLVQREKSPLAKLSDDLPVYSVLIPLYREEFKVKAILQAMDKMNYPKDKLDVKLIIENDDILTKRTIAVNNIPDYVQVIKVPFSLPRTKPKALNYSIAFLKGEYVTIYDAEDIPDPDQLLKAVHAFRSLPENYACIQAKLNFYNQNENFLTKFFSIEYSVWFEYLLRGLSLLDLPVTLGGTSNHFKVSKLAEALYWDPYNVTEDADLGIRLYMKGYKVHLINSTTMEEAPNDVLTWIAQRARWIKGFIQTFFVFIKTKKDYKRFGFLKIASVYIFVGLSTYSFFCLPWLFLIFMLEINHNIYYLWMINSLFSFSYMYAIAYLVIKNSKPPMSKLTIKDWITLIIWPAYFILHTIACYRAFWETIKSPFKWNKTPHGIKKEV;locus_tag=LOCUS_10680;note=WP_011228162.1 glycosyl transferase (Thermus thermophilus HB8) [pid:42.4%25%2C q_cov:76.6%25%2C s_cov:67.0%25%2C Eval:1.4e-86%2C partial hit],MGA_1099
sequence53	MetaGeneAnnotator	CDS	1872	2858	.	-	0	ID=MGA_1100;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVTGKYIKSRLLFILVLYILGYNANSVGEAWIPDEDNYHFSSTFSTIDKRSKNKKNRRASSFIKIRDEVDALYSIKSAIHSKASNEKRKLRNSEIRQLETIEREIRDLDEESNMLSAFRDEHFAQFSVEYGASKKRSFGVKLGYVLDKFAGYNNPDHNKQFIGKEADLFYKYQIFKNKKWAVSIKPTVQFSSYDNSSFCKFADIAIFAGYSKQKKNGTNLFHEFGFGLRKYFRNSIASKTGYSASMMDGIKFQNGIMLTNFTQYERSKLKNLIYSHTIYEQLSVAREFKPNKLITNDFTAQIGYFWKSSLIDKTFVVSGPILSVWLNV;locus_tag=LOCUS_10690;note=MGA_1100
sequence53	MetaGeneAnnotator	CDS	2837	4072	.	-	0	ID=MGA_1101;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDS4;translation=MKGKSSNFIAFDIGSSKIAAIAANISKSGQAKINSQILQYSEGFKSGSITNMELAENSVVAAIYALEQESDKSIKEIAISLSGAGVKSFYVNHKMKLGNQPISKQDIKKLISKALAEFKVKDQEIIHYFPLEFIVDGNQNVDDPIGMYARDLSCQLHIVSADSLMLMNLTKCLAKCHVEVSDIFLSIYSSGISCLTKDEKELGSVIIDIGSNTSSFGIFLDEKLIYTGFVPIGSRDITRNIAKEFSISIAAADKLKILYGNANPKLVKNSTIRLDEFDPDNNYNSELSITAIDLAKIIETRTQEIFVKIKEECDRISMDHLLAKRMIITGGGASLPGLTSMAANLFQKQVRTAKPEIIPGFAENYNPYMYSTVIGMVKAKSLKYQKNSFRHGIDEDAGLFKRTFLWLRENI;locus_tag=LOCUS_10700;gene=ftsA;note=Q9ZDS4 cell division protein FtsA (Rickettsia prowazekii str. Madrid E) [pid:51.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-114],MGA_1101
sequence53	Aragorn:1.2.38	tRNA	4208	4297	.	+	.	ID=Aragorn_27;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00270;note=Aragorn_27
sequence53	MetaGeneAnnotator	CDS	4452	5417	.	+	0	ID=MGA_1102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVILRISFLISLFSIVVLSYNASAFDYKSELIDDLQYLLSSEPTINYEDQKLHKILNKYNYSLFKTYKAFIEFDKSNKSEADILKAKNALINAYNYPTSYWNVFWKDQQLNKETIRLAFLRWLTHFSIEDDMLEILPEEKQYWDKFYDYKYIKIPFWLVKKYPDVVFRSTGHYGLTVNARKSVKNIAEFNLFISALREILLGYFTPDFGWQDFDSYLINKHFIDIISFNPGWYIKHDKRSCDICAKKSIKDRFEKLELWANRSEENMLKYNKLLLCFDKASSALMNYYKKNYDLEYYADQVENILSYYICDKTLDASILEY;locus_tag=LOCUS_10710;note=MGA_1102
sequence53	MetaGeneAnnotator	CDS	5433	6563	.	-	0	ID=MGA_1103;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGTKLDLTREEWVALVDKNKDSTTIWQEDWVRAARDRLHNLDLSITEHKEIYESHLRTHIMFNEITWYTDKQQVPSKPNIPCAVYNDTAYPPRKTIGIGFNMDDPAARRDWKNVFGDKLSFDCVYDEDSKNTITNSQALKLLDYQINKFRTQLQHFFGRDWDSFTPNEKVTIESLYFNSHTLVRHYDGKSKYWDTNFSRNLRNYIKTSDSKYLKQAINEVKYKSNKRKKIGVQVRMDRESLMLESYKCPVYSKPNDNPIPDNILIKIEPGKTVIPRVGKLLIDENDTDNRGNNKQYYIWRTRADGKVRLKHEFYEGKIFHIDHPPIIGRPGDDFNCRCKKDFNIPDFVQIEVKSEQKMIRKYTAFLLDLPDFCIK;locus_tag=LOCUS_10720;note=MGA_1103
sequence53	MetaGeneAnnotator	CDS	6808	7245	.	+	0	ID=MGA_1104;product=DNA starvation/stationary phase protection protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946426.1;translation=MSSKEVIKHLNIVLAETYALYLKTQNCHWNVTGPNFHSLHSMFEEQYKELAEAIDEIAERIRALGEKVEASFSHFDKAKSISDAKLLNSSESMLKDLLQSQEIVIDKLVELSDIASDQGDKASEDMAVQRLYAHEKQRWMLSSSL;locus_tag=LOCUS_10730;note=WP_010946426.1 DNA starvation/stationary phase protection protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:48.6%25%2C q_cov:96.6%25%2C s_cov:95.9%25%2C Eval:3.0e-33],MGA_1104
sequence53	MetaGeneAnnotator	CDS	7260	8234	.	+	0	ID=MGA_1105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFKQNWEKTESQHKISDDTIRDMFRASAGNEVESYEIVFGGCANLNIKVKRKNRETPVLLRIYLQDKEAAYREMKISEMLQGKIPVPKIYLVDDFQKYKFAICEFVDGITLRDLLLSDKEFSMHSVMYRCGEILAEFDKIKFPKAGFFDKDINIVKDFASDEFIIYMQNCLKQEVVKIQLGPELLSAIENLFTKNKRFFPDRNEMHLVHADFDPSNILVRKVDDSWQIISVLDWEFAFSGSTLHDAANMLRYAHHMPAEFEDSFIEGLRDSGIVLSDNWKITINLLNLGSLIDCLTRSAPQKRPNQCQDIKVLVERIVDSFVQ;locus_tag=LOCUS_10740;note=MGA_1105
sequence54	MetaGeneAnnotator	CDS	157	945	.	-	0	ID=MGA_1106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEFAENARKLREQMEREALGPEPSVEHTGQRADNFVDAAADLHAKTYSEARIIPEIDSLVNSHTDGTPISKEQLEKTYKKIMSNMVEDGVLTQKEMDAYIAPEKIEKKVRVKVEDPGVGQRFGAFLKGKKAVYRDRTVVEDGPSQFQKDIQSSMEFNNKGQVDAPNLTSLKDKILHGLSKICTNLGFSSLSRSCRKAMSVDNQEKINKIEAGAVEMTKKIAKQAKIVGSSVGSESGAKRIAKQTQNIVANRQKQDSGRSR;locus_tag=LOCUS_10750;note=MGA_1106
sequence54	MetaGeneAnnotator	CDS	1095	2495	.	-	0	ID=MGA_1107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003697216.1;translation=MSNEFRLLEAIIRQDFPSFIGKVFSTINPGAKYHSNWHIDLIADYLEAARSGEIKRLIINMPPRALKSVCISVAWPAWILAQTPEARIMAASYSSVLSVKHSLDTKLVLESDWYKKLFPKTKLSRKHNCKNKFLTTQNGFRFATSVGGSATGEGGDYLIVDDPHNPTQINSMKLRNKAIDWFEQTFVTRLNDSKNGVIVVVMQRLHEEDLSAQLISGGDWELLKIPMVAPKDLYYSIGEKKYEFKQDEVLNSKRVDEVFISKIEKEMGARNFAAQFLQAPLPSNYNLLSEKDISFYHELPEKFDYYIQSWDTALKTTEKSDFSVGTCFGIVDNRYYLVSMIRKKLAYPDLKQTIEKFAKRYSPKHILVEDKASGQSIIQDLKLIGYTNIKSIKPRLDKVTRFASVVDLFQIGKILLPKQSAYNRSLLRELTTFPNSKNDDIVDSVSQFLNFSKEINPKKTIRMRML;locus_tag=LOCUS_10760;note=WP_003697216.1 hypothetical protein (Neisseria gonorrhoeae FA 1090) [pid:27.8%25%2C q_cov:87.1%25%2C s_cov:85.2%25%2C Eval:1.0e-40],MGA_1107
sequence54	MetaGeneAnnotator	CDS	2492	2773	.	-	0	ID=MGA_1108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTTINKIYEFITKLVILLEDELEELKVGSAKNTISTQKNITDILNKLVNLISQLNKVAKEKQLEVEVGFDESDREILNKFIDKIKLETKRKK;locus_tag=LOCUS_10770;note=MGA_1108
sequence54	MetaGeneAnnotator	CDS	2777	3961	.	-	0	ID=MGA_1109;product=portal protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010920629.1;translation=MLQSYFKKFSKQSVKKSFNTLDLPFIHSSSEDKVGVDIYKTNAIVHRCVSLIACSASHIPWQVYKEKGGKREQIPLHPVARLLKNPAPNISGADFFTSSISSLLLYGNSYILASGRKSSAPGELYNLHSSQMEYVTSGNMRSAYRYKNAKNEQYYSIDPVTRISRVLHLKNYNPMDDNQGLSSLSAAAKPIHLHAKIMDWNKSLLKNATRPSGALVFQDGNGYLSEEQFERLQQQFYDGFSGASNSGKPLILEGGLKWQETNNAEKFEKFIELKDSSARDIAIAFNVPPQLLGISGDNTYSNMQEARLALWEENIIPLLDKYSDALSNWLSHWYEEDLIIDFDRDAISVLTKRRENLWSKIANANFMTVNEKRAFVGLSPIKGGDKVNDLESGE;locus_tag=LOCUS_10780;note=WP_010920629.1 portal protein (Caulobacter crescentus NA1000) [pid:38.9%25%2C q_cov:86.3%25%2C s_cov:76.7%25%2C Eval:8.2e-57],MGA_1109
sequence54	MetaGeneAnnotator	CDS	4107	4754	.	+	0	ID=MGA_1110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05965;translation=MSGQLLELIIFAGIAFFIINKLIATLGSTSEEDQARSKSLFKNNAHGMRDVTNSTKNKASILKPKFPKTKKVNLKGLVVTGTEKDVMEGLADVLAKLPNFSLDTFLKGAKSAFKMIVEAGSNNSDEELEELVDKRYIDHFKNMSSSYGEYSKEKNNLTAQISEIYMFGNNIFVKVLFAGKNITNKIVDMHEEWTFTKSTLNSGPEWYLTNIDRPQ;locus_tag=LOCUS_10790;note=O05965 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:43.0%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:5.9e-43],MGA_1110
sequence54	MetaGeneAnnotator	CDS	5032	6852	.	+	0	ID=MGA_1111;product=UvrABC system protein C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCX9;translation=MSKKQGREIIKSHLNNTPDLPGVYRMMDSGNNIIYIGKAKNLKNRLSQYTLEQEGKNKIMVSLVHNVEYSITDSESSALLLEGQLIKKYKPKFNILLKDDKSFPYIKLRIDHKYPQLLKYRGKNLSNGKFFGPFASAGHVDTTLLEIQKIFRLRSCSDSYFENRDRPCMQYQIKRCSAPCVGKITKEEYDETVSEVKKFLSGKNKILQNMLSRKMENFSKNMQYEKAAEIRDKIKAISYVQLKSDNAEKIEDSDIIALSSKNGEFCIQLFIYRSHQPCGNQAYFPDHTYEAKPNEVIENFIMQLYQNKQPPKELIISHDINDKSTYESALKLLHKKTVKITHPKLGSKKKILDNAIHNAEISLEKHLKISAKNIAALNEVQRLFDLDGSPKRIEIYDNSHIQGAFAVGAMVVAGADGFDKKEYRLFNIKEEQKTVFGGDDYAMLREVLTRRLKRLKNEPYRTPDLMIIDGGKGHMKIVSEVMKKLNTHIPFVCMSKGVERNSGREQFHRPGHKTFTLDRNLGVMKYLQILRDEVHNFAIKSHRNKRTRAIKISSLDHIPGIGEARKKALLNYFGSFKSISDATTNELSKVDGISRELAKSIYELLR;locus_tag=LOCUS_10800;gene=uvrC;note=Q9ZCX9 UvrABC system protein C (Rickettsia prowazekii str. Madrid E) [pid:55.3%25%2C q_cov:99.0%25%2C s_cov:97.6%25%2C Eval:3.5e-188],MGA_1111
sequence54	MetaGeneAnnotator	CDS	6841	8187	.	-	0	ID=MGA_1112;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596611.1;translation=MASAIDRKRTAGTNKADDKPFMTMKERKVYNRWRLRILISIILGYGTYYLCRQNFSMIMPAFMEEYGYSKTQLGFILTLASIVYGVGKFVNGYISDKSNARYFITIGLCASAAITFVLGFTNGLYFLGFFWIANNWFQSMGWPPVARMLTHWFAPHELGTKWALGAASHQVGGALTLIFSGYLVANYGWRYAFFVPSIIALSIAIILFNRLRESPKELGLPPVEAYKGNESFKEDTSEDHFTAMQIFRKVFFNRNLWYICFANMCVYIVRIGIIFWAPLFLKEFKGIDLVHAGWQVAAYEVTGLLGGFAAGWLSDRIGGQRGPVGFVFMICLACALSMFWFMPEDYTGFSATALILVGFFVYGPQVLIGVASADFASKKAIGTANGLAGTMGYVGSGLSGICVGYLIDNYGWAGAFGFFIGAALLGAFFFILTWRRVNKERKINGSSQ;locus_tag=LOCUS_10810;note=WP_004596611.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:50.2%25%2C q_cov:90.8%25%2C s_cov:94.9%25%2C Eval:2.8e-120],MGA_1112
sequence55	MetaGeneAnnotator	CDS	143	1642	.	-	0	ID=MGA_1113;product=carboxypeptidase M32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946880.1;translation=MSSKIENYLKLEKKLEELTHLGNIANIAHWDSATMLGSGSAANRQKEMATFSSVIHEMATSNEMGDLINGSLAEFDQLDDWQRSNLASAKKSYDSQTCLTADIQHEHSIASSECEFTWRTARKENDFKKLEPYLDRVFDSVRRVAGLKAEKLKKSPLDVLVDTFDPDRTSAEVKMVFDSLKAELPDLINKIMDKQKSEEVISLSKKIDENTQKAIGLKLMEQMQFNFDCGRLDKSVHPFCIGSNDDVRITTRYNENYFLSSLFGVVHETGHALYQQNLPAKYRNQPVGGPKGMSFHESQSLIMENQVGTSRSFMEYLAKMLKDEFSFSGPEYSADNLYKLVTRVRPSFIRVDADEATYPLHVILRFEIEEAIIEGNLRAFELPELWNSKMQEYLGIVPDSDADGCMQDLHWPSGYLGYFPSYTNGAIIASMLMKKAKETNSSIDAEIAKGSFKSLNQYLTENLRGYGYSKNSADLLEASTGHNMIQPTIFTDYLRAKYL;locus_tag=LOCUS_10820;EC_number=3.4.17.19;note=WP_010946880.1 carboxypeptidase M32 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:40.0%25%2C q_cov:98.6%25%2C s_cov:99.4%25%2C Eval:2.9e-105],MGA_1113
sequence55	MetaGeneAnnotator	CDS	1709	2461	.	-	0	ID=MGA_1114;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012067272.1;translation=MIELQDLHVIFNKGTKIENHVLKGIDLKVLDGQFVTIIGGNGAGKSTLMNVLSGNIKPSKGKVIIDSLNVTKMSPENRSSMVSRVFQDPMIGTFADLTIEENMSLAMKRGESRGLALSLNAAARDKFREALSDIGIGLENRLTDKVASLSGGQRQALSLIMATLLGSKILLLDEHTAALDPKIAKKMMQLTNKIVKRHNLTALMITHSMSQALEFGDRTIMMYHGEIVRDMFGDERKKLSSADLVKYFDL;locus_tag=LOCUS_10830;note=WP_012067272.1 ABC transporter ATP-binding protein (Sinorhizobium medicae WSM419) [pid:54.0%25%2C q_cov:99.2%25%2C s_cov:93.9%25%2C Eval:1.9e-73],MGA_1114
sequence55	MetaGeneAnnotator	CDS	2458	3318	.	-	0	ID=MGA_1115;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389858.1;translation=MNQLQLLGAVEIGLIYSLVAIGVYITFKVIDFPDLTVDGSFTLGAAVSSAMIFAGYNPYIATIVSILSGACAGFVTGYLNVRWNILGLLAGILTMTALYSINLRIMGRPNIAIIDESTVFGSWSIILVILFVTIVTILKLTRFFASEFGLAIRAVGINSKVSSAYGIRVGVMKIVALAISNGIVALAGSLFAQSQGFADISMGTGTIIVGLASVIIGEALVHPERIWVALVTCAIGSILYRIAIAFALNAHDIGLEASDLNLITALLVALTMIATRFRKKSGARSI;locus_tag=LOCUS_10840;note=WP_011389858.1 ABC transporter permease (Rhodospirillum rubrum ATCC 11170) [pid:52.3%25%2C q_cov:95.5%25%2C s_cov:90.7%25%2C Eval:3.1e-78],MGA_1115
sequence55	MetaGeneAnnotator	CDS	3315	4238	.	-	0	ID=MGA_1116;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004536188.1;translation=MSNLVKFIFIFLSFIGSGLANDKILITVNQYVNHIALDAAYDGLMESLKTREIIPNRAALVTSNAQGNISNSVQISKHHASLSPDFMIAIATPAAQTNLKAKNKNSKLAFVAVTDPSAANLVGVDNVIGVSDNPPIAELVDVVKKIFPDLKTVGIISNTGEINSVKMSEKLKKVLSGFDIKVKKASIANSSDVKTAMNKLVSSVDLIYLPQDNSVVSALDNIASIAKANKIPLIANDPTLVQRGVFVALGSNYFKSGKQLGNMIADLIEGVDIKDNIQNTKIKELKINEDLAKEFSIKIPDNLGERK;locus_tag=LOCUS_10850;note=WP_004536188.1 hypothetical protein (Burkholderia pseudomallei K96243) [pid:35.8%25%2C q_cov:96.1%25%2C s_cov:92.9%25%2C Eval:4.4e-41],MGA_1116
sequence55	MetaGeneAnnotator	CDS	4238	5263	.	-	0	ID=MGA_1117;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012067274.1;translation=MQPTKPNTKTLLESSSAIIMKLCLLFVLVFLSLLSYTNISIAADSKTIAITEIVEHPSLSQAKQGIVDELRDSGYEEGKNLTIIDKNAQGAIANAMLIAKKFVQLKPDAIIPISTPSAQSTIKAVSGTDIPVVFSSVTDPVAAGLIPDMEKAKKNITGAIDYPLIKEEIDLIKHYIPNIKTIGFLYSTGEANSVKTIDLMKEAIEGKIDYIDSQVASSHQVSQAIESLIGKVDAIYIPSDNVVYSAMPKLVQMSRKYKLPVFSSDPDSVKSGVFACIGYTQYEVGRTAGKLLVQVFNGERNLKVKKPAKAQIFINAKTAKIMGFETPEEILGIKTDIVGLK;locus_tag=LOCUS_10860;note=WP_012067274.1 ABC transporter substrate-binding protein (Sinorhizobium medicae WSM419) [pid:42.0%25%2C q_cov:90.6%25%2C s_cov:97.8%25%2C Eval:2.6e-64],MGA_1117
sequence55	MetaGeneAnnotator	CDS	5677	7203	.	+	0	ID=MGA_1118;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCP0;translation=MSDNNYYITTPIFYVNDVPHIGHAYTSIACDVISRHMRLSGKNVKFLTGTDEHGQKVEKSAEKAKISPQDFADKTSEAFRQMTKNLNLSHDDFIRTTEQRHKKAVQNFWQKLEDSGNIYQDSYSGWYSVRDEAYYSEDELTEDGLAPTGAPVEWVEEPSYFFALSKWQDKLLEYYENNLDFIWPKSRRNEVISFVKNGLIDLSISRTSFKWGIEVPGNEEHVIYVWLDALTNYIAALGYPEQTDELNNFWPASAHVVGKDILRFHAVYWPAFLMAAGMELPKSIVAHGWWTNEGEKISKSLGNVISPFDLVEEFGLDPVRYFLMREVTFGNDGNFSKENLITRNNSELANKIGNLLQRTSSFAYKHCEQKIPTVDTSYINTIYDSELFKEMISLIEENNTHMESFNINKVLDNIIHIADQANAYIDAEAPWSLRKSDPEKMQQVLYSLLEISRCLGVVLQAFIPDAASQMLDQLGIDRNQRSFSNLTKEFALKPGSNLQEPKPIFPRL;locus_tag=LOCUS_10870;gene=metG;EC_number=6.1.1.10;note=Q9ZCP0 methionine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:63.7%25%2C q_cov:99.2%25%2C s_cov:99.2%25%2C Eval:3.1e-195],MGA_1118
sequence55	MetaGeneAnnotator	CDS	7206	7991	.	+	0	ID=MGA_1119;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596361.1;translation=MIIVDSHCHLDMLKDYDSTDNIVARAKEADVQYLQTICTRLDNFKHILSIAKKYDNVFASVGVHPSEVDEVTPAEKLIELADHEKVIGLGETGLDYFYNKAEEHQEIQRESFKQHIIASQENNLPIIVHTRDAEDDTLNIIKECKKAQDFPGLIHCFTASKEFATKMLDLGMYISISGIVTFKNATDLQEAAKFIPLDRILVETDSPYLAPVPKRGKTNEPSYTRYVAEFIAQLKGIDVEEVAEQTTNNFFNLFSKAQISN;locus_tag=LOCUS_10880;note=WP_004596361.1 DNA-binding protein (Rickettsia prowazekii str. Madrid E) [pid:50.3%25%2C q_cov:97.7%25%2C s_cov:97.3%25%2C Eval:1.9e-76],MGA_1119
sequence56	MetaGeneAnnotator	CDS	143	1039	.	-	0	ID=MGA_1120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010948164.1;translation=MPSNSKIISHALNSGFVFADHEEKIKKKKESLSLPLNETLEMLQELTEFDLGKFLLSNKGLNGFWTAYVILNGIKKSNLHPLERWMLNSSPIIVATRERFFIFQTELKKLLKDNMNIASTPCGLMDDLLSMDFSEFSDIKLTGIDIDQESLKLAEQNIQQYNTSAQTEFLVRSAWDLDISEEYDVIISNGLNIYEPDRSKLCELYIQLATAIKPNGYLITSFLTPNPKMSEESPWRDFSTQDAIKQKAIFADILEVAWQTYRTESEKILMFEESGFKVQNIIYDKQAMFPTIVLKKAS;locus_tag=LOCUS_10890;note=WP_010948164.1 hypothetical protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:36.5%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:4.4e-54],MGA_1120
sequence56	MetaGeneAnnotator	CDS	1044	1301	.	-	0	ID=MGA_1121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD03;translation=MIYEVENLNSARKFLMEATERITLSNPPGSTRYYGMRVIDYIFKTLKQEFPNKVSGFIVNAYDDYSAFTTARKLGYNQIRYLNVA;locus_tag=LOCUS_10900;note=Q9ZD03 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:47.6%25%2C q_cov:98.8%25%2C s_cov:79.2%25%2C Eval:9.9e-17],MGA_1121
sequence56	MetaGeneAnnotator	CDS	1305	1820	.	-	0	ID=MGA_1122;product=SOS error prone mutagenesis protein UmuD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947431.1;translation=MNHGGKRAGAGRPKGQGKYGTATKAIRVPEYLVNDVKDYSMNGGYKIPFFSSKVEAGNPSIAEDHIEDMLDMNSLLIRNPDTTFCVRVTGLSMIDAGIYEGDTLIVDSSITPAEGKIVIAALDGMLTVKRLGYTGGKPFLLPENANFEPIPILENSEVHIWGVVTNVLRSL;locus_tag=LOCUS_10910;EC_number=3.4.21.-;note=WP_010947431.1 SOS error prone mutagenesis protein UmuD (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:94.0%25%2C Eval:4.8e-43],MGA_1122
sequence56	MetaGeneAnnotator	CDS	1941	2237	.	+	0	ID=MGA_1123;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLSENMNTLTKDWALKRIGRTPIIKSDIFTKSKLNKIEKVMLKYKAIISIVFLLLTQFALYDFDVAEYTTTNHYGTNAKIESIEMPKLESLSVYNYN;locus_tag=LOCUS_10920;note=MGA_1123
sequence56	MetaGeneAnnotator	CDS	2353	2571	.	+	0	ID=MGA_1124;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLEGNDKILDIGCGDGRASAELAMLVPNGSVLGIDISYSMIRFAEKNYASGNLQFQQQNVLDLKYIKNLIP;locus_tag=LOCUS_10930;note=WP_011021804.1 SAM-dependent methyltransferase (Methanosarcina acetivorans C2A) [pid:57.4%25%2C q_cov:65.3%25%2C s_cov:17.7%25%2C Eval:6.3e-11%2C partial hit],internal stop codon at [2824:2826](+),frameshifted%2C insertion/deletion at around 2760%2C2709%2C2550,MGA_1124
sequence56	MetaGeneAnnotator	CDS	2830	3048	.	+	0	ID=MGA_1125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKRYGCKINEFRKMNDAIFVSFIKKYINKDLYAEFIEDYIRCFMEHNNQTEENIQFPTNLLQVSAVRTSY;locus_tag=LOCUS_10940;note=MGA_1125
sequence56	MetaGeneAnnotator	CDS	3240	3458	.	+	0	ID=MGA_1126;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMETGTLTMENLEMLSLELSAFHGLTRVMKILLTTGGADVNRVNPKTGDTALHWLFEQIRLQYDKLTKAAWS;locus_tag=LOCUS_10950;note=MGA_1126
sequence56	MetaGeneAnnotator	CDS	3427	3630	.	+	0	ID=MGA_1127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISLLKQHGAKSKINKRSETPEKIALIIENESVQKCLGCFVADNDEDIVELLGLDGIQGLDDPDVGA;locus_tag=LOCUS_10960;note=MGA_1127
sequence56	MetaGeneAnnotator	CDS	3818	4627	.	-	0	ID=MGA_1128;product=oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011122375.1;translation=MQKTILITGSTDGIGLETAKMLVSLGHFVLLHGRSSAKLEKTKEILFPLSNDRKIESYLADLSSISDVENFAQEVIQKHNKIDVLVNNAGILKAPETITQDGLDVRFAVNTIAPYLLTRELLPLFDKKGRIINLSSAAQSTVDLEDLAKHRGLDNMPAYSQSKLALTMWSFAMANLFKQGPSFIAVNPGSLLATKMVKEGFGLDGNDIQIGANILVRTALEKEFANVSGKYFDNDLGQFSSPHADALSLKKCEEVVSAIENILAKIKSD;locus_tag=LOCUS_10970;note=WP_011122375.1 oxidoreductase (Rhodopirellula baltica SH 1) [pid:56.2%25%2C q_cov:98.1%25%2C s_cov:99.6%25%2C Eval:9.8e-79],MGA_1128
sequence56	MetaGeneAnnotator	CDS	4802	5707	.	-	0	ID=MGA_1129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRYLDSTGNRLELSGEIDKNYVIAPGKKVTFAEGTKFQGKLIATNQSLYNNEYIPKTIGMTVSGKLGLVVTDPPHLLVPDTDEDLDEFDYGLERLDDQYRKIQDKLSVLQKENIQLKACIEQARKKSMEKESEGDRFDPAELPPLNIPPETQKFPIIHFQPFSPDTDLSLSPLVRDDLSRSLSMDFNAPSRNFPGPLPLIRSKAFSFSDATDDPRDSRGVSEPEATADSTIQTTDAPEHDLERTSSSSSLTDIISESGINSITTATDQVTEDQEKEVDISGDSAFSRDNSFCGVSCLIL;locus_tag=LOCUS_10980;note=MGA_1129
sequence56	MetaGeneAnnotator	CDS	5797	6945	.	-	0	ID=MGA_1130;product=coproporphyrinogen III oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886226.1;translation=MQPISVYIHWPFCLSLCPYCDFNSHIASTIDHDLWLNAYKQEINYFKEKLSGRQIQSIFFGGGTPSLMRPKTVESIIDLLSNIGLISSTTEITLEANPTSYETEKFKEFKSAGINRVSIGVQSLKAEALKVLGRKHSKDEAISAIKSASKIFERYSFDLIYAIPNQTLEDWKNELGNAIELANGHISLYQLTIEKGTPFYQIFKSGQMQLPSNNSSANMYEWTNEFLKEKHYHSYEISNYAQSGNECIHNLAYWNYNEYLGIGPGAHSRLHDNDCVKSVMMFHKPEKWLKNVSQTNHGIQTNVSLSQNELIEEIVMMGTRLKKGMNLNTFSKLTGIYFDDVLNKKNFTHFQKNDLVFKNSTNFGLTNSGLLLHNYLVPRLIS;locus_tag=LOCUS_10990;note=WP_010886226.1 coproporphyrinogen III oxidase (Rickettsia prowazekii str. Madrid E) [pid:58.0%25%2C q_cov:99.0%25%2C s_cov:94.7%25%2C Eval:1.0e-128],MGA_1130
sequence56	MetaGeneAnnotator	CDS	7003	7536	.	-	0	ID=MGA_1131;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHLSRILFVSLVLLFQFNVAAKPLDDKSITKLVEQLLVKENDIPNVKIEVKTKDGVVHLSGTVDTRLQENKIIELTSSVKNVVDVDTKELNVRSSSEFLADSLITAKAKGRIKYLSLNKHISEGYNLHVETTNKVVHIFGDVKDKKDISAIKTAIDGIVSVKEVNMNIKCQQKNID;locus_tag=LOCUS_11000;note=MGA_1131
sequence56	MetaGeneAnnotator	CDS	7777	8064	.	-	0	ID=MGA_1132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKCQIQKQTCVQKEEGIYQRCVNKAKENLYRCQKNYNEVKDYKHCHDNSDICSKSKICEPPYRECFKLCGGRIQQYTYPVDWLGRRTGPNECPIE;locus_tag=LOCUS_11010;note=MGA_1132
sequence57	MetaGeneAnnotator	CDS	2	142	.	+	0	ID=MGA_1133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGSNTESKAEGRGVGLALCKAAIEAHGGAIIVESDGVNGARFRFVL;locus_tag=LOCUS_11020;note=MGA_1133
sequence57	MetaGeneAnnotator	CDS	878	1438	.	-	0	ID=MGA_1134;product=iron transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596187.1;translation=MFIQTEETPNPNALKFLPGSEISPSGPVFFNSNEEAIQKSGLAAKIFQIGGVEAVFYGNDFVTVTKSDETNWDTVKPEILMIIMDHLVAGMPIFDEPQNVFTEIDTDGMGDIEKQIVEIIETRVRPSVAMDGGDIIYQGFENGVVYLQLRGACSGCPSSSITLKNGIESMLQHFVPEVQSVEAVEE;locus_tag=LOCUS_11030;note=WP_004596187.1 iron transporter (Rickettsia prowazekii str. Madrid E) [pid:62.6%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:6.5e-63],MGA_1134
sequence57	Aragorn:1.2.38	tRNA	1468	1552	.	-	.	ID=Aragorn_28;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_28
sequence57	MetaGeneAnnotator	CDS	1898	2182	.	+	0	ID=MGA_1135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKRLKLIKMYLEGVGIRSIATLEEVSNPLIIYWIRHFSSIIRKELNRIPIPDTHQKIEILEIDELFTYYKKRPNKRMYGLLLTETGIKLLTSK;locus_tag=LOCUS_11040;note=MGA_1135
sequence57	MetaGeneAnnotator	CDS	2770	3540	.	+	0	ID=MGA_1136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKTIVQEKLVNVHKFNYDDVKDDLKGHFNEFMKNPSKFGVKEPKLIKEIQGVKGLSKHFMWKQFKKEVKLKMEDLAQKEAASAFIIDFEQDKDHQLLTVKQLEKILDDPENPDFALESDMIDYINGKSFDKKSFMKHVIALDSDLEVDESDHEGMGVKVLNFLKGLWEKVFPIIDKIIDTLVDLGTVALKNVLEKHVPENLKDVVEEVVDSVGDGVKEVDDLVNDLVISTVDTKEEVEEKEVDISGDNPVEETI;locus_tag=LOCUS_11050;note=MGA_1136
sequence57	MetaGeneAnnotator	CDS	3653	4612	.	-	0	ID=MGA_1137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKAHDFDEHREAPVEFKDVREAKIREHMVNVHALDYDAVKADLKGHFNEFMADPAAFGVVDPDLIEEIKGVKGLSKHFMWKQFKKAVKLKMEDLALEEAASAFIIDFEQDKDHQLLTVKQLEKILDDPENPDFALESDMIDYILDPDFEREDFIAHVAAIDADLDVDEDAHAGFGRKILDFLKGLWTKIAPFVDAVLDFFIDLGTAALKNVLEKHVPDALADVVDDAIDHVGDAAKELDEVVDAVVEADNAGEVVGDAALDALGGIGGDLADDLGGVVEDAVDAGIDAGLDAIGVGGGEGPAVENEAVAVVGEDAQEAV;locus_tag=LOCUS_11060;note=MGA_1137
sequence57	MetaGeneAnnotator	CDS	5111	6370	.	+	0	ID=MGA_1138;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010948218.1;translation=MKSEERKKFISIMIWFCITMFYCYQYILRALPNIIMPDIMDKYSVGATEFSSFAGMYYAGYVIVHIPIGILLSRFGARAILPMCIAITSIGLVPLAYFDNWTSVVIGRTLTGIGSSAAIVGALQIFRIIYPDKFSRMLGIMVFFGLITVVYAGSPLANVIAIIGIDATIGVLLYSGIALAMFTYLLMPKSAGETSHASILTDIKATLGNPKIIVASLLAGFMVGPLEGFADAWGSAFMITVYDIEKSVADTITLSVFLGMCVGCIVLPYIADKTRMYFGVTIASGVVMILCFVHILNGNANADSLYYACLVTGVFCAYQVVIISKIATFVSEERSGVAAAIANMIIMAFGLLFHKFIGITLDWQWDGTWKGQMIQGVRSYGTDAFVNSISIIPAATTIAVVGFIIMAMTNVIRVKLMKK;locus_tag=LOCUS_11070;note=WP_010948218.1 MFS transporter (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:39.7%25%2C q_cov:94.0%25%2C s_cov:90.7%25%2C Eval:1.6e-85],MGA_1138
sequence57	MetaGeneAnnotator	CDS	6589	7938	.	+	0	ID=MGA_1139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNLIIGFLAIIFTNYALAESKISDQVESLINKTDSNLNIGIKVRNLATNQVVYEKNSKRYFMPGSSLKFITIVSLLEHFGPDYQFNSKVLKQGNSYYIDIHHPNFSYEDLKLMIARISEDSGNQVKGNIYILNNEFSVPAIMREKTISDTIYCNGALITKVHLDKNCARANVKPGKVGQGILVKSNKNFPYNIENNAKTVGKNKLDRLHVDIEGDKYVINGTLSKAYGLLPIGAVTSENFKNVIQYVKKGLSLRGTNVHGKITVGKAPKSSKTIYSLSISYKDAADRAMKISDNFMTDYFLAEYATQNKFSEWRAAIASIKHLIARKFNVDLRRSEIHDASGISRRNLLTVEQISDFLTSVHKSKNYETAKSLMACPGDDCTLRERFKGVEDLYTKTGTLRHVSSLMGYFKDKSGQEHSFVIMANNFYSYNDPYRKLEEEIVRLFMEK;locus_tag=LOCUS_11080;note=WP_010948289.1 D-alanyl-D-alanine carboxypeptidase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:28.0%25%2C q_cov:94.9%25%2C s_cov:74.7%25%2C Eval:2.3e-34%2C partial hit],MGA_1139
sequence58	MetaGeneAnnotator	CDS	266	640	.	+	0	ID=MGA_1140;product=NADH-quinone oxidoreductase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDH1;translation=MLQNTAILAEYLPIAIFFGIATLVSVIVMVLPKILAKETPQKDKLSGYECGFEPFDDARIKFDIRFYLVAILFIIFDLEVAFLIPWAINLSAIGQFGFWSMMVFLLVLTVGFIYEWKKGALDWE;locus_tag=LOCUS_11090;gene=nuoA;EC_number=1.6.5.11;note=Q9ZDH1 NADH-quinone oxidoreductase subunit A (Rickettsia prowazekii str. Madrid E) [pid:72.4%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:7.6e-49],MGA_1140
sequence58	MetaGeneAnnotator	CDS	656	1162	.	+	0	ID=MGA_1141;product=NADH-quinone oxidoreductase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDH2;translation=MKDILQNQDDLFKQEMSNRGFVITKVDDLIGWARANSLWPMTFGLACCAVEMMQAAASRYDMDRFGFLFRPSPRQADLMIVAGTLTNKMAPAMRKVYDQMADPKYVISMGSCANGGGYYHYSYSVVRGCDRVVPVDVYVPGCPPTAEALIYGLMQLQRKIKRTSKFKG;locus_tag=LOCUS_11100;gene=nuoB;EC_number=1.6.5.11;note=Q9ZDH2 NADH-quinone oxidoreductase subunit B (Rickettsia prowazekii str. Madrid E) [pid:79.0%25%2C q_cov:99.4%25%2C s_cov:96.0%25%2C Eval:6.4e-77],MGA_1141
sequence58	MetaGeneAnnotator	CDS	1166	1762	.	+	0	ID=MGA_1142;product=NADH-quinone oxidoreductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDH3;translation=MEFSHIIDEFAKDNNLNIVPLQIDGFAAYKTSIDSVISLLKFVKESKDLRFTILTDLFAADFPTRSRRFEVVYSLLSLKLNKRLLFKIELNEEHLAPSIVHLFSAACWYEREAFDMFGINFDGCPDLRRILTDYGFVGHPLRKDFPVTGHLQVKYDEKLEKVVYEPVLLEQEFRNFDFSSPWQGPGEYKLPGDEKATK;locus_tag=LOCUS_11110;gene=nuoC;EC_number=1.6.5.11;note=Q9ZDH3 NADH-quinone oxidoreductase subunit C (Rickettsia prowazekii str. Madrid E) [pid:53.8%25%2C q_cov:98.5%25%2C s_cov:98.5%25%2C Eval:1.5e-55],MGA_1142
sequence58	MetaGeneAnnotator	CDS	1777	2970	.	+	0	ID=MGA_1143;product=NADH-quinone oxidoreductase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDH4;translation=MEEATKKDSKIKTTTINFGPQHPAAHGVLRLILEMDGEVINKSDPHIGLLHRGTEKLIEHKTYAQAVPYFDRLDYVSPMCQEHAYALSVEKLLNCEVPKRAQYIRVLFSELTRILNHTMNIGTQAVDLGATTPLLWLFEEREKIMEFYERVSGSRMHSNYFRPGGVSQDLPDGLLEDIAVFNSSFLGYLADVETLLNNNRIWKQRLVGIGVVSQKQAMDWGFSGPMLRGSGIEWDLRKSNPYDVYDELDFDVPIGTQGDCYDRYLVRIEEMYQSVKIIDQCLKKIPKGPVKSIDSKIAPPTRSEMKESMEAMIHHFKLYTEGYDVPAGEAYGVVEAPKGEFGVYLYSDGSNKPYRCRIKAPGFAHLQGLDFMARGHLMADVVSIISSLDIVFGEIDR;locus_tag=LOCUS_11120;gene=nuoD;EC_number=1.6.5.11;note=Q9ZDH4 NADH-quinone oxidoreductase subunit D (Rickettsia prowazekii str. Madrid E) [pid:81.1%25%2C q_cov:97.2%25%2C s_cov:99.2%25%2C Eval:9.8e-191],MGA_1143
sequence58	MetaGeneAnnotator	CDS	2967	3476	.	+	0	ID=MGA_1144;product=NADH-quinone oxidoreductase subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDH5;translation=MSTDKEQFTFNKENLKKAQEIVAKYPDGRQKSAMLPLLDIAQRQNGGWLSVPAIEYVANYISEPYMRAYEVASFYTMYNLKPVGKYHIQVCGTTPCWLRGAGEIMETCEKLTDAKCGETSKDGMFTISEVECLGACVNAPIVQINDDYYEDLDSKKMGDLIKEFKTKKA;locus_tag=LOCUS_11130;gene=nuoE;EC_number=1.6.5.11;note=Q9ZDH5 NADH-quinone oxidoreductase subunit E (Rickettsia prowazekii str. Madrid E) [pid:66.5%25%2C q_cov:94.7%25%2C s_cov:92.7%25%2C Eval:9.4e-60],MGA_1144
sequence58	MetaGeneAnnotator	CDS	3496	4137	.	+	0	ID=MGA_1145;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIYTILISTLMTTNAFAKYVSNGFLVEEKNLDFSHTIRSGACEGTVPYPVLSHGDEELIIQINDEIHDFVELYAVCNQGRRNHFSVEFDIPESGTKEHFSIRWITKRNDKPWRIDALTFNRDTGAILEIEDVFNMLSNHMMGEIVKLSDGHLSKSCKWEHFLDKVEKREVQFYIEKEQWFIVFNATPHRQNVVDVKIPEYFLKGGDHDRG;locus_tag=LOCUS_11140;note=MGA_1145
sequence58	MetaGeneAnnotator	CDS	4124	5389	.	+	0	ID=MGA_1146;product=NADH-quinone oxidoreductase subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE33;translation=MIADKDKIFTNLYGKESPDLKAAQKRGDWDDTKNLIKKGRDWIVEQVKNSGLRGRGGAGFSTGMKWSFMPKDHPKPSYLVVNADESEPGTCKDRDIIRFDPHKLVEGCVLASVGIGAHACYIYIRGEFYNEALALQKAIDEAYSAKLIGKNACGSGYDIDIYLHRGAGAYICGEETALLESLEGKKGQPRLKPPFPAGAGLYGCPTTINNVESIAVVPTILRRGAEWFASLGKENNTGSKLFCISGHVNKPCNVEEEMGIPLKELIEEHAGGIRGGWDNLKAIIPGGSSVPMIPKDVCETVTMDFDSLRAAGSGLGTGGLIVMDQSTDIIFAIARLSKFYMHESCGQCTPCREGTGWMWRVMMRLVRGEAQVEEIDELLDVTKQVEGHTICALGDAAAWPIQGLIRHFRDEIVDRIHSKKA;locus_tag=LOCUS_11150;gene=nuoF;EC_number=1.6.5.11;note=Q9ZE33 NADH-quinone oxidoreductase subunit F (Rickettsia prowazekii str. Madrid E) [pid:80.6%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:1.2e-207],MGA_1146
sequence58	MetaGeneAnnotator	CDS	5399	6235	.	+	0	ID=MGA_1147;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTNFFIAAVIATILGFSALYWQSNSPEISYHTENEFGPIWVYDSKGVRCMSFLEPPAHILQSCMSLSNKKFVLFDYVQMFLSTLFINEDPRKILVIGLGGATVQKALNILTPNAKIHSVEINPAIPKVVEKYFEYEFNYTNKIFVEDGVKYVRNSPKNRYDLILIDAFSIDYIPDGFLTHEFMKNVKEILTENGVVAMNTFVSSKKSDLESQLFKDTFGEYYNLKKANSRVMVAQANGKLPEYQQIAVDSNLWLYRMAEVGINQTALLSLYKGNLKK;locus_tag=LOCUS_11160;note=WP_011204066.1 spermidine synthase (Burkholderia mallei ATCC 23344) [pid:25.7%25%2C q_cov:59.7%25%2C s_cov:42.6%25%2C Eval:8.6e-09%2C partial hit],MGA_1147
sequence58	MetaGeneAnnotator	CDS	6306	7649	.	+	0	ID=MGA_1148;product=alanine glycine permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016312.1;translation=MEVIVTINQYLWDYILLTLLLGTGLFYTVKLKAIQLRLFPQIISNVINSAMHKDKSDSDGISSFQALTTAIAAQVGTGNLAGTATAIVAGGPGAIFWMWFSAFFGMSTIFAESILAQKFRTKIGDETVGGPAYYIDKGLGNKKLAIFFAICIIIALGFIGNMVQANSIGFAFSVAFDSTPWIIGIIVAILVGLVIQGGITRIASFTEKIVPIMAVIYIFGCIYIIIIRYEYILPAFKSIFESAFRFESAAGGVAGMTIREAMRYGVARGLFSNEAGMGSTPHAHAAAKVSNPCKQGEVAIFSVFFDTFVILTLTALVILTSNFYLEMIQLPQQEWTDSIALTQLAFMSNFGHNGKYFIAIILFFFALSTIISWYYFAAINVKYLFGLRAIKPFRALVVLCVFFGTLVKVNLIWELADTFNGLMCIPNLIALLTLSGIVIKAMNNRDK;locus_tag=LOCUS_11170;note=WP_011016312.1 alanine glycine permease (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:92.9%25%2C Eval:7.0e-124],MGA_1148
sequence59	MetaGeneAnnotator	CDS	330	1121	.	+	0	ID=MGA_1150;product=protein translocase subunit SecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE34;translation=MHKFNFGIDFIGGISMEVRTDQEPDLAQMREVLGGLDIGEVVLQNFGTSKDLSIRVGVSDEEKLMENITLIKKTLADKFPYEFEYRKVDFVGPQVGEQMIRSGVMAMILAFIAIMLYIWIRFEWHFGLGVLLALIHDVILSLGFMSITDYDFNLSTIAAILTVIGYSVNDSVVIYDRIRENLRKYSRKSVNAIINLSINETLSRTTITALTTLLANLALIILGGEAIRSFSVLVFIGIFIGTYSSIFISAPILTLFNFKKFKE;locus_tag=LOCUS_11180;gene=secF;note=Q9ZE34 protein translocase subunit SecF (Rickettsia prowazekii str. Madrid E) [pid:66.5%25%2C q_cov:100.0%25%2C s_cov:84.6%25%2C Eval:1.2e-97],MGA_1150
sequence59	MetaGeneAnnotator	CDS	1126	1692	.	+	0	ID=MGA_1151;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDT7;translation=MRISANEIKIGNVLDYKDELWQVAKNPEHTKPGKGGAYVQVEMKNLRTGTKLNQRFSSTDSVEKAFLERQKMQYLYAEDNHLVFMDPDSFEQLLLDKALMGEKLPLLTDGMDLEVEFYKETPLSIKLPANLIVEVAETDPVIKGATVTSSYKPAILTNGLKVMVPPYLVSGEKIVIKSEDLTFVERAK;locus_tag=LOCUS_11190;gene=efp;note=Q9ZDT7 elongation factor P (Rickettsia prowazekii str. Madrid E) [pid:62.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-64],MGA_1151
sequence59	MetaGeneAnnotator	CDS	1692	2429	.	+	0	ID=MGA_1152;product=inositol monophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598535.1;translation=MQGDTSLVIDATRRASRSLQRDFFELENLQSSEKGNTTFVQKSCSKAFQTLHDALGKYYKTIIFNNDEVASANFTGHAALVETLDGLGNFGRSLPYFATMITIVSKSDELSAERVVINFPALGEIYYAEKGKGAWVERLASNVTGATRVRVSGCGNTDEMIVSSSNDLVESARSVSSSIRVFDSYTYSLAQVIRGKIDAMIIKPRDVSLPGIQLFLKEAGGACGIAGDILIASNFRLHEKIKQLF;locus_tag=LOCUS_11200;note=WP_004598535.1 inositol monophosphatase (Rickettsia prowazekii str. Madrid E) [pid:33.1%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:1.4e-25],MGA_1152
sequence59	MetaGeneAnnotator	CDS	2594	3133	.	+	0	ID=MGA_1153;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFTINCDFGGQMSPFTIFIGKPEKGHHPLHFQADWLSKARGGMIPGEVMEAVTQLQELAEKNGVSLEELCVYALGSDEQQAELESAATEETAVVPADDEQVELDEQSMEEAGAEYAGTEEEPERHDVEDLHEHGLSESVEDMASEGGHIEEDTPVDISSDGNEVESATTEEDIIEEK;locus_tag=LOCUS_11210;note=Q9ZDT5 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:50.5%25%2C q_cov:57.5%25%2C s_cov:94.4%25%2C Eval:9.5e-24%2C partial hit],MGA_1153
sequence59	MetaGeneAnnotator	CDS	3350	6145	.	+	0	ID=MGA_1154;product=alkaline phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599494.1;translation=MNFNIDIAIVVGFLIVTLFVGLFYSQKINNIKDYALGGRGFNTPTLVSTIVATWISGSLFFLGISESYSKGITFILINIIGNIIAFLVIAFVFAPRMREFLGTISVASAMHKLYGKEARIITALCGIISVAGYIAVQFKINTAVFSYFLDVDETIIIVASAVIVAVYSAFGGIKAVTFTDVVQFVTFGVMLPGIALIMWGNISSIDQIFDVFSNNLKFNYKDLSSTLDYHFAEFVNTLVFITIPWLTPAIFQRISIARSEKQIKKSFFISSIVCACINIIISWMAILMVANNPNITSPDILPYIIENYSFLGLKGIMVVGVTAMVMSTVDSFINSSSVLFANDICKDLNLKERTVIIISRVFAIFITLFSLLLALRYNDLISMILSSASFYGAIVSVPLILAILGFRSSKKSVLIGMSASFCTIVLWKVFSPDNGIDSVIPGILVNIIFFIGSHYILKQQGGWVVVLGREKIESSLQRENKSGSIKDFNFLDFCSKNTPKSDSTYIFLSIFCVIAIFSGVYSIPLEKRLAYNEIIEIISHSVLVITTAWLIYPLWPPGLKNKRFIFIFWLFSLFYILSFVTSLQVIISDFGKFQLIVLLLSVMVLSMVVRWKISLFLIILGIGASIQFFKYYTGNNISANFGSLQFKILYILLMIAGILIAFFKPKQEYQEATEAKVDTLEMEVSDLNEKVVHYSERISDQEKEIERLGATAQRIINNVNHELRLPVGNVMNFAEMLNDGLGKFNEQQLKSLSDEVYKNSNRLSSMIMNMLDLATLNAKKLELDKKMINLGELVEDRINNCRKIYLDDKKIDFVMKIHPEILILVDPNYMRQVVDNLVINAIKFSSEGVIRVELLKKGGLIEFTIKDNGIGIPKEELYDIFTPFKMGSNTESKAEGRGVGLALCKAAIEAHGGTITAESSGVGAVFRFVLK;locus_tag=LOCUS_11220;note=WP_004599494.1 alkaline phosphatase (Rickettsia prowazekii str. Madrid E) [pid:35.3%25%2C q_cov:98.8%25%2C s_cov:98.3%25%2C Eval:3.3e-172],MGA_1154
sequence59	MetaGeneAnnotator	CDS	6212	7633	.	+	0	ID=MGA_1155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNQFQKKVTKNQIGVRDEKGWAPIHLAASSGKEISVVSFVRDGADVNMLIESSDRFNGMSPAILAAQGGHVETLLVLARLGADLDIKVNGMSAAMFAIQHKTKSVSLTKTLIGMGADVSLLKGVVVKHGAKVLLQLGVSQEYVEELGDIISNPEEVKSQYILEHNVSPIIFKDSDSKEEEIDVKEEIDIGKAFSECDIDSVIKYVQDSSIQEGDKYGANLFVAAAAQRSIEYTKMMVALIQAGYDISRADGEGVEAYTRLKMLDAASGVALCLLGANTDISGQINAIGKDDGMNDVHKAIIAGKYQTLSVLLACGGNPNLPMSDGTLPVTLVMKSKLNMVEMFYILVKNGADVSSYDMQAVKKFASAGLVIDPEVVKYLQAAKSGKLFDSEKEALITDKSFWQKVPLLDLEQVSLLITKFIKGEKIDINQMLAPKISQIVLEAVKDIDDIKDQDDMDDVKIFADKNNDDPDI;locus_tag=LOCUS_11230;note=MGA_1155
sequence60	MetaGeneAnnotator	CDS	1126	2418	.	+	0	ID=MGA_1158;product=tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCE8;translation=MNVYDSIKMQELLAPFGFESTEDLSDADMVILNTCHIREKASEKVYSELGRIKKISDTRENRSEMIIAVAGCVGQAEGEEIFRRAPYVDIVVGPQSYHTLPDLVAKLARSEKHLIELDFIEEEKFDNLPQDFKAQGSSAFVSIQEGCDKFCTFCVVPYTRGAEFSRNVEEIYRESMAVVSKGAKEVHLLGQNVNAYHGKAAEDEKYNLSDLIRHVAKINGLERIRYTTSHPRDMDDDLIALHGTEKKLMPFLHLPIQSGSNKILKAMNRKHTREEYFTIIDKLRVARPDIVMSSDFIIGFPGETDEDFADTLDLVKKVRYGQCFSFKYSPRPGTPAASMQQVPEAAKIERLATLQKELSKQQLELNESSVGKILPVLFEKSGKYDGHIVGKTPYMQSAYIENADKSLIGKIVNVKINKGMAISVSGEVID;locus_tag=LOCUS_11240;gene=miaB;EC_number=2.8.4.3;note=Q9ZCE8 tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase (Rickettsia prowazekii str. Madrid E) [pid:65.7%25%2C q_cov:99.8%25%2C s_cov:97.1%25%2C Eval:1.7e-167],MGA_1158
sequence60	MetaGeneAnnotator	CDS	2475	4835	.	+	0	ID=MGA_1159;product=penicillin-binding protein 1A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCE9;translation=MALFFGTIGLVVGAYIIYHYSRDLPDYTQLKQYHPPSITRMYSADGKLIEEYAREHRIFVPISAIPKSLVEAFVAAEDKNFYHHSGIDIFSIIRAALNNISHIINKGRVEGGSTITQQVVKNFLLTSERSLDRKIKEAILSYMVSQVFTKDEILELYLNQIYLGKGAYGVASAALNYFNKSVEELTLNESAVLASLPKAPSKFNPERNYKRAFERKNYVLGRMYDDGYISEDQARKAIELPIKMAKFDKVQTMDADYYAEKVRDEVIGMFGEEYFYTAGLTILTCVDSKIQEAAANALRFGIKKYDMKRGYRGPLKNISLVNWQDDLRVTPNPPGIRHYKLAIILSVQNNQAKIGLKSGKTSNIFLKDMKWAATNLKSVKKILKAGDLIVVEKVGKNYQLQQIPEVNGGIMILENGTGRVLAAEGGYDYSVSKFDRTTQAKRQPGSLIKPFVYLSALENGARPNDIFEDAPIEIEQGPGLPMWKPRNYERNFLGPMTLRKGLEKSRNTVTVRVGQFAGTPKVTETIRRFGINDNPLAVHSIVLGAIETTLARMTLAYGIIANGGRKLEPHYIELIKDRKGNVIYKRDYTECPECKSYKLDEEGKIMPPEIKVTKGQIITDEASNYQLTSLMMGGIQRGTGRGAKHIKQIIAGKTGTTNKAKDTWFMGFTPKMVVGTYIGYDNPKSLGKRVSGASVALPVFVNFMENGYKDMPSVDFVVPDSIMLASIDYETGKPSTEKGAIIEAFKVNHFNPMFENIEADTQHTVQQNDNDPFAKIQDYDTSQELY;locus_tag=LOCUS_11250;gene=mrcA;EC_number=2.4.2.-,3.4.-.-;note=Q9ZCE9 penicillin-binding protein 1A (Rickettsia prowazekii str. Madrid E) [pid:57.5%25%2C q_cov:99.1%25%2C s_cov:97.8%25%2C Eval:1.0e-259],MGA_1159
sequence60	MetaGeneAnnotator	CDS	4946	6403	.	+	0	ID=MGA_1160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLLNSHFDTKNAQHTGGVTGSARVKHKVKNIFYQLKPSILSNTLMRRFKAGHVDRENFGEVIASKISRSIMSGIDRDSVPEVSLVYNSNLKQVQIASKYLTGSKVRTLDDYAKEGGAVFKKHAVFVSQPTGKAKEFDLSGEKNSSLRKGLSYSIALSSIVGDHDVNPGNIMMVDNKVARIDFGHAFNDLINTSKIFGGRLRNSNRTLDFINREHVAAFPPPGAKSKLWRDYPGLIPSEEIAQAYHDLSRPDNNVTQGVNEAKAEFQDLLNHVRENGTKKEIKAVTKHVISSLKAINSSIGGPKIKSSSKNANKFLDEVFNNLGEFCSENRRQMQGVSKLLKLQSDIDKTLEEIAKSGKEPTKKQLGIIRAQYNELKQEKGIGKRGWWRPGIRWAKCKSGTRAHKGSLRSYIQSRAKQLGVDKSLAKDFANKAKYALPIKDDSLERNEPNKTANKAVNPHHKSPSIVVQANLPQKAAAKPKTVSR;locus_tag=LOCUS_11260;note=MGA_1160
sequence60	MetaGeneAnnotator	CDS	6526	6885	.	+	0	ID=MGA_1161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREYKTIGLDLAKRKFHFVVLNSEGKKVLAKKCDSEDLISVLLNTVCPKTFNGVIAMEACSGCHYWARIFQQQGYQVKVLKTIDVKAYAKIRQKNDINDALAIAKASLDQDLIPFPSLN;locus_tag=LOCUS_11270;note=WP_001572362.1 IS110 family transposase (Enterobacter cloacae subsp. cloacae ATCC 13047) [pid:40.8%25%2C q_cov:84.9%25%2C s_cov:29.1%25%2C Eval:9.6e-12%2C partial hit],MGA_1161
sequence60	MetaGeneAnnotator	CDS	7106	7711	.	+	0	ID=MGA_1162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNAAMSVHPASLLLRAKLKNMSTKLMRKAFYQTWSEICSSKKTQDIQTFLEEEKSIDKQIVELNRHNKKAIRLQTIPGIGPINSSILASMPLQSHENARDFLASLGLVPSQRTTGGEINLGPITKKGNRYVRTMLVQEARCILMGTSKGRGKGEPLVQWAYQLWKRKGYNIACVALANKLARICYGSIVNDQDYGPQKIYS;locus_tag=LOCUS_11280;note=WP_013533416.1 IS110 family transposase (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:37.2%25%2C q_cov:71.1%25%2C s_cov:41.0%25%2C Eval:3.6e-20%2C partial hit],frameshifted%2C insertion/deletion at around 7257,MGA_1162
sequence61	MetaGeneAnnotator	CDS	362	658	.	+	0	ID=MGA_1163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKTKLGLPLEYNELSEYFDAHNVGDDTADKNAILSKLLRKYGVKTVLDLTCGTGSQVFFLTKYGFLVTGADFSPKLLDIARAKVKKKSLISGLLTVI;locus_tag=LOCUS_11290;note=MGA_1163
sequence61	MetaGeneAnnotator	CDS	655	1149	.	+	0	ID=MGA_1164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTLKVGKFDAVITIFNAIGHLTTDDFEKAIKNIYDNLKPGGIYVFDIFNLEAMSSNVVQNIAMDINKDVGTTRIHNIQHSVINRETGQLTSYDSYTICDDKNQITEIKNEFTLQIYTATWLQDLLAKNGFETVDQIAFDGTEFLNKKSLSILTIARKKERLTN;locus_tag=LOCUS_11300;note=MGA_1164
sequence61	MetaGeneAnnotator	CDS	1190	2005	.	-	0	ID=MGA_1165;product=parvulin-like PPIase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCX6;translation=MKKLAVFFLSATLLSTPALAGKDVVVGTYNGGEVTEQDVMKQFKPMIEMQPENKGKSFSQLDKKLQELLVRGYINQKLFEKEADKLGIRNSKEFKEKLQMAESQMIQQELIERHLKKAVTDKMVNEEYNKLVKSLKGQKEVKASHILVDTEEKAKEIKKKLNKGSKFEALVKEFSKDEGSKANNGELGYVLKGQLVPEFESKAFSMKKGEVSEPVKTQFGWHIIKVLDSRTVQVPTKEQAESGIRGKLSREAVEKYFTQLADKANVKVNLK;locus_tag=LOCUS_11310;gene=plp;EC_number=5.2.1.8;note=Q9ZCX6 parvulin-like PPIase (Rickettsia prowazekii str. Madrid E) [pid:45.4%25%2C q_cov:99.6%25%2C s_cov:96.8%25%2C Eval:2.1e-65],MGA_1165
sequence61	MetaGeneAnnotator	CDS	2149	4875	.	+	0	ID=MGA_1166;product=protein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCX7;translation=MFSFLTKIFGTANDRIIKGLQKEVLKINALEKDLLNLTDAELKAKTDNLKQKLSNGQSLDDIAYEAFAVVREAAKRVIGQRHYDVQLVGGLILHRAMITEMRTGEGKTLVATLPAYLNALTGKGVHIVTVNDYLAKRDSEWMGKIFEFLGLTVSCVIGQMDDEERKAAYRCDITYATNNELGFDYLRDNMKFTEDTKAQRPFNYAIIDEVDSILIDEARTPLIISGPVDDSTELHGKINVLIKNLEKTDYEVDEKAKSVTLTEDGINRMELMLAENGLIIQHSSLYDFDNLSLVHYINQSLRAHFIFSKDVDYLISDKKVMIIDEFTGRVMDGRRYSDGLHQALEAKENVPIQNENQTLASITFQNYFRMYPKLSGMTGTAMTEAGELKDIYNLEVVSVPTHNKVTRIDHDDAIYGTTSEKYKAVIELIKDCHSKGQPVLVGTISIEKSEEISKELTKNKIKHNVLNAKMHEKEAHVIAQAGRHKAVTIATNMAGRGTDIMLGGNPEMMIEDLDQNLNDKQHELEVERIKTLVTEEKEKVLEAGGLCVIGTERHESRRIDNQLRGRSGRQGDPGSTKFFLSLEDDLMRIFASERISGVLRTLGLKDGEAIHHPMISRSLEKAQQKVEGHNYEIRKNLLKFDDVMNDQRKIIYEQRNEIIASDDVSSFTTSMLEQLCQNTVSNFIDSNSLREDWRLPELSAEIQRTFALNISENELSSIEGAEVEITSHLSQKVTEFLTKKDAEYSEELMRSAAKYLLITTLDQVWKEHLHNLDYLRQGIQLRAYGQKDPLNEYKREAFGLFERMLDHLRELFIQRLCFLHIDTEHVNKQSMALANRELQEMNTSRMDPAFEKYNSGKDIEVKAKPFKSMVNPEDRDPSDPSTWGKISRNELCPCESGKKYKHCHGLEA;locus_tag=LOCUS_11320;gene=secA;note=Q9ZCX7 protein translocase subunit SecA (Rickettsia prowazekii str. Madrid E) [pid:66.2%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:0.0e+00],MGA_1166
sequence61	MetaGeneAnnotator	CDS	4881	5606	.	+	0	ID=MGA_1167;product=gamma-glutamyl-gamma-aminobutyrate hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011388409.1;translation=MKKPIIGIVLDLAKDGEKYSYSPKPWYALRADYSNMIEQAGGLPVLLPYTKDVKSQIDMIDGLLIPGGDEDINPKFYGQEIKSNRVKTNDKRASYELALTKEALKKDKPVFGICNGLQLINVLLGGTLIQHIPDMHASDINHEQPHPKCAPTHDIIIEDSTLLSELTKDKTIKVNTTHHQAIDKIADGLVISARAPDGIVEAIESKDYKFLVGVQWHSEYQNSDLDKNLFKRFVEESAKPI;locus_tag=LOCUS_11330;note=WP_011388409.1 gamma-glutamyl-gamma-aminobutyrate hydrolase (Rhodospirillum rubrum ATCC 11170) [pid:41.2%25%2C q_cov:98.3%25%2C s_cov:97.5%25%2C Eval:6.5e-52],MGA_1167
sequence61	MetaGeneAnnotator	CDS	5731	6711	.	+	0	ID=MGA_1168;product=delta-aminolevulinic acid dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599058.1;translation=MMYPIVRLRRNRRTSWLRDLTSETHLQPSDLILPIFVIEGENLRTEVKTMPSVFRQSIDQVVITAMEAEKRGIKAIALFPSIDPSLKSESADEAYNLDNLICRTVRSLKNSGLTIGIICDVALDPYTTHGHDGILIDGDVDNDQTVEALSNQALVLAKAGVDIVAPSDMMDGRIMAIREDLDENDFINVNILAYAAKYNSSFYGPFRDAVGSNKKNYLSKATYQMDVRNRSEAMREIEHDIEEGADMVMVKPGMPFLDIINEASQRFDIHVLAYQVSGEYAMLKIASENGALDWEKIMIESLVCFKRAGTSAILTYAALEAAELLI;locus_tag=LOCUS_11340;EC_number=4.2.1.24;note=WP_004599058.1 delta-aminolevulinic acid dehydratase (Rickettsia prowazekii str. Madrid E) [pid:69.5%25%2C q_cov:96.6%25%2C s_cov:95.5%25%2C Eval:2.0e-124],MGA_1168
sequence61	MetaGeneAnnotator	CDS	6729	7355	.	+	0	ID=MGA_1169;product=SCO2-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCW7;translation=MENNSSKLSKIIIALSAVIAAISLYILIAIELPDKPLAGQGGAPNDEVLIGGDFTLTDHNGNEFSSDMMKGKMSLVYFGFTFCPDICPTSLQKLTNVLTTLDKYQIDVLPIFITVDPSRDTKELLKEYLGHFHPKFLGLTGTEKDIYEVADLYKVFYAKAEGADEAGDKYMIDHSSFVYLMDKNGKYLKHFYMTTKAEEIIDFIRTHK;locus_tag=LOCUS_11350;note=Q9ZCW7 SCO2-like protein (Rickettsia prowazekii str. Madrid E) [pid:54.6%25%2C q_cov:88.0%25%2C s_cov:88.8%25%2C Eval:8.0e-58],MGA_1169
sequence62	MetaGeneAnnotator	CDS	147	1874	.	-	0	ID=MGA_1170;product=penicillin-binding protein 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886326.1;translation=MIGAGKAGLLFLLAGRMFYMQFIKKDEYRTLSDNNRIKMIVISPTRGEIYDVNNKIIAKNITCFRLLLDKNGNPKFSQDIELITQILELDDEQTKEIQARVKRGGRRIPAILLDCLEWKDVAAIEERKSELKSVFIDTGFSRLYNFGNAASHLVGYLGRPVKKEGETLKLVDEAFRVGKNGIERYYEEELRGQFGFKRIEVNARGLYIRELGKSTSIAGNNINLNIDIELQKKIHQYLNPQGCSAIVMDCTNGEVLVCTSSPGFDPNQFNKLSTKYWNSLINNPYKPLINKTVKSLYPPGSIFKIITIIAALESGIDPNDKIHCSGGPVLGGNKFRCARRRGHGNLNMIDAMKHSCNTYIYTVARKIGANKIIEVAKRFGFGQITGIDLPGERAGFVPTKSWKKKRYGSSWRLGDTLNLSIGQGFLLCTPIQLARLAAAIASDGKLFTPRIAKGKIEYKQVSIKKEHLDIIKTALYNTMNTPGGTGYFSRLNYKSMRLTGKTGTAQVQAKKSVDDNLSRADIAWKSRNHAIFSGYVPFNNPKYAISIYYDHGGGGGRAAAPIAKKIAQDVLIKYY;locus_tag=LOCUS_11360;note=WP_010886326.1 penicillin-binding protein 2 (Rickettsia prowazekii str. Madrid E) [pid:49.7%25%2C q_cov:99.8%25%2C s_cov:96.8%25%2C Eval:2.4e-175],MGA_1170
sequence62	MetaGeneAnnotator	CDS	1918	2415	.	-	0	ID=MGA_1171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCY5;translation=MYKLAIKFLVYLISISYIGLIFMMPFNWHYIGSNPEIFPAFDLIIIYYLNTYKTVKNWHLFLLGLLIDQLYQMPLGTSSLSLIIANLLLDQSRSRFLLKDYYTNIGMFCAYSMFIIASRFLIVTIDSTHHIQGNSVYFYYFTTIFSYPIMKILIGKPIEMIKNYA;locus_tag=LOCUS_11370;note=Q9ZCY5 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:33.3%25%2C q_cov:100.0%25%2C s_cov:95.4%25%2C Eval:3.9e-23],MGA_1171
sequence62	MetaGeneAnnotator	CDS	2408	3514	.	-	0	ID=MGA_1172;product=rod shape-determining protein RodA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886254.1;translation=MEYNNSEEFLQKIQRIPLSIPLLTSILSIYGFVLLYSAAGGSLGPWAEKQITAFCIFMPISLLIALIDLRIIYQLSYFLYFITLIMLITVEFTGKSAMGATRWLNLGIITIQPSELVKISLVLMLAKYFHESSKYNLPEYNIIIPIIASLIPIAFVIKQPDLGTAMITLIVAITIFFAAGKRLLYFIVSGILCLAALPVFWYMLHDYQKSRVLTFINPERDPLGAGYNIIQSKIAIGSGGLFGKGLLSGTQGHLSFLPEYQTDFIFAFLTEELGFLGGIILITIYATLTASCLSVAMHCRSKFATLVTVGIATLFFAHVFINIAMVMGLLPVVGVPLPLLSYGRTMMGSILIGFGLIMNMSVNRYNNV;locus_tag=LOCUS_11380;note=WP_010886254.1 rod shape-determining protein RodA (Rickettsia prowazekii str. Madrid E) [pid:49.7%25%2C q_cov:97.0%25%2C s_cov:93.5%25%2C Eval:6.5e-101],MGA_1172
sequence62	MetaGeneAnnotator	CDS	3529	5292	.	-	0	ID=MGA_1173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEPKSNEKKLDPIDQSIAIQMVTFSVVIVVVILTLVSFIRIYSNKKEQILKDMKMESELLETVITDHLNYSRYFINIIGRSILRDHKNLKHIHKTLKDHFTSHDFNMMFGWRKFSWINANFHEVVSSTKGIIGKPKHREYIKDIIGKRKINNSDWRNHIVFHTKNSVTKGKSLKIIDNLSDPSTEKYLGSVLLSYDINTMVRSLNIRKKNSSTHFIILDQNMKVIAQSRNVISNVIDHNEELDPNLSKIVKSLKNNQSELNEISYLDMFNGINYFVSSLKGLPFTIIVNIDNEVIKQDIIDNITKKFIEVCIFAIACLFMVISVYKRETRLRTKAEKATAVAKSVTKAKSDFLAFTAHEIRSPLGFIQTGSEIMKKELWGKLPPKYKKYAEGIHKNSNLILDFINDILDENQIIEGKFKTINALTEIPKVIDEAIKLSNARFTKRKINIEKEIEENLPLLICDERRILQVFINLISNSIKYSKDNTTITISARIIDNKMEIKVMDQGIGMKEEDIPVALSAYGTLQGIDYQSTGSYGLGLAIVKMLLDAHDAILSVSSVEKKGTTVKVIFPKYKLVYNAYNRKRSRK;locus_tag=LOCUS_11390;note=WP_011086519.1 two-component sensor histidine kinase (Bradyrhizobium diazoefficiens USDA 110) [pid:33.8%25%2C q_cov:40.0%25%2C s_cov:43.4%25%2C Eval:5.4e-29%2C partial hit],MGA_1173
sequence62	MetaGeneAnnotator	CDS	5411	6793	.	+	0	ID=MGA_1174;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE62;translation=MKLSLYNSLTRKREIFSPIDDKLVKMYVCGPTVYDHPHIGNARSVVVYDVLYRILINLFGYDHVRYVRNITDIDDKIIIRALEEKISISELTQKTTNYFHDDMDYLGCNRPNIEPKATEHLKEMIEIINKLLAKNIAYKADGHVYFDVTKAQDYNKLSGRLFEDMFQGVRIEASESKKHPGDFVLWKPASPEDDESARFESPFGEGRPGWHIECSAMSYKYLGETFDIHGGGADLIFPHHTNEMAQSCSAFPGSKYAKFWVHNGFLTVNHEKMSKSLGNFTTVQDLRRKGIKGDVARLFLLSNHYRKPIDYNDKAISDAKGMISYWYRAIENLSDIEVSKVPEEFFNCLLDDMNSSNAIKITNDYAKQIHSETDIKQKGKLASKLLACANFLGLMSVSVDEWFKGSDNDKIKYIENLLARRLIAKKQKDWQLADQIRQELNDMEIEIEDKPDGTSIWKKK;locus_tag=LOCUS_11400;gene=cysS;EC_number=6.1.1.16;note=Q9ZE62 cysteine--tRNA ligase (Rickettsia prowazekii str. Madrid E) [pid:61.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-161],MGA_1174
sequence63	Aragorn:1.2.38	tRNA	791	868	.	+	.	ID=Aragorn_29;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_29
sequence63	MetaGeneAnnotator	CDS	915	1358	.	+	0	ID=MGA_1176;product=deoxyuridine 5'-triphosphate nucleotidohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDD2;translation=MTIVKIKQLENADGLEMPHYATKQSAGLDLPAAIDNDVVIKAGETKIIPTGIAIALPAGCEAQIRPRSGLAAKHSITVLNSPGTIDADYRGEVKAILINHSTEDFTITRGMRIAQMVIAKYEHVKFDEVQSLEETERGEGGFGSTGK;locus_tag=LOCUS_11410;gene=dut;EC_number=3.6.1.23;note=Q9ZDD2 deoxyuridine 5'-triphosphate nucleotidohydrolase (Rickettsia prowazekii str. Madrid E) [pid:65.5%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:7.0e-46],MGA_1176
sequence63	MetaGeneAnnotator	CDS	1436	2116	.	-	0	ID=MGA_1177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNRDDLSLQGLLTQCIGAKNYLGVYVASRLGGDVCYEKDSYISGKKFGNINLAITMADPKMVALLVELGAEVSIDDVEYAASIYFMTNNFLSKVDEAFKETRSDNALEIIKFFYNIGADTSSIEKAYPVLKSHVCFEALIRFENFLLDLRSAQPEKPEFDFTNFKLCLNEIADEFAFDLARVIECPESLYHKLESGFYGLNPDVLCQRAGDSVSEDMVELLGLE;locus_tag=LOCUS_11420;note=MGA_1177
sequence63	MetaGeneAnnotator	CDS	2221	2601	.	-	0	ID=MGA_1178;product=ribosome-binding factor A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:O05964;translation=MKSRKNYKLNTRHKEQSQRQLKVAQTIHASLVECFRREGKLDYRLDGAPISIVEVNISPDLKVANCFFVPFNTDLSVDELLDALEKSKYVIRSYITRQVNLKYSPEIRFYYDEGSENAIIVEKLLK;locus_tag=LOCUS_11430;gene=rbfA;note=O05964 ribosome-binding factor A (Rickettsia prowazekii str. Madrid E) [pid:51.3%25%2C q_cov:89.7%25%2C s_cov:88.3%25%2C Eval:6.7e-29],MGA_1178
sequence63	MetaGeneAnnotator	CDS	2579	4969	.	-	0	ID=MGA_1179;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCZ8;translation=MTDNQEDKKAKKLTLGGTKLSLGNYPKKVTKTLGGSGSIVVEVKRGKATGGGLSLNKVSPTQTNADQDSRRMAALQRSKVDDIEDEQVQIGSLSKLAEINQETEVEDVADTPAPADEAVVIEKTSTSRKDHGKKSASLPPKSQKEKTDEEKATPTKPKSLEPKKLKKSDIIHMLEEDSGSAPFKTRSLASIKRARAKEKRKTEGVAVKAEKVYREVILPEVITVAELSSRMSERASDVTRELMKMGVMATSTQSIDADTAELIATSLGHSVKRVKESDIEDVLIDKDDSPEDLKPRAPIVTVMGHVDHGKTSLLDALKSTDIVGGEAGGITQHIGAYTVTISDNRMITFIDTPGHEAFTEMRTRGAQATDIVVLVVAADDGIKAQTVEAISHAKAAEVPIIVAINKIDKPEADIDRVKTELLSHELIPEDLGGDIITVGVSAKQRQNLDKLEEAILLVAEMQELKANPDTIAAGVVVESKIDQSRGVIATVIVQRGTLKKGDIVIAGNSYGRVRRLCNDKGLTIAEAGPSVAVEVYGLNDAPSAGDIFNVAETDKQARDIVEYRQRKARDLQVTASKTSLEDLFLKASGDNKIKELPVIIKGDVHGSIEAIITSLGKIESDEVKLKVLHSAVGGITESDTTLATASSALILGFNVRANNAATSSAENNKIDIRYYSIIYNLIDDIKAIMSGMLSPIIREEYIGSVDIREVFNISKVGKVAGSYVTKGVIKRGAGVRLLRDSIVIHEGKLKTLKRFKDDLKEVKEGFECGIAFENYDDIKVGDSVEVFEIVEEQKKL;locus_tag=LOCUS_11440;gene=infB;note=Q9ZCZ8 translation initiation factor IF-2 (Rickettsia prowazekii str. Madrid E) [pid:56.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-251],MGA_1179
sequence63	MetaGeneAnnotator	CDS	5018	6523	.	-	0	ID=MGA_1180;product=transcription termination/antitermination protein NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCZ7;translation=MDDFGKAEILQIVDAVSRERGIPKASLIEAMEQAVQIAGRKKYGLEQNISAQIDQNTGKISLFRVREIVETIDNVVQQILLEDAIAIRPDAKIGENILEPLPPIDLGRVAAQTAKQVIVQKVGEVERERQYQDYKDRKGDILNGTVKRIEFGNIIVDVGRAEAILRRGQQIRGEMFQVGDRIKAYVQDVRPEPKGPQIFLSRTDDEFLRKLFEMEVPEIYDNIIEIKSIAREPGSKAKIAVVATDVSIDPVGSCVGVRGSRVRSITNELSGEKIDVINWDKNVAQFVINAMTPAEIAKIVFDEEGNRVEAVVPDDQLSMAIGRRGQNVRLASKITGWAIDVMTEEQESKRRSEEFTNTTELFVNHLGVEEVIAQLLSAEGYTSIEQIAYSEDEVLAAIEGFDTELVTELKNRAITYLEKKNEDIIEGLEKLGVEQELLDSLDLPPEYILKLAEFGVKTIEDLGEVTPAEFRGIVPETVISSENIEALINFAKEQSEEGQQD;locus_tag=LOCUS_11450;gene=nusA;note=Q9ZCZ7 transcription termination/antitermination protein NusA (Rickettsia prowazekii str. Madrid E) [pid:60.5%25%2C q_cov:99.0%25%2C s_cov:99.2%25%2C Eval:2.2e-169],MGA_1180
sequence63	MetaGeneAnnotator	CDS	6548	7036	.	-	0	ID=MGA_1181;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:F9Y659;translation=MERKIAELVEDTVNDLGFGIVKIAINGSANKIVEIFIERLDGEKIEVGDCQLVSRNISAILDVEDIISGKYFLEVSSAGLERPLVKLQDFEKYADSEVKIRLKEPHNGNLSFRGKLLGVIDSKIRLKSKNVEIGFDFENIRRANLVLTDEMFRKLLNKDKKK;locus_tag=LOCUS_11460;gene=rimP;note=F9Y659 ribosome maturation factor RimP (Ketogulonicigenium vulgare WSH-001) [pid:38.4%25%2C q_cov:98.8%25%2C s_cov:78.7%25%2C Eval:1.2e-24],MGA_1181
sequence64	MetaGeneAnnotator	CDS	1980	3401	.	-	0	ID=MGA_1183;product=NAD-dependent succinate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010973680.1;translation=MLDFLNKKNFVNGKWISFSEEIAVDNPATGKIIGHAPDISEKQLRDAVEVTIEAADKWKNSTIEQRYQVLRKWQELNKKYFKELADLITLEQGKVISEAQGELIYGGAFIDWFACILRPHSNYSRAGSSIEHKVVVEKEPIGPVAAITPWNFPSAMMSRKIAPAIAAGCSVILKPSELTPFSALAQAKLLEEAGLPAGVLNVVTCDAKLFSDVVCNNFRIRKLSFTGSTRVGKLLFEKSAKTVKRLSMELGGNAPYIVFADSDIDKVTDDLVGIKLRSGGQSCTSPNRIFIEDKIYNKFTELLTEKFSKCKAGDGYKKSSDLGPLINAHAVEKINLLLRDAVNHGAKILCGGSHNGNFVDPTVVKDCHDDMNIFSNEIFGPVLACYNFENVEEVIARANNTEYGLQSYLYSKDMKRANYIASKLDFGMVSVNSSRPATTNAPFAGRKASGFGIEGSHEGIDEYLNSKYININY;locus_tag=LOCUS_11470;gene=attK;note=WP_010973680.1 NAD-dependent succinate-semialdehyde dehydrogenase (Agrobacterium fabrum str. C58) [pid:42.7%25%2C q_cov:97.5%25%2C s_cov:96.3%25%2C Eval:7.3e-111],MGA_1183
sequence64	MetaGeneAnnotator	CDS	3421	3963	.	-	0	ID=MGA_1184;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE96;translation=MDKNVPNYLTILRMIAIPIIIMSFYFDDSKFAHRLGAVIFALASLTDFFDGFLARKYNLVSSFGTMFDPIADKVLVGCVLLMLVKFGRADEVPCLLILSREFVVAGFREFLAQVRVSIPVTWLAKTKTCIQMVAMTMLLLGSTGSGIESLDLIGHICLWIAAILTVITGYSYLKASIKYI;locus_tag=LOCUS_11480;gene=pgsA;EC_number=2.7.8.5;note=Q9ZE96 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Rickettsia prowazekii str. Madrid E) [pid:62.6%25%2C q_cov:99.4%25%2C s_cov:98.3%25%2C Eval:6.4e-60],MGA_1184
sequence64	MetaGeneAnnotator	CDS	3977	4441	.	-	0	ID=MGA_1185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSEFIIRKIKPEEVDLLEDIIVDSLSVRDYSGNELKRMINRLEISSKLIQKSIIYVAELKNKIIGFWLREIQEDLSEGRFFVLKNYMKKGVGTALWKKMVHELKESHKLEYFTFISDEAARSFYEKMGATKIDEKPSVVLLGTNVPIMRYNLK;locus_tag=LOCUS_11490;note=MGA_1185
sequence64	MetaGeneAnnotator	CDS	4581	5288	.	+	0	ID=MGA_1186;product=succinyl-CoA--3-ketoacid-CoA transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010918095.1;translation=MTKIYKDADDAIADVIRDGMLIHAGGFGLCGIPENLISAIKKSGAKDLTIVSNNCGVDDFGLGILLKNGQIKKMIASYVGENKTFEKMYLDGTLELELNPQGTLAERIRAGGAGIPAFYTKTGVGTVVAEGKEVREFNGEKYVMEHGLFADLAIIKGHKADKHGNIIYNKTARNFNPVMATAAKITIVEVEEIIENGKLDPNNIHTPSVFVNRLIQGKTYEKRIEKVTIREKGAK;locus_tag=LOCUS_11500;EC_number=2.8.3.5;note=WP_010918095.1 succinyl-CoA--3-ketoacid-CoA transferase (Caulobacter crescentus NA1000) [pid:69.5%25%2C q_cov:94.9%25%2C s_cov:94.5%25%2C Eval:4.1e-88],MGA_1186
sequence64	MetaGeneAnnotator	CDS	5288	5926	.	+	0	ID=MGA_1187;product=succinyl-CoA:3-ketoacid coenzyme A transferase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P0C7I8;translation=MSWTTDQMCKIAAEMEVKDDQHINLGIGMPTNISNYIADNIKVSFQSENGMLGMGPFPYEGDEDPDLINAGKQTITELDESSYFDSATSFAMIRGSHIDLTILGALQVSTKGDLANWAVPGKMIKGMGGAMDLVANINRVVVLMTHNAKDGSPKLVEECTLPLTGVNVVDRIITDLGVFDVTEKGLELFKKHRDVSFEEIQKRSSAKIINCL;locus_tag=LOCUS_11510;gene=lpsJ;EC_number=2.8.3.5;note=P0C7I8 succinyl-CoA:3-ketoacid coenzyme A transferase subunit B (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:60.3%25%2C q_cov:98.6%25%2C s_cov:97.7%25%2C Eval:5.7e-67],MGA_1187
sequence64	MetaGeneAnnotator	CDS	5941	6351	.	-	0	ID=MGA_1188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKQVVSAKVAQEARFNEYLKLFELESYNGNYELLENAFAVQCRAMVKYANQLYPEKRFTEEDAVDCVLIALNNRNYKGQITFLPKLFISLYNEIVSSQDISSSVLEIIKTGWGINTVEEQDNIDNADLLGSVSDI;locus_tag=LOCUS_11520;note=MGA_1188
sequence64	MetaGeneAnnotator	CDS	6485	6901	.	+	0	ID=MGA_1189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MERCKGCGSDVIVKNGKTRHGKQRYRCTNCSGNYSEGDGRLKHGMEKRLKVIKMYLEGVGIRSIERLEGVSTPLVIYWIRHFSSLIRKELNRIPIPETPDKIEILEINELFTYYKKRPSEHMYGLLLTETGTRLLISK;locus_tag=LOCUS_11530;note=MGA_1189
sequence65	MetaGeneAnnotator	CDS	247	1788	.	-	0	ID=MGA_1190;product=protein translocase subunit SecD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCW8;translation=MNKISKWKIITSILFTVTAFIYVLPNFTEDSPEWLPGDKVNLGLDLRGGSHLLLSVDFDSYMDDISQSVADGLRKYLRDEKVGYRNLKISRNKVQFDLRSQDDYSKVKKAVRSVDSNLSYGKEGDTITLYYNEYAINQLQDKVIDQSIEIVRMRVDSTGTKEPNIQRQGVKDILLQVPGEENPAELKRVLGKTAKLTLHLVDEGANLERARSGHAPTGSRVVKSEETGEVLVIKKKVIVSGDQLNNAQAQFQEARPVVHFSMNHLGAKRFADVTTNNQGKRLAIILDGKVLSAPVINQPIIGGDGIISGSFTVEQATELALMLRAGALPAPLKVIEERSIGPNLGADSIEAGKVAAAAGFVFVVLFMLLSYGILGLFANITLVIALLYILALLSLFQATLTLPGIAGVILTIGMAVDANVLIYERIREEIEKGCSNLYAVKMGFESAFATITDSNVTTLIAAFLLYTFGVGAIKGFAVTLTIGIIASMYTALVVTKLMIDIWLKYGKPKSLGL;locus_tag=LOCUS_11540;gene=secD;note=Q9ZCW8 protein translocase subunit SecD (Rickettsia prowazekii str. Madrid E) [pid:62.3%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:5.7e-181],MGA_1190
sequence65	MetaGeneAnnotator	CDS	1816	2259	.	-	0	ID=MGA_1191;product=UPF0092 membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCW9;translation=MFIDNAFADTDTITIQDSDGTPDAPPSIESGLTSLVPMVLIFVVFYFLLIRPQEKKRRAQETLVAGVKKGEEVLTNTGIYGVVTKINDSDNTVMVRIADNVEVKMLKNSITDIISRSKESTPSDEKASTKDNKKKKTSAKKNVSSKK;locus_tag=LOCUS_11550;note=Q9ZCW9 UPF0092 membrane protein (Rickettsia prowazekii str. Madrid E) [pid:54.1%25%2C q_cov:83.0%25%2C s_cov:85.9%25%2C Eval:4.7e-34],MGA_1191
sequence65	MetaGeneAnnotator	CDS	2307	4070	.	-	0	ID=MGA_1192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLDRKLDSKQVVKRLIVDHVAPYKSKVFLAIFFMIIVALCSAAIVRLVKPAIDDVFVNHDRQMLIILPLVMFGVYSLKGIAEYFQSFLIKYIGQQILTNMQMLMYEHLLFADFLFIQSQSSGRLISRFTNDIVLMRGAVSNMLVGCAKHFLSVLFLIIVMFTLDPYLSAFIFLAFPIAIFPIQKLGRRMRAVTGEAQEELSNFTAQLDETFYSVKVIKSFCTEALEASRAKKITAKILSFYKKAAKFDSLTSPVMEILSGLAIACVLWYGGYKVIEGKMTTGALFAFITAFVSAYRPFKSLVSLNVNLQEGLAAANRVFNILDLQPEVKDDKNALKPEMKKPGVEFRDVLVKFGAKSAINSLNLKVGAGKTYAFVGRSGSGKTTVANLLVRFFDPSEGKILVDNVDIKQISLNHLRNNISMVTQDIVLFDASVADNIAYGFKDASREDIIKAAKAADAHDFIEALPDGYDTLVGTSGSTLSGGQRQRLSIARAFLKDAPILLLDEATSALDPNSEQSIINAITNLRKNRTTLIITHRLSSIVNADQIVVMKQGRVVEQGTHKELLKIEKEYSKLYNKELKEAASSV;locus_tag=LOCUS_11560;note=WP_010886279.1 multidrug resistance protein (Rickettsia prowazekii str. Madrid E) [pid:56.4%25%2C q_cov:74.6%25%2C s_cov:92.0%25%2C Eval:4.1e-146%2C partial hit],MGA_1192
sequence65	MetaGeneAnnotator	CDS	4203	4898	.	-	0	ID=MGA_1193;product=DNA-binding response regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012706736.1;translation=MSDKLPPKILVVEPDEVLNASLCNTIERYWFDVNRAKSSEAAIRSAEVDPPNVAIISSRIQDKSATEMAIQLKKIKGLEKLPIVFLIEQGEQVENYSLVGEEYSEALCRPFTPNELMTTIRSLLRKSKPVFQDKIIKHNDISMDLSTFRVYRGNKQVHLGPTEFKILQLFVQKPKNIYSRRQIIDYVWGVDKEIAQRTIDVHVNRIRTLMKLNTDQYQLIKTIRSAGYCLD;locus_tag=LOCUS_11570;gene=phoB;note=WP_012706736.1 DNA-binding response regulator (Sinorhizobium fredii NGR234) [pid:34.5%25%2C q_cov:97.4%25%2C s_cov:98.7%25%2C Eval:3.3e-34],MGA_1193
sequence65	MetaGeneAnnotator	CDS	5127	5495	.	+	0	ID=MGA_1194;product=30S ribosomal protein S6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEA6;translation=MAFYESIIIIRQDVSSADVDKIVDDLKKIIEEHKGKVVKTEYWGLRSLAYEIENNKKGHYYFMGIEATKPLLDEIDRKIKLSESIIRSSLVRVKEISKNASPVLKEKSSDDENTVDVTTKKD;locus_tag=LOCUS_11580;gene=rpsF;note=Q9ZEA6 30S ribosomal protein S6 (Rickettsia prowazekii str. Madrid E) [pid:53.4%25%2C q_cov:96.7%25%2C s_cov:97.5%25%2C Eval:1.7e-32],MGA_1194
sequence65	MetaGeneAnnotator	CDS	5528	5809	.	+	0	ID=MGA_1195;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEA5;translation=MSKDQTTKTNEASGDRNSSKMFFRKSKGCPFSGKDAPAIDYKDPDLLSKFISEGGRMLPSRITNVSAKHQRALKKAIKHARVLALLPFVYNNK;locus_tag=LOCUS_11590;gene=rpsR;note=Q9ZEA5 30S ribosomal protein S18 (Rickettsia prowazekii str. Madrid E) [pid:58.5%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:1.7e-24],MGA_1195
sequence65	MetaGeneAnnotator	CDS	5859	6473	.	+	0	ID=MGA_1196;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZEA4;translation=MQVILVKPVRKLGKVGETVNVANGYGRNYLIPQELAIRATNDNLEKFATLQKELEAKNAESKKEAEKAAKAIDGKHLDFITQSAADGRLFGSVSLKALATKVSEIAKIKLNYSNILLDSPIKFNGVYNVQVVLHPEVTASVLVVVAKTESEAQDALIEFKEGGNKAEDEAKESELESIVEETQKEKAESEEQEEIAAEEAISNT;locus_tag=LOCUS_11600;gene=rplI;note=Q9ZEA4 50S ribosomal protein L9 (Rickettsia prowazekii str. Madrid E) [pid:47.5%25%2C q_cov:78.4%25%2C s_cov:93.6%25%2C Eval:2.9e-33],MGA_1196
sequence66	MetaGeneAnnotator	CDS	243	1787	.	+	0	ID=MGA_1197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSAIIKIFTIGAACISAAFLGHSAYKGYTLAVTPSKFEHTAKLLKFNSNERISAKVQQEALLKAFYYAGYFKPENLWQDINHLGFDNPEDVFLSIMEDVVKSGANQKDQSKFNPTILRKHLFNTDSISESDALDLLMYIGQHAFNRDLNQERNELSEQTWMEQYKNEYTKIATDLGLVERISPSNVMYDEAVVLGAARYTVTGRILDYIYNTNNGIIIKGITTALAGKRPLWAEIDGISSDVYGQLISESRKGKRIEDINLQHGTLKEVNSGGVEYMLALASKMEIKINNDEQTIIYRTEDDIPSGFRSGRTYLNYIDPKKFLTETDMVYDVLDTISKGTIKVSDTESSPDGSRPDTSSTARDYANSFIKRIQSGHFGGQKEFIIYVQSNQPYVKRQTLAVQNEIDRAIEESGIEGLKIIAEGVGYGVGEISIKRSHSELGALVAEEYQNALRENNNIHTERHLRDLQFSTRDKSEISEPIPDFSEILLDSKIPILGAVEDWFFQHYDVDEL;locus_tag=LOCUS_11610;note=MGA_1197
sequence66	MetaGeneAnnotator	CDS	2077	5535	.	-	0	ID=MGA_1198;product=acyl-[ACP]--phospholipid O-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599173.1;translation=MDSNQFYLFKDRRFLPIFLVQFFGCLNDGILKNALIILVTFKLAGELTVAPYILVMLANVIFIAPFIFFASLAGQVADRYERSTIVKIIKAIEIGIVLLSSYGFYVNNLFILFSCIALMGIHSTFFGPIKYSVLPDKLRKDELLGANGFIEAGTFLSILFGAMIGGVYNFNASLVVMFAISVAIAGFISSLFMPKSHNTNHDVKINKNIVQETYKMLKHATSKNQVYLAILGISWFWFIGAAILAQIPSLTRHTLGASEGVANLFLATFSIGVGFGSFLCNKIFSSKITTKYVFLAALGISFFATDLYFASKIAGISYEREQLKTVLEFLGKSHYWRILFDLFAIAAVGGIYVVPLFAVMQYYSSPAYRSRIVAANNLINSIFMAGSTGLLSFLFYLDFSIPSVILMVSMLNIVVGIYIYQFIPDSRVVPMKLWRAIFRLGFDLAYRVEVKGAENFKKAGKRTVIIANHLSYIDPALIASNIPEEIQFAINLTISKEWWVKPFLKILRTYPIEPNNPMAIKSLIEEVKKDKKIAIFPEGRTSVTGSLMKVYEGPGMIADKADATILPIRVDGTQFTIFSKVRKLMKGKFSFRRKITVTILPPVKLNAAKTLDNRERRKAIGQSLYDIMSEMVFESSDYKETLFQSLINASKVYGKKTTIMQDIDNNSANYKNILLKSFVVSELVKRDTEPGEKVGLMMPGMVGSAITFFGIQAIGRVPAMINFTAGPSNVVSACQTATVKTIYTSRKFIKKAELGELVDSVREAGIAVIYLEDLRKHITFWTKIKSLLATYFPQSYYETICRKRDDLDTAVILFTSGTEGKPKAVALSHRNIQANRCQVASRIDFNPYDCAFNALPLFHSFGLTGTLIMSLIGVKTFFYPSPLHYRIIPEIVYDVGATIMFGTDTFLTGYATYAHPYDFYSLRYVIAGAEKLKSKTRQVWFDKFGIRVFEAYGVTEAAPGIAINTPMHDKPGTVGRLLPQIEYFLQPVEGIEEGGRICVKGPNIMQGYIRPNKPGVIEPTSVEKLGEGWYDTGDIVSVDDEGYVTILGREKRFAKIAGEMVSLAAVEEMLISVDSAFDYAAVCIEDDKKGEQIIVFTTNKSLKRDLISKKCKEKQLSELYIPRVIVPISELPVLATGKLNYRLMIEMARKEV;locus_tag=LOCUS_11620;EC_number=6.2.1.20;note=WP_004599173.1 acyl-[ACP]--phospholipid O-acyltransferase (Rickettsia prowazekii str. Madrid E) [pid:56.3%25%2C q_cov:99.0%25%2C s_cov:98.1%25%2C Eval:0.0e+00],MGA_1198
sequence66	MetaGeneAnnotator	CDS	5710	6582	.	-	0	ID=MGA_1199;product=aminoglycoside phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946299.1;translation=MYDDKFSVDKKLVSNLLKQQCPNFAKLPIAKVKHYGTDNIIFRIGETYAIRFPKIDYADAQIEKEQIWLPKFKDHLPLTIPVPIKIGKPSEDFPYHWYVYQWIKGVDAYNEPLSDFNQLAKDLSQFIKALWKVNTSNAPLSRRGVSLKTQDTFVHEAIYNLKDKIDINTIARIWQSCLEVSDWNKSPVWLHADLLPSNLLLQNNKLHAVIDFGLMGIGDPACDLIPAWCLFDTNSRIIFKEYLGVDEDTWVRGKGWALSIALIIIPYYLNTNPVLVSVARRIINEIIHDG;locus_tag=LOCUS_11630;note=WP_010946299.1 aminoglycoside phosphotransferase (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:41.6%25%2C q_cov:96.9%25%2C s_cov:96.9%25%2C Eval:7.2e-62],MGA_1199
sequence67	MetaGeneAnnotator	CDS	3	173	.	+	0	ID=MGA_1200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAAVASLRCNAKLKAFYDRLINNGKPPKVALNPVMRKLLAFMHAIVKNNSSWACEE;locus_tag=LOCUS_11640;note=MGA_1200
sequence67	MetaGeneAnnotator	CDS	225	1307	.	-	0	ID=MGA_1201;product=queuine tRNA-ribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCK8;translation=MKFKFNIASTHKRARTGIIETAHGPIKTPAFMPVGTRATVKAMMPSSVESTGSDVVLGNTYHLMLKPGADRIEKLGGLRKFMNWSGPVLTDSGGFQVMSLSDLRKITEEGVQFSSHIDGSKHMLTPESSTEIQYKLDSTITMAFDECTPYPATFEEAKASMELTSRWGQRSRDAFVRRDGYAQFGIIQGGVYKELREQSAKDLVAMDFEGYAIGGLAVGEGQEEMFSVLEYAPTFLPEDKPRYLMGVGKPDDIIGAVERGVDMFDCVIPTRSGRNGQAFTKNGTINIRNSKFADDSEPLEVDCPCPACTNYSKAYLHHTVKVGEIIGAMLMTWHNVQYFQDLMKRIREYIELGKDFDFDC;locus_tag=LOCUS_11650;gene=tgt;EC_number=2.4.2.29;note=Q9ZCK8 queuine tRNA-ribosyltransferase (Rickettsia prowazekii str. Madrid E) [pid:76.5%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:9.8e-163],MGA_1201
sequence67	MetaGeneAnnotator	CDS	1311	2084	.	-	0	ID=MGA_1202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDSNSFLQAEKNLFSKFTYMPEILGYKIKEDNSVRIIDCQLRTSMFNIACNTKFAERDTEDKIRYVIDQYNGSPFAWWVGPTDTPNNLQDNILKAGLEKETDEYAMFCDLSDFQEFELDTNILVKHVETRQELLDFIEVISFYDQHVSEFLDNELVISDQVRAKNPMFVSYIGEKPVGIGALHFNNGIAGIYDIITPEGLRGKGIGTNIMKFLMNYAYEKNIKHLCLSASSDSGFRIYERLGFRVVGTFGCYEWVG;locus_tag=LOCUS_11660;note=MGA_1202
sequence67	MetaGeneAnnotator	CDS	2092	3117	.	-	0	ID=MGA_1203;product=S-adenosylmethionine:tRNA ribosyltransferase-isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:B8GVF3;translation=MKLTDFDFVLPPELIAQKPAEKRDESSLLLPSAKGSRIVKFYQIIDQLSPGDLLVFNDSRVVNAQLELQKDSKAINVNLNKPVSKNTWLGFAKPGKKLKIGDEFEFGEHKIRINNKLESGDVEFEFILKDIGIFNFLDIYGQVPLPQYIKREGQSEEDLERYQTVYSKEKGSVAAATAGLHFTQELIEKIKQKGVETAFVTLHVGAGTFLPVKTEDISKHKMHSEWCQISEKVADKINDAKKSGRRVIVVGTTAMRTIESCAEGGVIVPKVMETNIFITPGYKFQIADMLLTNFHLPKSTLFMLVCAFAGYTEMHDLYEFAISKKMRFFSYGDAMLLSKKS;locus_tag=LOCUS_11670;gene=queA;EC_number=2.4.99.17;note=B8GVF3 S-adenosylmethionine:tRNA ribosyltransferase-isomerase (Caulobacter crescentus NA1000) [pid:46.7%25%2C q_cov:99.4%25%2C s_cov:98.9%25%2C Eval:2.9e-84],MGA_1203
sequence67	MetaGeneAnnotator	CDS	3121	3981	.	-	0	ID=MGA_1204;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011109297.1;translation=MILDVTGDRLAKIVLFGSYARGDWVEDAYRKDGRLETYQSDLDIMLIFKKGKYLEYKDQEIDDKLQDIFEKYLYSEYAAFDMVPGKPPVSLRYESMKSFNKQLRLGRYLFTDIYREGIIIYENGDFEIAEPTFLPWSKIRDMAQFDFDYWFKNGKEFIVDCKNCIARDSYPKAAFELHQAAENFFNAILLVFEGYKPKTHELIKLRRRCKRYSRDVVRKIFVGTNEGERKSFELLCEAYIKARYDRNFEITLEQLDYLIEEVEKLQDITANICRERLSLENFPDKK;locus_tag=LOCUS_11680;note=WP_011109297.1 DNA-binding protein (Bacteroides thetaiotaomicron VPI-5482) [pid:37.9%25%2C q_cov:95.8%25%2C s_cov:88.9%25%2C Eval:9.2e-46],MGA_1204
sequence67	MetaGeneAnnotator	CDS	4081	5028	.	-	0	ID=MGA_1205;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:F9Y7K1;translation=MQKRPKIALIGGGNIGGTLTHIAAKEALGDIVLFDLTAGKAKGKALDIAQTATIENSDVSVSGTNEYKDIAGADVIIITAGVARKPGMSRDDLVATNANVMKTVGAGIKEYAPDAFVIVITNPLDAMVYVLQQASGLPTEKVVGMAGVLDSARFNCFLAEEFGVSVENVNSFVLGGHGDTMVPLARYSTIGGVPVPDMVKMGWSTQDKIDAIVQRTRSGGGEIVSLLETGSAFYAPATSAIDMAKSYLYDKRKIMPCAAYLNGEYGEKGIYVGVPVVIGKNGVEKIVEIEFNAEEKAAFEKSVDSVKSLINSIKM;locus_tag=LOCUS_11690;gene=mdh;EC_number=1.1.1.37;note=F9Y7K1 malate dehydrogenase (Ketogulonicigenium vulgare WSH-001) [pid:64.3%25%2C q_cov:98.7%25%2C s_cov:97.2%25%2C Eval:2.0e-116],MGA_1205
sequence67	MetaGeneAnnotator	CDS	5055	6437	.	-	0	ID=MGA_1206;product=transcription termination factor Rho;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD24;translation=MTKQRKEIQKKSDKPNQNRKTNTKKNKDTEEVPEKQVKDSGVKASLGELKKKSPEELQKQAESLGIENVSSLLKQELIFSILKKIVEQGGQISGEGVLEVLPDGFGFLRSPDANYLAGPDDIYVSPSQIRRFGLKKGDSVEGQIRAPKSGERYFALLKVNRVNFEDNDNAYHRVHFDNLTPLYPEEKLSLEIDTEVKDFSTRTIEMVAPMGKGQRALIVAPPRTGKTVLLQNIAHAITTNNPEVYLIVLLIDERPEEVTDMQRSVRGEVVSSTFDEPAARHVQLAEMVIEKAKRLVEHKKDVVILLDSITRLARAYNTVVPSSGKVLTGGVDANALQRPKRFFGAARNIENGGSLTIISTALIDTGSRMDEVIFEEFKGTGNSEIVLDRKIADKRIYPAIDITKSGTRKEELLVDRATLSKMWVLRRIINPMGTIDAMEFLLSKFKETKTNAEFFNNMNS;locus_tag=LOCUS_11700;gene=rho;EC_number=3.6.4.-;note=Q9ZD24 transcription termination factor Rho (Rickettsia prowazekii str. Madrid E) [pid:80.3%25%2C q_cov:97.6%25%2C s_cov:97.6%25%2C Eval:1.8e-202],MGA_1206
sequence68	MetaGeneAnnotator	CDS	133	264	.	+	0	ID=MGA_1207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPIVEAPKEKMIIFPTPAGTAELPSACLEKVIVGEVRDESDVG;locus_tag=LOCUS_11710;note=MGA_1207
sequence68	MetaGeneAnnotator	CDS	298	564	.	+	0	ID=MGA_1208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKSDNKDLSEEKDVDDLKEKEDSGSDEDYEDPGFWSVIHGKEAYFLPREYGAAVLSTSDYVIYQLGTPWYDLKLVSKVVKLHLVKFI;locus_tag=LOCUS_11720;note=MGA_1208
sequence68	MetaGeneAnnotator	CDS	663	1310	.	-	0	ID=MGA_1209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599681.1;translation=MRKEVFEVPGEENKVLMHSCCAPCSGPLIEKMAESGIDLTIFFYNPNIHPKKEYELRKKENIRYAEKFGLDFIDADYDVQNWFTRAKGMENEPERGIRCTMCFDMRFERTALYAYENDFKVITSSLGISRWKNMQQINDCGIKAASHYDGVEYWTYNWRKDGGGARMYELAKEEEFYKQEYCGCIYSLRDTNSWRKQNNREEIAIGEEFYSNKIQ;locus_tag=LOCUS_11730;note=WP_004599681.1 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:75.4%25%2C q_cov:96.3%25%2C s_cov:99.0%25%2C Eval:4.6e-96],MGA_1209
sequence68	MetaGeneAnnotator	CDS	1303	2565	.	-	0	ID=MGA_1210;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596777.1;translation=MRKIVISGMIGNALEWYDYALYAQFAYIIGLKFFPETEFVEILTFAVFAAGFVIRPIGGIVFGYIGDRMGRRLALVLGIILMAVPTAGIGLLPSYEAIGIAAPLTLTFIRLVQGLSLGGEFSGCIAYIVEHSPADKRGLAGSASFVSMCLGMLMGLIVAQGFTYFLSEEDLMSWGWRIPFVFGLFIGLVGLYIRSHLAESPIYLAAKAQGSLSRTPLRETIREYWRETLMAIAVYINVTAPFYTTTVFIKRYMTNLGYEQTQGALTCSIILVTMSIMFPISAYISDKIGRKPIIVWSSVALVISIYPIFLALHTMNYTLAILSQIVFSAIVGVYMGPVPTLLVELFPTRVRFTGVAISYNLSAAIFGGTAPMVGAALYKITGEQISLAYYLTGLAVFCLGTLYFYKETYRNNLSDDIVHA;locus_tag=LOCUS_11740;note=WP_004596777.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:64.4%25%2C q_cov:98.3%25%2C s_cov:99.5%25%2C Eval:5.6e-160],MGA_1210
sequence68	MetaGeneAnnotator	CDS	2694	3308	.	-	0	ID=MGA_1211;product=lysine transporter LysE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012708648.1;translation=MSYELFIAFFSASSFITFLPGPTVLLIVHYALQYGRWSGRYSIPATILGDITALALAFAGLGTILNLFPEWFFVLKTAGGIYMIILGLIGLRSNATIAQENTADAKPPGRTVFMHVFLITAFNPKTIIFFLAFFPLFIDPTLNTTKQMFIMGAIFVVLGAVGAVVYDLAASKISVWIRRFSSSRIIHIATAIILCGLGLTTIFL;locus_tag=LOCUS_11750;note=WP_012708648.1 lysine transporter LysE (Sinorhizobium fredii NGR234) [pid:31.6%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:5.0e-25],MGA_1211
sequence68	MetaGeneAnnotator	CDS	3423	4793	.	-	0	ID=MGA_1212;product=magnesium transporter MgtE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCX0;translation=MLDKQNTIQADRQDMLEEQFEHITYLLNNDKTDNAIELLLDLHYADLADFIDNASRKHYHVILPNIADKIAPEFLACLSDGNKQRAIEALGITKSAKLINKLDIEDGVEVIDDLDLDLKRAIIGKLKTVKRKQILEGFKYPENTAGRILEKDFVSFKQHWTAGQAIDYIRRSNIEADFHAAIIVNTRFRPVGTLLLSTLLKSPRNTLIEDLMNKEFKIAETQTEIDELAFIFKQYALTIVPVTNKQGKLVGSISIDNMIYIIEEQTETEFMHLGGINNSDIFSNLFAAAKHRFPWLFVNLVTACLTSLVINQFSDTIAKLVTLATIMPIVASMGGNAGTQTMTVTVRALANREITNANTRRVISKEISLCMLNGALLAIIGIILTYLLFADVNLSIIFACAVLINFVIAGFLGSGIPILLNHFDIDPAAASGVFLTACTDAIGFFSFLGLAYFFLV;locus_tag=LOCUS_11760;note=Q9ZCX0 magnesium transporter MgtE (Rickettsia prowazekii str. Madrid E) [pid:54.7%25%2C q_cov:98.7%25%2C s_cov:98.2%25%2C Eval:3.9e-138],MGA_1212
sequence68	Aragorn:1.2.38	tRNA	5057	5145	.	-	.	ID=Aragorn_30;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00300;note=Aragorn_30
sequence68	MetaGeneAnnotator	CDS	5303	5896	.	-	0	ID=MGA_1213;product=Maf-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCE2;translation=MELPIILASASPARLRLLKQIGITPDQVLPANIDETELPKESPRKLAERLAIEKAKAIANVIDKGIIIGADTVPTVGRSIMRKAVTEDDIRKSMELLSNRRHRIYTGVCIIKKDKAEYRTLNRVVKSILKFKKLSKTEIDYYCTLKEGVGNAGGYTVQGYAESYISFLSGSFSNIVGLPLFETMNMLNSVGFYVHHK;locus_tag=LOCUS_11770;note=Q9ZCE2 Maf-like protein (Rickettsia prowazekii str. Madrid E) [pid:51.8%25%2C q_cov:96.4%25%2C s_cov:86.0%25%2C Eval:2.1e-49],MGA_1213
sequence68	MetaGeneAnnotator	CDS	5902	6117	.	-	0	ID=MGA_1214;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCE3;translation=MPKEELIEFDGEVLELLPNAHFRVKLENDHEIIAHTSGKMRKNRIRILAGDKVRVEMTPYDLSKGRVILRH;locus_tag=LOCUS_11780;gene=infA;note=Q9ZCE3 translation initiation factor IF-1 (Rickettsia prowazekii str. Madrid E) [pid:81.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-26],MGA_1214
sequence69	MetaGeneAnnotator	CDS	231	1217	.	+	0	ID=MGA_1215;product=quinolinate synthase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q7NP65;translation=MTQNLKELLADPYLDLETEIAKLKKSMNAVILAHYYQDSEIQDIADFIGDSLELSKKAASTDADVIVFCGVKFMAEAALILNPKKKVLIPDMNAGCSLEDSCPADKFEKFRNKYPNHVSVTYINCSAEVKALSDIIVTSSSAEKIINSIPQDKEILFAPDKHLGNYLIRKTGRDMTLWEGTCVVHENFSERELIRLKTSHPDAMIIAHPECPTALLEYANHIGSTSSLLNHVKENNGKEFIVLTEPGIIHQMHKISPDSTFYDVPSLNKSGCTSCSECPFMRLNSLEKIYACMVNGTPEITLTPKIAQKAKIALDRMIAGKYILEEPA;locus_tag=LOCUS_11790;gene=nadA;EC_number=2.5.1.72;note=Q7NP65 quinolinate synthase A (Gloeobacter violaceus PCC 7421) [pid:57.6%25%2C q_cov:94.2%25%2C s_cov:95.9%25%2C Eval:5.9e-103],MGA_1215
sequence69	MetaGeneAnnotator	CDS	1297	1512	.	+	0	ID=MGA_1216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKTPEEITDTNTDKSNYTKTLTTLAHKFGADLARECLNHLDALGKSFDIGPEDKELKLSGDDTPESSEES;locus_tag=LOCUS_11800;note=MGA_1216
sequence69	MetaGeneAnnotator	CDS	1663	2991	.	+	0	ID=MGA_1217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGVLGSLRKNSEILLIYKFFRKCFIILRNPPLEPDIKQTKKLLLTVADEDDISEEFLIEFNNLLSIRKNYNNFSSNQFIINLQEIFINSTSNPKDLTLGHMAALENDTFFMGKLVTYKIIPNFPDVLDKSGETPLHSASNAGNTKIIDLLLNTNSETLKDFINQKADNGKTALHNAAFDNKVDVATRLVKKGADIDIADANGLKPIHTALMRKLTPMVKFLQSEGADINELVDGRPLIALAYKMKDMQLVNYLLNLKLDLSASYDETTFIHTICNDKNLKLLRKIVQKYDIYTERKSTIDEDAVTINIFDQEDGLGRTPFDIACSEKSYSAMKVLARCDVDVDHTIGGYTALHTACAAGDLKTARALLNLGANPAILDPHGLDCYEIAKAAGNARLLELVRICMPVEIIEIEIVIEVDLETDTKETIDILGSNFPPTVVEA;locus_tag=LOCUS_11810;note=Q5ZXN6 phosphocholine transferase AnkX (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:27.4%25%2C q_cov:56.8%25%2C s_cov:24.3%25%2C Eval:4.1e-07%2C partial hit],MGA_1217
sequence69	MetaGeneAnnotator	CDS	2993	3769	.	-	0	ID=MGA_1218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKRTIVSNKLVFKGSLGDDLVARLDSPEQPEAYVLFAHYFTGNKDISALGRISRALNQANIALFRFDYTGLGASGGDFANTNFTSNVNDLIAAADFMRENYKAPQIVVGHSLGGTAAIAAASSIPEIKAVATIGSPCDTAHVQHNFANHIDEIKTRGEAEVVLGGQKFNIRKQFLDDICNQDMPSKIANLKKALLVMHSPIDQTVGIENAQRIYELAKHPKSFISLDKADHLLMKSPADSRYVASVLAAWASRYLDQ;locus_tag=LOCUS_11820;note=WP_011085686.1 osmotically inducible protein C (Bradyrhizobium diazoefficiens USDA 110) [pid:53.0%25%2C q_cov:96.9%25%2C s_cov:61.4%25%2C Eval:7.8e-70%2C partial hit],MGA_1218
sequence69	MetaGeneAnnotator	CDS	3960	4130	.	+	0	ID=MGA_1219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTILALIAVSAALLLVFSDKIVGYYLPESSFAQLSEEIDDIIIHMDDSEDQRTAE;locus_tag=LOCUS_11830;note=MGA_1219
sequence69	MetaGeneAnnotator	CDS	4136	4804	.	-	0	ID=MGA_1220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAAVIFITFIFFAISSYAQSASNNEHWQNYIFARIGERNYYLHEKVKTLFPNQCPNCRAFSFGAGPGNEAIDLIKNGWDVTVSDISPTSGKVIEERAKMHYGKFSFQNRKFGDERMRGKYDYFFSFFALPFGDKKKVFQLIRHMSLYSKQNSLVALNFFGPTHDFVKSPKVFAMTEKDIRKLMRSNRFQILYFMHRIYDKPDTEGNIIHWDVFDVIARKK;locus_tag=LOCUS_11840;note=MGA_1220
sequence69	MetaGeneAnnotator	misc_feature	4807	5883	.	-	.	ID=MGA_1221;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_004599075.1:single-stranded-DNA-specific exonuclease RecJ,WP_004599075.1 single-stranded-DNA-specific exonuclease RecJ (Rickettsia prowazekii str. Madrid E) [pid:54.5%25%2C q_cov:99.4%25%2C s_cov:60.8%25%2C Eval:4.6e-112%2C partial hit],MGA_1221;locus_tag=LOCUS_11850
sequence70	MetaGeneAnnotator	CDS	2190	3635	.	-	0	ID=MGA_1223;product=isocitrate dehydrogenase [NADP];inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDR0;translation=MSEIVPITVANGDGIGPEIMDAVMYILRKAEAKIRVEMIEIGEKLYKKNYTSGIASDTWESIERTRVLLKAPITTPQGGGYKSLNVTLRKALGLYANVRPSISYSPFVATKHPELDVVIVRENEEDLYAGIEYRHTRNMRESMKLISRTGCEKIVRYAFEYAVKNGRKKVTCFSKDNIMKFSDGIFHQVFDEIAKEYSQIENDHYIVDIGTARIATQPQDFDVVVTSNLFGDIISDITAEISGSVGLAGSANVGKDYAMFEAIHGSAPDIAGKNIANPSGLLNGAIMMLVHIGQGDVATTIENAWKKTIEDGVHTVDIYNDKTSTKKVSTKEFAEEVVLRLGKKPTKLKVANYKDSESGSKNFSYEIDNSEEKTLVGVDVFVDIHAKSAEEIAKKVNVLDAGKMVMKTIASKGLKVWPRDDEYMLESDHWCCRFMPDSGTITHTDISSLLEKFVDAEIDFVKVENLYNFDGKRGYSLAQGE;locus_tag=LOCUS_11860;gene=icd;EC_number=1.1.1.42;note=Q9ZDR0 isocitrate dehydrogenase [NADP] (Rickettsia prowazekii str. Madrid E) [pid:67.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-194],MGA_1223
sequence70	MetaGeneAnnotator	CDS	3728	5260	.	-	0	ID=MGA_1224;product=ADP%2CATP carrier protein 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDF2;translation=MSEISRSISWFTKLRHSKLRFALWPVRSYELTKFLPMAFLMLFILLNQNLVRSIKDGFVVTMIGTEVLSFIKLWGELPMGVLFVILYTKLCNIMTTEQVFRIIVCTFLGFFAFFAFVIFPNQEFFHPDPQLVEQYIELLPHLKWFIVMWGKWSFILFYIMGELWPVIVFFLFFWQLANKITKTEEAKRFYVFFGLFGQMNLLISGKLIVYFTKCDHILLPLFANISDKSEIVLKSMTLLMLFSGAICLALHRFVEVKNVETLKGIKFKNKRTDILKLGLVDSAKMVFTSKYLAIICILMVSYSTSVNLIEGLWMSRAKAMYPETADFMAYMGDVLFWTGVSTLIFILIGSTVVRRFGWFWGAVLTPAMIFLAGTMFFSFVLMEEYLDVIFAGFISVAPLAVVVFIGALQNILGKGAKYSLFDATKEMVYIPLDKEMKTKGKAAVDVLGAKLGKSIGASVQMVTFTIFPAAHHEDIAGFLMTVFVVVCLVWIFGVKLLNDDYKKVLSTSVE;locus_tag=LOCUS_11870;gene=tlcB;note=Q9ZDF2 ADP%2CATP carrier protein 2 (Rickettsia prowazekii str. Madrid E) [pid:62.6%25%2C q_cov:99.0%25%2C s_cov:99.6%25%2C Eval:8.1e-196],MGA_1224
sequence71	MetaGeneAnnotator	CDS	1283	1723	.	-	0	ID=MGA_1225;product=peptidoglycan-associated lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596964.1;translation=MIKKIAVAFFAILLLSGCSASRGKYGDNNKHIVEFEREIGDRVFFALNSTAISKEGAETLMRQAEWLNDHKLFSITVEGHCDERGTREINIALGERRAEAVKMFLVKHGVDADRIDTISYGKERPAVIGNSEAAWKQNRRGVTAIR;locus_tag=LOCUS_11880;note=WP_004596964.1 peptidoglycan-associated lipoprotein (Rickettsia prowazekii str. Madrid E) [pid:46.4%25%2C q_cov:99.3%25%2C s_cov:98.7%25%2C Eval:8.0e-34],MGA_1225
sequence71	MetaGeneAnnotator	CDS	1945	3030	.	-	0	ID=MGA_1226;product=anhydro-N-acetylmuramic acid kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89M62;translation=MNDLYIGFMSGTSCDGVDASLIETDGKDYFRPIHNTAISYDLNTRNQLQELFVRSAPFLEIEKKLTEFHIQAGNKLLNESGYSAIEIKAAGFHGQTVFHKPDEGLTWQIGNPHMLASGLGIDIVHDFRRRDVANGGQGAPLIPIFHKLLAKDHDLPSVIVNIGGVANLTYIDEEDLIAFDTGPGNALIDDIMMQYYGQPYDDGGEIASSGNIDKIFINKVLSGEYYNLPYPKSLDRNSFMFLIKELEKKNPEDIVANLTYLTSAAIIHSISQLPNWPKQIFICGGGAKNSQMLWWIEKLLKDQNIDCNLLDISQLPDMNSDYVESQGFAYLAARFCNDLPSAFPSTTGAKVPSICGCLIKP;locus_tag=LOCUS_11890;gene=anmK;EC_number=2.7.1.170;note=Q89M62 anhydro-N-acetylmuramic acid kinase (Bradyrhizobium diazoefficiens USDA 110) [pid:39.8%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:7.7e-67],MGA_1226
sequence71	Aragorn:1.2.38	tRNA	3261	3335	.	+	.	ID=Aragorn_31;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00310;note=Aragorn_31
sequence71	MetaGeneAnnotator	CDS	4098	4412	.	-	0	ID=MGA_1227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNETWSWAGVFRKSQTNIGVDSIYIPQELKAIFDDVEFWLSNNTYEMREIAIRLHHRLVFVHPFPNGNGRFSRLFADLLLQNNNEVSFSWGSCSLIEDSIIRK;locus_tag=LOCUS_11900;note=WP_010974878.1 cell filamentation protein (Agrobacterium fabrum str. C58) [pid:56.2%25%2C q_cov:92.3%25%2C s_cov:48.5%25%2C Eval:2.1e-27%2C partial hit],internal stop codon at [4097:4099](-)%2C[4412:4414](-),frameshifted%2C insertion/deletion at around 4552,MGA_1227
sequence71	MetaGeneAnnotator	CDS	4611	5066	.	-	0	ID=MGA_1228;product=transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010891185.1;translation=MDWSLRKLTARQIDKQVKPFRNFIIPSIGWIRTIRKALGINTRQLGERTGVSSERIVRIEADELESKLTMATLEKMAKAMNCKFVYAFVPDDNLDKIIEKSARDKAKTQMFRVSHSMALEDQKTDSKELKEQIDILTEEYLRGNIKNIWEK;locus_tag=LOCUS_11910;note=WP_010891185.1 transcriptional regulator (Coxiella burnetii RSA 493) [pid:40.1%25%2C q_cov:95.4%25%2C s_cov:96.7%25%2C Eval:2.9e-29],MGA_1228
sequence72	MetaGeneAnnotator	CDS	152	2116	.	-	0	ID=MGA_1229;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:C3MII9;translation=MNSGKNQNYSFEKLSDCIKILSADAVEAAKSGHPGMPLGFSQVMTVLAFKFLKFNPNDPQWFNRDRLVLSAGHGSMLLYSFFYLAGYRDFSLDDIKNFRQLGSRTAGHPEIELYDAIETSTGPLGQGLANAVGMAIAQKKYEDKLGSKICNYNIYSIVGDGCLMEGISYEAASIAGHLQLDNLIILFDDNGISIDGKTDLTVSEDHIKKFESLGFETFVANGYDDEDLSNVLSKAKTSNKPSFIACRTIIGKGANVKEGSEKSHGAPLGQEELEFLKTKITKSSEAFNIDQDMKSLWEAAWQKDESEYKLWQEDFKNLSEDKKEYIKMPSLKISSDLEDIEDSEATRVSSGRVIESMLKSEEKLIVGSADLAGSNGLKNPACKQITRDDFSGNFMYYGVRENAMSAIMNGLAISGFIPVGGTFFVFSDYMRPSIRLSALMMLPVIYVMTHDSIGVGEDGPTHQPIEHLASFRAMPNINVFRPADFCEVRECYELALESKKQPSMMVLSRQSLPQLRQKESNNLSSRGAYVISEASNINKIDVALFASGSEVSLAIDVQKILEQDGMSAKVISVPCFELLESQDVEYKNILKENAKLSVAIEAASELGWHKIIGSDGLFFGMDSFGASAPAKDLFKHFGLNADSIASSILRNIRK;locus_tag=LOCUS_11920;EC_number=2.2.1.1;note=C3MII9 transketolase (Sinorhizobium fredii NGR234) [pid:47.8%25%2C q_cov:97.2%25%2C s_cov:98.0%25%2C Eval:2.0e-173],MGA_1229
sequence72	MetaGeneAnnotator	CDS	2246	3052	.	+	0	ID=MGA_1230;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFYEKVFKKYNDYGALYIINLSLISSIVCTIIFLHNVDKIQDYLKHNIVSERVENIDFVIKQIPPIEYDGQNITVDSDEPIIIKNKNGNNVLVIDPDNKTKPSDRNKFPLILSQNKMIISLIDSEGKVKNTFPIKFDQIFNQIPRVLTNEEIKSSLAKLLDQAPRVLVYMIFPLTGFLIFLNTFLDKAFFIVMIFLVTKISGLNLSMKTCIRLTMYASGFYALFQFIFLIAANEYSSIVWIAQSWANILMILGILSATGKSYFFKKN;locus_tag=LOCUS_11930;note=MGA_1230
sequence73	MetaGeneAnnotator	CDS	166	510	.	+	0	ID=MGA_1233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSKKNGEVSKEKIGGSLPIIIQFGKTKFGSAKDDEKREEVKFIVGSYNPDKNSNLILEALKNKEKSTKTYDIDWDGEDNKEKSVKSNNVDLVGEDNDINSIDPVSIFGDLEL;locus_tag=LOCUS_11940;note=MGA_1233
sequence73	MetaGeneAnnotator	CDS	817	1752	.	-	0	ID=MGA_1234;product=malonyl CoA-acyl carrier protein transacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZCJ6;translation=MNKAFIFPGQGSQKIGMAKDFYDSFAVAKDAFECVNDTLGYDLSKIIFEGPDDELASTTNTQPALMATSIAIFRVLAQETGKNIEDLCDVVAGHSLGEYSALCASDSLSLEETAKLLKVRATSMQEASPKGEGAMAACIGISFKGLNDVLESLITEGICQIANDNVDGQIVISGHEYNVDRIVAALKDTGYKAIKLKVSAPFHSKLIESAQKPMQSALDLTEIKTPKVPLLANVTADLVSDPNTIKKNLVTQISGTVRWRETMDKFAELGITELVEIGSGKVLSGLAKKTPYNFKLSSISNIEELKSYMDS;locus_tag=LOCUS_11950;EC_number=2.3.1.39;note=Q9ZCJ6 malonyl CoA-acyl carrier protein transacylase (Rickettsia prowazekii str. Madrid E) [pid:53.1%25%2C q_cov:100.0%25%2C s_cov:97.5%25%2C Eval:3.3e-92],MGA_1234
sequence73	MetaGeneAnnotator	CDS	1825	3756	.	+	0	ID=MGA_1235;product=lytic transglycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597581.1;translation=MIFLTSFNCHAKGNNTSKLFSLIKQKKWQSSYSLASKIGDPVLKKIVLSQQYLDRRHKSNSFEKITKFLKENPKWPQNYILKLRAESLLNSGTNKKNIVEWFDKNKPVTGKGHKYYALAAASVVKDQKKLSSIIKSGWHFGNFTNSEQKSYFKRFRKYLTTTDHVKKIDNHLWEKEITAAKNSLNYVDAGYQKSFNAQIALIQKHKNARKLFKRVSKKYYTSGLIYRYLWSRKSDLPSGSEVASLSRIASVDKDRADSFWKVQAYLAREFIEKKKYRDAYKTSSSHFATSASCKSEAEYLSGWLALNFLRKPDLALGHFRNFNRTVKTPISKSRGIYWLARAHEYKRDKQRSKKLYYLAATKYPYTFYGQMAAVELSQRKMVMPDAINMTEYNQNINSYIKNNEIVRAAQIVSKYGSNALSQIYIKAAVKQAKNTTDVYGVVGAIAKSNNVHHTTWAAKSAMQKHVLMKNHAFPTPYKLSKLPVETPLTYSIIRQESVFDQHAISSAQARGLMQLIKPTACDTAKLVGVRCRISKLTTDTNYNIKLGSNYINQMIDDYDGSYILAIASYNGGPHNVDKWLKIFGDPRKLKNHREVLNWLEHIPFYETRNYVQRVLENLQIYRSIIEKDDKFKLSDDLLKTKGV;locus_tag=LOCUS_11960;note=WP_004597581.1 lytic transglycosylase (Rickettsia prowazekii str. Madrid E) [pid:47.8%25%2C q_cov:97.0%25%2C s_cov:95.1%25%2C Eval:4.9e-172],MGA_1235
sequence73	MetaGeneAnnotator	CDS	3757	4227	.	+	0	ID=MGA_1236;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010971896.1;translation=MSELQAGNIAPDFTVSIAENKQLSLSELSGKYVVLYFYPKDNTPGCTVEARDFNALLPEFEKYGAEVIGVSKDSLKSHDKFKSLFGLQFHLGSDTECKLCEKYGVWVEKSMFGKKYMGINRASFLIDKEGKIAHIWPKVKVKGHAQEVLDKIKELS;locus_tag=LOCUS_11970;gene=bcp;note=WP_010971896.1 peroxiredoxin (Agrobacterium fabrum str. C58) [pid:58.1%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:7.7e-44],MGA_1236
sequence73	MetaGeneAnnotator	CDS	4440	5078	.	+	0	ID=MGA_1237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEERIETEQELVGLFIEQSVGLYVKQKNNVHHGFAESNNQAMEWLTEDLGNFLDGLSGSHSQFSETINTLKDNLDSFVTALDKDLEQRRNAHLTNEKTLNPNGLALDNALMKVASQSEFAKVGAALQGRGEMKDFGWKKVADLCRKCKLNKLSKYFDKKNQQAKDKSMKATLGKISQKLRDSKLVRDVSKSSSSVPKVKSGAKQKGGMGR;locus_tag=LOCUS_11980;note=MGA_1237
sequence74	MetaGeneAnnotator	CDS	963	1250	.	+	0	ID=MGA_1239;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNSIVDRQEPDGSVVHERNQHIRIDDLDVTAYTDRSTTTESSRPNDVASVLEGAANGGLSALGSLEPGPTPIGSRLRLEQDCLNQRKNNPLLLL;locus_tag=LOCUS_11990;note=MGA_1239
sequence74	MetaGeneAnnotator	CDS	1522	3198	.	-	0	ID=MGA_1240;product=MBL fold hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597660.1;translation=MAINLKQYKDKLLFIPLGGSNEIGINVNLYQYMGKWIMVDCGSGFADDYLPGVDMVVADLSFIEEHKKDLLGIILTHAHEDHLGAVQYLWNELGCPIYTTKFTKSFLKSKIAEYNFADHLKIHEIDPAKRFELGPFTIDMIGLTHSAPEMQALMIRTEAGNVLHTGDWKFDPNPIVGKESDQEALKKCGDEGVLALVCDSTNVFNEGTSGSEGDVRKSLVDIIAGCPKMVVVTTFASNLARLDTIIHAGQKAGRKVALSGRSLHRMFAAAQECGYLKDIKPLIDERTIGNYKREDLLVIATGCQGEPMAATSKMANGTHHSVKLAKNDTVIFSSKIIPGNDKKIFKLFNVFVKQGVEVITEQDHFVHVSGHPGVEELQKMYELVRPQVCIPVHGEPVHIHEHAKLAKSSGIKEAIEVENGSVVLLEKEGSKIVDFVKNGYLAVDGNYLLPDDSQIFKMRRRMRDSGIVVASIILDNKLRLTCPPILSVPGLLDPIEDIDVIDELKDAVALALSDQRKQSKGNLTLENIDSCVRRALRRGIKQEINKTPIIIVNIEELD;locus_tag=LOCUS_12000;note=WP_004597660.1 MBL fold hydrolase (Rickettsia prowazekii str. Madrid E) [pid:66.7%25%2C q_cov:99.5%25%2C s_cov:99.1%25%2C Eval:6.9e-228],MGA_1240
sequence74	MetaGeneAnnotator	CDS	3228	3938	.	+	0	ID=MGA_1241;product=phosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011390821.1;translation=MDYTLFRALMSMINTKLIYANIFAFAAFTFFFILFSELDIQIADYFYDSEIGFIYKKNIIVQFFYKSIPVITKIFAIACLLYMIYLYLKHRNGKLILNSAAFFLFITAIIGPGIIVNTVLKDNFGRARPRQIKEFNGNKEFTKAFVITNQCEKNCSFSSGHAAMGFYFSAIAYIANVLYFTRIYLFGIVFGASVGLSRIIMGGHFASDVVTSALIVLLLNHLIFIWWKKKTLKSTM;locus_tag=LOCUS_12010;note=WP_011390821.1 phosphoesterase (Rhodospirillum rubrum ATCC 11170) [pid:35.9%25%2C q_cov:82.6%25%2C s_cov:81.6%25%2C Eval:8.8e-30],MGA_1241
sequence74	MetaGeneAnnotator	CDS	3902	4684	.	+	0	ID=MGA_1242;product=NAD kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDA2;translation=MVEEKNVKINYVAVVHNNSQETKEIAKKLDSIVKTRPPEKADVIIVIGGDGSMLHALHQYMNLDIPFYGINAGSIGFLMNSFHEENFLKNLENSKVTNLYPLEMHTVSTDGQSSTALAINEVSIFRKSNQAAKFKIHIDNIERMELSADGALVSTPAGSSAYNLSAGGPIVPLTSKVLCVTPICPFRPRRWNGALLPVDVDIEFEILEPEKRPVNAVADFYEFKNIKSVKIKSTNKKVIRILHDEHHTFEDRVIKEQFSN;locus_tag=LOCUS_12020;gene=nadK;EC_number=2.7.1.23;note=Q9ZDA2 NAD kinase (Rickettsia prowazekii str. Madrid E) [pid:56.9%25%2C q_cov:96.9%25%2C s_cov:99.2%25%2C Eval:3.9e-77],MGA_1242
sequence74	MetaGeneAnnotator	CDS	4697	5080	.	+	0	ID=MGA_1243;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKHVFVLIFILILTNTTAFSFSEYTVKSSTKIAFFDNKKSQDFNIQRKLFIKTFGEEYKNIKPKNIKPNFKNRDDVTNWLSYVFKAEHQYFISAKHPMHWITIEKEHKSLDLFYMSSGRTIKAYGI;locus_tag=LOCUS_12030;note=MGA_1243
sequence75	MetaGeneAnnotator	CDS	330	797	.	+	0	ID=MGA_1245;product=acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010928801.1;translation=MKAKLKHRKAKQSDLKIIVSLLLQDVLGKAREESADKSNSRYLEAFERIDADPNQYLMVVELEEEIVGTCHLTIMHSLTFVGSTRMQIEAVRVDERHRGKKIGEWMIQQAISYGKYHGASIFQLTSNKSREEAIKFYEKLGFESTHEGMKLYIEE;locus_tag=LOCUS_12040;note=WP_010928801.1 acetyltransferase (Bordetella parapertussis Bpp5) [pid:43.7%25%2C q_cov:97.4%25%2C s_cov:98.1%25%2C Eval:6.4e-27],MGA_1245
sequence75	MetaGeneAnnotator	CDS	1081	2280	.	+	0	ID=MGA_1246;product=sodium:proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005496298.1;translation=MQGVENAFYQIPPTAAILPSIIVAWIMHKNNTKQTMSNFLDGARHPDIITMCVVFLLAGALGSVTKSIGSVESTVNFALSVTPEDFLLIGVFIISALISTAIGTSMGTIAALASLVTQLSSQGAFGLELGAATLVGGAMFGDNMSVISDTTIASISSQKANLKEKLKLNIKVAIVASAITVMILAFADGPDIDIADRDYQLLLISPYVFLIILAAIGVNVFIVLVVSLLFSGFIGAFVVDYSFMQFAQDISKGFHEMHEIMLLSILIGALSGLSNQNSKDLAQDISKLLPKNAGKKAAELLISLLVSLFDILLANNVVAIIFSGEIAKELAEKYKIKPHESAAWLDIFSCVFQGIIPHGAQVLLVCTIAHISPLSVIGKVYYCYILAAVTLIYILCRKK;locus_tag=LOCUS_12050;note=WP_005496298.1 sodium:proton antiporter (Vibrio parahaemolyticus RIMD 2210633) [pid:41.5%25%2C q_cov:99.5%25%2C s_cov:85.5%25%2C Eval:2.7e-84],MGA_1246
sequence75	MetaGeneAnnotator	CDS	2291	2557	.	-	0	ID=MGA_1247;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKSKNSSGWKIVKNFFGFGPKITTTSTTQTFTLSKSESTKLKKDICTKISGASKNMLDEAFASNLDFAEECNQEFERDNLGDAPESL;locus_tag=LOCUS_12060;note=MGA_1247
sequence75	MetaGeneAnnotator	CDS	2685	3101	.	-	0	ID=MGA_1248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISIDPKTQGIAGTTKIKKSSSKKNVKFSASKKTQESSSGEATSNVADIGGMLFLQEVDQHAEDQQNLEEFSKKAFDTLKHLQMDLLHGNIKGRHLHNLKDALRGSKFIIETPELAELAEEIDLRLQVEIAKIEINQQ;locus_tag=LOCUS_12070;note=MGA_1248
sequence75	MetaGeneAnnotator	CDS	3193	4542	.	+	0	ID=MGA_1249;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDZ0;translation=MFQSLTQSLTKIFDKIKGTGALTEEQIDSAMRDIRVALLEADVALPVVREFISNVKEKAKGQEVIKSVSPAQMVIKIINDEMVNFLAPNEDESKLNLSSTPPANLLIVGLQGSGKTTASAKLALKLKEQNKKVLLVSLDTYRPAAQDQLEVLAKDIGVESLPIVKEQKPLEITKRAMSESKLLGFDVVIYDSAGRLHIDEEMIEEVASVKKMVNPTETLLVIDSMIGQDAVTVASTFEEKLNISGVVLSRIDGDSRGGAALSVRHVTGKPIKFLSTGEKPKDFEEFDAKRITSRILDMGDVVSFVEKAASVIDQKEAEKSAARLKKGKFDLNDYISQIKTIRKLGGFGSMMSMLPGVSKFADKLGGGADGDKMLNVQEAIVLSMTKKERRNPDLLNASRKKRVANGSGTSVQQVNMLLKQFKQISTMMKKASKMDKKSLMRSGIGKLFS;locus_tag=LOCUS_12080;gene=ffh;note=Q9ZDZ0 signal recognition particle protein (Rickettsia prowazekii str. Madrid E) [pid:65.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-169],MGA_1249
sequence75	MetaGeneAnnotator	CDS	4603	4812	.	+	0	ID=MGA_1250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKAKIASKNNPEGRGQAREYFHNGKKIKPVKLITKTQSFFGAEYEDSGEVVVNQNGKPLPWGSAKNLG;locus_tag=LOCUS_12090;note=MGA_1250
sequence75	MetaGeneAnnotator	CDS	4837	5004	.	+	0	ID=MGA_1251;product=UPF0434 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9KQX1;translation=MNLSAEFLKIISCPVSGGKLEYDAERKVLISKKANLEYPVVNGIPLLLESEAKKI;locus_tag=LOCUS_12100;note=Q9KQX1 UPF0434 protein (Vibrio cholerae O1 biovar El Tor str. N16961) [pid:52.1%25%2C q_cov:87.3%25%2C s_cov:81.4%25%2C Eval:1.1e-07],MGA_1251
sequence76	MetaGeneAnnotator	CDS	236	439	.	-	0	ID=MGA_1253;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002719178.1;translation=MASGKVKWFNPTKGYGFIQPEEGGKDVFVHISALERSGIDNLNDDQAVTFELEEQNGKISAVKIELA;locus_tag=LOCUS_12110;gene=cspA;note=WP_002719178.1 cold-shock protein (Rhodobacter sphaeroides 2.4.1) [pid:67.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-19],MGA_1253
sequence76	MetaGeneAnnotator	CDS	786	1754	.	-	0	ID=MGA_1254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZE28;translation=MTAPKIWVLVDNRIGNANQAIVLAEKMNQPFEVKQINYNHFGKLPNSILSLFPIHVKSSVLKQLKSEKIPDIIISAGRRTAALAVHLKKLSNNKSKIIQIMRPNLDPKEFELIILPQHDIYNYTLPNIVRILGALTNVQEKLPKVRDSFENKYPDIKNFIAVIIGGSTKNYKLTMENAQELSESLINVADSHSLALFITFSRRTPQNVKEYFQEKFPWPNICYDPESGEPNPYPAILGSAEFIVSTPDSISMCSEAASTGKPIYIYRPDNFTLKKHNFFIQQLVDLGIVRRLDRNTSFLEPYDYEPLSEINKVVEIIQKDIL;locus_tag=LOCUS_12120;note=Q9ZE28 hypothetical protein (Rickettsia prowazekii str. Madrid E) [pid:40.3%25%2C q_cov:97.2%25%2C s_cov:97.2%25%2C Eval:3.1e-64],MGA_1254
sequence76	MetaGeneAnnotator	CDS	1848	3221	.	-	0	ID=MGA_1255;product=phosphohexose mutases;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P0C7J2;translation=MKKLQCFKAYDIRGKIPEDLNTELAYLIGVAYAEIINPGKVIIGYDVRLESIDLANALIKGLTDSGVDIVNIGLCGTEEVYFHTFARENEGVGGGIMVTASHNPKGHNGMKMVKSAARPMSGADDLKKIHNRVLDLSKTDSKVSLSKKKGQITSAEDKSSYISHILDYVSQENLRPLKIVVNPGNGPAGQIIKLLERELPFEFIYIHESPDGNFPNGVPNPMIPENRTVTSNTVIENNADFGIAWDGDFDRCFLFDEKGQFIDGYYLVGMLAQSFLSKTTGEKIIHDPRLIWNTVDIVENNGGMAVESKSGHSFIKEKMREVNAIYGGEMSAHHYFRDFAYCDSGMIPWLLVSELLCKSGIKLSELIRQNVEAYPCSGEINYQVKNIQQSIENVEKYYSSKGAKIDYIDGISIEFADWRFNLRGSNTEPLLRLNLETKGQEISIDQKVKEIESVILS;locus_tag=LOCUS_12130;gene=xanA;EC_number=5.4.2.8,5.4.2.2;note=P0C7J2 phosphohexose mutases (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:53.7%25%2C q_cov:98.9%25%2C s_cov:99.1%25%2C Eval:1.7e-144],MGA_1255
sequence76	MetaGeneAnnotator	CDS	3199	4617	.	-	0	ID=MGA_1256;product=mannose-1-phosphate guanylyltransferase/mannose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011706705.1;translation=MQAIILAGGKGSRLWPVSSENTPKPFIKINSNLSLLQQTYLRAKNLEEISGIITVSNRKFITKINSEYSNVADIEDSFIKNSFISEPLTRNTAPAITAAAIQVNKLYGPEEIMLILPSDHIIDDKKEFKKSVARAKQLAELNMIVTLGIVPDHPNTNYGYIRQKNEKILEFIEKPNIDLARNFVDSGEYLWNSGIFCFKAGIFLKETQKNAPSVLQDVENCINSSKLSNSEDYSELKLNLDSFSSIKANSIDYELMEKSKSLMVVPSNFVWKDVGSWETLSACYAADTDGNKINGSAILQDTKNCYVENKEKNIAIIGVQNLTIINSDNGILIADKNRSSEVKNLFFEEENNKNTQFSWGQTKRFAQNGGPNMIEITIYPKKIFRINDYFDYSSNWMIVSGIAEFSSNKSVTILSDNESKHISADSNFYITNVSTKSLIIFSIQLDDYMLENGIASLENNFGLQKNEKITVL;locus_tag=LOCUS_12140;note=WP_011706705.1 mannose-1-phosphate guanylyltransferase/mannose-6-phosphate isomerase (Aeromonas hydrophila subsp. hydrophila ATCC 7966) [pid:34.9%25%2C q_cov:95.3%25%2C s_cov:97.8%25%2C Eval:6.9e-85],MGA_1256
sequence77	MetaGeneAnnotator	misc_feature	1	2817	.	+	.	ID=MGA_1258;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q53020:outer membrane protein B,Q53020 outer membrane protein B (Rickettsia prowazekii str. Madrid E) [pid:27.4%25%2C q_cov:99.9%25%2C s_cov:54.6%25%2C Eval:5.7e-71%2C partial hit],MGA_1258;locus_tag=LOCUS_12150
sequence77	MetaGeneAnnotator	CDS	3161	3577	.	+	0	ID=MGA_1259;product=glyoxalase/bleomycin resistance protein/dioxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004527755.1;translation=MSFKPENMPQMSPYLVVKDIKKSIEFYNKALGFEIDEQMDDENGNPQHVSMKFGESVIMFCQEGAFGNPKKSPATQNVIMPINMYLYCEDADSSYKQAIDNGAKSVIEPNDSFWGDRFCSVLDPDHYEWAFATSLNQK;locus_tag=LOCUS_12160;note=WP_004527755.1 glyoxalase/bleomycin resistance protein/dioxygenase (Burkholderia pseudomallei K96243) [pid:43.1%25%2C q_cov:93.5%25%2C s_cov:93.5%25%2C Eval:1.5e-28],MGA_1259
sequence77	MetaGeneAnnotator	CDS	3918	4652	.	-	0	ID=MGA_1260;product=molybdenum cofactor biosynthesis protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011338596.1;translation=MNMRNPTASIIIIGNEILSGRTLDVNTQEIAQTLGKKGIIVAETRTIPDIKEMIIAHVRELSEKYDYVFTTGGIGPTHDDITAESIAAAFDLPYSRNEEIYQIIKNYYDSIGEKLNPAREKMAYIPEGADLIFNKATMIPGFITRNVYTMAGIPDIMKAMLESTLPKLKNGNVVKSKTIDIMLGESKIADQFSDLQKKYPNIDMGSYPFTKDGQHGTSLVLRSSDYLELDAAYAELQTICDHAL;locus_tag=LOCUS_12170;gene=cinA1;note=WP_011338596.1 molybdenum cofactor biosynthesis protein (Rhodobacter sphaeroides 2.4.1) [pid:42.7%25%2C q_cov:98.0%25%2C s_cov:98.4%25%2C Eval:3.9e-52],MGA_1260
sequence78	MetaGeneAnnotator	CDS	335	985	.	-	0	ID=MGA_1261;product=putative dioxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDD5;translation=MNRFKTALIFIILFSINSVLAAEEEEMRVDNLNYCDVSKVAINNYEPEVFETTNNLLRKSGQEALFCGESVVVYGRVLDQNCVPVSDAKVYAWQTDCKGKYPYKALKKNVVDKELMGEESNLTFVGNGTATTNNKGEFHFVTIYPPAMHDYGPHLNIRVEHFSMGGLQTRLILKGNKVRNPRNDPDLASIYGAAAKKGMKIYKFEVVIPGTTNKDY;locus_tag=LOCUS_12180;EC_number=1.13.11.-;note=Q9ZDD5 putative dioxygenase (Rickettsia prowazekii str. Madrid E) [pid:42.9%25%2C q_cov:98.1%25%2C s_cov:99.0%25%2C Eval:9.5e-41],MGA_1261
sequence78	MetaGeneAnnotator	CDS	1060	2808	.	-	0	ID=MGA_1262;product=succinate dehydrogenase flavoprotein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P31038;translation=MDFKIENHYHDVLIIGSGGSGLSAAIFAVSDKNFDVAIISKVHPLKSHTVAAQGGVNASLGNISEDDWRWHAYDTIKSSAWIADQDSVEEMCRRAPEMIHLLDQLGVEFDRNDEGKIDQKIYGGQSTNFGKGGFAHRACYSKDKTGHTIMHRLFEEASKRKVQFYNYNFAIDLLIQDNKCYGVICFDMEQGILRVIRSGNVIIASGGYSQVYETATSSLVCTGDGNGLAARAGIPLQDMEFVQFHPTALSEIGVLITEASRSAGGKLLNNRGIRFMKEYAPKFMELAPRDIVARAIATEIANGRGCGSSGNYVHLDLTHMSLEKIKESLPTVYENCQSFLSLDPSQNLVPIAPAAHYTMGGIPTNNMCQVIYLQDGLESVVKGLYAIGEAACISVHGAGRLGCNSLLDLLVFAKKSIESIEKIDNKNFDFDKDKILKRIHNIFKGQEGNIDNITKSLKNVMSKYVGVFRTEEGLNMALQQIMQIKSKFSDITISDKSLCWNVELQHYLELENMIISSIATIKGSLWRRESRGAHWRKDYSDEDNKFLGHSIISSEEGEEIILRQSRKSSDNVDFYQPEGRKY;locus_tag=LOCUS_12190;gene=sdhA;EC_number=1.3.5.1;note=P31038 succinate dehydrogenase flavoprotein subunit (Rickettsia prowazekii str. Madrid E) [pid:44.6%25%2C q_cov:96.2%25%2C s_cov:95.3%25%2C Eval:3.6e-142],MGA_1262
sequence78	MetaGeneAnnotator	CDS	2883	3947	.	+	0	ID=MGA_1263;product=putative peptidyl-prolyl cis-trans isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDD6;translation=MQKILTLIITAAILYMIFQHSVGRIAVPEHLKDKTEQISPEQTESKETQVTGTFLEKTLSSVMINILKSDEGRMFMESMLQPMNKTVAGSGSGFKMNNDNFIQSIFKINSFGDGEKGPASCGHIVTVHYKILNIQNTVLEDKVVTFPLGSEKIAPGVDAVIVGMKTGETRNATISNKYFPEVSKERPSSFKIRVLLKEIVPQNFIDDSVKIYDDQIAYRIPLMCGNKIIYDAKITRLSNNEVIYSSEQSGEKIDMKIGNLNYPMIFSHALHNKIPVGTRTVIAKGKFFKSFASDNSTIFPNKTLPKNEYFMVEFYNFHETVMTKPATFPHGNAEPSRGGGMKASDLQKKFREAN;locus_tag=LOCUS_12200;EC_number=5.2.1.8;note=Q9ZDD6 putative peptidyl-prolyl cis-trans isomerase (Rickettsia prowazekii str. Madrid E) [pid:40.5%25%2C q_cov:90.1%25%2C s_cov:99.4%25%2C Eval:3.1e-68],MGA_1263
sequence78	MetaGeneAnnotator	CDS	4281	4595	.	-	0	ID=MGA_1264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKHVKVNKPSNPQTDNLENVAPFIPLPRIPLLHRSVVGDINWGGFVVHIERVKVRTQSDIDYMNSCDNAERESDKTFLTFDFAPIIVEPVETTLTGDITDIE;locus_tag=LOCUS_12210;note=MGA_1264
sequence79	MetaGeneAnnotator	CDS	205	975	.	+	0	ID=MGA_1266;product=transport permease protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:A0A0H3C8S9;translation=MEKINWYGAYTLTLREVKRFLRVYNQTILTPVVSALIFLAVFVLAIGVNRSDIDGIKFIDFMGYGLIAMSIIQNAFANSSSSFIMSKVIGYLTDILTPPLGSAEIIFAFTIGSVLRGLLVGVAVTIALAPFIDYTLHHPLLMIFYLLASCTLLGKLGILSGLIANTFDQHSAITSYLITPLSFLSGTFYSVKALPVFFQQINLVNPFFYIIDGFRYCITGKADGSILVGVVFLMVANMILYFVLDKAIKTGWRIKS;locus_tag=LOCUS_12220;note=A0A0H3C8S9 transport permease protein (Caulobacter crescentus NA1000) [pid:43.7%25%2C q_cov:98.4%25%2C s_cov:93.0%25%2C Eval:3.7e-56],MGA_1266
sequence79	MetaGeneAnnotator	CDS	1220	2017	.	-	0	ID=MGA_1267;product=enoyl-[acyl-carrier-protein] reductase [NADH] FabI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDG4;translation=MADTAKLLEGKKGIITGVANNLSISWAIAQEAKKHGAEIALTYQGEILEKRVMPLSEELGCAFVQECDVTDEASMDKLFEVAREKWGKVDFIIHGIAFADKDELRGRYIDTSLENFLNSMNISCYSLTALAKRAEPLMSDGGSIITLTYYGAEKVIPFYNVMGLAKSALETSVRYLANDMGPNNIRVNSISAGPIRTLAASGIGDFKSMLKAHASTAPLKRNTTQQDVAGAALYLLSDLSSGVTGENHYVDSGYNVMGMSFSGKE;locus_tag=LOCUS_12230;gene=fabI;EC_number=1.3.1.9;note=Q9ZDG4 enoyl-[acyl-carrier-protein] reductase [NADH] FabI (Rickettsia prowazekii str. Madrid E) [pid:68.9%25%2C q_cov:97.0%25%2C s_cov:98.5%25%2C Eval:9.5e-103],MGA_1267
sequence79	MetaGeneAnnotator	CDS	2110	3609	.	+	0	ID=MGA_1268;product=apolipoprotein N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDG3;translation=MLSNRKLSVISGALCGFAFAPIFFLPGLFVLSFLCAQISNAASRKDAAAYGYLFGLGLYLSTIYWIAFGVSVYIEHFWWAIPFALFGLPAFMAIFYGLFSIFVWQFRKYNLFHFIFCISWLFIEWLISWLFTGLPWTLIGYSLSVSNILIQASSIFGILGLSFAVIYVGSSFYSKEMLWIRITVSLFIVVVIVYYGFARLRENPTELSEVKVRIVQPSIPQNAKWEPQTFWQNLDKQVEMSSREGGADIIVWSEAALTVPYYYKPVFNTLKSVFTKEDQILLSGGINDNKVQDENYEIYSSLIALDDSGKIQFDYHKAHLVPFGEYIPFSKYLPLQKITYGTVDYTPGEREILYLNSLNLYIQPLVCYESIFSEEVRIMNSEADLIVNITNDAWYGNSSGPYQHFEISKMRAIENGLPMIRAGNNGISAIIDPVGRVLRMLDLNKIDVIDDFIPLKLLFPTLFSEYGQITVLAWVIAILMLQLTVMLLYFWLIKLKKHL;locus_tag=LOCUS_12240;gene=lnt;EC_number=2.3.1.-;note=Q9ZDG3 apolipoprotein N-acyltransferase (Rickettsia prowazekii str. Madrid E) [pid:47.2%25%2C q_cov:98.0%25%2C s_cov:99.6%25%2C Eval:4.4e-138],MGA_1268
sequence79	MetaGeneAnnotator	CDS	3683	4102	.	+	0	ID=MGA_1269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEQQSEKKGRADSVDKLVSRRLKMRRMILGLSQNDLGKAVDVSIQQVQKYEKATNRISSGKLFAFAKFLKVPISYFYDQSEDSSSAIGSALAEDQESYGESESEAVTEKEIVNLIKAFGEISNPQSRKKIIELVKTMT;locus_tag=LOCUS_12250;note=WP_011391522.1 transcriptional regulator (Rhodospirillum rubrum ATCC 11170) [pid:35.4%25%2C q_cov:92.8%25%2C s_cov:61.9%25%2C Eval:5.7e-20%2C partial hit],MGA_1269
sequence80	MetaGeneAnnotator	CDS	111	1226	.	-	0	ID=MGA_1271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNYFMIILKIQDISLQFATNTCFENFTAQIVQGQKIAVIGNNGSGKSSLLKLLRCEVEPICGSIDFSSDLRVEYIDQIIDNHTNLSGGERFNKEFFQKIELLPDLLLLDEPTNHLDLQNRESLISIINSLSCSIIFATHDKELINQCAEVIWHIDRGVIHQFRGSFDDYIKKHEREKFSIERKLVELDRERSLVHKKLMKEQERAKKSKQYGRNKYSGDKINLSSKKRKGETTTGNRKADISVCRDELKEKMELIYKPKKITPKFAFDQRKVRSDRNILEIRDGSIGYTNIILDNISIQLASDQRLAIKGKNGSGKTTLMKAIMSDDKVSVCGEWITPQTNDIGYLDQFYKNFKGLTPFESQSFSLCKF;locus_tag=LOCUS_12260;note=WP_010947343.1 erythromycin ABC transporter ATP-binding protein (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) [pid:36.4%25%2C q_cov:93.0%25%2C s_cov:71.4%25%2C Eval:2.1e-59%2C partial hit],MGA_1271
sequence80	MetaGeneAnnotator	CDS	1415	2020	.	+	0	ID=MGA_1272;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKETVAILEGFQTLLPSLIEIVVHDVDKDKIIYKKGNLTKRVIGDDSYLDKNADYKNIDQFVYDQVTIEGKEMRSISVPIYTGLEIKELICINCDISIFKQMQSISNHFLDSKKISNRPEILFKNEYKEKINNWIKQQLEEYRFKLDELDSKTKKDLVYKLHIQNAFEEKNAVNHVANALQMGRATIFKYLKEWRNHNDK;locus_tag=LOCUS_12270;note=MGA_1272
sequence80	MetaGeneAnnotator	CDS	2010	3116	.	+	0	ID=MGA_1273;product=aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010969607.1;translation=MINEFKLEEYLAKYEFSAPHLLCCSDSESWSMHEIIGMASEDDLKLWNNLKLNYTEDQGLPELRETIARLDFPNLDKNNILCFAGAEEGIFCALSAVLSKDDHAIVLTPCYQSLAEVPKFRGAKVTEIELLEKNNWQIDIEAIKNAIKQNTKILIINFPHNPTGQVISPDEQKDLVTLLHKHNLWLFSDEVYRLIGKPTDGWAETAANTYEKAISLGVMSKAYGMPGLRIGWIASQNKEILDKARKIKHYTTICNSSPAEIISLIALNNRDQILDRNNQIIESNIKLLDNFFEKNQNIFSWIRPQGGCVGFVNYLGKNQIDDFCNELITKQGVLLLPASAYSYNSQHFRVGFGRKNMPIALEKLEQFI;locus_tag=LOCUS_12280;EC_number=2.6.1.-;note=WP_010969607.1 aminotransferase (Sinorhizobium meliloti 1021) [pid:43.3%25%2C q_cov:97.3%25%2C s_cov:95.3%25%2C Eval:3.1e-87],MGA_1273
sequence80	MetaGeneAnnotator	CDS	3207	3755	.	+	0	ID=MGA_1274;product=biotin biosynthesis protein BioY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011172993.1;translation=MKTLISKIPSSVNYKLLRIALGVALIFLCAQVQIPLKPVPISLYSVGILVISLCYEKREAISSMICFLTLGAMGAPVFAGFSAGLPVLMGPTGGYLIGMLLCIYVVTTMREKFGEDSWLKLIIYSAIGSSCLYVVGIPQLALYVGIERSFELGLYPFILPGIVKAIFTGSSVKLIKNGLNKI;locus_tag=LOCUS_12290;note=WP_011172993.1 biotin biosynthesis protein BioY (Thermus thermophilus HB8) [pid:34.8%25%2C q_cov:83.0%25%2C s_cov:84.7%25%2C Eval:7.8e-21],MGA_1274
sequence80	MetaGeneAnnotator	CDS	3769	4143	.	+	0	ID=MGA_1275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCTLAFSGKGYSLGFIKNYKKIVQEINNNKDTLIEVVEYMDSICSPCPNKLDNTLCKSQSKIVKLDNAHKKILALKTGESISWRKAKNRIKQNMSIEKFHSACNGCSWKQYGVCEQKLSDLINS;locus_tag=LOCUS_12300;note=MGA_1275
sequence81	MetaGeneAnnotator	CDS	197	2164	.	-	0	ID=MGA_1278;product=competence protein ComEC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011389477.1;translation=MISSYLIRKLEQEYHHLSLWYFVSFISGITLFFQFLPNKSLYTLVSCVALSILLIRYFYRRNIIIYFIASCFFGLMIGMIVANIRLDLVKITPISRIMITTLEGEVESLKPTLRGMQLLLRNNKSDANRDFNKVRVNISNKLSNDLMPGDIVKLKAKLFPLQSSVLPGSYDFGFYMYMSGIEASGYALTAPEVIYSNPSSFSEYIKSKRGQIYQRLIEVLGVENGNFAAAILIGETKAIPKDVSENMRNSGVAHILSVSGLHLSLVAMIFFVSSRVLLNISNFLAYNTNIKAISAIISIIGSFLYLQISGNNIAATRAFIMTSIFILAIIFGRFPYPLRSVMIAAFLILCFLPEYVFHPSFQLSFAAVLCLISGYEFYLRHKNLLGNSKGVLASIKFYLFANIYSSFLASIVTAPFVIYHFYKFANYSVLMNLLAVPLMSFFMMPLALLSIFLMPFSADLWILKSLGFFISIVINFAEFVVIQPFSIWYFGHISPLSLIIFSFGFFWLCLWQTRWRIVGIFIMIIGVILMFITKAPDFIYDHNIKAVGINDQNGLRIYSNEKMPKFISDYWASWFGYKQAKIFESKLNRKDRLYVLENGKTVSLNYWNCLESDLGIMTSRKLKCKNSSNIISNAYLWKKKKILVYCDVHNTCEVR;locus_tag=LOCUS_12310;note=WP_011389477.1 competence protein ComEC (Rhodospirillum rubrum ATCC 11170) [pid:27.1%25%2C q_cov:87.2%25%2C s_cov:78.8%25%2C Eval:7.9e-53],MGA_1278
sequence81	MetaGeneAnnotator	CDS	2161	3303	.	-	0	ID=MGA_1279;product=lipid-A-disaccharide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZDK7;translation=MKLYLIAGESSGDFIGASLIKSLQNIDETGRNIEFYGVGGPKMQDSGVNSLFSIDQINLMGFLEVLPHLLMISKLIERTVEDILSKNVDMVITIDSPGFTYRVAERIRAMAPHIKLVHIVAPSVWAYKPGRAKKYARIYDHLLTLLPFEPEYFVVEGLKSTCIGHPVLEQAFFKGSAGLRAEMKLGDNSKIIAVTPGSRKGEIRRHMPIIRMVFDKLSSTHNIEVIFVQPNEHNIQEIQKFLGGVKFNYSFSTNRLKAFAVSDCALAKSGTNTLEITASGTPQIVGYKLNSLTFFLLKIMIKIRFASLINIIPNREIIPEYIQSEFNVENLVLALSDLLRDEGRAKSQVAEATKILEKIGLNSEKKPTIRAANIILDMLK;locus_tag=LOCUS_12320;gene=lpxB;EC_number=2.4.1.182;note=Q9ZDK7 lipid-A-disaccharide synthase (Rickettsia prowazekii str. Madrid E) [pid:49.3%25%2C q_cov:98.4%25%2C s_cov:98.2%25%2C Eval:7.5e-100],MGA_1279
sequence81	MetaGeneAnnotator	CDS	3308	4228	.	-	0	ID=MGA_1280;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIHKILYSHHRINFGINGYERETTPHLNKVDNLVNYKSIACSNNTYLSVPCILSRFDEKDLAKVEKETSVLSVLTKMGFDTLWMGTQSITKYYRNKPGGSFYDEVKFHMIPGGSLVFLPNDLDEKMLPYLTQKLQEDGKKFIVMHSTGSHWNYSARYPREFEKFTPAIDRNAKIDASGCSREELVNSYDNSILYTDYFLSEVINRLKDKNAFLIYASDHGESLGEGGRLTHGMDGYFKEQREVPIIVWFSEKYKKNHPKKWEAVESFKEKIISHDYVFHSILDCTGIESEIIDKSLSLCKKINNSN;locus_tag=LOCUS_12330;note=WP_004599410.1 membrane protein (Rickettsia prowazekii str. Madrid E) [pid:50.7%25%2C q_cov:94.1%25%2C s_cov:55.2%25%2C Eval:4.2e-84%2C partial hit],MGA_1280
sequence82	MetaGeneAnnotator	CDS	852	1223	.	+	0	ID=MGA_1282;product=putative HTH-type transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD50;translation=MARKNDYIQEVDKFIGGKIYSLRLAKGLSRQQLSKVIGVTHQQLQKYEKGTNRISVGRLVLIAKALSKEVSYFYEGLESSEQEPVMTQHQRMCIEVSRNFMRIESSEHQNAVNTLVKSLSKIA;locus_tag=LOCUS_12340;note=Q9ZD50 putative HTH-type transcriptional regulator (Rickettsia prowazekii str. Madrid E) [pid:71.9%25%2C q_cov:97.6%25%2C s_cov:93.1%25%2C Eval:2.7e-43],MGA_1282
sequence82	MetaGeneAnnotator	CDS	1525	3372	.	+	0	ID=MGA_1283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MASAIDALGNSLFAGTVPVDSIVSKFQEEGDKARGEIQDKIDVKESSLGEISRLQSAIVKIKAAASSIADPLQTGFGSKTATVTTSEGGLSGSDFLKNVRVDNTAITGPTNVAVNTVATASDLVIRTGAANTGFATAGQLNLNGTITLTLAGTAVATNVVATDTFDDVLNKINTNILAGGHDFEAFKLQGNGNTAFWEIRAKNTGAASTIAFNYTNNIALLAQAPATTVAQHSLTNGVNSDVYVNGVRHQTASNKFVDIVPGVSFEVTRANTLVNNLNPASYANLNKTTISVSEDKSAVKKFIADFGDAVNELSYLVVKNSKSSRSIADVQFADPTSAFGSFDDPNAPLRGSSLLAEAQDLFDKLVTRRPGTTGDIGSLLDLGFGIQTETKEGDNFSYERLYFADKAQFEKAFDDDFQAVLDYFVTDTKVTNGGGNTGYVQYIPSESAKTITDPSIIGHNINLAVTYNGASAVTAVVATVNGGAVNGVISHNASTGRYDISFEGTVIEGIDFSIDPNGAANTTENSTIVYKPGVVNEIRQDARGILSDDGLKGSSVVEGSQIQDRITADKEELSRVDEEFKKSIEDIKSVESQLAFMEQQTNLLLASIEAILVDG;locus_tag=LOCUS_12350;note=Q8P9C5 flagellar hook-associated protein 2 (Xanthomonas campestris pv. campestris str. ATCC 33913) [pid:23.8%25%2C q_cov:52.5%25%2C s_cov:64.9%25%2C Eval:4.7e-07%2C partial hit],MGA_1283
sequence82	MetaGeneAnnotator	CDS	3409	3813	.	+	0	ID=MGA_1284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLAFEKYRTATATTSDSSHQLIFIFDEVMKLLHTAKKAIEDGNHEMKFKAISRVVEVFYILKSGVDPETEDESTKAIDTFYGATIARLEQINMSDVEAKEIQPLIDALGEVRSAIIASTSGKDEKNDPTNKDDS;locus_tag=LOCUS_12360;note=MGA_1284
sequence83	MetaGeneAnnotator	CDS	256	516	.	-	0	ID=MGA_1285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLKTTIALAFITIPSSILLLTVTSLSKIELLLSVISIPSTVGLLTITISLNLVFPLEVIPVPAELLTTTSELYVTTALPLSISVA;locus_tag=LOCUS_12370;note=MGA_1285
sequence83	MetaGeneAnnotator	CDS	582	761	.	+	0	ID=MGA_1286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIILSDNFHLFNLTGTTKFADGIKFDAPVTTNTANMGKLEFQGSITLNNPIGMAMLKV;locus_tag=LOCUS_12380;note=MGA_1286
sequence83	MetaGeneAnnotator	CDS	1210	3198	.	+	0	ID=MGA_1287;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYNIKKQPSIFLSIFLVFIALFGNAILTAHAIAATNLTFTAHPTNTMLGKDNFAPEKEIDYYYDLHLKNLAKVLLYSKDVQLNDIGNFYSWIGFDFDRSNLSAKSVAYANAKNIQLMIDVYRDYNKNYLKNDATLTELLNTVQHHTNLIFSLVKNNDLTFSEFINRFDEIGRNFGLYAIENKFVERLEKIDNFNSKKLMNYFNKFRFHAFKGQIRFDGDTLNVENIYEDALRVVQIINQTQRYAISDIIISNFSSVTQINEIKKLKKYYNISNISTIPLVETNKDVNYAVNNLKKIVTADNISQIMKAGSDDTKFSGFAASILNLARLGFAMQELKDSDLFNSQGVEPPILFIGMGSSIERLGGPVFFRSMLAGILGDNESNRTIQGGELEYFAKKTRAEKKLKTEIAIAKKSERISYAEIESVSSIIKEYFLDRYQEIYKDNTKRNDLNQLILNGTNLAYATDNYQAGSRYKKRIALNRENKLINNFTDLFKNTRAIDFQTSFVLSGIHPEFIPYKYLNQKQIDKILSFKENKIMKTYITGIYVLSKQMNPNFCKALDLPVNNAVYKQFNEGFGVFTQIVEKYFPELKQDIDAKLKLEKYLNYSKNTNNEIVKILSRESHLIDKYKKGTISFEKMTSKLLKLNYEIARLRNLLSLAVKN;locus_tag=LOCUS_12390;note=MGA_1287
sequence83	MetaGeneAnnotator	misc_feature	3423	4134	.	-	.	ID=MGA_1288;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to WP_004599494.1:alkaline phosphatase,WP_004599494.1 alkaline phosphatase (Rickettsia prowazekii str. Madrid E) [pid:41.6%25%2C q_cov:93.6%25%2C s_cov:24.0%25%2C Eval:2.7e-47%2C partial hit],MGA_1288;locus_tag=LOCUS_12400
sequence84	MetaGeneAnnotator	CDS	365	2623	.	-	0	ID=MGA_1290;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD43;translation=MFNEIIKNTEWNGETLELSTGKFARQADGAVMIRMGDSAVLCTSVSAKEAKEGTNFFPLTVNYQEKSYAAGKIPGGFFKRETGRSEKETLVSRLIDRPIRPLFHPGFFNETQVLCNVHSLDARGNTDILALIGASAALAISGVPYMEIVAASRVGMIDGQLILNPTPEQLEESQLDLVVAGTKDSVMMVESEADFLTESQMLEAVKFGHEGFQPAIKLIEELKAEAGKPAWETTEIFPKTLKDEIRELTKDDITAAFAMKAKKDRYGAIDAITTAMRERFTADEQYTELQVDFALSDVKAEVLRADTLAKQTRIDGRNPDEVRDIKCEVSLFKGTHGSSLFTRGETQGLVSTTLGTGQDEQIIDNIEGEYKENFLLNYIFPQYSVGEVGPMRAPSRREIGHGKLAWRALKRALPSKADFPYTIRVVSEITESNGSSSMATVCGGSMSMMDAGVPLKAPISGIAMGLIKEGDEFMVLSDIIADEDHLGDMDFKVAGSSDGVTALQMDIKVAGITFEIMEKALEQAKGGRVHILNKMAEAIETTSEMSGNAPMIESFIVNKDKIREIIGPGGKVIREICDTTGAKIDITDEGQVSVSAVGKDKLDAAIAKVKEIAIDPEVGDVFEGTVVKILDAGAFVNYSGSRDGFVHISEIANERIETVASALSEGQKVKVKLIGFDRGKAKLTIKNADVEGIPEKTHQKSKDKSSKKEDSNKENSDNKEKRENSKKWKNNKSDSSDKNSNSNEVTERKYFN;locus_tag=LOCUS_12410;gene=pnp;EC_number=2.7.7.8;note=Q9ZD43 polyribonucleotide nucleotidyltransferase (Rickettsia prowazekii str. Madrid E) [pid:56.2%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:2.9e-240],MGA_1290
sequence84	MetaGeneAnnotator	CDS	2797	3066	.	-	0	ID=MGA_1291;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZD44;translation=MSITQERKTALIEEYATAKNDTGSVEVQCAVLTERIKNLTDHLKDNHKDYSSRRGLLMLVGRRRRLLAYLKKQSLDRYVTLINKLGLRK;locus_tag=LOCUS_12420;gene=rpsO;note=Q9ZD44 30S ribosomal protein S15 (Rickettsia prowazekii str. Madrid E) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:1.4e-26],MGA_1291
sequence84	MetaGeneAnnotator	misc_feature	3081	4017	.	-	.	ID=MGA_1292;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;note=partial CDS similar to Q9ZD46:putative tRNA pseudouridine synthase B,Q9ZD46 putative tRNA pseudouridine synthase B (Rickettsia prowazekii str. Madrid E) [pid:56.6%25%2C q_cov:53.4%25%2C s_cov:96.5%25%2C Eval:1.5e-52%2C partial hit],MGA_1292;locus_tag=LOCUS_12430
sequence85	MetaGeneAnnotator	CDS	84	2015	.	-	0	ID=MGA_1294;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRSDLDQTTRDVEHVLQALAAASGVESDGEVQVLEVNQDTGIIRFITDNMVVRTLATALNFSGDLVRAIYRAIPSISISDTADTASDIITGSSVDEDEALSEVSTSSLPTSTESIDADLSDRMEDDDDHVEEVVVLSTDPLDEYVSSLNVAALASEARESGALVVDSALGRVFTPDAMHELGIDGMQPVTGSHGLYSVSCTTKSSRGASRKQINAELAGQVLAHPESVAEIIRGTRGRISSVVEADELGDVDVEPLDGNVFEVSTTGNTVTTTFNLFAFLQLLSLHCTSALTTPIIAQVIGSDIDSYTVDLGILRKYVGAELAELIFNPKVGMDGKIGLTPVMLPQLHHEEAVDAITPKSLFSIAIDTSGSMDGANQMDSSRSKLDVAKEKLKATIAKLTSSTPDWTIVLTKFDSNTSVLGTFNSSDTTPKDIYLVIDRLSAEGYTRLYGTASEQLEYIMKLASSGHYTHFASILFTDGHDNTSGIGQLDVIKTAGSATDVVDNLQIFTLELGGSNHQFFTEMAQVSGCTHIPLSNMSDLSAFDGYIRLLSKDTSVVKFLTEAFETFSRMVALEGEITVGNTIIRPDAKFEVNGILHCIEAPETTLAEIHDGIFLTELRTGESSQLSGQSSTTLDEDLYGDY;locus_tag=LOCUS_12440;note=MGA_1294
sequence85	MetaGeneAnnotator	CDS	2141	2488	.	-	0	ID=MGA_1295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLFEMLVILVVSLLVVKPEDIPQIISKLKELRAFITNTKKEIFSHFDPDTNSKNNKNSSKNLENQMEQMNFYLEKIGDLDSEYKGEYSLESVKEHYRKLMNKKISTELKKKNQN;locus_tag=LOCUS_12450;note=MGA_1295
sequence86	MetaGeneAnnotator	CDS	223	1494	.	+	0	ID=MGA_1298;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886387.1;translation=MSKRRSIFLSAISGNILEYYDFTVYAVFSLAIADAFFLGGSQYTKVLLSLSVFAVGFVTRPIGGILFGYIADKHGRRVSLIISMLGMTLPTFIIGLIPSFHEIGYFAPATLVVMRLLQGLCISGEGAGAAIFLLEHYQNLRPGFTAGVVHASNIAGTLLATLIGIVLDYFFHGLDFAWRFAFILGGIMGLIGFYLRLRVSETPIFVLLAEKKKTLKVPFIHVLRTAKVSMIVTVVLGACASSVVYLVKTYINIYHCDVLHYDGTTAKLYLAYTSIIMMICMPISGHFADSIGRFRMIRLAAFAVFIFALPCFSLLSCEGMWQQIAALTMLAILGGSIAGTAYIFIISLFTPEQRFSGVAFSYNLGIAMCGGTSAAIARWLLEITGQYYAPAYYIMFTSSVFLLVTYLMRRKIRALLDVNLKNK;locus_tag=LOCUS_12460;note=WP_010886387.1 MFS transporter (Rickettsia prowazekii str. Madrid E) [pid:63.3%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:7.9e-154],MGA_1298
sequence86	MetaGeneAnnotator	CDS	1491	1826	.	+	0	ID=MGA_1299;product=UPF0102 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:E8TFP9;translation=MNSFKLGIFAEYIILFLYKICFYQILHRRYKTYVGEVDLIVARGKTLVFVEVKARKYGLHDGIVSSDQINRIRNAAELFLSKNPLYSQYNIRFDFALVRPYRFPIIIKNAW;locus_tag=LOCUS_12470;note=E8TFP9 UPF0102 protein (Mesorhizobium ciceri biovar biserrulae WSM1271) [pid:35.1%25%2C q_cov:98.2%25%2C s_cov:83.3%25%2C Eval:3.0e-13],MGA_1299
sequence86	MetaGeneAnnotator	CDS	1838	2668	.	+	0	ID=MGA_1300;product=oxygen-dependent coproporphyrinogen-III oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q9ZC86;translation=MDKRKVTSEWFENLRNQLCEAFELIEIEYAEEKGLMPGRFKRKSWDRDGGGGGTMSIMKGNVFEKVGVNISTVHGEFSEEFRKQIPGTSEDPRFFATGVSLVAHMCSPLVPAMHFNTRYIETKDGWFGGGGDLTPMYPDDSETAEFHRAFKQACDKHNDTYYPKFKKQCDEYFYLKHRSESRGVGGIFYDYMKGDFSKNFAFTQDVGRAILGVYPEIVRKKMYQKWSKEQREFQLIKRGRYVEFNLLYDRGTTFGLSTGGNVEAILMSMPPEVKWP;locus_tag=LOCUS_12480;gene=hemF;EC_number=1.3.3.3;note=Q9ZC86 oxygen-dependent coproporphyrinogen-III oxidase (Rickettsia prowazekii str. Madrid E) [pid:66.2%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:2.5e-109],MGA_1300
sequence87	MetaGeneAnnotator	CDS	245	967	.	-	0	ID=MGA_1301;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599689.1;translation=MIELKNVSKKFDGHYALKDINLVLDKRETVVVIGSSGSGKSTLLRTINNLENPTSGSVLIDGTKLTRRNRGKLCFKIGMVFQQFNLFPHMSVLENLTYGPRNVLDANPIDTEKKARDLLERFGIGDKLDSAPNDLSGGQKQRAAICRALMMDPETILFDEPTSALDPEVIRDIIQIINDLKNQMTMLVITHQVNFAKIIADRIIFMDKGVILADQPAKEFFEKPSSHRARLFLANVGDLI;locus_tag=LOCUS_12490;note=WP_004599689.1 ABC transporter ATP-binding protein (Rickettsia prowazekii str. Madrid E) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-75],MGA_1301
sequence87	MetaGeneAnnotator	CDS	964	1617	.	-	0	ID=MGA_1302;product=putative glutamine transport system permease protein GlnP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:P41083;translation=MYDELVAFLPQIFFILQGVFITLKYSVTAVCLGLVIGTVLAICKIVDIKILRIFAHSYTSVFRGTPLLIQLTIIYFGLPGLIGVKLSIFSAGIIAFSFNSGAYVSEIIRAGIAAVDKGQVEAAKALGIPPILRMKDIVLPQAFRKILPALVNELINLIKESALISIIGEMDLMRRAQIVSAETFTFFTPMLTAAAAYYILVLIISSFAMALEKRLAL;locus_tag=LOCUS_12500;gene=glnP;note=P41083 putative glutamine transport system permease protein GlnP (Rickettsia prowazekii str. Madrid E) [pid:62.6%25%2C q_cov:97.2%25%2C s_cov:96.8%25%2C Eval:3.6e-72],MGA_1302
sequence87	MetaGeneAnnotator	CDS	1829	2596	.	+	0	ID=MGA_1303;product=flagellar biosynthetic protein FliR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:UniProtKB:Q89I29;translation=MFIVLEELSLEFIFQFMLVFARLGTAFRRFPAVGAPYIHSRAKLFVALTISFVMLPILAPYLPKYTDDFAKNIGYIAIEILIGLIISVAANIYFMSLHFVGQILSMQSGLGAAAFFDPLQRSQVAIFSNFMLIIAIVMIFASNTHHLFISAVADSYMKFPPGELVDSGDVSKFVSFVLNDSFILSFKIVSPFLVVGLAIMTGSGMLARLMPNLQVFFVITPAQILIMFGTMYVVIQAVVSKLVVTIGQSVNVLGF;locus_tag=LOCUS_12510;gene=fliR;note=Q89I29 flagellar biosynthetic protein FliR (Bradyrhizobium diazoefficiens USDA 110) [pid:36.2%25%2C q_cov:87.8%25%2C s_cov:87.5%25%2C Eval:2.5e-36],MGA_1303
##FASTA
>sequence01
ATCAAGAGCAATCCACAAATTTACTCCTAAATCATATTTCTCTCTATAATTTTTTCTGTAAGCTAAATCTTGATGCCAGGGTTGTGAAGATCCTATTTTAGGTTTTTTGTACCAACATATAGAACCAACTAATTCATAAGTTTTATGTGAAGTAAAATTTTTTATAATATTATTTATAATATTTTTTTTGTAGATTAAATAATTAATATATTTAGAATAGTTTTTTGAGTTAAAAACAGCTCTTAATTTGGGGATATCTGTGTTTTCAAAGCTAAAGTCTGTATTTTCAGTATTTTGTAAGGCTATTTCTTCTATTTTTTTTAAAGATTTTAGACATAATGCAATTTCTTCTTTATTCAATAGTTTTTCTATTTTAGCAAAACCATACTTCTTAAAGTGTTTTATGTTATATTCCTGAATATTCATAATAATTTAAACTCCTCTAACCAAATTTTAGTTGTACATAGAAATAGCAACTCAGAGAAGGTCATCTGTTGTAAATCACTATTTTTTATTTTTAAATTAAATGGAGTGCTATTATCTTTTAATATTACTGTTAGTTCTTTTTTCCAGTCATTAATATTAGGAGCAGGAAAACCATATTTTTTTCTTTTTAAAATAAACTCAGGTAAAATAGTCTCGAATGCATTTTTTAAGAAAGGTTTTAAAAAATATTTATTAGGTTTATTTTTTATAAATTCAGGCAGTTTAAAAGATGCATTAGCAAGATTTAAATCTTGAAAAGATGGTATTTCTTTCATACCAAAATATGAAGTAAATGAGTCATTCATATGATTTATATAAGCGACATTTCTATGTAGTTCATGAATTCTTGGTTTTTTAAACAAATCATCAGTATTATATGCTCTATAGGAAGAAAATATCTTATTCCAAATCATATCATTGATTTGTTCTTCTTCTATATCAAAAAATTTATAAAACTTATTTATTAAAAAGTAATACCAATCTGCTGTATCATTTTGATATAATAAATTTTTTAAATAGTACTCTGAGTGCTGATCAACTCTAAAATTTGGTGATAAAATTGGAAAATATTGGCTATCTTGTTCTCCCCACATTATATCAGCACCTTGTCCGGTATAGATAACCTTGCAACCAATTTCACTCATTAGCTTATATGTATGATACATTCCAATTTCACATCCGTGAACCAAAGGCCTTTTTAATATGGAAACTATAACTTTTAATGTTTCATAGAGATCTTTTTTTTCTATATGAATGGTTTTACCAGTTTTCTTATAGTATTTAAGAAATTTTTTTGCATAAACTAAATCTATATTATCTTTTTCATCTAAGCCATCAAAAGAAAACATACACAAAGAAACATTTTTATTTAACTTAAATAATACAGATGCAACGGCTGAAGAATCTACGCCACCACTTAATAATACTCCTTGATTAGAAAAATTTGCTCTTAACTTTACAGAGTTAATAAACATTTCACACATATCTTGTTCAGAAAATAATTTTTCTTGATTATCTGGGATCCAATATCTAGTAATCTTAGGTTTATTATTTTTTCCAATTACTAGACAAGTTGCTGGTTCCAATTGATTTACTCCATTAAACCACGTCAAATCACTTACTGCATCCATTCTTACAGTAGAATTTAAAAGAAAGATTTGAGGTGAAAAGCTGTATTGAACTAGCTTAGAAGCAAAAATATAAGATAAATCTGAAGCAAAAATAATACCTTCATTAAACTCTGCATAATATATAGATTTTATCCCAAATTGGTCTTTTGCTATTATTAACCTATCTTGTTTTTCATTAAAGTGAACTAAGGAAAAACGGCCGTTTATATTTTTTAAACTATCATAAAAACTATTATTTTGGTTTAACAATCTATTTAATGAAGAAATAGAATTTGACGGTAATGGAAAATCAAAAATATCACCAGCAATAAATAAAACAGATTCTTTTGCATATTCATTATGATCACTACCACATATCATAACAGATTCACAAGTAGAAAAATATTTGCTTATACCTTTTGGCAAATTGTTATTTACAACACTATTAAATTGTTGCATTATTTTGTTGTTTTTATTCTTTCTAAATAGTTTTATACCAAAAATAATTTCCATATAATTCGATTTTAATATTATTCAATATATTCAGCTACTTCTTTTATTATATCTTTAAATAAATACTCACTTCCAAAATGACAACAATCCGGTTCTTCATATTTGCTGTTTAGACTATTCTTTTGTAATTTTGAATAAATTATCCTTGAGCCTAAATGCATGTTATATTCATCATACCTACCTGTTTTTATAGTAATAAAGTTAATTTTTTTTAATGATTCAGAATATTCATTGATTATCTCTATTAGATCATTTTGTTTCCACTTTTCCCAACTCTTATAATCAATTTCTCCTGTTTCAATATTGCAAATAAAGTCGAATTTTAACTTTGAAGAAAGATTTGGAGAATAACAACTAGACATAGCTACTAAACTAGAGGTTATCATAAAATGTGCATCATTTGACTTATTGCTATGCATTTTCTTGCAAAAATTCTCTAAGCCACCATATTTTCTAAAAATTTCTATACTTATTGGTATAAAAGGTAAATAACAATACTCAAATCCAGAATCTGGAGCTATACATCCAGCAGTTGAAAAAATCTCAGGATTTTTTAAAACTGATATAAATGCTCCATATCCTCCACTTGACTTTCCAATAATAGCTCTATTTTTTTGTTTAGCTTTTGTTCTATATTTTGTATCTATAAAAGTAACTACATCTTTTGATATAAAATCTTGATATTTTCCTGTTCCAATGGAATTTATATACTGACTTGAACCATAATATGTATTGCCATCAACAGAAACAATAATTACTTCTGGTATTTTTTTCCTATTAATTAAATCTTCTACCATATTAGCTATATTTTGTTCAAAACAGTGATTCTGAAAAAGGAAGCAATGATTTTTTGCAAAGGCTGGAAGCAAATAAATAACAGGATATCTTTTCTTAGAAGTGTGGTATGAACTTGGCAATAGAATTGAAATCCCTCTATTAAATGAATCTTTTAAAACATTAGATTTTAGTGATTCACTAATAATATTTTCAACAATTCTATATTTATTCATTGTTTTTTATCCAGTTGCTTAAATGATCAATATAATACTTAGGGTGATGGAAAATACTTGACAAAAGCATATCGTTACTAGTCCACAAGCCATATGAATTCTGTATTAGTAATGATGAGTCTAAGAGTTTTTTCAATGTTTCTGAACTAATCCATGTAAAGGGAAAATCATTCATACTTTCTGCTCCAACTGATTCTATACTGTTTGATGAAAGATTAACAAGAAATGTATCATCCTCTGATTTATTTGATATTCTCACTATAAACCTTCTATTAGATTCTAGTGCCCTATTCCAATATCCTGAACCTGGGATTTTTGCTAAAAATTTATTTAGTAATTCAGTATTATCATATTCTTTATTATTAAATACCGATGGTTGAAAAGCAGGAATTTTTGTATTTTGAATAAATGTTATATCTTCAGAATACTTGGTCATTTTGTTTTTATCATAATTTAATTTCACAGGTTGCAAATTATTACTTTTAAATTCTACTTTATCACCCGGTCCCATTATAATAACTTTATTATCTTCAACTAATTCAGGCGTTTGATCTATTGTAAGTGGAAATAATAAATGGTTTCCCCATGAAAAGTTCTCTTCATCGGTAGCATCAATTTTCCAACCGAGAGCAGAAGGAACAACATATTTGGGATTTAGTAATTTGCAATATTTTTTAAATCTAGCTTGAGAAGTAGCTATATATTTACTATAGTCTGCATCATGTTTTCTATTAGTTAGAGGAAGATGTGGTGAAGTAGAGTGAGTTGGTACAAAAGCTAGATCTATATTAGGATTATTTTTACTAAAAAACTCCTCAGTTTTAGGATGCAAAATACAGTCACCAGCGACAAATAATGAACAATCGTTGTTTCGTATAAAAAATGATTGTTCAGGAAATTCTACTTTTGAAGGAAATGTAGAAATTTTAATGTCTTCATAGTTAAAATCCACAAAATTTTCTAGTGGATAAATATTTTTAAATCCTAAAGCTTGGAGAGTGTAGGCTATAGCTTGATGACCCATTCCAGAACCAGCAACTCTAACATTTTTTCCAGAAGCTGGGAAAAACACTTTTGCAGTTTTTGATAGCATTCTAAGGCTATTAAAATCGTGGTGATCGCAGTGGTGGTGAGTTAAGATTATTGTATTTACATCTAATGATTCTTCAAGTAAATTATTATCTAGCTTAGGCCAATGTACCCACATTCTATCAAGCCTATCCGTTAACCATGGGTCTATCAGTAAACGCACTTTATTAGTCTTTACATAAACACATGAATGCCCAATACATCCAATTAGCATAGAGATTCTCCGGCAATTAAATTATTTTATTATCTATATATTTGTTTTATATAATTTCAAATATTCATTTACAAAATTTAAAAACCACTTTCTGGTTGTCCAACTAGAAGGCTTAACAAGTATAAGATAAGTATATTCACCATGTTGAAATAATAACTCATGTGGTCCATAATTTTTATATCTATATGCATAATAGCATTTTGTATCATCAATATTTATGGACTCATAAGAAAATTTCTGCGTTAGGTCAGGTATTGCTGGTATTGTTGGTGCCGCTGGTGAATTTTTATTTACTTGTACTATACTTATTGTTGTCCCAGGAGATTTTGCACTTTCATATATGAATGTGTATCTACTATACTTATCAGGTTTTTCTGAGTGATGTTGAACAAAGAGAGAATCAAGTTTATAGTCTAAAGAAATAGGAATTTGGATATGTTTTATATCAAAATTTTTCTTTACATATTCTGGTGTATAAGCAGTTTGAAATTTTAATTTACTATCTGAAACAGGAAAATTCCAAAAGCTTATTGGAACATTTACGGACTTAGTGGGTTTACCAGAGTTAAAACTATTTTCTGTATAGCTGCTTTTCAATAAACTATTTCTTTGCTGATTGCTTATTGGTACCAAACTTTTCACTATATCAGTAATTTCATAATCTGTAAACGTACCTTTTAAAATAGAAAGTTCTATTGTAGTCCTATCTTTTATTATCGATGCTGCTCTTTGATTTTTATAATTTTTTCCTATCCACAAAATATTATTTTCTATGAGATATGGAGTTGGGTTTGTAGGTTCTACATTTTTAAACTCTCTATGATTATGCCAAAGGCTTGGACAATCATAAGCAGGAGGCGCCCAGTCATAATTAAATTCTTTTATAGATAAAATATTTTGTTTATCTATGCTTGTTATCAATAGCTTCAGAGAAGATCTTGGATAGTCTTTAGAAACATTTTCTGGTCTGAATAATGCATCAACTAATATAAAATTTTTATTTAAATTTTTGGGAACAAATAATGGAAAATTTGCATTAATTTTTTGTATTTCACTTCTATCAAAAATTTTTTTAATATTAAGTTTAATAAATTTCTCCATATTTTTCCCCTCATTTGCTTGTATAACGCAACAATTACTATTTAAACAAAATATCAGTAAAACAACTTTAGTTAATTTAAATTTCATCAAGTCCATTTCTTGTTAGTCCTCATTTTACAACCCTAAGTTTATCTAATTAAGCATAATTGTCAATCTTTGGTTGACAACAATTTAAAAATTTGTTCTTATCAACTTTATGCGTTTACATTTTATTGATACGTACACTAAAAATAAATGTTTATGCATATATTATTAATCATTGAAAGTTAGACGGAGGTTATTATGTCATTTCAAGATTTAGAAGAAGCAAACCTACTTATCCAAATGCAAGAGGGTGAGGATGGTAACCACGAAGATAGCGAAATTGCTGAAAAGTGGTAAAAACATGGGATCTAGGCATAAACTATGCCTAGATCTTATCGTGATTGATCGTAATTATAAATCAATTCAATGTATAATTTAGTAGAGGTTAATTATGTTACCGCAATTGGGAACACTTAGTGATATATATTCGTTTAGAGAGAAGTATTGTAACAATATAAAGGCTTTAGAAAAAGATATAGAAGAAAATTTAGATTTAGCTGTAAACTCGAATAAGTTAAAAGAGTTTTTATCTGACACGAAAAATCATCCAATGTGGGAAATACGAATGTCTGTTCTCAAGGCATGTGAAAAATATACTAATTTAGATGACGTTAGAGATTTTATATATAATATGACACATGATTCTGTCGATATTATAGCTTTTAAGGCAATTAGATTGTCTGGAAAAATAAAGAATGATGACGCAGTTATTCATCTGGTAAGAATCTCGGGTTGGCCTAGTGTTTTTAGAAGAAGCGATTATTTAAGAAAACCAGTTGGAATTGGAGCTTCACTTACAAAAAAAGCAATGCTAGATATACTTGGTACGAAAGATATAAAAGAACTAAAGGAAAAAGAAGATAAGATTTTAGCTCCATTTAAAGAAAAGGTAAAACAATCTAAAAAAACACCAAGCTTAAATGGTATGATAAAAATTCCAGCAGGTAAGTCTAGAATTGGTACATATAAAAGAGATGATTTTCGTTTCTTTTATGAAGATTATATACCAGAAAAAGAAGTCGAGCTTGATGAGTTTTATATTGATGAAACACCAGTCACTAATTCTCAATATAACAAGTTTCTTGAAGATGTAAAAAAGAATGGCCCTATTTATGGTCATCCAGATCAGCCAGATAACAAAGATCATACCCCTACATTTGTAAATGACAAAAGGTTTAATGCAGATGATCATCCGGTAGTTGGAGTCGATTGGTATGATGCTTATGCATATGCAAAATGGGCAGGAAAAGATCTGCCAACGGAGCTTCAGTGGGAAAAAGCAGCTAGAGGCACAGAAAACATAGAGTATCCTTGGGGAAATAAATGGAATTCCGAAGCAGCTTACTATGTTGAAAATTGCTTTGGAAGGGTAATAGAAGATTTAGAAGAGTGGGAAGAATGTTTAAGACAATTTGGAGATGATTTTCCAATTGAACCAGTAAAGAAAGTCAAGAGTTTTCCTCAAGGTAAAAGCCCTTACGGTGTTTATGATATGTCTGGTAATGTATGGGAATGGACAAAAACAAACTTTTATTCTAAAAAAGACATGGATCCTAATTTCAAAAATAGGTCTTTAAGTTATTATACAAACAAACCAGCGGCCTTTCCTGTAATCAGAGGAGGATGTTGTACATCACTTCCAGAAATGCTCAAGACGTTTTATAGAGGAAAAGATCTTCTAACAGATAGGCATTTTGAAATTGGTTTTAGATGTGTAGTAAATCATACAAAATAATAGACTTAAGTACAGATATAACAACACTACCATCAAAAGAAATGGTAGAATTCATGTCAACTGCAACAGTTGGAGATGATTGCTGCGATGGAGATCCTAGCATAAATGCGCTAAAAAGCTATGTTTGTACGATGTTTAATGTTGAAGACGCTATTTTTCTTCCAACAGCAACTATGGGAAACTTAATTTCTTTCCTTGTAGTATGTAATCCTGGGGATATTGTATATTCTGATAAAACCTATCATGCTATTCATCTTGAAGGAGGTGGAGCATCTGCGTTTGCTGGAGTAAATTTTAGAGAAATAGTAGGAAAAAATGGAATATTTAGTAGTAGTAATATTAAGGATAGTTTTCTATTTGGAGGAAGTGGGCACAATTTTTGTAAACCTAAGATGGTATTGATAGAGCAAACTACAAACCTTGGGGGTGGAGTAGTTTGGTCTTTAGATGCATTAAAAGATATTTCTAATTTTTCGAAAAAACATAATTTATGGGTACATATTGATGGTGCTAGGATATTCAATGCCAGCGTAGCTACAAATACAAAAGTTAGTAAGTACTCAAGTTTTGCTGATTCTATATGTATTGATTTTGCTAAAGGGCTAGGTGCACCAGTTGGTGCAATGCTTTGTGGAAATAAAGAATTCATTGAAAAATCTAAAGCATTCAGAATCAAGCTTGGGGGTGGAATGCATAAGTCAGGTTTTATGGCTAAAGCATGTATGTTTGCGCTTAAAAATAATATTAATCGCCTAAAAATTGACCATGACAATGCAAAAAAACTAGCTTTTTTGCTAAAAAAAATAGAATTTCTAGATATAGAACCAGAAAAAGTTGAAACAAATATCTTAGTTTTTACGATCAAGCACTATAGTATTAATGCAATTTTGTTATCAAAGATACTAAGAGCACGTGGAATTTTTATTACAGCAATAGGACAAAACAGGATTAGACTCATAACCAGTACAAACATAGAAGAAAAAGATCTTAACTACATATATCAGCAAATAGTGTCTGTATTTACATAAAGTAAAAGCTAGTCTACCACTTTTTTGTAGAAATAACTGGATAAGCCCATCCCATTTTTGCTCCTCCATATGTTACATTAACAACATCACTATTAGAACTGGCACGAACTAACATTCCTGTGTGTTTTCCAAAAATTGAAAAAAGTCCTAAAACAATACTATTATTTCTCATATTGTAATTTTGATCCTCTGGTAAAATGATTTTCTTTGTTTTGACAGCTTCTTGTACTATCCAATCATCTTCACAGTTAACTATTTTTTTCTTTAAGTCACTTTGAGAAAATTCTGATCCAAAAAATACTCCTAGCCCTCCGTAAGACATATTTTTCTTAAATACATATTTATCCTTATTTTCTAAGTAATAGTCTAAATTGTTATTTGATAGGGAATAAGTTTTTGGTATATACTTATTTATTATCTCTATTTCATTTGTAGATAAATATTTTTGATATTTGAGATCATAAAAAATAGAAAACCATTTCTTATTACTTCGAATTTCATTCTCGAACATACTAATCATCCTTGCTCCACTTGCAAATATTTTTTCAAGCAGTTCATCATTTTTTATATCTCTGTATATAGCCATCCTATATACCAGAGTTTTCCTACCTTCTTCCTTTGTTAACAGTTCTTCTGGATAAGTTTTTTCATCCACTAATAAAACTTCTATTTCAGGTAAAGTTTTTTTTATTAAATCAAAAAGTGCATAAATTGTTCCTGAACCTTCTACAATGTAGAAATTCAAAGAAAAAATTATAATTCTTGTGAATCCACCTTTTTTTATTTGAGATTTAAGATATTTTGTTATCTCACTTCTAGGAGAACTTGTGCCTTTTTGAAAAGGTAAATTTAGTTCTCTAAAATATTTTTCAAAAGCATCATAAAACTTTAAACCATTTATTGCTGAATCAACATTAATTTCACAAAATTTAAATCTATTATTTGTTGAAATTATAATATCAAACCTACCTATTATCCTATTACTTAATAGTTTATTCCAATCTACAAAATGCTCAATCTTACCCGGTAAACCAAAAATTTTAAGAATTGTTTTTTTAGAATTTTCTTTTACTAATACTTTTAAAATTTTTGTTTGGGATTTTATAAGAGAATTACTTGCATAACAAAGATTATTATAACATTTTTGGTTTATTAAAAGAGGAGATGAAATAATCGGAAAATCTACATTATATTGATCTAAAAATTTTTTTACTTTTTTTAGCGCTTTATACTTATTCGGATGTGTGATTAAATATTGTATCCAATTAAAGTTTATTTCAAAAAAATCCATAAATGTAACTTAGTAAAATTCAGAGATTTAGATTATAAATAGTTAGATATTACAACATTTATTGTAACTTTAGATTGCTACCAATTGCTACCAATTGAAAGTATTATATCCTTGACAAATACCTCTTTCATATTATGCTAAACCTATAGTTGAAAATCATACATATAAAATATTAATATGCAAAATAAAAAGAAGCATTCTGAAGAATATTTTGTTGATTCAAGGAATTTCTGGTGGAATGAAGATTTTCTTAATTTAATGGGTAAACGCTGGAAAATACACAAAGTTAAAAATATGCTAGATGTCGGATGCGGTACAGGGTATTGGGGAAGACAATTAAATAAAATTTTGCCAAGAGATACCAATATTATTGGAGTTGATCAAGAAGTCGAATGGATAAAAAAGGCAGAATCAATTTGCAAGAATGAAGGCTTAAATAATAGATACAAATATATAGTTGGTAATGCAGATAAAATACCATTTGATGATAATTGCTTTGATATAGTAACTTGCCAAACTTTACTGATACATATATCGAATGTTAAAGATGTATTAAAAGAGATGACAAGAGTACTAAAACCAGGTGGAATTCTAGTTCTAATAGAGCCAAATAATTTAGTATGCGGTTTAACCCTAACCTCCCTAGATTTAGATGAGAATATTGACGACATAATTGATACATGCCGCTTTCAGCTTATTTGTGAAAGAGGAAAAAAGAATTTAAATGAAGGATTTTTTTCTATCGGTGACCAACTACCTGGTTATTTGTCAGAATTAAAATTTAATGACATAGAAGTTTTTTTGTCCGATAAATGCAGACCTATTTTTCCACCTTATAGTTCAGATGAACAGAAAATAATAATTAATGAAGTCAAAGAATGGGATAAAAAAAAGTTTTGGATATGGGATAAAAAAGATAGTGAGAAGTATTTTAAAGCAGGTGGAGGTAACATCAAAGAATTTAATTTTTTGTGGAAAAAAATGCTCACAAGATACCACAAAAAATTTCTAGCAGGTGTAAATTCTAACAAATATGCAACCAGTGGCGGTAGAATGATTTATTGTATATCAGGAATTAAAGCTTAAATATGAAAAACTATAAAAAAATAGTATTTATAACTTCTTCTGGGCATATGCTTGAATGTTATGATGTTACTTTGTATGGTTTTTTTGCTGTACTATTATCTCCTATCTTTTTTCCATCAAATAATTTTATTGCATCTATGATTGGAACATTCGGAGCTTTCGCAGCAGGTTTTATTATGCGTCCCATTGGTGGAATAATTTTTGGTCACATTGGAGATAAGGTTGGTAGAAAATATTCTTTTCTTCTTTCAATTGTTTTAATGACAATCCCAACAATAGGTATAGGCTGTTTACCTTCATACGAAACTATAGGAATAACATCTCCTATTTTATTAATTTTATTTAGATTAATTCAAGGTATAGCATTGGGTGGAGAATATGGAGGAGCAACTGTTTTTATTAATGAACATATAAAAGAAAATAAACCAGGTTTTGCTGGAAGTATAATAGTAACACTTGGTTTTGCAGGAGCAATTATTGGAACAATTTTAGGAGCCATATTTACTCAGGATTTTATGCCAGTTTGGGCTTGGAGAGTTCCATTTTTTTTAGGTGGAGTATTTGGTATTATTGTGTTTTACTTTAGAATACAATTACAAGAAACTCCTGAATTTTCATCCTTGTGTTCTGAAAAAAATACAGAATATTATCCAATTTTTGCTGTACTCAAAAAAGACTTAAAAAATGTTCTTTGCTGTGCTGGAATTGGAATGCATACAATTACTCCTTTCTATATTAGTGTTATATTTATAAATTTATACTACGATTATAAATTTAAGATTTCAATGTCAAATACTCTAGCTATAAATACAGGAATTATGTTTTTATGGGTATTAACTCTTCCATTTGCAGGATATATTGCTGATAAATTTAATAGAAAAAAAATAATGCTATACTCAGCAATCTGTACATGTGTAGTGTCTATACCTGCTTTTTATACAATGCTAAATACTGACACTTTTTTAATATTCTTTTTGTGTCAATTATTGATAAGCTTTTCTAGTATTCCATATGTAGCAGTTACCTCATCTATACTTCCGTTATTATTTCCTAAAGTTTCAAGATACTCTGGTGTAGCATTTAGTTTTTCTCTGGGAGTAGCTTTATGTGGTGGAACATCACCATTAATTGCTACAACTCTAATAAACTCTGGCATTACAATTGGCCCAGCAATTTACTTATTTATTTCAGGTGTTGTTGGCTATTTATCAGTATATTTTGCCAGTAATTATAGATATAATTAGGTAAAAATATGAAAAATGATCTACTTAAAAATATCAATTTTAATGAATATCAATATGACGATTTAGATTGTGCTTCATTACCGATGTTTAGTGGGGGATTTGTAAATTTTGGCTATTGGAAAAATTTACAATATAAAAATCAAAAAATTATATCTCGTGAAACTAGAAAATCTAGTTCTATAAATCTTTACAAAAAAGCACTTGAATTTGTAGGCATTGAAAAATCACATACGATTTTAGAAGCAGGGTGTGGTTCTGGGGTTGGTATCCCTATTATTGCAGAATCTAGTCCTAGAAAAATAATAGGATTAGATTATTTCTCTAGCCAAATTGAAAGAGCAAAAGCTCGTAATAAAAACTTTATTAATAGCAACATCTTAGAATTAATAAATGCCCCTGCAGAGAACACTGGATTAATGACTGAATCAATTGATAGAATTATTTCAATAGAATCTATTCAAAATTTTTATTGTGCTAATTCATTTATTAAAGAAAGTGCTAGATTACTTAAAAAAAATGGAAGAGCTATAATATTAACAGTCTTTGCTCTGAGCAAAGAAAATGCTAAAAAAATTAACAGCCTAAAACCTGTAGGAATAAAGAGAACCGATCATATTATGCCAATAGATGAAGTTATAAATTATAGTATTCCTCACTTCAATATAAATTGTATTAGAATTGGTGAAAATGTGTTTGAAGGATATAATAATTACATACTTGGCTTAGATATAAACCATAATGAACTATGGTCCTCAAATTTTTATAACTCTTTTAAAAATGGTGAGATAGATTATTTTATAGTAATTTTAGATAAGTGTTGAAAATAGGATAAAACTTTTCTTGCTGTTAACTTTCTTCTTACGCAGCAACTACAAAAGAAGTTTCATACATAGTTTCTGTGTTTGCATGGGTATTGCGATTGATTTGTAAGTTTTAAAGTTTTTTTAGGCAAATAATTATAACTTATCTATTGATAATGTGCCGGTTTTAGAAATAAGATCTTCTATTTCTTCAGAATTTCCAATAACATCAGATTCATGATTAATTGATAAGGTTGATATTTGAGGAATGAGATCTTCCAGTTCCGGTTGTTGTAATTGTTTTACAATGTGTCTCCATAATCTATCTATTATTAAAGTTAAATCACTAGATATTAAACTGTTTTGAGCTTTTGAAAATTGGCCACTATCTTGATCAAAACCAACTTCATAGGGGATAAGTTCATTATTTTCTTTTATTGTACACAAAAATTTGTTTTTTAATTTAGCTATACTTACAACTATACCATTTACCGTACTTACTACTGAAGGTATTATCATTTTACCAAATCCTGAAATATTTCCACTACTGCTCATTATATCAGGATTAGGACTCGTATCTGTGTCTTTTTTTATTTTTGCTGGACTAACAACACTATTTTTTCTATTATCTGGACTTAGACCGTAAAGAGATTGATGATAGATGGGTTCAAAACTTTCTCCTGCTTTCATACTAGGGTAAATTATTGGAATTACTGCAACAATGCGATCACTATCCATTTTTCCTAAAAAATCACACTCTAGCTGATTTTTAAATCTAATAGCTCCTCTGCCTTCAGAAATATTTCCGGAAGCTAAACCTTGATTTACATCAATCATTGTATGACTATCATGCTCACTGATTAAATCAGATAAATTATGTAAGGTTATATAAACGAGACCAGCAAGTCTATGAGTAGGATGCCCATCTATATATTCTGGTTGCATTGGTGTTTCCCCTCTTGTTGTTCCTTCAACATTACGACCTATTGCAAAACGTATAGGATGATCTGGTGCTTTACTCGTTGCAATAACTGGAAAACGGTATTTAACTATTGTATCATCAGGCATTATAGTTAATCTAGGAATCCCTTCACATAAATAGTTTTTTTCCCAAAAATTTCTAATGGGACTTGATGAAAAATTAAATATATAATCTTTCATAGCATCTTTAAATCCAGTAGGAAAATCTTTACGAGTGAAGTATTTTAATAATTTGTTATCAGCTTCATCTAGTCTTTCTAAGTCTTCTTCACTTGCTACCATCATCTCATAAAGACTTTGCATACCAACTGTTGCAGTGGAAGTACGTGAGTGTATACCTATCAATATTTTTTCTTCTTTAGTAAGGGTATATTCCTCTTCGGTCATAGAACCACTAAATTTACCTAATAGTTTCTGATTAATTTCGAAAAGTTTTTTTACTACTTCTCTGCGTTGATAATTAGTGTATTGAGAATGCATAAAAGGGACACCGTGAAATAAAGGAACAACAATAGAATCTATAGCATTCTTATGAGATAATGATGGTATTTCTTTCGTATTTGAATTAATAGTTTGCCAAAAAGTATCCCATTTTGTTTGATCAAACTTATTTTCTGTTGATATTAGTTCCCATACTGTAGATGGTGCTATACCACAACTAGCACTATATTTGTCAAATGTACGTTGAAAATTATCATTAACAGTTTTTGCTGTAAGATGTCCATCTAGTGAGTCTTTTGTAAATTCATCAAATTCTAATAACATTCCCTTATACGTATATGCATATGAATCCTCATCTTCACTATCACCACTGCTATCATCAAATTGATCTGCTTCATAAATTTGTAAAACAGACCTAAAGTATTCTTTACATACTTTTTCTACTCTCTTAGAACTAAATTTAAGTTTTTCTAATAAATGGCTTGTACTAATCATATGACCATCTAATCCTGTTGTTAGTAAACCTGGATTCATAGTTGGATAGTTAGGATTGCAATATGATTCATCATCTATTTGTTCAGAAAGCATACGCTTACTTAATATTTTAAAGAATTTTGATATGCACTGTTTTGCTGCTTTGCTAGTACATTTTGATGCTGCTAATATAACATTATGTAGTAAATTTGTTCCCCCGATTAATTCTACGCTAGAATAATCCATATAGGCTTTGTTATTCAAGTAATTATTAATTTGATATTCATAAGTATCAGCAAAAATCGAGGCTATTTCTATTCCTGCTAAGTTATCCTTATCTTCAAATAAAAACGCCATCCCTAAAGAGCTAGTTCCATCTATATTACGGTGATTTACTAATTTTCCAATTGTGCCATCTAATTTTGCTCTCAAAAGAATAGCCTTAATTAAATCTAAATCATGTCGAAAAATTGCATAATGGAGTATATTATTACCTCTAGAATCAACAACTTCACTAAGATTAAAGTTAAGTTTTTGTAGTAGCACAACATTCATATGAAAAAACAAAAAATTATTACTCTTTCCTAGTTCAAAAAGAGGACTTTCTACAAATAATTTTCTATTTAAAGACTGAGGAGGAGCATATTTATAAGTATATTCACACTCCATTTTAAAATCATCTAATGAAAATTCTTCATTTTTTTCTAATTTTTCTTTAATGAGTTGAAGTTTTGAGTCTCTTTGTTTTATTCCTAGTTCTTCAGGAGCTGTGGTATTTATCTTACGTTTATCAATTTTAGTTTTAGATTCAGACATTGATGATTGTTCTTTGTTAGGAAAATTATTGCCAGAAAATTTCTTGCTACTGTGAGCAATATTAAAAGCAAGTGTTCCTATTAAATTAATAGCTCCTTCTCTAAATTCACTATTTGGCTTTAGTATCTGACTAGAAATTTTAAAATCTGTGTTACTTGCAAGATCAATTTGTATCAAAAACTGTTTAAATAAATCTAAGCTTTCTCTAATAGTTATGTCTTCTCTTGATTGTTGTATAGAAAATATTACTTGTTTTATCCAATCATTTTCTGGTTCCTGGATTAATTCTCTTAAAGCTTTAATTATTTCATACCTATTATCTATAGGTTTATCTCCTGTTGCTTCATATGCTATATTATCGCGTTGCGCTACAAAAAATGCTTCTTCATTTATCTCATCTATATGTTTTAATCTTAGTTCATTAGCTCCAGGTGGATAAACTGATTCTAATAAGCTAGTTCCATCACCTTTATCCTTTAGAAATTCTTTCCCGTTTTCTGCTGTTATTGCACCACATGATGTACCATCATATTGTTGCTTAATTTGTTTTGCTACAGGCTCTTTTCTAATAATTTTTATTAATTGAAACTCATCTAACGAATTAATATCTTTTATAAGGTCATCATAACCTGAAGCTTGTCCTCCAAAGGGCTCATATATGCCAATGTATGCTTCTACTATAGAAGCATCTTCAGCAAAAACTAATTCAATTTTTCCTAAATTCCAATGAAGAGGACCTGCATGATATGGAAATATTATTATATGGTTTGTAATTTTTGTATCATGAATATCATTGTAGGATTTAATTTGTGCTATTGATGCAGAAAGCTTATTTTTTATGGAGTTAGTATCATCTATGCTATTAGCTCCAACATAGTTTACTTCTCCGCATAATGTTAGCGAGTGTTCATCTTTATTTATATAAGGGGAATTATCAGAATTTAAAACTAATGCTACTTCATGATTTTGTGCTATTCCAGTAAAAATACTTGCTAAAATGCGTTCGGAATCTAAATAAAATTTGAGATCTGTATTTACTGATTTTAAGTATTGTTCCCACAATTTAACTATATCATTACCACGATATAAAAAGCTTCCGTTGGCATCTTTTGAGCTTAATTCTTTCTTCTTTGACATAAAACAAGACTCTAAATATTTTGTTTTAATTCTAGTAATTTTAGTTTATATAATTCTATAAATAAAAGCGCCTAGTATTAGTGATTAGGCAAAATATACTTATAGAAATAACTTATTAATTATTTTAATAAAAAATATTAAATCTATACAAATTATATGTTGGAGTTATTAGTACTAAAATTAGTATAAATTAAATTAATAGCTTCAGCCTGTGGCAATAAGAGGTCGGGTAACAGAAGAATTGTTGCCAACTCTTCCGTCCCCTAAGAACGCAACGTACCCCTTTCAAGGTATTACGCTCAAGCCTTTGTAAGGCCAAGTGTTGACTTGACCCAGCCTATTTGTTGCAACTGCCTAGTACTTTGCCAGACTTTTTCCTTTGTTCAAAATAATCTTTGAACTCAGGATCATAAGGGTTAGCTACTGCCCTAATCTTAATATGTCTCTTAATAGGTGTTTTTACTGCAGATACCAAGTCTAGATACTGATGTTTGCCATCCTTATCTTTGACTTTTGTTGAGAACACCCAATTACGAATACCAACACTGCGGAAATACTTTTTGTTTTTCCATTTGATTGATTTTCTTCTGTGTCTTCTCTGCATCCACCTTTTAAGTGACAAATAGATTTCTTTATCGATAGTAGAAAAAGTCTGTTTGGCCACTACGTGTCTGAAGAAGTTACACCAACCCCTTATCTTGGGGTTAAGCGTATCTATTAAGACTTCAGTTTTCAGGCCAACAGTAGATTTGACCGTTGATCTAATATCAGCAAGGAAGCTTTTAATACTAGCCTTGGAAGGCTTGATCAAAAGTTTTCCATTATATTTACGAATATTATGACCAAGAAAGTCAAATCCATCATCAATATGGGTAATTCTCGTCTTCTTTCTTGAGAGTTCTAACCCTCTTTCATTAAGAAAAGACTCTAACAGAGGTTTTACTCGTTCTTCAAGCATCTTCCTGTCTTTGCAGCAGATGACAAAATCATCTGCATAGGCAACCAAATGCGCTTTATGTGGACCATCAATTTGCTTGATTGCATCTTCCAGTCCAGCAAGTGTAATGACCAAAAGAGTTGGTGAACAGATTGAACCTTGCTGAGTTCCAGCAATTGGGTAGTGAATTGACCCATTTTCTACAAAACCAGCTTTTAGAAATTTCTTTAGGATACACTTATCCATAGGAATATTATCCAAAAGCCATTGGTGTGATAATCTATCAAAACACGATTTGATATCTCCTTCCAAGGTCCATTCTGCACTATGTTTTCTACCTAGAAGAATAAAGCACTGAGCTATTGCATCAGCAACTGATCTTTTAGGTCTAAAACCATAGCTATTAGAATCTGCTACTGTTTCTGCTATAGGTTCCAGAGCAAGTTGCCACAAGGCCTGCATTGCTCTATCGCTTAAACAGGGAATTAGCAATTTTCTTTTATCTGAGTTTGGATCTCTTTTTGGTATATAAACAGGTTTCAAAGGTTTGGTTTTATAACCTTTCCTTTTTAGACTATACACCGCTTTCATTCTTTGGTATGATGATTTCCAAAGAATGTTATCGACACCAGCAGTATTACTGCCTTTGTTGCTAACAACTCGTTTTACAGCTGAACATTTAGCATAAAACGAAGTACTCAGGATTCTCTGTAAGGCTTTTACCTTACCAATTTTCCCGAGCTTATAGGCCTTTGCAATACGCATTTGTAGTCGCTTGACTTCTTTAGTGATAACGTTCCATGGTAGGTCGTTCCACTTGGAAGCAGAAGATGCACCAGTTAGATTAATTGAATTAATGTTTACCGTCATTTGCTTTTCCTCTATTAAATTGATTCTACAAATTCTCTTACAATCAAAGACCAATCAGACGTGGGCTCTCTTTCGAGATCGGATAACGTTTAAATCCCTATCCAATCTATTACAGACTGGCATTCGCTTCTTCTGATATCCCAAGCCCGCATGACTATAGGTTTTCCTTACGGTCAACTTTCTTCTCAAGCAGCAACTACAAAAGAAGAATCATACGGGGTTTCCGTGTTCCGCGTGAGTAATAAAACATGTGACTTAGGCTTGTTCTCTTCACCGGTAGTTTATATTGGTCGTGATAAATCCTGTGCGGAAGTCTCTATCCAAAACTACATTGCCATTTTGGCCAAAGCGTAACAGGTCAATTTCGCTTTTTCGCGTTAACGGTAACTACAAACATTCACATAATATTAGCCATATCACATTTCCCAAACGCCATCACCACCTAGACCTGGTAGTTTCAGTTCACCCTCACGGGATTCCCTACGGCCAAAGCCGTGGTCGCATATTATCCTTCGAGCTTCACTACATCCGATGTTACCATCGATGCATGTCGAAGTAGGGACTATTGACGACACAATAGGTTTCATCAAATTTATGCCTGTAAAACACAGAACAAAAACCCGTGAAACACTTACTACACGCGGCCTACGCGTCGCACCGCACTTACACAAACCCCAAAATGGAGTTTGTTTGCTGCGCTCAGCGGTGTACGTGGTAAGTTTAAACTTGGAATTTGCAATAGATAGCCAGCCCCCTTTCTGCTGATAGTTATGGTTTAAGAATATATTGCTATGGCAAGCTCATAATCTAAATTGTATTTATTGATTTACTATTTTTCTAATCACAGGCATCAAATCACTGGCAAGCATACCTCTTTCACCTGATTCGCTAGCAATATCTGCAGCATAAGAGTGAATATATGTACCAAGTATAGCAGCTTGTTCTAACTGGGCCCCTTGTGCAACAAAAGCAGCTACTACTCCAGATAATACATCTCCCATTCCACCACTGGCCATACCAGGATTTCCATATTGGCATATAGTAATCTTTTTATCTTCTCCCAGTATTAAACTACCAGCACCTTTCAAAATAGTACATCCACCATAATATTTTTGTATTTTTTTTATGGCTTTAAACCTATCTTTCTGAACTTCATCCACAGAAATTGAAAGAAGTCTGGATGCTTCGCCCGGATGCGGTGTTAATATCCAGTTATCACGTTTTTTGATCTTACTGAGGTTGTTTAAGTTGTTCATATTGTTTTTTGCAAGAAGGTTTAATCCATCAGCATCCAGAATAATAGTCTTATTTATTGCAATAGTTATATTAAATAATTCCTGAGCCCATTTATCTTGGCCAAGCCCAGGACCAAGCACAATAACATCAGAGCGTTGCAGCAAAGGCAATAAATCATCTTTATTTTCTATTCCATGAGCCATTATTTCTGGTCTGGTTGCAATAATTCCGTTAACATGCTCTTTTTTGGTAGCTACACTTACAAGTCCAGCACCACAACGCAGCGCCCCTTCTGCTGCCATTTTTGCAGCACCAGCAAAGCCAAAATTTCCACCAATTACCAATACATGTCCATTATCATTTTTATGAGCTGTCTGTTTTCTTGGAGGCAAAAGTGATTTAAGATCAGTTATGTCATAAAAATTGCATTCTGAATTAATTGTACTAAACATTTCTATTGGCAAATTTAGGTCATGGCAAAATAATTTTCCACAATAATCTTTTGCTTCTCCTGTCATCAGACCTTGTTTTATTCCAATGAAAGTTATTGTAGCATCTGCATGCACAGCTAATTCTATGGGAGTTCCTGTATCAGTATTAATTCCTGATGGACAATCAATTGCAAGTACTGGTTTACTTGCAGAGTTTATGATCGAAATAACATCTTTAGCATCAGAGAGTAGAATACTACTCTGTAGGCCAATTCCAAGAAAAGCATCAACTATCAGATCAAAGTTACTGAAGTTAATTTTATTAGAATCCTTGAAGATTGGGATTTGCAGTTTCTTGCACTTATCTGCTGCCAGTTTTGCTTCTGCACTTGTACTGTCCTTACCCACATGCCAAATACAAACTTCTATTCCTGCAAGAAAAGCGTGTTTTGAAAGCACATAACCATCACCACCATTATTACCGCTACCACATACAACGATGATTTTTCGGGCTTTACTCCAGTTTTGTATCATGTAATCATATGCTGCTTTTCCAGCTCTTTCCATTAGTTCAATGGGTGATAATGATAGCTTATTGTAGGAAATAAGTTCCATCTCCCTTATCTGACTGTTTGTATATGTTGAGGTATATGGAACGCTCATAGCTTGGTGTTTGTTTTTGTATATCTTTAATATTCCATATCAGAATTTATGTACTAAATGCTAATTTAATTCTTTTAAATTTTCAATTACTCTCTGATATTCATAAGAAGAGGACTCACCATCTATTGTCGTAAATAATAATTTATATGAGACTCTCCATTTGCTATTTTCATTAACCAGCAATGTTGCAGTTTTTTGGTTCAATCTTATTACTCGACCATATTTTTCTTCATTAGAACTATCTACAAAACCAGCTATATCACCAACTTTAAGCTGATTTTTATCAACACCATGTTTTTGATTGCAAGATTGGTATTGGTAGATATTGGTATTTTTAGAATTAATACTAATCATAAAAAATGGTATAACATAATTCTCACCATTATGATGATTACGAACTACTACAGTAGTTCGCCTGATCTCAGTGATGGTTGCTTCAATAGATTTATTTTGTGTTGCATCAAAATAAGTAATTTGATCATTTACTTTGAGTTGTTTTTTGATCAATAGCAGGCGGTCTGAATCATTTAGCAACATGGAAATTGCTGAGTTTAATCTGTAAAGATCAAAAAGCGAAGCTTCCTTTATTTTGTTAAAAACGTTAGTGTAGTTCATCAATTATCTATTATTGCAGGCATCTTTTAGTTTTTTACCCGTCTTAAATCTTGGTTGATTATATGCAGCTATTTGTATAATTTGGCCAGTTTGTGGATTCCTGCCAGCTCTAGCTTTTATTTTGCTAACTACAAAACTACCAAAACCTACCAATGATATATCTTCTCCTTTAGCTAATATATCGGTAACTGAAGTGGTGAATATATCTACTATTCTGCTAGCCTCTGCTTTTGTGCAATTATGATTTGTTGCGATATGTGTTAGAAATTGGGATTTGTTCATATATTTTGTCTCTCTTATTTGTTGATTTTCAAAGTCTAGCGTTATTTTAAATTGAAATCTACAAAAACCTTGTTGGCCTTTATTGGTTTTATTTCGTGGTTTTCTTTATCCCCTTTACACTCTCTAAATCCTTCATAGGTTGCTATTTGGAAACATCCAAAATTTACAGCCTGTAGCCCGAAATCGTAAAATATAAGGTTGGCTAATTTTTATCAATTACGATTTTGGGTTAGTGATGATGGCAATATATCACTGTAGTATTAGGATTATTTCAAGAGATAAAGGACGTAATAGCGTTTCTGCTGCAGCTTATCGCAGTGGATCAAAATTTGTTTGTTTAAAGACTGACTCAGTTACAGGGGAGATAAGTGAATTAGTCTTTGATTATCGTTCCAAAACTGGAGTTGTATATAGTAATATATTTGCCCCAGCTAATGCACCAGCCTGGGTATTTGAGCGTAATAAGCTTTGGCAAAAAGTTGAAGATAGTGAGGTTAGAGTAAATTCACGATTATCCAGGGAATTTGAAGTTGCTCTGCCTGTTGAATTAACTGAAGAGCAGAATATAGCTTTGCTTGAGGAATTTGCAAAAGACTCATTAGTTGTAAGGGGAATGATTGCTGATGTTAATATGCATTATGATAATCCAGAGAATCCACATGCTCATATTATGACTACCAGCAGAATGTTAAAGGAGCTTGCTAATGGTGAAGTTGTTTTAGGTCATAAAAATAGGGATTGGAACAAAAAAGAAATGTTACAATCTATTCGGTTAGAATTTGCAGAAATTACCAATAGGCATTTGGCTCTTCATGGTTTTGATACCAGAGTCTCACACTTGTCGCATAAGGATCTGGGCATTGATTTAATTCCAACCATCCATGAAGGACCAGCTAGATATATTGAGTCAGCGGAACTAGCGGCCAAAAATCATCAAATTAAAATAGCAAATGCTAAATTAATCGCTCAGCATCCAGAGTTAGTGATAGACAGATTATCAATTAATAAGCCTGTATTTACTGAAGAAGATATTAGCAGGGCTTTAGCTAAAGCATTAACTATTGGCGTAGTTACTAATGATGTAAATGCTAATAATGCAGAAATAAGAAATTCAAAGGAGCTTCTCCAAGCTTATGCAAAGCTAATGGAATCTGATAAGCTAACAAATGTTATTGATAAAGATTTAGGTGGAAATAGCTTGTATACTAAAACTAGTCGCCTGCAATTAGAAAAGCAATATATAGATAAAGTACAGCAATTAGCAAATTCAAATAATCACTCTTTAGAATTAAGTGAACCTGATCTTGAGCATTTTAGTTTTTCTGAGAGAGTTGCTGATAAATTCAAGCAAGCAAGTTCTAACCTCAGTCAAAAAGTAGGGTTTGAGTCTAAACCTAACTACAACAAATCAGCAATCTCTTTAAATACTGAACAAAAACAGGCAATAATGAAGATTTTAGACGGAGCAGATATATCTATTCTTGAAGGAGTTCCAGGAGCTGGAAAAACTACTGCTATGTGTGAAATAGCCCGTCAATATAAAAAAGCTGGTTATAAGGTAATAGGTGTTGCTCAAAGTAGCAATGCAGCTTTGCAATTAGCTACAGCTGCTGGTATAGAAGCTAAAAACTCGACTATGTGGCGTAAAAATTGGTTAGAAGCAAATAATAAGAAGTTTGAACTACCACTTCGTACTTCTTATGCTCAAGAAGAATTATATCAAAATAACAAACCACAAATTGGCAATAAGCATGTAATGATTATTGATGAGGCTTCTATGGGTGAGCTTACTAATATGGATTATTTGCTAGGTGAGGCAAGCAAAGCAGGAGCAAAAGTAATATTAGTTGGTGATAATAATCAATTTGCTCCAGTTGGTATGGCAGGAGCCCTGCAAAAAGCTGTTAGCATTTGTGGATCAGAGAAGTTAGAAGAAACCAGAAGGCAAATCAGGCCAGAGCACAGAAAAGCTACAAAATTGCTAAGCAATTTCAAAGTAAGAGCAGCTTTGGCAATTTATGCCAGCAATGATTCTATAGTAATATCTGACAGTATTCTAGAGCGAGATAACAAGCTGGTGCGCGACTATATTGATAGTTACTTGCAAAAAAGTGGAGATAGTGGAAGTAGTCAACGTAGAGAGGGTAGTGAAGGAGATAAAAAAGCTAAAGATAACCTTGCAACATCAAAATCCATTGTAGTTTGCACCTATACAAATGAATCTGCCCAAAGACTTAATAAAAAGCTTAGAGAACAGTTGAAGCAAGCTGGTATAATCAAAGGTAAGACTCGCACAGTAAATATTGCTGGAAAAACTATTGAACTATGCCGAGGCGAGCAAGTAGTATTTGCGCGCAATCTTAATTATACTGGTAGAAGTGGAATATATAATGGAGAAGTTGGGACTGTTTTGTCAGTGTCAGTGGTTGATGATTTGGGAAATGCCAAAATCAAATTACTGGTTAGTAAATCTGATGGTAGGAAAGAAAAAATTACCATCGATACTCGTACATTTAACAATAAAGGTAATAGAGACAATAAAGAAAGCAAAATCAATGATAGCAACAACGATCATAAACAAATACTTGATTATGGCTACGCAGTAACCGCATATAAGCTACAGGGAGCAACGGTTGATCAAACATTAGCACTATATGAAAAGCAAGTTGGATATGAAGCTTTCAATGTAATGATGACCCGTCATCGTCATGATGTAAAACTATATGCTGATCGCAAAACACTAATTGATAATATTTATGGCCGTTTGGATCAGAACATAGATAAAGCCCGTCATCACTATCAATTTAAAGAAGATGGAGATGATCTAGCATTAATAGGATTAAATATCAGCATTAATAAAAGAGCCAATAGCAGCTTTGCCCATGATTATATGGAAATAGCTCTCAAAGGTGAAGATATGCTGATCAAGGAATATCTTACGGTAAATAAAAAGACAATTGATTTAATCAGGGAAATTAACAAACAACCAGAATTTACCAAATTATGGCCAGAATTTACCAAAACCAAGGAGAAACGCAATGAATTAGCAAGTAAAATAGTTAATAACTACGATTTATACAAGGATCGCCTTATTCAGTTAAATATCAATTATGCTACTTTGGAAAAACAATCCTTGGGAAATATAAATAATTATCAAATAAATGAGCGACAGAGTAAATTATATCAGTTAAGTGAACATTATGGTAATTTGATAGCAGCAATTGAATCTGGCAATAAAGAAAAAGCTCTATCTAGCCATAAACAGCTAAACCTGGAAATACTTGAGAATAAGTTAAACCTGACTATAGCTGAAGATAAGTTAGAAAAACTAAAAATGAATCAGTTAGAGATAAGAGAGTCAATTAGCAATGAGCAATATTACCGTCAAAAATTATTACCAGAATATTTAACACGAATATATCAAAACCCAGCCCAGGAAGTAATGAATAGTTGGCAGGATTTAGCTAAACATAATGGTGATTTTATGGCAGCTGAGATGGTAACTAAAAATCCATCATTGCTTGGCAAACTTAAGGGAATTGGATTTAGTAAATGGATTGGCTTTAATGATAAAAGAATAGATGCTATTGCAAATAGCGAAAATATTGGCAAGCGTTTAAGGCAATATGATGCTAGCGAATCATTAGAGATAAACTTAAAAAGCCAACTTGCAAATAAAAATAATGGTTACAAAAAATCAAAGGATTTGTTAGAGCATGAAATTGATAAATTAACATCATTGTTACCATCAAGAATTGATCAGGAATTTATTGACCAATGCAATAATCTGGATTTAGATTTGAAGAAAATAGCTACAAGTGAGATTTTTGGACAAATAAAATTACAGTATTTACAAAAACAGTATGATCTAGAAAGCAAAGCTGAATTAAAACAACAAATAAACCATTACAATACCAAACAACCACCTCCTAATAAGATTGCAACTTATAATAATCAGATATTATTCTCAGAAGTAAAATCAGCATTGACTCCATTTAATATTGAATCAATTTTTAGAGATTATGTACACGCTATTAATCCAAATGGAAAAATTATCAAAAAAGGAAATAATATTAGTTGTGGTAGCTTAAATATGGATTTAAAACTTGGTATATGGAACAGATTCAGTACAGGTCAAAAAGGAGATATTTTTGCTTTTGTTAGAGAAGCAACTAGCTGTAATATCAAAGAATCACTTGAAATAGTAGCAAGCACAGTTGGTATTACTAGCAATGAATTAAAATCAGATGCTATTACCCATTCAAAACAATTACAAACAGATCATACAAAACAAACTATTAAAAAAGCAGAGAAAAATGTACCACAAGTATCAATAGATGAATGGGTACCATATGATAAAGTACCAAATACAGCAGAAAAGTTTGATTATAATAAACATCTTAAATTTATGAAGAAAAAATTTGAGCTTCAGGCAATATATCCTTATTTGAATAACAAATCAGAACTACTTGGCTATACTATACGTCTGGTAAACAAATCAGATGGAAAGAAGCAGATACTGCCTGTAACTTATTGTCATAATGAAGCAAAGAAACAAGATAGGTGGCAATTAAAGAGTTTTGCAGATAATGGATATAAGCCAATATATGGAGTAGAGCAATTAGGCACAAGGCAAAATAATGGAAATTACAACAAAAATACTTCTGGAACAATTTTACTTGTTGAGGGCGAAAAAACAGTGGATAGTGCTAAAAAGTTACTTCCCGAATACACTGTATTGTCATGGCTTGGTGGAGTGGCGGCCATAGATAAGGTCAATTGGAAATTATTGCAAGATAGAAGTGTAGTCATATGGCCAGATAATGATGATGCTGGAAAAAAGGCGGCTAAAAATATTAACTCTATGTTGAACAAAATTAACGGCTATAATGGCAGGGTAAGTATTGTTGATACAGATAAGCTAAATCTCCCGGACAAATGGGATTTAGCCGATCAATTACCAGATAATTTACAAAAAGGTAAAGTTCAGCAGATTATTACTGATACGATAAAACAAACCCAGGATAAAAACAAAACTTTACTCAAGCAATGGCAGAATCAATTAAGTAGCAAGGATGCCATTAATTATATGGAATATGCAATAGCCCATGGAAAGGACGAATATGAGCATGAGTTTTTAACTCTGAAAGATGCATTATATAAAGATACGCTAGTGATAATTGCTGCGAATAGCAATTTAAAGCCAGAATCTAGACAAGAAACCAACTTAATCAAGGAAAATATAAGGAAAATACAGGATTTATACAGAAAGAAAATTGACCAATATGAGAGGTATACTATTAGTAACAGAAACCTAAGCAACTTAAGTGAAATAGAACAAAATCTAATCAGAGATATAACAATATTACACCAGCAGACACTGCAAACGAATGATTTAGCTAATTGCCATAAAGCTAAAATTGTAAGTACAGTAAAGGATATTGTCAAAGCCTATAAATCTGGACTAAAAAACAAGGATCAAACCTTGCAAATATCCGACAAACAAAAAATTACATGCAATTTATATAAATCCATAACAGATAAAACATGGCTGAAAGAACTGGATAAGGCTAAAGCATTTGAAAAAGAACAGATAAGAATTGTCAATTCCATTAATAAAGAAATACGTCACTTTAAACAATATGGTTTTGTAAAAAGAGATGGGATCAGGTTTACCAGCAATATTTCTTATTTAAAGCATCTTAAAAACGACAAACAACTAGGGCTCTATCTTAAAAATACTGACTTTATGACTCAGTTAGATAGAGTAAAGCAACATGATTTTGTTAAACAAATATAATTAGTAGCAAATATTTGAACTATCAAAAATGCTATAATGTTAAATTATAAGTTGAATAGTTATAATTCTCATTCTATACCTAAAGTCATGGGTTAAATCAATAGCGATATTTAACCAATAATGATACTAAACTACTTAAGCTAACTAAAGTTATGAATGATAAATTGGGTCGTAATGATCCATGCCATTGTGGATCAGGTAAGAAATATAAAAAATGCTGTATAGATCAGGATGAGAGTCATATTGTCGTTGCAGATTTTGAGTTGCAAAGACTTCGCAAGACCGAAGGAGAAGTTGTAAATGAGCATTTGTTTCCTTATGTAGAGGAAGTACTGACCGAAGATTTAGAGGAATATGCCTGGTCAATTTTTTCAGTTGATTGCGAATGGCCAGAAGAAGATATTGATAGATTATATGATCAAATGTTTATACCGTGGTTTCTGTTTAACTGGGTAGATGAACCACTGGATCATGACATAAAGACAAACCTTATTGCAGGTAAGACTATAGCTGAAAATTATCTGATTACAAATAGTAATAAGCTAAGTAAATATCAGATATCATTTATGGAAGCGATGAACAAAACTTATTACAGCTTCTATATAGTCAAAAATGTTGTTCCAGATAAACAAGTAGTTTTAAAGGATATTTTTCTGGAAACTATACATGTTGTAAAAGAAAGAACTGGTACACATTATCTGAAAAAGGGCAATATAGTTTTTACTCGCATTGTAACACTGGATGATCAATCAATATGCATCGGTATGGCACCTTACATAGTAAGCAGCACTTCATATGCAAAATTATTGGAGTACAAAAAAAGCTTAGAGCAAGAGGTTGGAGGTAAGTTAACTCCTAAGTTACTAAGAAAAAAATATGAGTGGAACCTGCTTGATGAGTATTTTATGATCATAGACCAAAGCTTTACTATGCCTGTGATGTGTAATAGTGATGGTGAAGATATGATATTTCATACATTGCATTATAATTTATCTATCTCTGCAGAAGAAGCTTTTGAAAAATTATTACCCCTAACAGATTTAGAAACTAAAGAGCAATTATTATCAGAAGCAGAGAAAGATAGTAATGGTAATATTATATCTATAGAGTTTCCATGGTTAAAAACAAAAGGGATAAAGCAATCTAGCACAATAGGAGCTACTATATTAGGGCATATCACTATAAAAGAGAGTAAACTAATTGCAGAGGTAAATTCAGAAGAAAGAAAAAGCACCCTGGAAATATTATTGAGTGGTTATTTGAAAGAAGTAATTGACACACCTAAAATATCGATAGAAACAATGCAGCAGAAGCTAAACTCTTCAAGAGATTCTGATGATGTTAAATCTATCGGTAAGGATGATATTGAGGATATGCCAGATATAAAGGATTATATGAAAGATTTAGCAGATAAACATTGGGAAGAGTGGTTTGACACAACAATTCCTGCGTTAGGGGATAAATCACCAAGACAAGCAACAAAAACTGAAGAAGGGAGAGAGTTGTTAGAATCACTCTTACTACATTATGAACAAGGAAGTAAAAAAGAGGATAATGAAAGAGTAAACATTTTTCAGCCAAATATTCCTTATCTTCGATTAAAATTAGGTATGTCATGATAAAACGTTGTGGTTGGTTAAATCAAAGTGCAAGTGAGCTTGATATAAAATATCATGACGAAGAATGGGGAGTTCCTGTTCATGATGATAGGTTATTATTTGAGTTTCTGATTCTTGAAGGAGCACAAGCTGGATTAAATTGGAGTACTATTCTTAAGAAACGTGATAATTACCGCAGGAGCTATGATAATTTTGATTCAATAAAAATAGCTGCTTATAATAAAGCAAAACAACAGGAGTTGTTACAAAATGAAGGTATTATTCGAAACAGATTAAAAATTGCAGCATCAATTACAAATGCTAAGGCTTTCCTAGAGGTAGTAAAAGAATACGGCAGCTTTGACAGTTACATATGGCAATTTACCAGCAATGAACAAAAACAAAATAAACGGCAAAGACTACAGGATATTCCAATATCTACCAAAGAGTCAGATGCTATGAGCAAAGATTTGAAAAAACGTGGATTTAAATTTGTTGGCAGTACTATATGCTATGCTTTTATGCAAGCTGTGGGAATGGTAAATGATCATACTATAGACTGTTTTAGACATGAAGAGTGTTTGGAGTAAGTAGTAAAAGATATTATTAATCCCACTTGAATTTATTCCCACTTCGTGTTATTCTTAAAGACAGATTAAATGCAAAGAGTATCATATGAATGCAAAAAAGATTTTACGACCTGATTCTAAAGGAAGGATTTGCCTAGGATCACTTGCAAAGGGTGTAAGTGGATATAAAGCTATAATAAACGATGCAACTAAAGAAATAGTTCTAAAGCCGTATAGTGAACTCCCATACTCTGAAAAGTGGCTTTTTGAAAACCAACACGTGCTTGATTCAGTAAAACGTGGGCTTAAACAATCTTCAGATAAAAAAACTATTTATAAAGGTAGTTTTACAAAATTCATAAATGAAGATGAATAAATGAGTTTTAGATTATTATTTACTGAAGAGGCAGAAAATAACCTATCCGCATTAGAAAATGACCCAAGCAAGGCAAAAAGATTGAAATCTGTTAGAAAGACTTTAGGTTATCTGGAAATTAATCCAAAACATCCAAGTTTGAATACGCATGAATATAAATCATTAAGCAAACAGTATGGAATCAAAATATTTGAAGCATATGCTGAAAATAAAACTCCTCAGGCTTATAGGATATTTTGGCACTATGGCCCCGATAAATCTGAAATTACTATCATTGCTATTACTCCACATCCATAGAGGAATGGAATTTAGTATAAAAATCTGATTATTTAAATTGGCTTGCGAATTCAAGAGATAGAATTAATATGTTTGTTCTATGGTAATTTCATCTAAGCCATTGTTTTGAACGTTTTTGTCGTGTTCTTCCTGTGTATTTTGCTTAATTGATTTTCCAGGTGATGGGGATTTAGAGTTTTTGCTATTTGAAGCAGTCTCAGCTAGAGATCCTTGAGACTTCCCATTATCCTGACTGGAGTGTGTCTTAGAAACAAAGCCTTGATTTAGATCAGCTAGGTCAGATTGAGGTACTTGCAATTTGGCAAGCCTTGCCTCTGGAGTAGGGAGCAGGCAAAAACACTCTCCGGTTTTAAGTTTGGCAAGATCCTTAAACTGGACAAGCATCTTTTCTTTTTCATGGGCAGTATAGCTAACACCATCTCGGAACTCATTAGCTCCAAATGATATATTTTTCTGTTGTTTAGAAATATTGTAGCTGCCACAAAGAGCACTAATCATTTTTGCAATGAGTGGTTCATCAGTTCTAAAGAAAAACTTCGTAGCAAATTGACCAAACAAAGTAGAGCCCATATACTGACCATAAATATTAAAGAGCTGATTAATTGACTGCATCCCAGCTATAATACATCCTCCATATTTTCTACTCTCCGACATTAACCAAGACAAGGCTGGTAATCTGCCAAGAGAACTAATCTCATCAATAACAAACCACACTCTTCGAGTGTTGTTGATTTTTATATCCGTCATAAATGATACAGCAAGTTCTACCATACATGCAATTAACGGCAGAGTTAATTCTCTCTGACTTGGCTTGGTTGCTAAAAATATCCAACCAGCTTGACTATTATTATCTAAATTATCCAAACGTTTAAAATATTCCATAAGTGAAAATTTCTTATCTGAATCGGGTTCATCAGATAAATACTGCAATGGTTTAGTAGATGTTGCAAGTACGGATAAAATGGAACTGGCGGTATTTCTGTTAGAACTGACTAAATATCTGGCAGCTGGTGTTTCAGCTAGTTGTTTTTGTAATTTAGCCAGTGGATAATTTCTAACCATTTGCTGCAACGTAGATAGTGACTTATTATTACTTTTGAGCAGAGTTTCTACACATGAGGTAAATATTACTTCAGCTGACTCTTCCCAAAATGGATCAGATGATATTGAATTTTGTTTATTTCTATTGAAACCAAATAATATTTTGGCAAATTTCTCCAATCTGTCATTTATTCCATGTAAAGAATTATTATCAGAGCAGCAATCTTTCCAAAAATCCCATGATTTACTCCTATCATCAAATGGGTTAAAGATTATATCTCCTCTAGATTCATCATAATATTTAGCTATCATCTCTCCTGTTTGATCAATCACAATAGCAGGTTGGTTGTTTGCTCTTGCTTGAGGTAGAATATTATGAATCAGATTAGTCTTGCCGCTACCCGTAGCGCCAGTAATTAAAATATGTTGATTTTCTGAATCTTTTACTAAAGGCATATCAGCAATAGTTATGTCACTTGCTTGGTTTGCAGAGTACAAGTAGGAGCGTACTTCTTTAGCAGATAATATCCTATCACCATCAATATTTTTATCTTCTTGTACAAATTTTCCAAATTTGCTCCAAATACTAAAAATTAATATGAGGAAACAACCACTTATAATAATTGATAATAACAATAAACTCCACAAAACATTAACTACTTGTTCATAAGAAGATTTAAAGTAACCATTTGCAAGTACAGAACTAGCTAAGATATTTTTCTTGTACATTCCATGTTTGTAATATGCGTCTACTCTAGCTGCACCTCTGTTATTACCTACAAAATTAGGAGATAACAAATTTAGACCAGTTACCATGTCAGCTTTAACATAAGTGATTGCGGCTCTGTAGTCCTGGGCAATCAAGTCCGGTAGTTTGATATAACCTGCAACTAACACACCCACCACAACTGAAACTAACATGGAGCTCAACATAACCTGCTTAAACATCCTTACTTTGTGTAAGAATATCTGGCCACCACTGATAAAATTATTTAACATTAGATATATTCTCTTTAATTCATTTTATTTTTGTTTATTTAAGGCCCTCGCTTGTAATAAAATCCAAAAAGTAACTATAAATTGCAATTTTTATTTGCATTGAGCAACTAAAGCTCAGTATAATTACGTAGTGATTATAAGAAAAGCCAAGTAAAAGAATGAATCCAATTAAATCTAGACTAAATCGAGATAATTTCTGGAACCTTATGTTCTGGTTTGGAATGGTAGTGAGTTCTAGTATGGTAGATTTGTTTTCTGGAAATGTACCAATTCTAGCACTGCTTGCATTCCTATTTACTGTAACCTTAGTTCCATATTTCTTATCGAGATTAAATCCAGCCATATATTCAGACAAGAAATTTTTTAATAAATACGGAAGAGAGTTAAATAATAATTTACCCGATTCTTTGGTTTGGGTTATAGTACTTACAGTGCCATTTATTGTGTTTACAAGTTTTTGGATAAAAGATAATTTACGCATTCTACATGACAAAATGTTTGTATACACAGGCTTGTTATTACTTATTCCAACTTTGTATTTCATATATAAAAATTGTCCCATATCTATTCTATTTAATAAAAAAGCGTGGAATGAAGGTGTAATTGGAATAAAGTTAAGTAAGTTTAATGCCCACCATAATACTACCGCCCATAATTCCATAAATGTCATAAAAAGCCTCTCCTCAACAAATATTTGTACTGATTCTTCTTACAGAGGAATGAGTTGTAATATTTATAATTCAAATCACAATAAATAATTATTTTTTACAAATAGCTTTAATTCCCGTTGCTGTTATTTTTTCTTGATTTATCACCAACTCCATCAATTAGACCAAAAGCAGTTCCAACTCCTCCTTTGCCGATCCTATCTTCCTCATATTTATCAGCTTGTTTTTGAATGTCTCTCATTTCAGTTTCATTATGCCATTTAACTGATTTGTATTGCACAGCATTTTCATTAATCAGCTGATTTGACTTTTGTTGCAATTCGTTATTTCTTTTTTGTAAGTAATCTTGTGCTTTGTTGGGATTTAATCCATTATTTGAAGCTATATTTTTTACTGTATCCCGTGGATTCTGGTTAATCTGATTTTTATAGTTCTCTGTAAAATTATCTAAAGTTTTATCTACATGTTCTCCAGATATATTATTTCTACCAGTATTAATTTCAGACATTACAGATCCCACATTTTCATTAACTATTTGCTGCCAAGCATTTGTAGCCCTTGTATCACCAGCTTCAATCATATTGTGGGCATCCTTCTGGGATACTCCATAAATATCTTGTAATCTTTGTTCTACAATGTGATACATATCTCTGCTGTGAGTACCACCGTCAGAATTAACTTTAGACAAAGCCTGGTTGTAATTTTCTACCTGTTCTTTGCGCATGGAAATAGAGTTTTCTAATCTGGTTACCTCCTCGTAAGAACTTCTTATACTATCGCTATATCCTTTATCTATGCTACTATCCTTAGACCATGATTCAGAGTTAGCAGCTTTTACCAGATTATTGTAATTAACATTGGTATTATTTTCCCTGTTTAAGTTATTTTCATCAGTAAGAGATTGTTCACTGGAATTACTAGCACCAACTGATCCTTCTATGCTACCAGATAAACCAATACCAGTAATTGGTTTAAAAGGAGTACTACCGGATGCACTTGCTCTTACAATGCTTTCAGCATTTTGTCTGTAGCTGTAACCATTCTGCTGCCTGAGTGCATGTACCTGATTTACAGCTTGTTGCAGGGATTTGCCTTGTTCACCTAGTTCCTCATAATTAAATACATGCCCACTAGCTTCACGCTCTGCAATATGTGATACATAATCTGCTGTATTTGTTTCCATATTTGACTTCGCCTGATCAAAAAGCCTCTGATCAGATTGCAGGAGTGATTGCGTTGTAGATAATCCTTCAGAAAGCTGATTATGAGTACTACTTGCTAAATCAAACTTCACTGTACCGCTACTTGCAGTCATTCCAGCACCACCGGTAAGTATGGTTTGTCCAGATGCTAATACCTTTTCCATAGTACCGTCCATCTGTTGCCAAGAGCTCGCATCTTCTGCGTAAGATGAGTTCAAATCAGTTTTATGTGCTATCTGCTGTGCTTGTTGGTAATTACCAATTGCTATATTATCAAGACTCCTGTTACCTGTAGTGACTTCACCTGCTGCCTGAGTTGCTGCTGAAGCTGTTGCTCCAGTAATCGAGCTAGCTAAATGGATAAATCCTCCCACTCCTCCTTGTACTAATGCAAAGGCAAAAAATGGTATTGATAATTGAAGCCCAGATGCTACTGCTACTATTTTATCTATCTCAGCTCCAACTTCGCTATATGTTGCATGAGTAATTATTCCTCCAGTTATACTACTTAGCATTTTACTGCTGCCAAGTTCGATAAACATATTGATAATTGCATTTAATGCTGGCCATAATTGTAGTGATGCTACTATAGCTAGATAATTTAAGTATCTGCTTCCTCCACCACTTAATATAATCATTGGCACCATAAATATAAAGGATGCATAAATTATTCCCTTCATTACAGTAAGTAATATCGGCAAATATTCACTAGCTAAATTACCGGCTATTCTCCAGCTACTCTCTTGCACCATTGAAGCTCTGCTATAACCGTAAAGATCAGATGCGTTACTATAATCACTAATAGCATTTATCATCATATTCTGCCTTATCAGAGTTGAGGCTGTTTCAGTCGTACCAAGAGTAGATCCATATGCTAATTCAATATTTGTTTTAAGCATATTATTCAGCTGATCGATACTTCCCATAGGTATTTTACTATCCTCATCTCTTCCAGCTCTGGCAAATTCACTGGAAGTGTATTTACTTTGTAAGTAATTAATTTCATCAGTAAAATAATTTGCAAGTAATTTAGCAGCTTCCTTGCAGTTCATAAGCTCGCTTGCTTTACCATCTCTCATTAATACCGTGCGGAATGTTCCAGCATTTGTTGATACCAATGTCCATATATCATCGCTTTGTACTAAATCCTCAGGAGTAAATCTTCCACCTATCATGCTTTCCATTACTATACATCTTTTGATAAATCTATCCATATTACCAGCAAACTCAGGATTTTGTATCCTCCAGTCTCTTGCTTGCTGTACTAACCTTGCTCCAAATACTAATCCATAATCCCTGTAATTATTATTTCCAGGTACTGTAAATACTTGCTCAAATCCACCTGTCAATAAATCACCAAAACTCTCTAAATATCCAACAGGCACAGCAAAACCATATGGTAAATTATCTACTTTCTCATATTCCTTGGTAACATGATCATATACCATCATACTAGTAGTAGGTATAAGCAAAGCATTTACCATTAATATCATGCCAGCAGCTTTGGCCATATACTCTCTATGCCTACCGCTGCTGCCACTATAAGCCATCTTGATTCCATAATAACTAATTGCAATTACTGACATTGTCTGAATAAGCAACTTGGCCAAATTACTACCCATTAACATGGCAATACCATTGAGCACATAAAACATCGCATCTATATGTCCATATGTATGTATTGTTAGTTCCATGTTATTGTTCCCCTCTACCTTATATTTCTGCTTTGCATAAATCTGGTAAAGCCAAGCTCAAATACACTTTGCTGCTGGGCTATGCGGTGCTTAACCTGGGTAATAACCTGTAGCTTTTTGAAGGATTCAAACCTTTTATCTCGGAGGAAACTTCTGACAATCTCCACATTACTGGCAAATTTATCTATTGCTACATTATCCAGCTGTGCATGTTCCAAAAGCTCTACGGCAGATTTACATTTCTGTAGCATTTGCTGCATATAGTTTGTGATCACGTCATAACAAACTACCTCTACAAACTCACTCATACCTACAAAGCTTGCTGCACTACTTTTGTTCTTGGTGGCGAGCTCCATTTCTATAAGACTGATTAGCGGGATTGATGAGAACTCAACTAATGCTGCCTCTTCATCGGTAAGCTCTCCTGCATTTTCATAGATCTTATCTACCATGCTCTCTAAAAGAGAACTTACATTGCCATAAAGAGTTTCATCGGATTTGAGGTTTACCTCTATTACTGAAGCATCGAGGCATTTATGATGTTCATTACAACTATAAAGCTTTATATTACTTCCACCAAACCCAGGAGCTCCAATATATTGCTCTATTAAATCCTCACTCAACACTAATGACGCCAAATTCTGAAAGTGATAAGCACCATCTTGTTTTATGCCAATGACACTACCACTTATACTCATCATCAATTCTTTTAAGTTATTGGTTTCGCTATTGCTGCTACTGCTTCCTTGACTTAATGCTTTCCATACCAGATTAAATTCATCACCAAGTAGTGCTTTTAACTCATCATCTTCTCCAGTACCCCCAAATGTATCTGGATCATCAGTACATTTCTGGGTAGCATCAAAAAGGTCAGAACTTGAGCTAAGCATATTGCTCTGCATCATACATTTTTGTTTACTGCTGCTACTTAGTGCAGATAATGTTCCACTGGCAATACTCTGTGCCATTGAACATTGATTGAGCGTCATACCATTAATATCTCTGGCAACTGATTCTAAATAAGACATAATATCCTCACATTGGGGACAAGCTGACTTGATTGCCATCTTTAGAGCATAAGCCCCAGTGCTTGTTGCTACTGATTTTAAGAAACTACTAAATTCATGAGCTGTAATGTAACTAAGCCCACCAAACCTTGCATCAAATGACCCGCTGCATGCATCAAAGGCAAATCTTGGTGTTTGTAACATTAATGGTTGCAGCTCTTTAGGTTTTGGACCTCGCATAATTATAGAGCCACCAGTTAAGTAACCAGCTTTCTGATCTTGTAGTACTGCTCCTTTATTTACATTTACAAAAGATCCAGGAGATGCATGGTTCATTAGCTTCTCTAAGCCTGATGCCCTTGCATATTCTGGTAAGAAACAAAAAAAGATAAAAGATATTGCCGTGATAACTGCTAATAATGCCTGCCTTAGCTTAAAGTTGACAGTCAGATTACAAAATGGCATATTAGCATTTGTTGTCCTTATAGCTATAAGGATCAACATTAGTTGCTTACATTGGTAACTAAGCTGGTCTATAGTACTTGATCTTGCCGGATGCCGACTATAGACCAGCGGTTGCTGGCATTTTGTCATTGCATTTTATTTCATTGTGTTTTCATTTTTACCTTTTTATCCATGTACTTATCTTTGCCTCTCTTGTAATAACTTGACTAAAAGCAGAGTATTTTCTTCAAGCTCACTCGTAGTAGCAAGTCCCCTTATTATTTCTGTAAAACCTGAATCCTGATTAGTACTAACTGCAACTAATGTTGGTATAGCTTCATATCCAAGCCTACTCATTAGCTCCTCATCATTGCTGATCTCAAGTTCAAATCCATAGACGTCAGCAAATCTTTTGGCTATAGGAATAAATTCCTTAGAATATGGACAATTATCTCTGGTAAATAATACTAAACTATAATTCTCAGCTAATTGTTTTAGCTGATTTGACCGTTCCTCTATACTCAGCTTTCGTTTGAGTTTATTAGCAGGTACATTAACTGGTTCCTCAGTTAAATTAGTAAATTCTGGATAAATAAAATTCACCATTTGCCATGCCGATGCTAGTCTTAAACCACCATTGAACATTTTAGCTTCCAGTTCCTTATATTCTCTTATGGCTTTATATAACTCTTCCTGATCTACATCAGACCTAAATGCAAGTTCAATCATCACGTTTCTTGCAGCATCTAATTGCTCTTTTCTAGCTTCAATTGACAAAAGTGCTTCTTCTGGAGTTATTTGGGTAATTTTATCTTGAGTTTGCTTAGTAGCATCTTGGTATTGGTTGTTTCGTTCAAACCAGTAAAATCCTCTATAACAATTATCACTATCATAAAAACTACTAGCAAATACAATATTGCTGCTAAATAACATAAATAGTAATAGAGATATTAGCTTAATATTCTTCATTGAGCATACCCCCAGCTGCTCTACTATTAACGCCAGCAACTTTATTTTCTGGATGATCCGGTACATGGTTATTAAACTCTGATATACCAGGTAAGGATGTTTCTATCCTTCCTTTAATATCTCCTGTATCTGGCATCACCATTTTCATTTGTATTTCTGCTGCTACTGGCGAAAAGTCTATTTTGCTAAAATCTATTCTTGCCAGCTCATCAAAGGTTAACCCCCGGCAATTAGGATTCCCACCACTACCAAAGTTAAGACCCAACTGCTTTCTTCCCTGTACCTGAATGGTTTTTTCTAGAATATTACTAAAACAACAAAAATAATGCTTGGTTACTGTCGTTACTCCCAGGCTCTTACTATTTTTTTTGCCAACATATTCACATAAATTCTTTTGACGTAAGTCCGCTAGTATCTGCTCATCCTTGCTGCACTTAGCACCAAGCTGCTTTCCCCAACCTTTAGGAAAAATCTTACAACAGTTGCAATAATCAGCTATTTTCTTACTGCAATGCCTTGATACTCCTTCAAATATCTTGAAGTTATAGCCATCATTTTTTCCCTGAGATAATACATACAACTTCGATACTGAATCCATCATGTCAGCATCCATTTCATAGGATTTATCTATACAATTACCATCTATACATGGCAGTCCTTTACAAACTAGTTTATCTTCACCCTCTATATCTTCAGTACCATATCTGATATGATCACTTTCTACATAAGTAGGCTCCCATCTTTTGCAGCTAAATTCTTTTTGCATATTGGTGCAGTTACCATAATTATCACGAAGGAGGCAATCTCTTTGTCCAAGTGAGTAACAATGTGAATGTTTGGAACAATCATTCTTGCTTGGAATATTACATATTTTATTATATGACCATTTCCAGCAATCTATTGTAACAGAAAAACCATCTACTACTTTACTACCACTATCCGTGCATACCTTTCCAGTATCAGAACATGAATAGCCAGGATTAAATCTTCCACTCGCTATAGCTGGCTGAATTATTGACATAAACATTATTAGCAGCATAAATAGATATAAATAATTGAAAGAATAAATACTCATTGTAAAATAACTCATTGTAAAGTACACCTCTCAGTCCAGTCTTCTTCCCATTCTTCGCATTTTGCTTTAAGCTGAGCTCTGTAGAAAAATCTAATAGAATCGCTTACACCTTCTGGATTTGGATGCCATGTATTTTGGACTGTACCATATTGTCCATATTCATTTAGCTGGTACATAACCTGCTCTCCACCAAAGATCATTATTTGCTGCGCTGGAACCTCTATATCTACAAGACCTATTTTTTCTATTATCTTTGCCTTTACTTCTTCCATCACCGCTGTATTAAATATCAAAAACAGATTTGTTGTGTAGCCATAACTCGCGTTCCCATCATTACCTCTACCCAACCACCAATGAGCTGGCATTTCACTAACACTGATTCTTATTGTTCCTGGCAAAGCATCTCCTGATGATTTTCGTATGCAGCTTAAACGTAAGAGATTTGTGCATCTATATTTATTCCTTGGTTCTTCACAGAAAAACTGATCATACTCAGTATTTTTTTGATTCTCTTTTTTGAGCTGGATTGTATATACTGGTTCTCTTTGAACCGGTCCTTTCTTTTGAGCACAGATAACTCCTGCTTCCTGTAACTTGGAAAGTAATTCTTTTATCTTGATTGCAGTAGCTGCTACTATTTCATCAGCATCTTCCTTATGCATTTTATTACCAGGTTTGGTCCAATCCGGTTCAAATTCACCTTCATCATAAAAACTATATTCTTTAGCTATTCTCTTACTTCTTCCTGCATCATCCAAATCTACTGCCCTGATTGAGTTTAAAGCAGATGCTTCATCTTCTGCTGATTCTATAGCCACAATATTAGCTGAAGCAGAGCTAGTTTCTATAGCATTTGCCCCTAGCTGTTTCTGCACCTCAACCTTATCAAGTAACTGATCTTTATTTTGAATCTCATCATCAAGAAATCTAGTTACCTCATTTATATTAGTTTTTACATTTGCAAATGCTTGTTTCTGGTAAAGAAGGCAACAAATCAAAATAAGAACAAAAACAGAAATTATAATTAGTAGGAAGTATTGCTGCATATTCATTGCAATGCCCCTTGAGCTTCTTTCCTTAGCTCACCACTATCAGCAAATAACTCAAGAGCATATTTAATAGCTATATTACCTTGCACTTTATCGTAAATAGGTCTAGCTTTATCACTATCAAAATCTAAAAAAGCCGACTCTTTTGAAAGTATAATTGTAGGTACTGTTGTAACTTTATATTTAGCAAAAGCTTCATCATCTATCTGCATTGCAGCGCTACTTCCGCTATCATCACTAATTGACATTACTAAATCAGAAAGTGCTCTGAATGACCCTTCAGGTAGTCCTCTAAATACTAATACTGCATCATAAAGAGTTGCTTCCTTTGCATAATTCTGTAATAAAGTTTTTGGCATTGAACTGCTTACAAATATCTGTAATTTTGCCTTGGGTTTTATAAATTCATTGATATTTTCGTTATCACTATTAAAATGCTCAAAATTAAAATGTCCCGTATTAAAATATTCGGAAAATATTTTCTGCATATTTTGTATTGTTAATTTAGTATCCTGAATTGCTATATCATTTGCAAAATCTCGATGATTTTCTGCCTTACTGCTTGTACTAAATCCAGTAAAATAGATAAAAATTAAGAACGTTGACAAACAACAAATCCACTTTCTATTCCTATGCGCAGAGTAAAACAGTTCAAAATTTGCAAGAGCTAGAAAGTTTGTTATTTTTAACTGCAGCGTACTTACTGGTATGTGAAGCTTACAAATAGCAAACTGACGAAGCCAATTGTTGATTTTCAGCAGTTTTACATTAAACAGCAGTTCTTTTTTCTCCATACCAAGTACCCCCAATCTTGACCATCATTTGGATATTCCTTCCAAGAACTGTAAAGCAAGTCACTTAAGCCAAGTGGCCAGCAACCTATAGCTCCTTTAGTTCTTTTTGGATATACCATCTGTAATTTATATTGACTCTTTTTTATTTTTAATGCTGTACTTTTACGGCAAATTTTATCACCAGGGCCTGGAAACTTATTCTCAGAAGTAGATGTTTCCTTAGCTAAGCCTATACGATGCATCTTGGCAAGTATTCTGCTAGCATATAAACTACTTGCTTGCACGCCACCAACATGATCTGCATTGGCACCACTAAATGGATATAAATTACCCCAGCATCCTGAGCACCAAAATAGCTCATCTTTTGGCTTATCTATTGTAGCACTTGCACAGTCTAGTGTGCATGCAGCTTGTGCTGCCGGGTTTCCAAATAAAAACACTTCTGGGTTTAATAATGTCTGCAACTTCTCATCATTCCAGGTAGGATCAAGCTCAGATAGATAAGCTACATCAAATGTGCTTTGCTCTAAACAGATAAGATCAGTAATTAACTCAAGCCACCAAATAAGTGGATATACATAATAATGCACATGATAAAAACTATTATGTGCTATTCTCTTTTTACTATAGGATCTGTTGTAGCTACTGACTTTTTTCATATCTACAGATCCCAGCTGTAGACCTCCAAGGCTGGTCATACAGTAAGGAGTTCTGGTAATATCAATTAAACGTACTGGTTCCCAAAATCCAAGTGTAATACCAGGAACTGGTACATTACTTCTAATACACATACATAATGGATTACCTGGATTCTTTGTATCTCTTTTAGAAGGGCTACTACCACCACCGATTTTTAATGGTCCAATAGAAATTGGCAGTAGACAACTCCAGCACACATCACTAATTGGATTGACAAACCTTCCAGCACATGGCAAGCTGGCTTTAGAAGTTTGGGGATGTATCAATGCTATAATCCATACTGTAATTATAGATGTATGGAATGTTTTGCCCAATATCCTCGTATTATTTATATTACTCATTCTATAACCACTTCTTCTATTTTAATTTTTAATCCATATTGCATAGCAATTGCAGGAACTGATTTAATGCCAAGCTGGTTTGTTATTCTTCCCAACTGGTCAAAATATACTTCTTGCTTAAGTTCTTCTTGTAAATCAAATGGCCTACCTGATACCAGGATTATTCTGTCTTCTAATATTTGATCTTGATACTTACCTGGATTAGAGATTTTTGTTTTTAACCACTTTACCTGCTTTGGGTTATTGCTATTTAAGAAGAACAATCTTCTGTCTAAACTCATATGCTCTAGGGGATTAACTTTAGTACCAGCTTTATGTAATATTTTTCCAGACGGTAGTTTTATATCTTCCCCAAGTACATAAGTTGGGTCATAGTAAAATGTTCTATCTTTTTCCGCTTTAGTAATGCCAATAACAGAATCAGGTTCCTCTACTTTCTGCCTTGCTTTTTCTTGCATTTTCTGTTGCTCTGCGTCTATATCAACTCTGCTCAAACGCTTCTCAATCATTTCTAAAAATGGCGGCTCTGCTATAAGGTAGCTATGTCCCTTGCTACCAAAATCTTTAGCAAGGCAATTAGAAGCTAAACTCATGTAAGTGATGTAAATCATAATTTGTATTGTTATGCTTTTCGTAGTTCTCATTCTTTCTTTCATTACTTAATCTTGATATAAGTATCTTGATACAAGTATCTAGATACAAGTTCTTTGTGTACCTCATGGCTAATAGATTTAACTTTATTTCCACTAACTATTCCTTGACTGAATACAACTCTATTATTGCTACCTGCTTTTTCATTGGCTATTTGCTCAATCAGCTTTATTACCTCATCCAATTTGCCAAAGAATAATTGCTGATCAGTTAAGTCTTGATTTCTGATTCTCTCATGTTCTAACTGAATCAACTCGTCTTGTGAGATGTAGGAAATATCAAATGTGTTTGCATTTGTTGTTTGATTTTTAGTGAAGTAACCAATTGCAAATCCTAGTAGTAAATAGAGCAATATATTTTTATGTTTCCAATATTTTTGGGTTCTCTTATTTTGAATGTTTCCATTTTCAGCGCTATTTTTAGCTATATCATGTACTTCCATTTCTACTTCCATATTTTTTCTCTACCAATTTTTCAATTGCATTATCCAGATTAATACCTTGTTCCTGTGCTCTTCTTAAATAGTTAAAGTCATGACTATCAGTTGAGTACAAAACATTTGAGTATTCATCCAGTACTAAACGTCCAACTACATTTACTCCTGTAGCAGATAGTAATACTTCAGAATATTTGCCTGGATTTAAACTGATAGACCTGATCAACGGCAATATATCCTTAAACCCTTCTGACTCTTTAAATCCATGAAGTCCTTTCTCATCTTGCTTAAGTAATAATGTCCAGGTACTATTTTCTAAGATAGCTCTGTGCTGGTCAGTTTTTTGCAAGTCAGAGAAGTTTTGTACGCAAGTAACCAGACTACCACCATATTTTCTGACCGTTCTTGCAAATTCAGCAAAAAATCCTGCTGCATAATCAAGTAACATCCAAGCTTCATCTACAATAATCATGAATCTCTGACTTCTATCGCCTGTAAAGAATTGATTTGTGATTTCCATTAGTAGAATTTGCAAAATAATTGCAAGCAGCTTTTTATCTTTCTTGATTTCTTCAAACTCAAAAATAGTTATTAATTCTTTAAATCCAGCACTTTTTTTGTTTTTATCTGCAGTAAAATACTTGCCATATATTCCATCCCTGGTATATGAATATAAAGTTATGCCGTATTGGTTTAATAATTTTGATTTTGCATTTTGTAGATAAGTAGCAAACTCATTAATGCTTAGGTCAAATTTACTTTGCTCTAGTGCATCTATGATAGCTTTTTCAAGTTCCGCTGCTCCTCTATCATCTTTTGCCCCGCACATAATAATTAGTAGCTCTTTGGCGCACTTTACCAAATTATTAAAATCATCCTTATCCATATTTGCTTTTAATCCTGCAAAAGGATTAAGAGCTACTTTGACGTCTTTACCAAACTGCACAATCTCACCATCCAAAAGCTCTGCCATACTTGCAAAACTTTGTCCTATGTCCAGGATAAATACTCTGGTATTCTGTGCCATTACAGAAGAGCTAAGCTCTTGTAAAAATACAGATTTACCTCCTCCAGATGGACCAAATACACATACATTGTAATTACCACTGCTTATACGGTAAAATGGATTCCAGTTAAATAGCTGGCCTCTGCGACCAAAGAATAAAACTCCAGGTTCGGGTACTCCTTTCCATTCAGCATGAATAGGCAGTTTTGCTATTACTTCACTACCTAAACATATTCTGGATAATTTCATTTTCTTGAGTGTATACCAGTATATAGGCTGCTGACATGGCAACATCGATAATATTGCAGGTAACTGAAAATATTTAACGATTGATAATTGCCAGTCATTACTTCTATATAGGCTAAGTAGAGACTGCTGCACCTCATCTAGTAAATTATCTGGAACGCTGATCATTAATTGCCAGCTTTCGCCCAAGAATCTTTCTCCATTTTTTGCTCTATCATTAATATCCTGCCACTCTATAGCTTCTCTTTTTAAATCCCTGTTATTTCGGCCATACCATTGTTCAGCAGCTGCAATTACTCTATTACCTCTGGCAATTAGAGCATTTTGTGCTCCGCTTTTTAGGTTAGTGGATATAACGTAACTAATTACAAAACGGGCTGGTAATCCGACATTAGATCGTATGCTATCACCCAGCAAATTAATCATGCCAAGCAGACTATATTCCTTGGGAAAGCTGGATGGATAATAACATCTACTACTAATATTATTACTTATATTGGTAAACTTGCTATTCTCTAATCTGTATCTATTACCAGCAGATAATATCTGTTCTGATAATAAATCATGCCTGTAATCATTTTTATTAGCTGCTGTATAATTAAACTCAAATAACTCACGATTTAGATTGATCAAATCAGTAGAATTACAAACTCTTGGAGCTAGGTTTAAGGTCTCCAGTTTTTTCAGCAGAGTATTCTTAAAACCTATAACAGACCTGTTATTTTTAGCTGTGATTTCACATTTTGTGCTGTATGATATAAAAATACGAAAGTTCCTGGGCAATCTTCCATCATAGCTTGCAAAATCTGTAGATTGTTTTTTGATAAAATTAGCTCTTCTATCTGTTATTTTCTGCAAGATAGGATGAGGATTAATTCTACTATTCCTCCAGGAATTAATAATTGGATCAATATCATGACTTGCTACAAGCAAAAACTGTATCCATGATCCAAGGGGCATCTCATCATTAAAGAAATGCTCTAAATTCTTTATCAAAGAATCATCTACTCCAACTATAGGCTGAATCTCAAGCATAAAACCTGTTATGCCACCTTCCAGAAAAAATAGATTCTCATTCTTATCAAAATAACGATAACTTAAATAATCAGATAAATTATGTAAATCACCATTATTAGATCCATCACCACCACTAGATTCTATCAGGCTAGATACATGCTTTGCATTTGAATGAGATAAATATCCTTCATCCATTCCACAGAAGCCGCTTACTTTATTACTGATATTATCCAAAATTTGTAACATCTATTCTTCTAGCCAAATATATTCATCACTACCTTGCATTTTTACCCTAATCCGCTCATTTTTTGATAAAGGTGGCAAATCACTATCAGCACTACTTTTCTTGCAAAATAATCCTCTACATTTTTTACTGTTTTTATCTAAATAAACCTGTTTCAGATAAATCTGCTCAATCTCACCACTGGTAATTTGCTTGTCTATATCAGAGAGCCTATGGCAACCTAAACCTTTTGCTTCACCACACTTGAATTTACTTGGGTACGTACTGCAAGCGCTCACACTAAAAACAGCTATTATAATTACAATCAAGTTTTTCATCACTTGCCCCATTTCTGTTTATTATTGTTTTTACTGTTACTGCGACTATTGCTGATTTGATCTTGTACATCAGAGCTGCCAATATAAACTCCGCGGGTTATCATCACATCTACCTTGCTGCCACCTGGAATTAAAATTACTGGGGATATATTCTCAGCTAGACGTATATGATAATCAGCTAACTTCTCAGCAGCAGTACTACTTCCAGAAAGTAAGCTATCACCAGCTCTATCCTTGAATCCTTTTTTTGCAGTATTGCTAATTGTACCAATTGGGCTTATGTTAATAGCTTCACCTGGTTTGGCATTTTTACTAAATCCACTAAGTACTCCTCCAAGGAAGGCATTTTTTAAGTGCTTATCACTCATTGATACTACGTTACCACGAATGCCATTCATTCCATCATCACCATAAATAACTCCAGCTACCTTCGTAGAGGTAAGCAGCCCATCAAGCTTATTTTCACATACTAATTCCTCAGCTCTAATAATTGCTCTCTCACTTGATATATCTCCGTAAGCCGAAGCAAGAAGTCGGCACTCCTTTATATCCACAGCAAAATCTTCTGGTAAATTACCTCCTGCTGTTAATCTGATTACTACAGGCACAGGTTGGCTAGCAGAATTAACTGAAGTTGATACTACTATTCCACCAAGCAAGTGGCCTGTTATATAAGATGTAGCTGGTATATAATTGAAGTTGGAAACTGGAGCTGATATGTTATATTCACTGCCTACCGAAAGTTTGCTAATATCTGCTGGTAATATTACTTCTTCCATATTGCCTCGCATTAAACCAAGTTCTTCTTTTACTGCAATATTGTCATTTTTTATGCGTTCAAGTTCTCTTAAAGTAAAAGAAAGTCTTGCTCTAATTGCCTCAAACTCTTTATCCTGGCTGGACTTGATTGCTGATTCTTTATCAAGTAGTGATTCATTGATAATATTTAGCTGTTTTTCTCGTAATTTTTGTTCTTGAGTGATTTTTTCCTCTAAGTGATTGTGCCAAAGCTGATCACCTTTAATTGTATCTGTTGCAAGTTCTATATCGAGTTTTGTAGAATCTGGAGGTTTATTTGATTTAGCTTGTCTGCTAGATTGAATATTGGATTTGGTTAAATGGACTAACATAATAGATGCAACCAGAATACCTAATATAACAGCTGTAAATAACATATATTGCCTGACCTTTAAGCTCTTATAAATTCTGGTTTTAGTTATGTTATCTAATAATTTGTTCATTTTTTTATCCAGTCACAATTAATACCTGACTGCTTGCCTGGGAAGGTAAAATATTACTGCCTGTTATTGAGATTGCCTTTGTTCTTTGAAACAAAGATTTAAAATCATTTTCTTTTAGTAATTTTGTGCTGCGAGATAGGTTGTGTACGTCAATTATCGCTCCAACTAATTTGCCGAAACGCCAGGTTTTTATTTGTTTTAACTTTAGTCCCAGATTATTTGCTATATTCCGATTAGTATTTTGTACGTAGTAAGAGTTAAGGTGATTAGCACTCATATGGCTGATCATCTTAAGTATTTGACTTTGCTCATTTGCTTTGTTTTGTGATAGATGTCTTGAATAATTTGGGGTAGAAGAATTTAAATGAATTGCTGGTACTGAATCTTTTCCCGCAGTCAGTAACAGATCATGAATAGCACCATTACTGGTAATAACAGCAAGTTCCAGCTTATCGCCAAGCTTTACTTTTGGAATAATAAAAATGTTAGAGCCATCATCAGATGATAAAAGCTCATATTTACTTTTATCTCCTATTATTTCTTTAATATGATATGGGAATGCACTAATACGATTAATTCCGCCTTTGCTAATTGGAGCAGTAATTAGCTTACCAGCTAAAGAAACTGGCGCGTAAGCTGCAAAAATTATAGCCACAGTGAATATAATAACTAGCCCTGAAATAAATAACCTTTTAGTTGCCATATTTATTATCACCATAATTTCTTGTTGTTAGTTTTTTTGGCTGTTTTCTTAAGCTGATCTTCACCAACGTCATTATCTCCAGCAGCTCTAAACTGTTTTAATTTTAAATGCCCCCCAACAAGCTCAAACTCGAGTAAATATTGCATCTGCTTACTGTCATATCCTTCTTTGCCAAAGCTGCTATTTAATATGCCATGTGCTACGACTTGCATATCCTTTGTATCTATACTCATATTCTTGGGAGTAAAATATGTTGATAGCTTGAATTTTCTATGTTGCTCTATAGCAGAGTTAAAATACTCTTTTATGCCAGTAATCCATTTAGAGTCAGAGTGGGAAGTATATTTGAGTACCAAATCACGCTTATGTTCTATAATATCTGGTGTTAAATCAAGTAAGCAGCTAAGGAACAGCAAAGCTGATTCTTCTAAATAACTCTCAGATACGCTATTACCTGTAATACTCATTTCTGCTCTTATTCCTGGTACCATAATTATTCTTTCCTTAGCCGTTGATAATTTAAAACTCAGCATCAGGTTTGATAGTCCAAAAACCAGAACAAAACATAAAAACAGATTCCTCTGTTTTGTTACTTTGCCTAAATTTATTGCTGCTACCTTTAGTTCCATAATCTTTTCCATGATGCTGGTAACATGCTTCCGCCTAGCAGTCTTCTTACTGGCAAATGCCAATAAATCCATCTCTGCAAGCGTCCTTTGTACAAATAACCTGATAAATAGCTACCAACCATATAACCACCAGCTATTCCTGCTATGCTGAAAGTAAAGTCGTACCTAAGCATTACGACTACTCCAAATATTCCGCCGATAATCAGACCAAAAAGCTTTAACCCCCAAACAGTGACTTCCTTGTTAATACAGCTATTGATTTCTATAGGTCTCATGATTTAAATACCGTATATTGCTTTAACTCCACCAAGCATTCCGCCAGCTAATAATCCACCAATACCAGCACCTATTGCGCGTGTGCGAAGATCACCTTGTGCAACTAATGCACCAGCTGCACATGATGCAAGCACAGCTTTACCGAAATGCGCTCCTATAACTTCTACCATTGGATTAAGTAATGCATTTGCTCCAGCATCTAAGTCAAATGCCAGGCAATGAGCCGTAAATGCTAAATTAGCAATAACAGTAAGAATAAATATCTTTACCATGCGGTTTATTCGGTTAAATAAACCAGGTAGATTTAGTGGTCTAAGTAGGGTTAATAAATTTTTGAGTTGTGGAATTAGCCTAAAATTGCTCATAGCTCAGGCTCCAGTTTGTTGCAGTTTTTTTATTTGCTCCGGGTTCAAAATAAGAAACATCTCATTATTGAATTTACGATCATGAATCTGCACAGTTCTATAATCTCGTTTGAGCAAATTAGCTCGCTCAAGACGAACTAGTGCATCTCTGATTTGGTTCCTGCTATAATTGAATTTTCCCTGAAAATATTTATACCCTAGATGAAACTCTAACTTGCCATAAAGCTTATGCAATAGCATCACCTCAGCTAAAATAGTCATTGCTATACTATCTGGTTTGTCGTTATCCCAGACTATTTGCCTGTACCAACTGTTTGGTATAGATCTATTGCTTGTATTAATTGCCGTTTTATCTTCTGGAGATGAAACAGCTTTAAAATTTTCTTCTGTGTCTACTTGAGTCATTATTTTAATCAATGTAGTTCATTGCTCTTAAGCTATGAAATTAACATTGCAAAATAACTCTGTCGTGGGGATGGGTAAGGGCTGTTTGCGGGACAAAGTGGGGATGAAAAACCCTCTAGCCTATGTTTTTAGGGAATTTAAGACGATAATTGCCTTTATGATCAGATTCTATTAACTCTTGCCAGCCATTCTGTGATTTGAATAAATCACGCATTCGTATAGACTCAGATCCTGCCTTGTAAAGTAGTTCTTTGCCAAATATCCAGGGGGAATCAGTTAATGAAGCATGGTACAGTTGTTTGATTACTTTAGCTTGCATAATACCTAAATGATACCATTTACCGGCAAATAATATCTTACTAAAGTTATTATAATACTGAAATTGAGGTGATTTATCTTGAGGACTACTTACTTGGTACTTCTTCATTATTCTCTATATGATATTTATTACTTTTTACTAATAACAAATACAGTACCCGAGAGTAAGGATAGCAAGTTTGCTCAGAATAAGCAACTATCTATTTTTTCTTGAAGAAAGTTTACGACTATTTCGCAGTTTAAATCGAATTTATCTTGACTATTTCGATTTTATATTATATATCCTATATTATATTGATTAGTACTACATTTATGAAAAGAATATATACTTCTTTAATATTAGATCACCTGAGAAATTGGGATCAAATGGTTTTTATTGAAGGCGCAAGACAAGCTGGAAAAACCACCATTGCAAAAGAAATTCTTAAGCATTTTGAACTAGCCCTTTACTTAAACTGGGATAATGTTAAGGATAGAACACTTATGCTTCAAGGACAAGATTTTGTCGAAAATACTAAATTGTTTACCGAAGCGTCAAGCCAAAAACCCCTGATTATTTTTGACGAAATTCATAAAATGCCAAATTGGAAAAATTATTTAAAAGGTTTCTATGATACATATAAGGGAAAGTTAAAAATAATAGCAACTGGTAGTTCTAAATTATCCATCTATAAAAAAGGACAAGATAGTTTAATGGGAAGGTATTTTAATTACACTGTTCATCCTTTAAGTGTTGGAGAATTGATAAAACAAAATTACGAGGTAGGTACAGCACTAACTTCTTCAAGTATTATTGATGAAAACTTATTCCAAACTTTATTTAATTTTGGAGGTTTTCCAGATCCCTTTTTTAAAAGGTCCAATAATTTTCATAATAGATGGGTTAAATTACGAAACCAACAATTATTCGCTGAAGACATAAAGGTTGTTGAAGATATAAAAAATATCCAACTGCTGGAAACTCTTGCATATATTCTTAAAGAAGAATCCAATTCTCAGTTAAATTATTCGAAATTAGCTGCAAAAATTCAGATTTCTGATCAGACAGTAAAAAAATGGGTTAACATGCTAGAGATTTTTTATTATGGTTTTACCGTAAGACCGTGGTATAAAAATATCACCCGATCTATTATAAAGGAACCAAAATTCTATTTATCAGATTGGTCCAATATTCAAGATATAGGAAAAAAATCAGAAAATTTCATTGCATGCCACCTGAAAAAAGCGGTGAATTTCTGGAACGAGTCAGGAAATGGGGAATATGGTATACATTATCTAAGAGATAAAGAAAAAAGAGAAATAGATTTTGCAGTTACTAAAAATGATAAAGTATGGTTTATAGCTGAAGTCAAGTACTCTAACAACTCCAGCTTGAGTAAAAATTTAGAATATTTCCAAAAATTAACAAATGCAGAACATGCATTTCAGTTAGTATTAGATATGCCCCAAAAAAATATAAATTGCTTTGATTTTATACATCCGGTAAAAATCCCTGCAAAAACCTTCTTATCACAACTGCCTTAATTTCAAATTACTTGAATACATCATTTTTTGTTATTTTCAAATGAGATTTACATCCATTTCTACAATCAGAACTACCAAATCCAGCAACAATAATATCTCCATTAGTTTCTTGATTTAGAACACATTCTGCCTCATCAGATTTTTCTACTTTTGTAATTTTAGCATTTTCATTATTTAACAAAAAATCTATGTGCCAGTGTAATACCAATCACCTTAAATAAATATACTTATTAAGAGAACTGTGTTATTATGAATTTTTTGAAATTTCTATGATATTAAATAATTTATGAGCAAACCAATAAAACTATCAAAGGCATTTAAAGAATTTGAATTTCTTGATTATTACAAAAAACACCGTTCCAAACCCTATATATACCGATGTTTAGCTTTGCATCATATACAAAGTGGTAATAGTTATGATAAGGTATCAGAGATGTTTTGCTATAGCAGAAAAAGTATAATGCAGTGGGTAGGAAAATTTGAAGACGGAGGTATAGGCTTTTTGTTATCAACAAAGCCTGGCAGGGGTAGACAACCGATGGTATCAAGTGGTTTGTTAGAAGGGTTTAGTGAGGCAGTGATATCGCTGCAAGAAAACAGAAATGGTGGCAGGGTAATAGGGCAAGATATAGTTAATCTAGTAAAAGAAAAATATGCTGTACAATATAGCGTATCTGGTATTTATAAACTATTATCACGCATGGGGCTATCGTGGGTTAGTGGGCGTTCTATACACCCTAAGGCTAACCTTGAGGCTCAGGAATCTTTTAAAAAAACTTTAAACAAGCTGTAATGGAAGCGATACCCGAGAATGTAAAGCTAAAGGATATAGAAATATGGTATGAGGATGAAACGCGCGTTGGGCAACAAGGTTCTATCAGTAGAACTTGGTTTATCAAAGGTAAAAGACCAAGACTAGTACGACAACAACAGTTTCTAAATGTTTATATTTTCAGCGCAGCTTGTCCTACAAAAGATAAAGCAGTAGGCTTTATATCACCAGTATGCAACAAGGAAGCAATGCAAATACACTTGGATATGATTGCTCAATCCGTTGAGGGGCATGCTGTAATTTTGCTTGATGGTGCTGGATGGCATTCAGCTAACTCTTTGGTAATACCGAGTAATATTACGTTATTGAAGCTACCTCCTTACTCTCCTGAGTTAAATCCAAAAGAAAATTTTTGGCAAGGATTAAAAAGCAAATATTTGTCCAATTTAGTTTTTTCTTCGGTAGAACACATAATGGATACTTGTGAAAAAGCTTGGCTAGATTTTGTAAATATTAAAGGCAACGTTCAAAAAATATGCAACAGAAAATGGGCTAGTTTAAGTTAACTTATTTAAGGTGATTAGTATAACTTCTTATCTTTTGATCTATGCCTTGCTATTCTGGAATCAATATTTTGCTTGGCTGATCCAATATAAATATAATCACCTTTTGGAAACTTAAATCTTCCCAGCTTGCCAATCTTGATTTCAACGTTATTTTTTATATTTATGTATAACTGGTAGCTTTTCATTTTTCTAACTATTTTTTAGCCACTCTTTCAGCTTGGTATAACGCATTAATCCTTTATTGTTACGAACAGCCAATCCAATAGCTTTCTTCTGTCCCACGATAACTACTAGTTTTTTACCTCTGGTAATGGCTGTGTAAAGTAGGTTCTTCTGTAGCATCATATAGCTTTGCATGGTAAGTGGAATAATTACAGCCTTGTATTCTGAACCCTGAGATTTATGAATGGTAGTGGCGTATGCCAAAGTAATTTGATCAAAGTCAGTATAGTCATAAATAACATCACGATCGTAGAATTTTATTACAGCTTCCAGCTCTTCATCATTTAACTTTTGGATTATGCCAATATCTCCGTTATAAACTTCTTTGTCATAATTATTCTCAAGCTGCATTACCTTATCACCAACTGCAAAAACCTGACCAAATTTGCTAATACCAGATTCATAATCTGGATTTAGTGCTTTTTGTAATTCTACATTAAGTGACCTGGCACCACTTCCTCCTCTTTGCATAGGACAAAGTACCTGAATATCATCTCTTGGATCAAATCCAAATCTTTGTGGTATTCTATCCTTTACCAGATAAATTAGTTTTTGAGGTAACTTTTCCATATCGTTAACTGGTACGAAGTAAAAATCTGATATTGGTTTTGTTTGTAAATTTATAGTTTTATTATCAGCTAATTTATCATTAGGTTCATGTTCTGCTTTAACTGACTGATTGCTGCTATAAGTCAAAACAGGCATTTTACCTTGATTAACAAGATGTGCATTAGTGATTATATTACTGCTAGCTGCTTGCCTGAATATCTTATTCAGTTTTACAGTTGGAATAACACCAGATGTTATAATATCAGATAATACTGCTCCAGCTCCAACTGATGGTAACTGATCAACATCACCCACCAGTAAAAGAGCAGCTGATTTAGGCAGAGCTCTGATCAGAGAGTAGAATAATGGTACATCAACCATGGAACTCTCATCAATAACCAAATAATCGCAATTTATGGGATTTTGATCATTATGTTTAAATCCAACATTCCTTGGGTTGAATTCTAACAGGCGATGAATAGTGATGGCTTCCATATTGGTAGTTTCACTCAAACGTTTTGCTGCTCTTCCTGTCGGAGCACATAGTTTGATTGATATATTCTTTTTTGCAAGTACATTGAGTATTGAATTGACTAAAGTAGTTTTTCCTGTACCTGGACCACCTGTAATTACCATTACCTTAGTCTTAAGTGCTGTAATTAATGCTGATTGCTGATTATCAGCTAATTTGATCTCCAGTTCTGATTCTACCCAAGGCAGGGCTTTTTCAGTATCAATATCTGACCAGGGTAGTTTTTCTTCTTTTAGCTCAAGTAACATAGTTGCTATGTTTTTCTCATAGAAATAATAACTGCCTAAAAATATAGTGTCATGTATAGCATTATTATCAGCTAGCTTATCTTTTACTACATCTCCTGCTTCTAGCTCTTGATCTAGAGCATGTTCTATAATTGATCTGTCAATTTCAAGTAATTTCATTGTTCTGTTTATTAATTCTTCTACAGGTAATCCACAGTGACCATCAGAAGTTGCTTCAAATAATACATGATTAATACCTGCTCTTGCTCTAATCAAAGAGTCTGACTCTATCCCAATATTCTTGGCAATCAGATCACTGGAGACAAATCCTATACCCCTAATATCTTTAGCTAATCTATATGGGTTTTCTGATACTATCTGTATTGCATCATCTCCGTAGGTTTTATATATCCTCGTAGCTCTCGTGGTACCAACTCCATGGGATTGCAGGAATATCATAATTTCCCTAACTATTTTCTGCTCTTGCCAATTCTTACAAATACTGCTTGCTCTAACCTTACCTATACCACGGGTTGTTGCTAAAAGTTCTGGCTTTTCTTCAATAACCTCAAATACACCTTCACCAAAATTACTTACCAGCCTTTTAGCAAAATGTGGACCTATACCTTTAATTAAACCTGAACCAAGATACTTCTCTATGCCGTATAAACTATTAGGCGGCATATTCTTTAGAAAGTCAGCTTTAAACTGCAAACCATGATTATGATCATTACGCCATACTCCTTTGCACTGAACATACTCTCCAACTGATATTGCTGGAATATTGCCAATTATAGTAACCAAATCCTTATGTCCTCTGACTTTTGTTCTTAAAACTGCAAAACCATTTTCAGAATTATGGTAGGTAATCCTCTCAATAGTTCCCGACAAATACTCTGGTTCTTGTTTGTCTACAATACTCATAATTATTTCTTCATTGTCTTCTCATTCTAACAGTTAGGTACTAATAGTTGTTTTTGAATGATTCCTATCTTAGCAGTTCAAGCTCTGCAATCACAGCAATTTAGATAACCACAATTTAAAAGCTTAACTCTTTCTTCTCTGGATTGAATACTCACATTAGGCAGGTTCCCTGCCTTTTTTATCAATTCAACCTAGAGGTAAGCCATGTCTTCTCATAATTCCTATCGTGGTATCGATACACTTATCGTTGCAACCGTACGTAGAAAATCCAAATCACTTATCAAAAAATATCATTACTTCACTGAAAGTGATTTTGATGATTTACAGCAAGAATTTACTATTGTTGTGCTAAATAATCTGGATCATTATAATCCAAACAAATCTTCTTTAAAAACCTTTATATCAAAAATCATCGATAATAAAGCTACTGATCTAATCAGATATAAAAAATTGAGATACAAAGCAGAACTTAAGTCTGATACTGATTTAGAGCTACTGATGGATAGTATATCAGAAACAGATGATTTGCTTGGAGAAGGATCCAACCTTAACATTATTGAGCAGTTAGAAATGTCATTTGACATAGGACTGATGTGTAATCTCTTGCCAGATCATTTAGCTGATTTATGTAAATTACTGCAAACTATGAGTATTAATGAAATTGTAAGAACTACTGGAGTATCACGTAGTACTATTCATAGATATTTGAAAAAGATAAAAACAATTCTAATTGAGAGTGATTTTGATGATTATTTTTAAGTTTACGGATGCAGCTGTGTAGAATTGCAAAAGCTGCATTTGTATGACGAAATGCATTACTGCATTCTCCTGTAGGCTTTACCTTTACTGCTTTACCTACAAATGCAGTGATGTATTGCAAAATTTGAAAAATATGCACTACTGCAATGTTACTGTAAGCTAGTTGTTTACTGCCTTAGAGATGCAGTTGCAGATTGCAGTATTTTACCCCCTTATAAATAAGGATAATTATTTAAGATAATTACCTTATTCATGGAGAAGGGATTACACAAATTTTTTATCTATTTTTTTTATTTTAATCTCAAATACAAAATCTAACAACTCACTCAATCTGAACAAAGCAGTATAAAAAAGAAAAAATCTAAAAAAAGAAAAAAAGTCTATATAGCTAAAAGCTAGTGTTTAAGCACATTACAGGCTAATGAAAGAAAGAAATGCAGTAAAAAAATAAAAAAATTGCAATTTTGATGACACATTTTGTCTTCGTCTTTCGTATATAGCATTAAGGGGCAAATTTTTTTGGAACAAGTTCCTTGGAATAAATTCCTTTGCTGGGTTTTTATGGAAATACAATACCTGCCTCTTGGAAATACCATAAGCTAACATGCAGTACCTTAAACCCAGCAGTTAGTTTTAAATTAAGCAAAGAGGTAAAAAAAAATGAACGGGAAAGAAACTACAATTCAGGATTTGCTACATTTACCTATTGGCAGAGTAGCAAGCTATTCATCCTTTACACTTTATAGCTTACTTGCTGAGGTAAATGAGCAGCTTGGTCAAGCTAAAAGAGCCAAGAGCTGGTTAGAAGGAGCTATGTCAATCAAATACTCTACCAGAATAAAACAGGCAAGAACTGACAGTGATAAGAAAACAGGAATAGTCCATATTGAAGATGCTGGAATAAAGATCAGCCATGACATACCAAAGAAAATACAGTGGAATCAGAAAAAATTATCTGGGATTGTAGAAAACATAGCAGAAATGGGCAGTGATCCTCTTGAATATATCGATATAAGCTACAAAGTTCCTGAGCATAAATTTATTAGCTGGCCTAAATCAACTCAACAAATATTTTTACTTGCTAGAACAGTTAGAGCTGGTAATCCAAGTTATAAGCTCAGCAAAGTTGATAAAGCAAGTGAGAAGGAGGCAGGAAAATGAGATTGGCAGCAGGAATGGAAACGAAAAAAATAAAAGCTCAAACAAGAGCTCATGCTTCTTTACTAGAGAGATTTGGTCGTTATGTTTATCTTAGCAATGCTGGTAGTAATAGCAGTGATAACGATAACAGAAATAATAAAAATTATATCAAAAACAATTGCTGGCAATGGATGGGAGCAAGAAATGATCGTGGATATGGAGTTATTGGCAATGGAACCAGAAAACAGGGAATTAGTAAAGCTCATCGCATTGCTTATGAGCTGTTCTATTTTACCAAACTGGAAAAAGATAATTGTATTTGTCATATTTGTGATAATCCAGCTTGTGTTAATCCACAGCATCTGTTTATAGGAACTCAAGCAGATAATATAGCAGATATGATTGCTAAAGGCAGAAATATACTTCCACCAATCAGAAAAGGTAAGCAGTCAAACTTTGCCAAGTTAAATGACAAAAAAATTAGGCAAATACGGAATTTAGCTAAAGATGGATTTTCATCAAGAAAACTGGCTAGAAAGTTTACAGTATCAAAAACAACTATTTTACAAATTGTAAAACGTCAAAGCTGGAGGCATGTATGAGCATAAAAAATACAACTATGTACGAGCTGAAAAACAGGCATTTGAGATTAGTAGATAATAACAATTATAATCAGGAACAGCTTGACCCAAATACTGAAAATCAGCTATTACCATCAAAATCTGACATACAGGTTTTTTTCTTTGTGTTGTTTAGTTATTGTGATGGATTAATAGCTTGTCGCAGTTTTACAGAAAAAGATTGTAACAGCGATAATAGTAAAATACCTGAAAAACTACCACCAAGAAATATCTGGATTGGAGCAGATGAAGTGATGGCAATTAATGCCTACGAATTTGCAAAACTTAGCAATCAAGCACAAGCGGCATGTTATGTAATACCTGGTACAGTTAAAGCTTCAGGGCAGGCTAAGAGTAGCGATATATTGCAAATGCAAACTTTGCTGATAGATATTGATACTGGTAATACAGAAGCAAAGCTAGAACTTCTTTCTAAAACTTTAGGAGAACCTACCTTAATTGTTGAGTCTGGTGGTATTACTTCAGAAGGTAGCAAAAAACTACATATATATTGGCAGCTGATAAAAGCAGTGCAAGGAGAGGAATTGCAGCAATTACTTAACCTACGATACAAGGTAGCATTATATGCTGGTGGGGATTTGCACTTTAAATCAGCCCATCAGCCAATTAGAGTAGCAGGTTCTATATATCACAAGGGAGGAAATGCAAAGCTAGTCAAAATAAGATCATATAATCCAGTAGAATACACATTGGCTGAATTAGCTGAATCTGTAGAAGCTTTAGCAAATCAGGTAGATAATAATCTATCCAATGATAATCAGCTTAACGCTTCATCAGCTCTACCCATAAACCAGATACTAATCAACAAAATATATGAAGGTGGATATGGAGAGCAAACTAGATTCAATCATTTAAGCAAGGTAATAGGTTATTGGATTAGGCGCCATTATGATGGTTTGATTAGCAAAGAACAGGTTATTGATGAAATAACCTGCTACAATTTGGCTAATGTTACTCCACCTTGGCCAGATGCAAAACTTAAACAAATGATTAATGGCATTTGGAATACTCACATTAACAAATACAAGCATCTATCTCAATATGGTCAAGAAAATCATGCTGATCATAGCATTAACTCAATTACTCCAGCAATTTGGCAAGATTTTCCTCCACAGCGTAAATGGCTGATAGAAAACTGGCTACCCCGTGGATGTGTTACCGCACTTTATGGAGATGGAGGCGTTGGAAAATCACTACTTATGCAGCAACTAATGACAGCTTTAGCCGTTGGAAAGTCATTCCTTGGAGTAGAGCTAAAGTCATCAAGTACTTATGCGGTAATGTGTGAAGATGATTATGATGAGATTTGGAGAAGACAAGCTGCGATAAATAGCCTTTATGGAATAAATATGCAGGATCTATCTAACGTAAGGATAGTGTCAAGAGTTGGTCAAGATAATCTACTAATAAATTTTGATAACAGTAACAATATAAGATATACAGAATTTTACAATAAACTGCTTAGTGATATTGTGGAACATAACCCGGATTTAGTAATACTTGATACTGCAGCTGATATGTTTAGCGGTAATGAAAATAACCGTTTACATGTAAGGCAATTTATCCAGAATGCTTGTGGTCATATAGCAAGAGTTACTGATAGTGCAGTACTATTATGTGCACATCCATCTGAAAATGGCATGCAAAAAGGAAATGGCTCCTGTGGCTCCACTGCCTGGAATAATAGCGTACGTTCCAGATGGTATTTAAAATATGCTGATAACAGTAGCAAAGATAACAATATAAAACAGCACAGCAATAGCCGCATATTATCAAGAGTTAAATCTAATTATTCTGCAAGTGGCAGGGAAAAATATCTGGAATGGAAAAATGGTGCTTTTATCTGGATAGACGTTAAGCAAACAAAAGCTACAAAAACTGTCAGCAGTAAAATTCAAAACGGACAAAACAGTCAAACACAAAATAACAAGCAGCAAGAAAGAATTCATTTTATAATTCATCTGCTAGAGCAACAAGCACTAAAGGGAAAATTTTATTTGATGAAACAATTTGCAGACAAATTCCAGAACCATCAAAAATTAGGAGGCAAGCGATCAATATATGATGACTGCTCTGTTGCTGCAACGAATAGTGTAATCAAGTTTTTTAATAATCCGGAACATTATGGCATAAGAGATGATAGCACCAGTGCTAACACAAATATAGGATTTGGTTATATATGTACTGAAGATATGCAGATAGAAAATGATAATGGAAACAAAGTAAAAATACTGCCTACTCATTTAAAAAATAAGAAGACTGGTAAAAAGCAAGTTATAGAAATAGTAGTGGAGGAGCGGAATGCATAAGCATATTACAGACATAACATCTATATCTAAAAAAGCCCCAAAAGTTAATCAAAGTAATGTCAAAAGAGAAACACTGTATAATTCAATTGTAGAAGATATAAAGAAAAAATATAGCTATAAATTATCTGAAGCAGAAGCTCATGAAGCTGCAAGAAACCTGATTGATTTTGTTAGGGAATTATTGAAATGAAATTAATTGAAGAACAAATGCACAAGTTTGTTGACATCAAGGAAGATTTTGTTAATTATGATAGGTGGAATGGCCAGTTGCCGTTCTGGGGTGTCGAAACCTTTTATCGTAAAAGCGGTGGTGAATACCAGCCGTTTAAATGGTGTCCCCCTCGATTATTGTGTCGGGGAGATGACAGTGTATACAACAGGCCTTTGGCTAAAGACTGTCATAGCTGGTTCTTTTACGACAGTTTTTCGAACTCCCTGGCTTCCAACGAGGGAGGGCATCTATTGCAGATTTATTTCCTTTTTGGTAGTCAAAAACAATTGGTTTGGGCAAGTAGCTTGCTGCTTCCCAAACTGCTTTTGTTTAATTAAGACCAGGGAGGGAGTAATGTCTACCGATAAAATCAAATCTCAAAATATAGAAGAGTATAAACATGCAGTTATTTTAATTGATAAATACACAACAGTAGAGCTATCTGAAATAGAGGAGTTCTGTATAAATAATAATCTACATGCTTACTGTGTAATCTATAATTATACACTATGCGATACCAAGCCATATAAAGAAATAATAAAATATATAGTCAGTCAGGACAAGCCACCAGTAGTGCTAATAGATAGCAATACTTGTCTGTTTCCACAATGCATAATGAGTAGCACCATACTTGGCACATTAGAAGAAATGCAGCTAGCAAAGATTTATACTTATAACGCCCTTTCAAGACAGAAAAAGGAAGATAAATTAGAGCTAATTAAGCAATCTACCTTCGATCTTCTAACAGAAGCAACCTACCAGCTAAGATCAATTGAAGAAATGTGCAGAGATAAGCAGAAAACAGAAAAAAATAGAGGTAGATAATCATGAGCCTACACGACAGAAAAAAAGCAGCTAAGGCAATATTACTGGCAAGAGTATCATCAAAGGAACAAGAAGAGGGATATTCTATTGAAGCTCAAAAATATCGACTTCAGGAATATTGTATGCGTAAAGGTTTGAAGGTTTTACAAATATTTGAATTGGTAGAATCATCAACAGTAGGCACACGCCAGAAATTTATGGAAGCCATTAAATTTGCCAAAGCGCAAAAAGAAATAATAGCGGTAGTAGCTGATAAGGTAGACAGGTTACAGCGTAGCTTTAAGGAATCATCCTTACTTAATGAGTTGATTAATCAGGAAAAGATAGAGCTACATTTTTGTACAGAAAACTGCGTTATACATAAATGCTCAACATCAAGTGATAAGCTAATGTGGAATATGAATGTGGTTATGGCTCAATCCTATGTTGATAACTTAAGAGATAACGTAAATCGCTCCATAGCACAAAAACTCAGAGAAGGCCAATGGGTAAGTACTGCACCTATTGGTTATTTGCATATAAAAGGAGGAAGGAGACAAAGTAAAATCGTACCAGATCCAGAGCGAGCTCCACTGATCAGGAAATTATTTGAAGAATATGCCACAGGTATTTATACTATACCTCAATTACGCAAGAAAACAAAAGAATGGGGATTGACTAATTATAGAGGCAATCAGGGATATTTAGGTAGAGCTCATATACATGCGATTTTATGCAATCCTTTTTATTATGGAGTAATGTACTATAAGAAAGGCAAGAAGCATTATCCGCACATATATGAGGCAATAATTGATAAAGAATTATTTGACAAATGTACAGCTGTTAGAAAAAATTGGAATAGAAAACCATTCAAATGGGGAGGAATAGATTTTATGTTTAGAGGATTAATTACATGCGCTACTACTGGCAAGGTAGTATCTTGTGAAACAAAACGCAAAAAGAGAGCTGACGGTACTATACATGAAACTGTATATCTTGGTCCATGGAATCCTAAAGATCCAATGAAAAAAGTATATATAAAAGAAGATGAAATAATTAAGCAAATAGAAGAAATATTCAAATCTTTATATATAGAGCCTGAAACTCTTGCAAAAGTTATAGAATATGTAAAAAACTCGGCAGATAATGAAAGAATCTACTATAAGACTCGTATCACAGAATTGAATAAAGAACTGACAAGAATCAAAACCAAGTTAGATAAATTAATGGATTTCTTCCTGGAGGACAAAATAAGTGAAGAGGAGCATGAAAGAAAAAGAGATGACCTTACATCAAAAAGAACTCGTATTTTAATGGAATTGGAAGAGCATAATAATGCAGATGATAACTTCACGGAAAATATGATAAATGTGCTTCAAATAGCAGCAAATGCCCATAAAACATTCAAAGTCTCGATAAATGAGAAAAAAAAGAAGTTGATAAAATTGGTTCTATCGAGACTTTCACTAAACGGCCAGAAGCTAGAGTACACCTTACGTCCACCGTTTGATGAATTCGCCAAAACTGCCAAAAATGGAGAATGGTGGGCGGTAGAAGATTCGAACTTCCGACCTCTACGATGTCAACGTAGCGCTCTAACCAACTGAGCTAACCGCCCTAAATTTAGGATTTTAATTTAAGTTGTTTTATAAAAACAAAATTTTTTAACTCCAAACTTTGAGTACTCGTCTTTTTACAAGCAAATTTCTTGAAATTCAAGAAATTCTTTTGCTAATCTTATGAAAATATCATAGAAAGTAATAAAAATTGAAGTTAGTTGAGGACATTGATGAGTTTAGAAGAAAAGGCTAATAATAAAAATTTGGATTTTAAAATTGCTCTTGATGGTCCTTCTGCTTCTGGTAAAGGACTGATTGGAAATATGCTTGCAGAAGAGTTTGGCCTTAAATATGTTCAATCTAGCATTGTTTATCGTGGCTTAGCATATGTGTGCATGGAAGACCTTATAGATCCAGATAATAATGAAGCTATAATACGTGCTGCAGAAAATGAGGATATTATATCACGAATAAAAGGAGTGGATTTAAATGTCGAGTTAATTGGCGATTTTGCTTCAAAAATATCTACTATAAATAGCGTTAGAACTAGTTTAACAAAATACCTTTCTAGTTTGATGATTGATACTCCAAGAATAATTATGGAAGGAAGAGATATAGGAACTGTTGTAGCTCCAGATGCGGACGTAAAAATATTTATTTCAGCTGATGTTGAAGTAAGGGCTATGCGCCGATATAAACAGTTGCAATTAGAGGGAAAGGATTGTATACTCGGCGACGTTTTGGATTTACTAAAAAAAAGGGACGTAAGAGACAGTAATAGAAGTGCTGCTCCTCTGAAGGCCGCAGATGATGCGCTTGTTATTGATACAAGTAAGCTAGAACCCTCTGAAGTAATTTTAAAAATAAAAGAATTTATATACAGATAAACCAGCTAAATCTTCAGTATTTAGTATTAATGCCAACGGTTTATTTGATTGTTAACTTTAGACTTAACTAAATTTGGCGTTATTTAGTTTTTATACATTTATTATGACCATAAAAAAAAGATTTATTCCCCAATTAGCAGATGTAACACCAGCAACAGATGATTTTGCTAAAATGCTTGAGAAAGTTGATACTTCTCATGTGAAAGAAGGCTCGGTTGTTAAAGGACAGGTTGTTGAAACAGGTTCTGAAGTAATTGTTGTTGATGTTGGGCTAAAAAATGAAGGCAGAATTCCAGTAAGTGAATTTCAACTTGTAAAAGATCAAGAATTACCAAAAGTAGGTGATATCGTTGATGTGTTTGTTGAAAAAGTTGAAGGTAGAAGAGGAACAGTTCTTAGTCGTGAAAAAGCGATTCGTGAGGAGTCATGGGTTAAGCTTGAAGGACTATTCGAAAAAGGTGAAAATATTACTGGTACTATCTTTGGGAGAGTTAAAGGTGGATTTACGGTTGATATTGATGGTGTTGTTGCATTCCTACCTGGAAGTCAAGCAGACGTTAGACCTATTAAGGACCCTACAACTATTATGGATATTCCACAGCCTTTCCAAATCCTAAAAATGGACAGAAAACTTGGCAATATTGTTGTTTCTAGAAAAGCAATTCTTGAAGAAGCTCGCTCAGAAGCAAGAGACGAAATGCTGTCACAAATCAAAGAAGGTGATGTTATTGACGGTATTGTTAAAAATATTACTGATTATGGTGCGTTTGTTGATCTTGGCAGTGTTGACGGCTTACTTCACGTTACAGATATTTCTTGGAGCAGAATCAATCACCCTTCAGAGGTGCTAACTTTTGGCCAAGAAATTAAAGTTATGGTAATTAAATACAACGAAGATACGAAGAGAATTTCTCTTGGTATGAAGCAGCTCGATGCAAATCCATGGGAGAACATCACTGAAGAATTCCCAGTTGGTAAAGTTATGTCAGGTAAGGTGACAAATATTGCTGATTATGGTGTATTTATTGAACTTAAAGATGGTATTGAAGGTCTTGTTCACTCTTCAGAGATTTGTTGGGGTAAAACTAACCAAAATCCTAAGAAGCTTCTAAATATTGGTCAAGAAGTTGATTTTGTTATCCTTGATGTAGATACGGAAAGACACAGAATTTCATTGAGTATCAAAAAATGCCAAGATAATCCGTTGGTTAAATTTGCTGAACAAAATCCTGTTGGTAGCGTTATTAAAGCGCCGATTAGAAATATTACGGATTTCGGTATGTTTGTAGCTATTGATACAAATACTGATGGTATGATCCATGAGTCAGACATTAGCTGGGAAAGTTCTGGTGCTGAACTATTGAAAAATTTCAATAAAGGTGATGAAGTTGAGTGTAAGGTTCTAAACATTGATATTGAAAAAGATAGAGTAGCTCTAGGTATTAAGCAGTTAACTGAAGATCCATATGAAGGTTCAGTTGATCAATTCAAGAAAAACATGGTTGTCACATGTGTTGTAGTTAGCACAAATAGCGATGGTGTTGAAGTTAATATTGATGATAAGGCATCAGGCTTTATTAAGAAAATAGATCTTTCATCAGAAAGATCAGAGCAGAAAACTGACAGATTTGCAGAAGGCGACAGAGTAGATGCAAAAATTATTTCTATTGATAAAGCGAATCGTAGACTTGCTCTTTCTGTTAAAGCGCTTGAAATTGATGTTAGAGAAAAAGCGATTAAAGAATATGGTTCTACAGACAGCGGTGCAAGTCTTGGTGATATTCTTGGTGCAGTTCTTGAAGAAAACGAAGCTAAGAAATAATTTTCTTTAAAGATCTAGAATCGTTATATAAGAGTAAGAAACGTGGTTATCTATTCAGCTGTGCAAGAAAATATAATTTTGTCTGCTGTTTTGTTTGCCACGTTTTGCACCATATGTAACGAGTATATTTTTAAGTATTATTTCATTATTATTTTGGAGTATAGAATATATTGATTTATGGATAGTATTGTAATGCAGGGCGGCAAGCCTATCATTGGTGACATATACATTAGCGGTTCAAAGAATGCCTCCTTACCGTTAATGACAGTTTCTCTATTAACTGATGAAGATTTGATACTCACAAATGTACCAAAACTATCTGATATTTCAACAATGAAGCAATTACTATCTAACCATGGTACAGAAATTGGAATATTAGATAATCAAGATTCTTTCAAGCTAACTTTATCATCAAAAAACATAACGAATTTTGTAGCTCCATATGATATAGTCAGGAAAATGCGAGCTTCTATTTGGGTTCTTGGTCCATTGTTGGCTAGATTTGGCAAGGCAAAAGTTTCTTTGCCTGGTGGATGTGCTATCGGAGCAAGGCAAGTAGACTTACACCTGGCTGTAATGGAAGCTCTAGGAGCAACAATTGCCATTGAAAACGGATATATCATAGCTGAATCTAGTGGCAGATTAAAAGGGTGTAATTTTAAATTTTCAAAACAGTCTGTTGGTGCGACTATTAATGCTATTTTAGCCTCCGTACTTGCAGATGGAGAATCGAACTTTAGCAATTGTGCTATGGAGCCAGAGATATCGGATTTGTGTCATTGTTTGAACTCTATGGGTGCAGAGATATTCGGTGTTGGAACACCTAATCTAAAAATAGTAGGAAAAGAGAAATTATCTGGTTGTGAGTATGGCGTCTTACCAGATAGAATTGAGGCTGGAACGTATATGATTGCAGCAGCAGCTACTAGAGGTAATATTTTACTAAAAGGCATTAAATTAAGTATTTTAGAAAACCTAGTTTTTTGTATGAGAAAATCAGGGGTTTATATAGAAGAAGAGCAGGGTGGAATCAGAATAAAACATTCTGGAGACATAAAGCCTGTTAATATTTCTACTGAACCTTATCCTGGTTTTTCAACTGATCTACAAGCGCAATTTATGACTTTAATGATATTGGCTAATGGAAAATCAGAAGTGCAGGAAAATATATTTGAAAATAGATTCATGCATGTTCCTGAATTATGTAGGATGGGAGCCAATATAACAATTGATGGAAATAAAGCTCTTGTAGATGGAGTACCGGAGTTAAAAGGTGCAGAGGTAATGGCTAGTGATCTTAGAGCCTCTGTATCACTAGTGATTGCTGGACTTGTAGCTAATGGCGAAACAAAAATAAGAAGAATATATCACCTAGATAGAGGGTATCAATCATTGGAACAGAAGTTAGCTAATTGTGGTGCTGATATTTCAAGAATAACAGGTGATACAGTATAAGGGAAGTGAAGTGATTAAAGAAGCAATTATCATTGATGGAAAGAAAATAGCTGATAAGATTCTTGCTGATTTAAAGGCAAAAATTGATAAGGATAGGATTGATGGTGCCACTCCTGCTAAATTAGCAATTATATTAGTAGGAAATGATCCAGCTAGTAGTATCTACGTTCAGAACAAGATAAAAGCTGCGGCAAAAGTTGGAATTGAAACAACATTACAAAAATTTGATGAGAATATTACTGAAAACGAACTTTTGAAGAGGATAGAGCATTTAAATCAAGATGAAGAAGTTTCAGGAATTATAGTACAGCTTCCATTGCCTAAGAATATAAGCAAAGCAAAGGTAGTAAAATCAATTGACCCTTCTAAGGATGTTGATGGATTTCATCCGATGAATGTAGGATCGCTTTATTCTCCTTACGAGCATGGTTTTGTTCCATGCACCGCAAGAGGTTGCTTAGAACTAATAAAATCGTGCTATCCAGTTTTAGGAGGGAAAAATATTGTAGTTATTGGTAGGTCAAATATAGTAGGTCGACCACTTGCTGCTTTGTTGTTAAAAGAAGATTGTAGTGTTACTATTTGTCACTCAAAAACAATTAATTTGCAAGCAATTACAAAACAAGCAGATATAGTTATATCTGCAGTTGGAAATCCTGGTTTTCTTACAGTCGATTATTTTAATGAAGATGCTATAGTAATAGATGTAGGTATCAGCAGGGTTGAATCAGAGGATAAATGTGAGCTAATGGGTGATGTTGATTTTGAGAATGTAAAAAAGAATGTGAAATATATAACACCTGTGCCTGGAGGTGTAGGGCCCATGACGGTAGCATATTTGCTTGTAAACACATATACTGCTAAGGTTAATTTGAATGATATAAAAAGATAGAAAAATGGATAAACAGCTTGTAGACGAATTAAAAAAAGTAATCAAAGGAGCAGGAAGGATGGCTTTAGATTATAGAGAGACTGGTCTGCAAGTTGAAAGAAAGGAAGACGATTCTCCTGTTACTAATGCTGACAAAGAGATTAGTTCTTTTATTTTTGATCATTTGCTAAAACTTACTCCAGATATACCAGTGATCTGTGAAGAAAGAGAGCCAGTAATTCTTGATAAGTCAGAAACTTTTTGGTTAATTGATCCGATTGATGGAACAAGGAGCTACATTAGTAATAAAGATAGTTTTACCGTCAATATGGCTGTAATTGAAAATTCTAGAGCTTTATATGGCTTTATATATCAACCCACAATAGATCGTTTATATTTTACAAATGAAAAAAAGCAATTTTGTATTGAAGTTGGTGGTAATTCTGTTGGCAATAATATACACGATCAAGAAGGTTTTGTTGCGATAGTAAGTTCCAGAAGTTTTAATGAAAAGACAGCTACATACTTAAAAACAAATGACTTTTCTGAAATTATTGCGGTACCAAGTTCTGTGAAATTATGTATGATTGCAGAAGGAGCTGGCGATGTTTATCCTAAATTTGGTCCTACAATGGAGTGGGATATTGCCGCCGGTCATGCGCTAATTAGGGCAGCTGGAGGAGAAATTTCTACACTTGATGGAAAAGTACTAGAATATGCAAAAGAAGATTTTGAAAATCCTCAATTTATTGCAGTTAGTAGGAAATGGAAAGAATATGAATAATTCTTACCTACCACGCGCTTGGCTTGCTTCTTTTGCTTGAGATCTCTTTACTATAATTTCGCTAGCCATTCCGACGCCAAGGTGATTTTTTGCTAAATTTCCAGCTTTTGAACCTTTAGTCATTCTTATGGCTATTCCTTTTAGATCTCCTCTAACTTTCTCTTTGACATTATTATCAACTACATTTGCTGCGCTTGAGATGGCAGCTTTTTCATTTGGATATTTTTTTGATAAATTATTTATTATATTCTTTTGTGATTTTTCCATTATTTCAGCGCTTTTTTGCATAGCAACAACTTTATCGAAAGCTTTAGCGCTTTTTGTAAGTGAGCTCTCTATTACAACTTCAGCATTGATTGAACTATCTTTATAGGCTTTTTCAAAATCTGCTATCAGCTCTTCAGAGGCACCTTTTGATTTTAAATCCTTTACAGCTTCTTGTCCTATCTTATCATATAATTCTTCTACTTCTTTTGCAGAATTAGGAACTTGTTTTTCAACATATTTACATACTTCTACGAGAAAATCAGCAGCTTCTTGGTGTTTTGTAACTTCTTCTTTTACAGCTTCTATATTTTTTAAATTAATACCAGATTTTTGTAATGACTCAGAAGATACTCCAAGAATTTCTGATAGTTTAGATAATTTTGTGCCAAGTTCTTGAGCTTCTGCAAGTTGTTTTGTTTCTCTAATCTTGCCAAGATCTGTTTGCATTTTTTCAACGGTCTTTTCAAGGTTATCTGTTTTGATATATTCTGCTGCTTTACTTAATATTCCTGTTGTTTTAAGGGCAAGGCCAACTGGCGGTGCATAAGCTGATGCAAGTGCGGTAACTGCCATGATAGCTGCAGAAATAATTTTATCAGATAGTCCAGGGTAAATTTTATCAATTGACTTCTTAAACTCAAGAACTGATTCTAGAACTTCGACTGTCTGCTCTGACAAAATTTTATTATAGAGAAACCCTTTGCTTTCGGCTAAAGGTTCTAGTAATTTTTTTGAAGCAACATTTACTCCAACTAAAACAGTTTGCTTGAATATGCTATTGACTATGTCTTTATCCTTATCAGTTAGGTCAAGATCTTTTAGCCCTGAATTTAGCATTTCCAAGCCTGTAAGTGAGAATTTTGTTAAGGTGCTAGCATAGCTACCTAACATTTTTTTTGCAGAGACTTCTAAATTGCTAATTTCATGAAGTTGGCTTAATTGAGTTAAAGATAAAGTTTTTATATCTTGTTTTAACAATGGAATTATATTTGCTGAATTTTTGATTATTAATTCAATTAATTCTTCTTTTCCAGGTTTGCTAACTTCTTTCTGCGTTTTTGCCATATACTTCTACCTCAACAAATTAAAGTAATGCTTGATACTAATATAAGCCTAATATATTAATTTATATAAAGCAATGTGTATTATTGTTAAAGTTTTATAGTATTCGTGCTTGTGGCGACACAGTAAGTTTAAAGATTTTGCTAATAATATCATCATGTAATGTACTAATCATTCTACATAACATAGTATTACTCTAGGATAATAGTATAAATATTAAAATTTAATCAGGCCTTAATTATATGCAAAAAAAATTAATAACATCATTGCTAATTTTAAGTGCTTCTAATGTTTCAGCAATGACCTTAGAACAAGCTCTTACAAAGGGGTATGATTATGATGAGCAATTTAAAACAAATAGAACAGATTTTTTAAATGAGATCGAAGCTTTTCCAGCCGCTCTTTCTGAATTTATGCCAAGGGTATTTGCAGGTGCTGAATTTAACGATTCAAAAATAGCTAAAAGAAGTAGTGTAGGTGATCCTAGGGATGCAATTACTTCAGATAGTTTGCGACATACACAATCAATTACACTAGAGCAACCGATTTTTAACGGTTGGTCATCAGTTTCAGGATTAAAAGCCGCACAATCTGCTTTTCGTGCTTCAAGAGGTGCTTTTTATGCTAAAGAACAGGATAATTTTTTAGAAGAAATAAATATATATTTATCAACAGTAGAAGCTAAAGAAAAATATGCTATTTCTAAAGTTAGTGTAAGATCAAATAAAACTCAGCTTGAAGCAATGAAGGAAAAATTTAAGCTTGGTGAATCAACAGAAACAGAAGTAGCAAGTGCTAGAGAAGGGCTAGCAACAGCAGAAGCTGGACAAGCTCTAGCATATGCCCAGTATGAATCTGCAAAAGCAAATTTTGAAAGAGTGTTTGGTGTTCCAGCAGTTGATATTAAATTTCCAGTAGTTCCAACAGACATACCAGCTTCATTAGAGCAATTGGAAAAAAAGGCAATGGCAGTTAATCCAAATATTGATAGTGCCATGCATAATACTTTTTCAAATAAAGCATCTGAGAATGCTGCAAAGGGCGCACTACTTCCAAGGGTGACTTTTCGTGTTCAGAATGGTAGAACTTACTATAATCCACAGCAGTTAGATAATAGTAATATAAATAATAGAAGCACAACTTCAACATTGTCTGTGGTGGTCCCTATTTTAGAAAGAGGTGGTGCTGAATATTCAAATATAAGGCGTGCTAAATATAGAACTAGAAAATCAGCTATAAATCATGATAGTGTGATAAAGCAAGTTAAAGCAAGAGCTAAGTCAGGTTGGTCAAGGCTTGATGCTGCAAAGCTTAGAATTAAAGCTGCAGGTGAAGCTGTAAAAGCAGCCGAGGTTGCATATGAAGGTATGGTTCAGGAGGAAATGTTAGGTTCTAAGACTATTGTTGATGTATTAAGAACAGAAGAAAGGCTGAATAAGGCTAGAGAGACTAGAGTTGAAGCAAGAAAACTTCTTATAGTTGCAGCTTATGAAATTAAGTCTTTAGTAGGTGACTTAACTGCAAAAAGTATGAAGCTTAAGGTAAATTACTTCAGTCCTGAATCTGAATTCAAGAAAGTAAAACGTAAAATTGTAGGATTCTAATAGTGTCGGATCATACTAACAAAGATAATGAAAATGACAGTAAACTCGAAGATATTTTGAGTTCTATAAAAGGAATAATTGAAAATCGTGGTCCTGTTGTTGACGAACAATCTAACGGTCAAATTGTTGAAGAAGAAAAGATCTCGGATGAAGCTGTACTAGAACTAACTAGTGAAGTAAATTCTATAAATAGAAATATATCAGCAGATAGCCAAGATGCGTTGATTTCTCCAGATGCACAAGAAAAAGCAGAAATTGAGTTTAAGAGGTTTGCGGAATCTGTAGTTAATGCTGAAATTACTAACGATAAAGTGGATTCGTTAGATGATAGAGTAAATCAAATTATGCGACCACTGATTAAAGATTGGCTTGATAATAATTTGCCAAGAATAGTTGAAAAGGTAGTTTCTAAAGAACTTAAAAGAATTATACCAAAAACTTAATTTAGAATATAATTTAAGGTGAGCAGAAAAATGGGACAAAGATTATTACTTTTTATCTCTATAATGTTGTTATTTGCTTTTAATGCTAACGCTAATGCAGATGCAAATTTGCCGGCACTGCCTACGGATACAGTAGTTGAAGTTGTTGATCAACAAGGAAAAGAAGAAATATCACTATGGCAAAAGATTCTCAACTTTTTTGGTTTTGGTGATAAAGAAGAGGCTGAAAAAGCAGAGTCTAGTGAAAATAATCCATATGAAGCATCAGATGATACTAATAATAACGTGACCCAGTACATTGAAAGGACTCAAAATGTTAAAGCTAATATTTCTGAAGCTGGTGAAAATGCATCTCAATTTTCAGATAGTACTGGAGTAAGTACCACAGAAACTAAGTCAGATAATACTAGTAAAAACCTGGATGGAAAATTTGGTTTTGACAATGATTCTGACACAGAATCTTTATCCATACCAAAAGGATTTGAAGATGATGGTCCTATAAAATTACCTGAGTTGCCGGATGATATTGCAGATGAAATTGCTTCTGAAAATATGGATAAAAAGCAGAATTTAAAAGATACTATGGATGATATGACAAATTCTGCTGATAAAATGCTTTCAGGAATTCCCGAAGCTGCCAGTCAAAATAACGCCGACACATCTAACAAAATGGACCAAATGGTAGAAGAAGGTGTAAATGATTTAAAATTACCAGATGGTTTTGATGATATAAAATCTGAAAATACTCAAATTCCACCTATCTCTAAAGCTGAAATTTCTAAAAATACTGAATCTAAGCAGAAATTAGAAGAATCTTTGAAGGATGGAGATAAGGATATAAAGAGTAATGATTTCCCTTTGCCGCAGCTTCCTATTCCTCCTGGTGATTCAGATTCACTGAAAGATACATCTTCTGAACCAATGAAAGAGACTGCATCTCCAACAACAACTTCAAGTGTTTCAGATGAAGAGTCTTCTAGCATAGAAAATATAGATAGTGGAAATATGCTGGGTTCTAAAAATGATATTAAATTACCTATAGATGACGGAGAAAAAGTAGCAGGATCTACAGATGCTAAATCATCAGATAATAAAAACAAATCGGCAGATAATAAAGTTTCTGATATGATGTTGCCTACTCCAGATTATGCATCTAGTCAAAATGAAGAACCAAAAAAACAAGAATCTAGTATTGAAAAATTTACTAGAGTTTTTACTAATAAAAAATCCAAAGAAATTGAACTTCCTAAAATTACAGAAGAAGACTACAATTCAAATGAAGATGACTCATCTGTAAGAAGAAGCTCGGTGGAGCTTGATTCCACTCAACTACAATTTGTTAATAATGAAGCTCAAGTTTTGATTTTACCAAATGATGATGTAGTGCTTGGTGAGTTAACAGAGAGTGCTCGGATCAATGATATGGATTTATATTCATATATAAAAAAATTCTGGGAAAATTATAATAGAGTTAAAAGAGAACCTCAAAGAGAAGTAATTGAGCGTTTTATTGAAGAATATGACGAAAATTTTAATCAAGAGGCATTATTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAATGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCAGAGGGGGCGCAGAAGTACAAATGTAAGAGTTGTGGAAGCACGTATAGATCTGGTGATAAAAGGTTAAAATACAGCATGGAAAAGAGGATTCGTGTCGTAAAGATGTACATAGAAGGAATGGGTATAAGGTCGATAGAAAGAATAGAAGGAGTTTC
>sequence02
ATCTTGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCTTTGAAAATGGATCTTTTTAGTTGCAATTATAGTTATTACTTCTATTATGAAGGGGTGTTAACTTAATCTGTAAAAAAATTATGAAGAGTATATTTGATAAGTGGAAAGGCGGAGCAAAAAAGCATGGTGGACTTTTTAACGCTATGGCAAAGCAAATGGATGATTGGGGTCGTGATCTTGACAAGTCGTTAGATAAGCCTTCAGGAGTAAATTCTGTGATTCCTGAAAAAAGAAAAGAAGCAGAAAATAAATTAAAAGTTGTAGCCAACGAACTGACAGGAGGTCTTGTTTATCCTGAGAAAAGTGAGGTGATCAAACCACAGACTATTAGTGTGGTTGAAGAGGTTGTTGAAGAAAAAGAGTCGGTTTTAGAAGTACATACTATTAATATAGATGAACATAATTTAAGAACAGCTATATTAGAGTATATTGAACATGAATCTATAGATGAAGATGTTGCTGAAGCAATTACTATTTTAATTGCAAAAAAATCATTATCAAATGCAGAAGTAGCTTCAAAAGTTTTAAACTATGGTGATCCAGATATAAATTCTCAAGTAAAAGCTTGGGTGATGAATCATATTGATGAGGATCTAACTATAAATAAACTTAAGTTACCTGCAGCGCTTTATTTTGTAAAGCACTCAGATGAATCTGATGTATCAAAGGTTATTAAAAATGCTGGTGATAATGTTGAAAAATTTGCGGAAGCTCTTTTTGCAACTGAACATCCTGAATTAAGTGCTAATGTGGCTACTTGCTTGCTACTTGGTGAATTTGATGGTGGGCTTGATTTATAGTAAGTTTTTGTCATAATTTATTTTTTATATAATAAAAACAGCCTTGTTATTTAAGGCTGTTTTTTGTTGACGGGTATTGGGCTAATATGATATAAATTTATCATTGTAATTTTTAATTTTAGAGAGGCAAGATTCACAAATTTCAATAAGTTCTTTTTTAGTTTGCCAGTTAAACTAACCCTAGTCATTCTTAGCGCTTTCTTGCTAGGATCTTTTTTACCCGAATCTTTAAAATCTATATTGCTCACAACGAGTTTGGCCATGAAGGAGATACTTCTTTTTGTACTGCCTGCTATAGTGTTTTTTCTAGTGTTTGCCAGTTTTTCACAGCTTTCTGGTGGGTTTATGGTATTTACTGGATTACTAATTTCTTTGGTCTGTATTTCAAATTTTGCAGCTTTAATGATCTCTTATCCAGTTGGTATTTTTACGCAAGATTTTATAGTATCAACAAGGACAATTAGTGCCCAGTCTCACGGGCTTACACCATATTTTACCATGCATTTACCAAAAATATGTGATAATTCTACAGCATTGATTTTTGGTGTTCTTCTTGGAATATATGCGAGTTCAAGAGATAATAAAATGATGAAAATTTTTGCTTCTAAAGGATCTGTTCTGGTAAATTTGTTTTTATCTAGAGTATTTACTCCTGTTTTGCCAATATTTATTTTGGGATTTATTTTGAAAGCTCAGCATGATGGATTGCTCGGTGTATTGTTTAAAAACTTTGTGCCATTACTATCAGTAATAATCGTCCTGTACATTGGTTATATTGGCTTTTTATATATGTTGGTCAAAGGTTTCAGAGTGAATAAAGCATTGCGCGCCTTAAAAAATATTTTTCCAGCAACAATTATTGGATTTAGTTCAATGTCAAGTGCAGCTGCTATGCCGGTTTTAATTGATGGAGCAACTAAGAATTCAAAAGATAAAGAGCTGCCAAAAAGGATAGTTCCGTTTATTACAAATACGCATATGATGGGTGATGCTCTAGCAATACCTCTAATGGCGATGTCTTTGTATATTGTTGAATACGGTCATATGCCTTCTGCTGACAAGTATTTGATGTTTGCAATTGGTTATGTGCTTGCTAAATTTGCCTCAGCTGGTATTCCAGGTGGAACTATTTTAATTATGACTCCCGTGCTTGAGTCAAAGCTTGGATTTACATCGGAGATGAGTTCAATAATTTTGACTACGTATTTGCTATTTGATCCATTCTGTACATTAGGCAGTATTTTTGGTAACGGTGCTTTTTCTATGGCGTTTGAGAAACTAAAGAATTTAGCTCTACCAGAAAGAGTGGTTCCAGAAAGTGGTGCTGTAATAGCTGAAATTAGTTTAGGGTCTGAAGTAAAGGACTAGAATTAGCCCAACTACTTGCATTAAAAGGCCAATGATTTTGTATAATTCATTGGTCTTTTGGATGCTAATTTTTGAAGTTTCTAAAATTATTTTGTCAGCATATAGGTCATTAATTCGTTCGATAGTGATAGATCTTGCTTCTTTTAGCTTATCTGGTAAGGATTTTATAATTTTCGAATAGCTACTATTATTATTCGTAATTTCGTAATGCTCTAATGTGTCTGTAACGTAGCTTTCTGCTGCTTGTCTAACAGGATCAGATTTTTGCTTATTTGCAACAAGTGCATAGAGCATGATGCTAATGGCGTGGCGTTGTTCAAGCTCTTGCTGTTTTTGCCATAGTTGATTTATCTTGTCTTCGCCTTCATGTGATTGTGAGTTAAGCGAATCAATTTTTTCTTGATTGTTATTAATCGCATAATATGAAATAAAAATAGAAAGAACAGTAAAAACTATTCCTAAAATAAGCATTATTTTCGACATAATTAAGAGGATATAACGTTTTTATTAATAAAAGCAACGCAAATTTGTTTCTATGTTGATATTATTATTCTTACTAGTGCCTAATGTTACTTATTCTCTAATTTCAAAATAAATTAAAGCATTAAATAGTAAATGAAAGGATGCTTATTATAGTAGCTTTTGATAACTTTATTATAATAAGTATTGATTTTAGCTAACAAATATGTTAATTTTTCGCGCTCCATTAACTTTTAAGTATAAATAAAATGGCTGATTTTGTTGAACAATATATAGAATGTCTTGAAGGATCAGGTTTTTGGAGGTTATTTGTTGATAGATATAGGCAAAGATTATCTTTTGCGTCACAAAATAGTCTTGGTTAATTTGAAGAATTTCACCTTGGGCACTTTTTATGGGCAACAAGAGAACCAACGTGTTTAAATACTCTTCGAGAGTCAGCCAAAAGGCTTTTTAAAGATGGTTTATATGAAGACGTAACATTTGAGTTTTTAGAAGAATTACATCAATTATCTTATCCATTTGAAGATCATTTACGGTTAGCAAAAGGTTATCTTAAAGATGGTCAAAGAAATTTTGGTCACATCAAAGATCTTAGTGAAAAAAAATGGGTTAACGCTAGAGCAGAAGCTTTGAAGGAGCTTTGTGGTTCAGATGATGTCCCATGGAAGAAGGTAATAAGAAAGGAAGGTGGGGTATTTGAGGTTAAAGCTGATATATGGAGTTATGAAGACAAAGTAAGGAACTACAATATCATTTACGAGAAATATTGTTCTGACTTAGAAAGTGCCACTAGTGAACGCAGTAAACTTGAGATAATTGCTCAATACATACAAGATATAGAGTGTGTGCATTTTTTTGCTGATGGTAATTGTAGAATGATATATTTGTTGTTAAACAAAGAATTGCTAAAGAATGATCTAAAACCTACGATATTACTTGATCCAAATAGGTTTGATCAAATGTCTCAAGATAATTTAGTAAAAGAAATTATAGAAGGACAAAACGCTTTTGATCTATTTTATAAAACTGGCATGCCTTATGAAGATTCAATTAGTGACGATGAAATTGCCATTAACATTGCAAAAGTGAATGAATCTGATTTTAAGATTTTTGGTGATTCTGAATTGAGTTTTTCGCAAAATCTTGAATTTATTAGTCGTTCTAAGACTTTAATTAATAAGTTGGTGGAAGTAGTAAGGACCAGAAAAGATATCGTTAACTCGAAAGAGAAATTAAATGAATACTGGTCAGGAATTATTAAGACTCATATAGTTTATGAGTATTTTCAAAAATTTCATGAAAATGATGAATATTCAAAGCTTACTTGCTATGATGTATTAACTAAAACAAATTATAATGATATATCACGCCAATTGTATAGATCAGGTTTTATGGATCATTTGGAACTAGAAGATGTAGCCTACTTTCTAGAATATATGAATTTTAATCATATTATGGATTTTGTATATGATAACAATCCATTGCTAAAGGATAATTTTGAGATTGAAGAAGTTTTAGAACTAATTTTAGATTACATAAATCTTATGGAAGTTACATGTAAAAAATATATGGAAGAATTTACGATTGAAAGCTTATCTGATCATCAAAGATGTCACTTAACTTTTTCTGAGCAGCAAGTGATAGAGGAAATTAGTAAGGAAGAGTTAGCATTAGACGTTAATTGTGTTGTGGTTTTTGAAATAGAAACGGAATATAAGGAAGCAGATGTAATTGGTAGTTGCGAGCAGGGTGATTAATATATAGTCTCTACTATAAACTGCATATAAGATTTAAGCCAAACGGGGCAATTAGGGGCGTTTATGATTTCTTCATATGAAAGCCAGTAATATTCAGATACTTCTCTTGAAGAAGGTGTTACTGCAATCTTAGTTTTCTCAAGTCGGCAATGATAAATAATATCTAGAACTTGTTTGTTATTTTTTTCGTCCGGAAAACAGCTGGTTCGGACATAGTTTATTGGATCTATTAAATCTAGTCCGACCTCTTCTAAAACTTCTCTCCTTACAGCTTGTTTAGCAGCGTCGTCATTGCCAATTGCATCTGATGCCTCAAATTTTCCTCCAGGAAAAGACAGCAACCCACCAGCATGAACTCCTTCAGGGCGTTTTATAATTAGAAATTTTCCATCATGTTCGATGGCACATTCTGTCGCTACTATAAAATCATGCATAAGCTATCTAAATCTAAATAGACCCGCTAGAAAAAATCTAAGTTTCTTTTTTTGCTAATTTGCTTTTAACAGACGGTGAAAGCATTATGTTTAGCTCACGCAATTGAGCTTCATTTACATGACTTGGTGCTTCCATTAGTAAGTCTTCAGCTTGCTGATTCATCGGGAATGCAATAACTTCGCGTATATTTACAGTATCAGCAATTAGCATTACCATACGATCAACACCTGGAGCAATACCGCCATGTGGGGGAGCGCCATATTTGAAAGCTCTAATCATTCCACCAAATTCTTTATCAACTTCTGCGCGGCTATATCCAGCAATCTCAAATGCTTTATACATAAGCTCTGGTTTGTGATTTCTGATTGCACCACTTGAAAGTTCTATACCATTACAAACGATATCATACTGATACGCTTTTATGTCTAATAATTCTTCTTGCGATTTAGCATTTTCCAATATCTCTAATCCACCTTGTGGCATTGAGAATGGGTTATGACTGAAATCAATCTGCTGTTTTTCTTCATTGAACTCATAGAATGGGAAGTCAGTAACCCAGCAGAATTCAAAACAATCATTTGGGATTAGCTCTAGTTCTTGTCCAAGCTTCACTCGAACTTTACCAGCAAGTTTTGCAGCCTCTAGCTCTTTTGCGCAAGAGAAAAATACAGAATCACCATTTCCAATATTAGCAGTTTTTTTCAAAGCTTCTAATTGCTCTTCGTTTAAAAATTTAGCGATTGGACCCTTTGCTTCTCCATCTTCTGCAAATTGTACATATCCAAGACCACCAGCGCCTTCGCTTATAGCAAATTTGATCATATCGTCAAAGAACTTACGAGATTTGTCCGAAGCCTTTGGTGCAGGGATTGCGCGTACTATAGATCCTTTTTTAATTTGGTTTTTAAATAATGAAAATTCAGCGTCGCGGAACACTTCAGTGACATCAGAAATTTCTAGTGGATTTCTAGTGTCAGGTTTATCACTACCGTATTTTAGCATAGCTTCTGCATAAGGAATTCTTGCAAAAGGAGGTTTTGAGACTTTTTTATCACCAAATTTATTGAATACTTCATATAGCATTGGTTCGATCGCTGCAAATATATCTTCTTGAGTGACAAAGGACATTTCTATATCAAGTTGGTAAAATTCGCCTGGTGATCTATCGGCTCTTGCGTCCTCGTCGCGGAAGCATGGAGCGATTTGGAAATACTTATCAAATCCAGATATCATCAACATTTGCTTAAATTGCTGAGGAGCCTGGGGTAGTGCATAGAATTTTCCAGGATGCAACCTGCTAGGAACTAGAAAGTCACGTGCGCCTTCAGGAGAGCTGGCAGTTAAAATAGGTGTTTGGAACTCAGTAAAACCTGAATTTGTCATTTGACTTCTAAGCTCAGCAATTATTTTTGAGCGAAGCATGATGTTATCATGCAACTTTTGGCGTCTTAGGTCCAGAAATCTATATTTTAACCTTGTATCCTCAGGCTCTTCTTGATCTGTGTTAACAATCATTGGAAGCATTTCTGCTTCGGACTCAACTATGTAGCTATTTACCGATACTTCAATATATCCTGTATCCATTGATGTGTTTACTGTCTCTTGATCTCGAGCAATTACTTCACCTTCAACAGTTATGACGCTTTCATATCGCAAGTAACTAGCTTGATCTTTGAGCGGAAGGTCCTGATCTGTAAAAACTAATTGCGTTATTCCATAATGATCTCTAAGATCTATGAAGAGTAAATTACCGTGATCGCGGCGTCTGTGTACCCATCCGGATAATTTTACTTTTTGACCTACGTGCTTTTTGTTAAGCTCACTGCAGTTATGGGTCCTGAATATATGCATAGTTTTCGATAATTATTTATTTTGTAAAGACTGTAAGTATATATATAAAAAATAACCATTTTTAGCAATCAAAAACTAATGCAATTAATAGATACCCAGAAAGAATTTAATAATTTTTGTGAAAAGCTCAAGGATCATACTGTTATTTTCATTGATACTGAGTTTTATAGACGAAAGACATATTTTGCTAAGCTTAGTATAGTACAGATTGCAACTAAGAATGACCGCATTATCCTTGATATGCTTGCAGTTGATGATTATTCGGAGTTAAAAGAACTTTTGGCAAATAAAAATGTGTTGAAGGTTTTTCATGCGCCTGATCAGGATTTCGATATTTTTTATAATTTGTTTGGAGAGTTGCCTAAGAATATTTTTGATACACAGATTGCTGCAGGTGTTATTGGGATGGATAGTGTCATGGGCTACGCAAGGCTATGTAAGGCAATGTTGAATATTGATCTAGACAAAACAATGCAGACGGCAAATTGGCTTGAACGTCCTTTGAAAAAGGAGCTTTTAGAATATGCTATTAAGGATGTAGATTATTTAATTCCATTATATCGTGACTTGTCAAAAGCCATAAATGAAAGAAAGCTTTGGGATACCTATTATGCCAGGAGTGAAAAACTCACTGATCCAGAGACTTATAGATTTTCTCCTGAAAAATTATTAAAAAAATTCACTCTACAAGGTAAAAATTCTGAATTTCGAGATATGTTGATACATTTTTTAGAGCTTCGAGAGAGATGTGCGATTAAAAATGATTTGCCAAGAAATTTTTGTGCAACTGACGGTGAATTAGTGCAACTATGTGAGAAACTTCCAAGAAATGAAGCTGAACTTTCAAGAATTGGTATGCATGGAAAAGCTCTGACGCGTGGTGCATTTAAAGATAAACTGCTCAATCTTTGTAGTGGTTTGAGGTAAAGCAAAGAATAATATCATTGCGAGGAACAAAGTGACGCGGTAATCTAGTGACTTATACTCTAAACAATCATAGTTGGTTCATAGTTTTCTGGAATAGATTGTATGTTTCATGGTAAAGTATCTGTGTTATGATAGTTTTAATTTTGTAGAGATTTCGTTGTTGTTATTTTTTTATAATAAAGCTATATTCATTCAACTATATATCTAATTTTTGAGATTTTAATTATGAGAAATATTGCACTAGTTATCGCTAGTATCTTTTTATTCGTATCAACTGCAATGGCAAGTGATTATCCGCAAACCGATTTAGAGAAAGAAATGGATGAGATGGGTTCGCTACTAGGTAGTGAAGGAATTGTGTTTAGACCTGGAAAGGAAAAAAGTACAGATACCCGTTCAAAGATTGGTAATGTAAATAAGTATCTGTATAAAGCCGCAATTGATGTATTAAAGTTTGCTCCTTTAGCTTCAGCTGACAGCAATGGTGGTACGGTTATTACAGAATGGTATAGTCCTGCTGGCCAGAAAGATACACAATTTAAAGTTAATGTTTATATTAAAGATGAGTTAATTACTCCTGAGGCTCTTGAAGTTGTTGCTTTCCAAAGAAATAAAGTGGATGGTAAATGGTCTGATGATCATAAACCTTCACCAATTGCTTCTGTTTTGGAAGATAAAATTATTAGAAAAGCACGTGATCTTTATTTGAAGTCATCGAAATAAGTTGTTTTTATGAGCACATTAGATATCGAAAAAAAGTGGCAGCAGAAATGGGATAAGGATGCCGCTTTCATTCCAGAAAATAATTCAAGCAAACCAAAATATTATGTGCTTGAAATGTTTCCATACCCATCAGGTAAATTCCATGTTGGCCATTTGCGTAATTATGCGATTGGAGATGTGATTTCAAGATATTTGCTGAGTAGTGGATATAATGTCCTGCATCCAATGGGGTGGGATGCGTTTGGCCTTCCAGCTGAGAATGCTGCAATTGCAAATAATACGCATCCAGGTGATTGGACTTACTCAAATATTGATGCAATGCGTGATCAGTTAAAATCAGTTGGTCTTTCTTACGATTGGAATAGAGAGCTTGCAAGTTGCTCGCCTGATTACTACAAACATGAGCAGAAATTTTTTCTAGATCTTGTTGAGCGCGGCATTGCCTATCAGAAAGAATCTTCAGTCAATTGGGATCCAGTTGATAATACAGTTCTTGCAAATGAACAGGTTGTTGATGGGAGAGGTTGGAGATCTGGGGCTCTTGTTGAAAAGCGCTATTTGAAACAGTGGTTCCTTAAAATTACTGATTATGCAGATGAATTATTGCAAGATATCAATAAGCTAGAAGATTGGCCAGAGAATGTAAGAACAATGCAGCGTAATTGGATTGGCAAATCTGAAGGCGCAAGATTCTATTTCGATATAAATGGTCTAGAAGATAAAATTGAAGTTTACTCTACAACTCCAGAAGCTATCTTTGGCGCTACTTTTGTTGCAATAGCCTATAACCATCCGCTAGTACAAAAAGTTGCTGTAAATGATGAAATTAAGACATTTATTGAAAAATGTGAGCATACTGCTACGTCTGAGTCAGCTCTTGAAAAAGCTGATAAAGAATGTGTATATACCGGTTTATATGCTAATCATCCATTTGATGAAAATGTCAAAATACCTGTTGTTATAGCAAACTTTGTACTTATGGATTATGGTACTGGCGCTATTTATGGCTGTCCTGCTCATGACCAGAGAGATTATGAACTGGTTCAGAACACAGAAGATTTAGATTTGTTGCAAGTGGTACATAGTGATAAGCATGAATTTGATCTTGATAAACATGCTTATATATATGATTTAGATGATATAATGATTAATTCTTCTTTCCTTGACGGTCTAACTGTTAAAGAAGCAAGAAAAAAGTCGATTGAGCGTTTCGAAGAGCTTGGTATTGGCACGCGTGAAACAAATTATCGTTTGCGTGATTGGGGAGTTTCTCGCCAGCGTTATTGGGGTTGTCCGATTCCTATTATTTACTGTGCTGATTGTGGCGCAGTTCCTGTACCTGATAGTGACTTGCCCGTTGAATTACCAAAAGATATTGATTTTGAGCAGACTGGTAATCCTCTAGATCATCACCCAACATGGAAACACGTGGATTGCCCGAAATGTCCTGCAACTGCTGTGCGTGAGACAGATACTTTAGATACATTTTTTGAATCGTCATGGTATTTTGCAAGATTTTGTAATAATGAATCAGAGCAAATGGCAGATAAAGATGCGTGTGATTATTGGTTACCAGTTGATCAATATATTGGTGGAATTGAGCATGCTATTTTACATCTTTTATACGCAAGATTTTTTACTAAGGCTATGTCGGATGTCGGTTATTTAAGTGTTAGAGAACCATTTAAACGACTTTTAACTCAAGGTATGGTGCTTCACGCAACATATAAGGATGATGAAGGCAATTGGTTATATCCTGAAGATGTTAAAGAAGATAAAAATGGCAAATTAGTACACTCTAAGACTGGTAATGCTGTTACTCGTGGCAAGATTGAAAAAATGAGTAAGTCAAAGCTGAATGTGATTGATCTTGAGAGTATGCTTGCTACCCATGGGGCTGATGCAATTCGTATGTTTGTATTGTCAGATAGTCCGGCTGAGAAGGATCTCGAATGGTCTGCTGCAGGGATTGATGGCTGTAAGAAATTTATTACTAGATTAGAAGCCTTTGTTGAAAAACTTCCTGAGTTGCAAGAAAGTGGAACTACAAACAAGAAATTACAAACAAAGATTCATTCTACTATTAAATATGTTTCGGAAGATATAATGCATTATCGATTAAACAAGGCAATAGCTAGAATACGTGAGTTATATAATGCAGTTAGTGAAGAACTAAGTAATGATAAAGTTGATGTAGAATCGATAAAAGAATCTGCTGCTATAATGATTCAGCTGCTTAATCCATTTATTCCACATGTTACTGAGGAGTTGTGGGAGAGAATGGGTAACACAGATCCGCTATATAAAACTGATTGGCCAAAATTTGATGAATCTAAACTTGTTTCTGATAGCTATACTATGGCAATTCAAGTGAAAGGCAAACTGCGTGCAACTCATGATTTTGGCACTGATTTAAGTGATGATGATATCAAAAAAATAGCTGTAGAATTACCTTCAGTATCAAAACATATTGATGGTGCAGAGATTCGTAAAATTATAGTTGTTCCCAAGAAGATTGTTAACATTGTTATATAGGTAATTGACCATATGATGGATCAAATTACGGTGTTGCAGTTCTCTTATGAAAGTGATAACCATAAAAATTAATGCCAATTTTGTCTGCAGCAATTTGTACTGATTCTAGATTATTTTTGCTATCATCGATGAAAATTACTTTTGTGATTGGTGATAAACTTTGATTTTCTCTCAGTTTATTTAACTCAGTAATTAAATCATTAAATATTTTTCCTTTTGGATTTAGATCATGACAAAAGACTATTCCATTGCGCATAGTGGCAATTTTATAGTCGTAGCTCCAAACTCTTTTTGTTCCATGCCTTATGTTTCCATAGTTTTTTGTGAAATGAAAATCTTTCGGTTGTTTGAAATGTATCATATGTTTTTTTAGTTGTGATAAAGTAATATCTGAAGCTATTGGCTGTCTTGCAGTAAAGCCTAAGATTGTTGCTTTCTTATTATCTAGAATCCTATGTATATATTGGTCTGTTAGCTCCGTCTCGACAATTCTTTGTGATAAAAGCCATCTAGGATAGATATCAATTATTGATTCTTCATGAGAAATATTCTTGTTAATAGCATTATTCCTTACAATTTTCTTAAAGAAGTCAACTGAACCGTAATGTGTAGTAGAAGTAATGATTGTATCGTCTATATCTACCAGAACAAGAGTATTTTTATCTATCATTATGGTTGACTCAATTTCTTTAAAGTGAGTAATATCCGTAATTTTGCTTTCTACATATGTTGGTTCTATGTGTGTTATATATTGTTGTGCGCATGAGCTAATAATAATTGAACAAATTAGCGGTGAGCTAATTGGGAATTTATTTAGATCTATTTTGTGTTTATTTTTCATTTTGAATATGCCTAATAAATTTATAACTCTTAGTTTATTTGTAAATTTACATTGTTTTTTGATTTAATCCCATCCGTGGTTTTACCTTACGTATAAATCTATAATAGATTGGGATAAAAACTCTAGCTATTCGCTCTATATAAATAGCTGAATCATAGAGAGTATAAGACTTTTATGAGACTAAGATTAGTTTAAGTATTTTTTACCTAGTAAATATGAGTTGTATTCAAATTACGCATAATGTAAGATCAAGCGTATCAACTTAAAGTTGAATTTAAGCAAGGGGCTTGAAAGTGGGTAATGAAGTTAATAAAAAGATTATTGAATTAAAGGACTATAATGTAAGCATGTTGGATGACTTAAATTGTTTAAGCCAACCAATAAATAATTATGGTATAAAATTCCTGACTTTTAGAAGAGTATATGACGATGGTAGGCTAGTACATTTTGCAAATGATAAAGATTGGCTACTCTACTCATTTGATCATCAACTTTGGCAAAGTACAAGCTCTCTTAAAAGGATATCTAAATTAAATGCAGATGAACAATTTGCGCATGTTTGGTTACCAAATGCTCACCTAACAGATCATGTCTATGATGCAATGAAAAGGCATAATTTATGGAATGGTCTGACTCTTTACGATAAAAGAGACGATTACGTGGATTTGTGGGCTTTTGCCACTGATCAGAGTAATACAGAAGTTATGAATTTATATGTAAACGAGCTTTCTGTGATTAAGAGATTCATTTTATATCTACACGATAAGGCAAATTCACTTTTCTTTCCAAAGGATGTTGATCTTTCTATTAAGGTAACTAGTGAAGCGGAAGTGAAATCTGCATTTGTAAATGACAATAAAAATTTTGTTCTCGATTCTTTTGGAATTAATAAATTTTATTTTGATGCAGAAAGAAAAAATTACCTAACAAAAAAAGAGTTTTTTTGTTTGAACCTCATTTCTAAAGGATTGTCATTTAAGGAAATTGCAAGGATATTGAATATTTCACCAAGAACAGTTGAATCGCATATTAATTCAATAAAGCTCAAGACTGATGCCCACTTTAAGAACGATATTTTGCACAAATGTAAGTATTTAATAAATATGTATAACTAAAAATTATTATGAATAAATCACTTAAAAAAGCTCTGATAGCGCATACTCTTAGTAAATATGATGTATTTCTTTTTGGTTTTTTAGCTTCAATTATAAAACCACTTTTTTTTCCTACTTCAGAATTTATTGCAAATTTGGCGATGTTTGCTTCGTTTGCTGCGGGTTATTTAATAAGACCTATTGGAGCAATTTATTTTAGTCATATTGGTGATAGATATGGTAGGAAAGATGCTTTTATGAGAACGGTGTTGTTTATGATGTTTCCTACTCTTATTATAACTTTTTTGCCAGGCTATGAGTATATTGGGCTTGCTGCGCCAATTATACTAATTGCAAGCAGACTAGTTCAGGGGTTTGGATCTGGTGGTGAATTTAGTGGTGTTGCTGTCTACGGCGTGGAGCTTGTTAAAAAGGATCGTGGTTTTACTGGCGGACTTATAAGGTCAGTAGGATTCCTTGGAACAGCTATTGGTACTGCTATTGCTTCATTTATGACTCTTTCATTTATGCCATCTTGGGCATGGAGAATTAGTTTTCTTATAGGAGCAACTGCAACATTATATAGTTATTTTTTAAGAAAAAAGATGGAAGAATCAAAGTATTTCGAGGAAATAAAAGAGAAAAATCAAATCGAAAAAGTCCCATTCTTTACATTAGTTAAAATACATAAATTCAGAATTATAACAATATTTTTGGTTAGTTCCTGCGCATATGTCTTCTTATATTTTTCAACTATTTATATGAATTCATTATATTCAGATAAGTTTGGTTTTGCGCCTACTTCAAATTTGATTATCAGTACAATAATAATGTTGTCTTGGATGGTTATTACTCCTGTATCAGGAATTATAGCTGATAGAATAGGACTACTAAATCTTCTGACTAAAACTGCTTGGTTTGGTTTATTTTCAACTCCTATTGCATTTTATATTGCGTTTAGTAATTTTAGCTATGTTAGTATTTTTTGTTTACAAATGTTTTTGACTATATGCGGTGGTATGTTTTTTGGTGCTGTTCCGGCATTGTTTAAAGAAATCTTTCCGACAGAAGTAAGATATACTGGAACAAGCTTCAGTAATACATTGGCTCAAGCAACTATAGGAAGCCTATCGCCATTTTATGCATCTTTAATTGTTGGAATATCGGGTGTTGACTCTATGGCAGGGGTAGTAGTTTTTATATCTATTATATTAGGTTTAGTTGGACTTACTTTATGTAAAAGGTATGTCAATGGATGAAGATGGTAGTGAGATATTAGACTTAGTTTCAAGTGATGATGAGGTAATAGGTAGATTAAGTAGAGAAGAAATATATCAAAATAATTTAACTAATTTTCGTACAATCAATGTTTTTGCCATAAATAATAAGAATGAAGTGTGGTTTCCTATCAGGCACCATAAAAAAAAATTATGGCCTAATATGATTGATGCAAGTATTGGTGGTCATGTTAAATCAGGAGAGACATATATTGAGGCTTTTAAAAGAGAGTCTATGGAAGAAGCAAGGCTAGATATTTCGAATATGTCCTGGAAGCTTATAACTAAACTATTGCCTTATAAGGATCAGATTGGAAGTTTTTCAAGCGTTTATATAATATTCTGCGACGATCAAGAAATAAAATTTAACACAGATGATTTTAGCGGTGGAAATTGGATTAATTTTAATTCAATAGACAGTTTTCTTGCAAAGAATCTAGCTGTAGTGAAGCCCGATCTTCCTGCTCTTATCGATATATTAATTAAGAATTATACAGCTGCTTAGAGTTGTAGTTTATGTTGGCTTTGGGAATGTGATGCGAGTACAAAAAAAATATTCAAAAGATGAGTTTTATAATCAGAAACTCAGCAATATTATGGGAATAAAGTTTACATATCGAGAGATGGATGTACTAACTTGTTTAGCTAGTAAGTTAGATGAAGAAAAAACATCTTCAATATTATCTATTTCATCAAAGACTATTCGAGTTTATCTAAGAAACATAAGAATAAAAATTGGCAGTAGCTCTAATGAATCTATACTACAATTTATAAAAAATTCAAAGCAATACTCTCTTATTCTTGAGTACTATAAATATATAAATATTGAGAGTATATTTAAAAAGCATTTACGATATATTGGAAAAAAAATCAATTCTAAAATGCTTAATGTGAGTGTTAAGTGCAAATCGTTATCAGCTAATGAAAAAAGCAGAATGCAAGCTTTAAGTGAACACCTAAAACTTGCTAATGTTCACATCGAAGAGCCTAGTAATCAGAATTCATCACTAAAATCAATTAGTGTATTAAATAATAATGCTCTAAAATATAACAAGAAGGATATTATTATTAAATTAGATGATTTTGATTCTTCTGGTAATGATCAGAAAGAAATTATTGATTTTAATAATAATTATTATGAATCAGTTTTTTGTTTAATAAAAAAGTTATTAAAAAGCTCTAAACTCGATAGTATTCACGACGAGTATAAGGAAGATATTCAAGGATTTATTTGTCTTGCAGAGGATAGCAAAGTTACAAATCAAATATATTTAGGTGTAATTTTGGTTTTTACAGTTTTCTGCATATTTTTACTGTTTAATTTTAAGTTTAAGGGATCTGTTAAATCAAATTTGCCTATATATAATTTTGAATTGAAATTATATAGAACAAGTATAATGAACCAGATAAAGAAAATACTATCTGGAAGAATGGGTATAAAGAAAGTTGTATTAATAGGTATTGGAGGATCTGGAAAAACTACTATAGCAAGGAGATATGCTCAGAATTCTGATTCAACTTTAATATGGCAAATAGACTCAATTACTAAAGAGAAAACATTTTTATCATTGCAGCAATTAGCTTTTGCCCTTAGTAAAACAGATGCTGAACGCAGTGAATTAAAAGCCATTCTATCGCTTGAGAATAAATCGATTAGGTATGGAAAATTTATGTCGTATCTAACCCAAAAGCTAAAAAAACATTCTAATTGGTTATTGATATATGATAATGTTGAGAGCTTTCAAAGTATTAGGAAGTTTTTTCCTTTTGATGCTAATGTATGGGGAGAAGGAAAGGTTATAATTACTACTAGAGATAGTAATATAAGTAATAATATTTTTATTCCTGATGATAATATTATTTTTGTTCCTGAATTAAGTGCGAGTGATAGATATACATTGTTTTCTAATATAATTGAAAAGGGAAAGCTAAAAAGTATAGATAACGTTGAGAGAGCTAAAAGAATTAGTTTTCTTAAGCAAGTGCCTCCATTTCCTTTAGATGTATCAGTTGCTGCACATTATATAAAAGAAACAAATATTTCATACGAACTATATTTAGACTATCTATTAAAAAGAAATAAAACATTTATTTTAGAACAAGAGAAAATTCTAAGTGATATTGGTGAATATTCAGGTACTAGATTTTATATTATCGCCGCGTGTGTAAAGCAGATAATTAAGGATAATCCAGATTTTAAATTATTATTATTTTTGATAAGCTTAATTGATTCACAAAATATTTCTCGAGAAATCCTTATAAATTATAAATCGAATATTGTAGTAGATAAGTTTATACACTTCTTAAAAAGATTCTCACTTATTACTGAGCAGGCGCTTTCTGTAAATGAGCAGGGTATTGATTCAATATCGCTCCATCCCAGCTCCCAAAAAATTATTTTGTCTTTCCTTCGGGCTAAAATCGATGGGAATGAAAAGCAGATGATTTATAATCAAATTAGTAAGTCTTTAACAGGTTATATGTTAGATGCAATTGCTAAAGGGGATATAGTAAAAATTAAACTAATTATAAGACATGTAGAGACTTTTTTAAAGAATACAAATGCAGACATACCTATAGACATCAAATTAGGAAATATATTGAGTGATTGTTATATGTTTATTGGTGAATATGGAAAGTCTGAACAATTATTGCAGAAGATTCTAAAAACAAAAAATTTTCAATTTCAAAATAATACAGAAGATTTTACGGAGACTATAAGCTATCTAGGAAGTCTCTATAGAGCGCTCGGTAAGTATGACGAAGCTCTGAAATATTTAGAAGAATCATCAAAGCTTTTCATTGATCAATATGGTATACAAAATGCGGCTACGCAAAAGTCTCTACTGAATTTGGCGTATGCTTATAGGGATTTAGGAAAATATCTTAAAGCGCAAGATATTTTGGAAAAAATGATTGATAAATTGAAGAAACTTAGATTTGATAATGAAATTGAAATTGCTAAGATTAAAGGTGAACTAGCCTATATTTATAAGATGCAAGGGAATTACGAAAAGTCATTGAACTCTTTTCAAGAGTGCCTTGCGGTTTTAAAAAATTTCTATGATGCTAATAACGTTAAAGTTGCTTGGATATATATTAATCTTGGCATTCTACATAGAAATATGGGGAATTATAAAAAATCCAAGGACTTGCTAGATTATGGACACAATATTTTCTCTGATCACTACGGAAAAGATAACGTAAAGATAGCCTGGGTTTTAGTTCAGAAAGGAAATATTTATAGAGATTTAGGAATTGATAAAGACACGATTGGATATTTTGAAAGAGCGCACGACATATATAAAAATTTCTATAATGAAAGTCATATGAGAAGAGGCTGGTCTGGTGCATATCTTGGAGTGGCATATCTCAAATATGGATTATTTAAGAAGTCTATCTTCTTTTTAGAGCAATCAGTAAGAATGCACAAGAAACATTTTGGTTTAAACCATGTTAAAACCGCTTGGATTTTATTCCATTTAGCAGACGCATATATAAAAACTAATAATTTAAGTTCTGCCGAAAGCTTTTTGAAACAAGCGGATAAAATTTATCAAAATTTTTACGGTAAGGAGCATGCAAAATATGCAAATATATTATTAGTTAAAGGGTATTTAAATTTTGCAAAAGGCGATATGAAATTAGCTGAAATTATGTATAAGGATGCTTTGAAAATATATGAAAATAATTCGCATATTAAGAAATATCTTTGTTTAGAAGCATTAGGTGATTTGTATTCTACGCTTGCAAAAAATAGCTATTCCCAAGATAAAAAAGTCTATTTATCATTAAATAAAAAAGCAGAACATTATTATAATCAGTCACTTGCTGTAATATTAAATGATTTTCCAGAAAAATCTATTCACATAAAGAGAATCAAATCTAAGATGAAATAGTGTTTTTGCTATTGTGATAGTAAACTGAGCTTAAATTTATAAGTAAAAAACACGGAATTCTAATATCTAGATTTATTGTATTATATAACTGAGGGGCAGTGTAATGTTAATTCGGTAAAATGAGGGAGGTTTTGAGTTGTATAGATTAAATAAATTTATTTTATTTTTAAGTGCTATAATAGCATTATCTTTTAGTTGGTACTTTTTTTTTGGTAATGTTCCATTAGATATTATACGCTCTGAGCTTCCCTTACCTTATAGTCAAGTTACCTTGGAACGTAAAGGTATAATAAATGAAATTGTAGATCGTTTTAAAGAACAGTCTGGAATACAAGCGATAGTTTTACAAGGAGTTGGCGGTTCTGGTAAAACTACTATTGCACGTCAGTATGCTAGTAAGCAAAATTATTCAATCATTTGGGAAATAAATGCAAAGAATAGAGAAACAATAGGTGCTTCGTTTGAAAGACTAATCTATTCTGTTTGCACTACAGATGAATTGAAAGACGAATTGAAGCTTATTTCTAATGATACTGATATTAATAGTAAAGAGCGTAAGTTATATCTATTTTTTTCTAAAATTATTAGAAAGTATGATAATTGGTTACTTATATATGATGATGTAAGGCAGTTTGAAGATATAAAAAAATATTATCCATATGATGAGTTAGTGTGGGGTAATGGCAAAGTTATAATTACAACGCGTAACTCTTGTATTAAGGATAATACATTTATACCAGATAGTAATTTTATCAATATTCCTGAGCTTACAGTAGCAGAGAAATCTAAATTATTTAAAAAAATCCTTCCGCGAAATATAGCATTTCTAAATGATATTCCATATGAAAAACTCTTGGAGCAGATACCATCATTTCCACTAGATGTGATTACTGCAGCTTACTATATTAAGGAGGAAAAGATTCCATTTTCAAAATATCTGCACTATATAAGAGTTAATGATGGTCAATTTGCTAGGTTTCAGGAAGAAATTTTATCAAATGTAGGAAATTATGATCAGTCTAGATATGGAATAATCTCGACATCTGTTAAGAACTTAATTGATAATAGCAATAATATTTATCAGCTATTATTACTATGCATGCTTGATACTAGAAATATTCCATATAATTTAATTACTAAAGATAAAAGTCCAGACATTATTAATCAAATAAATAATATGTTAAAGTTAGCTTTGATATCGACTGAAGATAAGGCTAGAAATTTTATTTCAATCCATAAAACTACGCAAGTAGTTATGCTGTCAACTATTCTAAGTTCTTTAAGTGATAAGAGAATTAGAGATATCTCTGATAAAGTGGTTTTAGATTTTCTAGAATATTTGAAAGATAATTTAACTAAATCTGGAGTTTTTGAGAGACGGTTGATGATTAATCATATTCACAAAGTTCTAGAAAATGTAGAAATATTGTCAAGCGAATCAGAGCTATTATTAAATCAAGCTTTAGGAGAGTACTATATTAGGATTGATGAAATTGAGAAAGCAAAAGAAATTTTTCAACAAATTGTTAAAAACAATAAAGAGTTCTTTGTAAAAGATGCTAGTAGAATCGCTACATCAATGGTGTTATTGGCTATATGTAATATTAGTCATCATGAAAATAGTAAAGCAAAAGAGTTGCTTATAAAGGCAAATGAAATTTTTCGTAAATCTGACGAAAATGATAATAATGTTGCATGGACTTTGGTATGGCTTGGAGTTATAAAAAGGAATTGTAGTAATTATGAAAAATCCATTGATTTGCTAAAACAGGCAATTGAGATATATAAAAAAAATGATGAACAACAAGATTTACACTGGGCAAATGTTTATCTTGCAAGTGCGTATGAAGGAATTGGTGATTTTGATAAATCGAAAATCTTATTAGAAAAAGCAAGGAAGTTTTTTATTGAAAATAATGGTCCAGAGCATCTTAGAAATGCTTGGATATCGACTTATTTAGGTAAAGTGTATACTAAGATGGGAAAGCATGAGAAAGCAGAAGAGTTGTTAAATCTTAGTCATGTATTACACAAAAAATTCTTTGGAGAAAGACACGATAAAATCGGGTGGAGTAAAGAGAATTTGGCCTATCTTCATAAAAATTTAGGTAATTACAGAAAATCTAAGCAGTTAGCAAATCAGGCACTAAATATATATTATACATATAAGCCCGTAAATTATTTAGCATTATCAAGAACTAAAATGATTTTAAGTAATGTACATGCTGCTAATGGTGAGTATAAAGAAGCTGTTAAATTTGCGCACGAATCATTAAATGATTTAAAGAGATATCATGGGAAGAATTATTATGGGGAAAAAAACACTCTCATTACAAAGCATATCAAAAGTTCAATTGGAGTTTTGTGCGGGTTTAATAATGTGAGAAGTAAAGTAAGACACGCAAATATGACGCAAGAGTAATTCTAGTTGATTATTTTCTACATTAAAATTAAGTGCAAATTAATTTAGAGTGGTCAATTCGCTTGGATTTTTAGGTAGTGAATAGATAGAAGATAGTAGTTTGTAAAATAATTTAGTAATACAACTTAAGATCTGTTATTATCCATATAATACAACTTTAGATTTACCGAGTGTAAGAATGTTAACTCATCAAAACAAGCGTGATGAATTGTATAATCTTAATCTCCGAGAGATTGGTGGTATTAGTTTTACTCAAAGAGAAATAGATGTACTTGCTTGTATCGTCGTTCATAATCGCAGCGAAAAGATGATAGCATCAATATTGTCAGTTTCTCCTAGGACGATTGGTACACATACAAGTAATATAATGAAGAAACTTGGAAATAGTACTAGGGAGAATATTCAAAATATTGCAAAAAAAAGTGGGAAACTGGCATATATTAGAGAGTATTATGTTCATTTAAGAGTATATTCAATGTTTATAAAAGTTCTCCAATATGTTGGTAAGAACTTGATTAGGCAAAATCTTAATCTAATAGTTAATGGTTCGGTCTCTAAAGAAAGTGCATGTAATGAACTAAAAAAATACTTAGAGATTGCGAATATTAATCTAGAATTTATTGGTAGCAAATCAAAAACTAGTTATCAAGCAGTCGCAGTGTATGATAGCAATAAATCTGAAAAAGAAGCAATTTATTTGCAGTTTGAAGAACATATTAGCGATGATGAAAAACATAGTGAGTATGTAAATTTATATGATCCGGATGTTTTCTATTTTTCTGTTTTAAAATTAGTTAAGTTTTTTGTAGATAGTCCAAGATTGAATAAATATATTGATGATTTTCATTCAGAATACAAGTCGATCATAGGTTTGAGTATAGCAATGCCTGAGATCTCAGATTTGCAAGCAAAGTATGTTGTTTCTACTAGAAGAATTGTTCAATTTTCTACAGTCATTTTTTTAGTCTTGGTGTTTATATTTTTACTGCAAAATAATATTGTTTTTACTCAGAGAGAAGTTATCAAATCAGATATGCCGCTAATTTCGTCATCGATAATGATAGATAGAAAAGATCTATTGTTGGAAATGGATGAAAAGATAAAAAGCTCTAATCCCATTGGTGTAATTTTTTTATTAGGCATTGAAGGATCAGGTAAAACTACTTTAGCTAGAAAATATGCGTCTAGTTATTCAAAAGCAGATGTTATTTGGGAAATCAATGCTGAATCTAAAGATAGCTTAGTTAAATCTTATAATGATCTTGCATATAGGTTATGCACTAATGAAAATGATATAAATGAGCTGAATATCATTTTAGAAGATAAAAATCAAAAAACAAAATTACTTGCCGTAAGGTCCTTTATATTAAAGCATTTGGAAAGGTATGATAGTTGGTTATTCATATATGAAGATATGAATAGTTTTGATGAGTTAAGGAGATTTATTCCTTCTGTTTCGGAATGGAGAAAAGGTGCTGTAATAATTAATACTAGAAATGCAAATATACAGAGCAATCATCATATTCATAAGGATAATATTGTAAAAGTTGGAACTTTAAATGATCAAGAAAAATACAATTTATTTACAAATATTGTTGGGGGGAGTCGGTATGGTTCAGACAATGTCAAGAGTTTCTTAAAGAATATACCGCCATTCCCATTAGATATAACAGTTTCGGCATACTACATAAAAGAAGAAAAAATACCTTATAGTGAATATATCGATGTAATGAATGTTGCAAATGAGTCTGTTGTAGATATCCAAGAGGATATTATGCGGGATGTAGGCGTCTACAAAAAAACTAGGTTAGGGATTTTAGTATCTTCTATTCAAAAAATAAATAGTATAAATCCTGATTTTAAAGATTTGCTATTCTTCTGTAGTTTAATTAACTCTGAGAGCATATCTAAGGAATTACTGCTTAATTTTAAGGATGAGAAAGTAGTGAATGATTTTATTTTTTATTTAAAAGAGTTCTCGCTTATTAATATTGAATCTCAAGATGAAAACAATAAAATTAAGAGTTTTAGCATAATTGCGACATCTCAAGTTGTAATTAAAAATTACTTAAAGCAATTATTATCAGGTGTTGAGTGTGAGAAAATAGCTAAAAGTGCAGTAAATACATTTAAGCAGTATTTTGATAATAATAACGATACGATTGAAAAAGAAAAAAACCTAGTTTTTTACAAACATATAGAGTCTTTAATTAAAAATAGAGAGCTAATTGAACCAAAAGAAGTGGCTTATTTTTCAAGACTAATAGGTGTCTATTATGTTGCAAATGAAAACTGTGAAAGAGCAAAAAACTTTCTAAAAGAATCGTTAGATTGGTATAATCGTTATAAATCAGGCTATTCAGCTGAAATTGCTGAAATTTCAGTGAATTTGGGTGAACTTTATTTATTTATTGGTGAATATGAATCAGCAAATCAATTTCTGCATGTTGCGAGGGAAATTTATTCTAAAAATATAAAAAATAATGAGTGCGCTTTATCATGGACATATGCACTATTAGGCTACAATTTTCGGGCCATGGAGAATTACAAGCAAGCAGAAATTTATCTTACAAAATCTTTATCACTTCATAAAGAATGTAGGTATCTATCAAAGAAAGCAAGGATCCTTGGATATTTGGGTAGTGTGCACAGAAATTTAGGGAATTATGATACTGCATTAAACTTCTTAATAAGGTCAAATAATTTGATTATAGATACTTTTGGTGAAGATCATTTTCGTAAATATTGGATAGATAATTATTTAGGACAGGTTTATTTGTGCCAGGGTAGATATATGAAAGCTGTTAAGTTTCTTGAAAGCTCTGCATTAAATTATTTGAAAAAATTTGGAAATAAGGATAGTAGAACAATTTGGGCATATACATGGCTTGGCAGCTTAAAAGGAAGTTTAGGTCAGTTCGAAGAAGCTAGCGATATCTTAAATAAATCTTACGTTAGATTTACAAAGCTTTATCCTTCAAAACATTTAACTATTGCATGGTGTTCTAATCTGCTCGGAAATATTTATAGGCAGTTGGAAGACTATAATTTAGCTATGCATCATCTTGAAGAAGCTCAAGAAATCTTTGGTGCAAAACTGGGTAAAAATAGTATTAAAGGAGCTTGGAACTTACTAAATTTAGGCTTGCTTTATAGAGATCAAAATGAATTAGATAAGGCAGAGAAATGCTTAGAAAAAGCATTGAATATATATTATGAAAAAAATGGTCATGATCATAAAAGAACAGCAGAAGCAATGGCTGAGTTAGGTTATACTAAATTTTTGCAAGGTCATGTTGATAAAGGAGAAAAAATGATTGAAGAAGCCTTAGGAGTTATGACAAAGATTGATCATTCAAATAGATTTACCATGTTATTAAAACTAGCTGATATTAACAAAGACAAATTAAATAAATATGAATTATCTGCCGACGAAAAAAATATGTTGAATGACCAAATTCTAAAATATATGAATAGTGCGCTAGATATAGTATCAAGTGAATTACCTCCTGATTCATACCATGTAATCCGTACAAAGCAGAAAATACAAAAATATTTAGAAATTAACTTTTAGTTTTAACTCCACTTTTTTTGACAATAACAGTTGGAAAAATATGGTGTGAATCATAAATTATCTCATCGATTTCAAAACCAGCTTTTTCAAGTAAATCTCGAGTTTCCTGTTCTGTACGATACTCCCTCCATTTTACACTTAAAATATCAGCAAAAATAGAGATTTGTTTTTTTAAGTCTTCTTGATCAACATTAATCCAGGGTGATTCTTTTGAGTAAGTAGGAGGTGGTGTTATAAAACTGGTTATAAGTCTTCCATCTGCTTTGAGAGCTTTATGGAATTCTTTATATAAATTTACAAGTCTATCGGGATTTTTTTCATAGATGCTCAGCCCATTACTTAAAATTATATCAAAAGTCTCTTCAAACTTTAGGTTCCATGCATCGCCTTTTATTATTTGTATTTTATGATTTTTATTATAATTTTCTGCATTTATTTTTGCCATGCTTAAAGAATTACTATCTAAATCTATTCCAGTGATATTGATTTTATTTTTAGTATTAAAATCGATTGTTAGTAAGTCATCTAAAAGCCCGCATGGAATGGAAGCTATATTAATTTGATGTGACTTAGATTTTGATTCAACAATTTTTTTTGTTCTGTCTTGAAAAATATAGAATCTTTCGCGAGTTGCAAGTACTGTAGGAGCTCTTTGAATAAGCCATTTTTCCAGAGGGTGCACTTGTTTGTTTTTTACACCTCGTAAAATCAGATAAGATATCCAATAGCCATTTAAACCTCTGTTGTTTAATAAGAATCGACCAAGATCAAATTCATTCAATTGATATAGCATTTTGATTGTTTCTTCTTTAGATAAAGATAGAACCTTCTTGCTATTAATTTTTTCAATAATACTATCAATATTTATATAAGATTCGTTGATATTATGTGTGATTATTTTAGTTTCTGACGCAAGACTACAGTGAATCCAAAGTAGAATAGATATTATGATTTTTGTTATATTTTTCATTTGTTTACTCTCCTTATTTTATAATTTATTTATTCAAACGCTCTATTAGAAGCTAGCTGGGCGGATTTCTCTTCTATAATTCTAATAAGTTGTGAATCAGAAGGTAAATTCTTTTTTGCTATTAATAATGCACGATCCAAGTATTCTTGTGCAATTTTATAATGTTTTTGTGCCTTTGAATTATTACTATTTTTGCTGTATTCTTGAGCTTTATTTAACTCTATATCGGCAATTATTTTTAAAGTCGTATATATCTTAGTGCTATTTCGGTTTTCTAATATTGCTAAAGCTCTTCTGACTAGGTTTTCTCCTTCTAGTATTCCATTAAAAAAGTATATTTGTCCCATCTTCTGTAAGGCTAGAGCTGTTTTTATATGTGTAGCTCCGTAATGTAATTTATAGCTATCATATGCTTCTTTAGAGTATTTTAGAGCTTTTGCAAAATCACCCTGACGGTTATAATTGTCAGAAAGTATTTTTTTAATCCAGCTTGTTCTAATATGCTGAGCTCCAAAGTGATTTTGATAAGCTTTAAGTGCTTTTTCAAGATGAGATTGAGCTAGTAATAAATTATTAGTTCTATTATAAAAATTACCAAGATAAACATCTGCCCAGGCTCTTTCTATATGATTTGATTTGTAGTATTTGCCATATTCTTTATAACCTTCCTCTATGAATTTTTTAGCTTTATTATTATTTCCAGCATAAGTAAGTACATATCCAAGTCTTAAAAAGCACCATGCAGTATACATATCTTCTTTACCATGCTTTTTAACTAGGATTTTCGATGCATGATTTAGTAATCTTATCGCATCGTCAATCTTTCCTTGATCCCAAAAAACATGACCAAGATAGGTCATAGTACATGCAGTTACTCTATTGTTCATTCCATATTTATTTTTATAGATTGTCATTGCATTTTTTAAACAATTTATAGCTAATTTATATTTTCCTAGATGCCGATATGTGTGAGCAAATTTGACTTTGATTTCAGCTACGGATACATGATCATCTCCGTATTCACTCAGTCTAATTTTCAAAGCTTTATTAAGCATTTCAATAGAATCATCATAATAACCTTTTTGTCTGTATAAGCTTGAAATTATACAAAGAGCTTCTGCAACGCGAGGGTGTTCAGCTCCGTAAGCATTAGTATATATAGATAAAGCCTTATTTAGTAATTTCTCTGATCGGTTATACTGACCTACTCTATAAAGGGCCTTGGCTAAGTGCATCAGTATACGGGCAGTTTTGGGGTGATTTTCTCCATAGTGATTTTGAATAACGATAGAAGTAGGTTCAAACAATTTTATAGCTTCGTAGTTGTGCCCTATATCTGATTCGATAATTGCAAGATAAAATAAAGGTTCTGCAATTTCGATTGATCCTATTTTAAAAAGTTTTTCATTAATTTTAATACTTTCTTTAAGTGCTTCCTTCGCTTTGTTATATTCAGAGATGTTATAATATGTAACACCTAATAGATAAAAGATTTTTGAAACTTCAGGGCTGTATTTACCATATTTTAGTTCAGCAGTTTTAATGCATTTCTTTAGTAATCTTTTGGCTTTGTAAAATTTTGTAGTTTTTAGATAATAATTAGCTAGTTCAATCTCAAGATCTACTTGTTCTTCCTTACTTAAACTATTTTTTGTAGTGTTTAAAAACTTTTCTGAATGACCTTCTAGTATTTTTATTGCAGAAAATTCAGTATTATTATTAGATTTTTTTGATAAATAATTTGAGAAAAGACTTATTTGAGATTTTAGTATAGTTTGATAGTCTTGTGGTAATATTGATTTTGTTAAAAAATCATACGATATATTTTGCACAGTTCGGTGTATGTTAAAGCTATTATATGAATTTCTGTGTTCTTCTTTGTTTGCTAAAATAAAAGAGTACATTTTAATTTTGCGTAAGAAATTGTGTACAACTATCTCGCCTTTATAATCTACTAGCAAATCTCTTGGTATGTTCTGGCTTTTCATTAAGCTGATTAGGAGAAGCAGGTCCTGAAAGTCCTTTCCTTCATCAATTAATTGTTTAATGGATAGAGTGATGATTCCGTATCTAGTATTGTTATAATATCCAGTATTTTTTAAAAACCCCATTTGCGCTTTTTCAAAATAGTTTGTCGGATAAGTAATATTTTTTGTATATTCATTGAATGATATGCCTGTATTTTTGATATAGCTTGCTGCAGTTACTATATCAAGTGGGAATGGAGGTATATGTTTTGTAAATAGATTAAGGTCATTTTTATCGGAATGGGTTTTTATTTTTGACTTTCCTATGATTTTTTTAAATAGATCAATTTTTTCACTATCTTTTAATTCCGGAACCATGATTACATTTTTTTCTGTAATAAGCCCATTATTTGCGATGTTACTATTTCTAGTTGTTAAAATAACTTGGCCAGTTCCCCAAACTTGTTTATCGTGAGGAAAGAAATCAGCTATTTCTCTAAAATCATTTACATTGTCATATATAAAGAGCCAGTTATGATAATTTTTTATATGCTTTGTTATATATATTCGAAGCTTTTTTCTTCTTTCAGATAAATCAGTTATATTTTGAATATTTTTCAGCCTTTGTTTATCTTGAAAATCTTCTGATATTGCATATGCTAGCTGTTCAAAAGAGCTCAGTAGTGTTTTGCTGGTTTCTGCATTGATCTCCCAAATTAGATCACCTGTATGCTTTTTTGCGTGGTTTCTGGCTAAAATTGTTTTTCCAGATCCGCCAATTCCAACTAAAGCTACAATACCAATGTCTTTGTTATTAAGTATTGATTTTATTCTATTTAATGTTGTTGATCTTTCTAGTAAAAAGCTGTTATGTGGTAAAACTAAATCATACCGGATCTGTTTGTTTTGATTATGATTTATAGTAGACAGAAAGAAAATAGTGCATAGCAATATTAGAAAGACAGATATTTTAAACACTAAACTATTTACAATTATTCTAGAAAAAAGAGGTTCTTGAGTTATTGTTGTAACGCCATTGAAGTTGTTTGCTAAGTTTAAAGATTCATTATCAAAATCTTTAATTGTTTTTATTAGTTGCTTATCGTCGCGGATTGCTTTGATTAAAGCAAAAATAGAATCGTAGTAGTTAGTTTTTTCAGTAAAATCTATTATTTTTTTAGTATTTAGCGATTGATACTCTATATTTTTATCTAACTTTAAAAAAACAGATTCTAGTTCGCTTTCTTTGAAGTTATCAGATTTTAAAATACAGTGAATATTTAGTTTTGCATTGTTATTATCTTTATTGCAAACAATAATATTAGCTAGCTGCAGATGTTTTTTAAAGCTTTTTATACAAAGTTTTTTTGCTAGCTCCATATTATCATTTATTATAATATTTATTGGCTTAGTTTTATAGTTTTCTCCAATAAGCTTGAGTTTGGCTTCGAATCTCATCAAGATTGTTAAGTTAAAATAATACTCATCAATTAATTTTGATTTTCCAGATTTTTCAATGAAGTTTATAATAAGGTCTCTGGAGCTGACCTCCATTTTCATCATAATATTATGCTGATGCGTACCAACAGTTCTATGAGAAATTGATAGAATATTTGCAATTTTTTTCTCACCTTTGTTATGCATTATGCATGCAATGATATCTATTTCACGTTTTGTGAACTTTATATTATCGATCTCATATAAATGGAATTTATAGAGCTCGTCAAGTTTTGCAAAGTATGTGGTTGGATTCATATTTTAGTATATTAATGTCTTTACACTATTATATTATATATGTTTTGATTTTCTCTACGTAATATGCACTTAAATTCTTTTTTAGTGAAAATAATTTCCTTCATTAAATTTGTAACCTTTATTCAAAATATAATTACTATAATATTCCAGTTTACGTATATGGTACTTAAACTGGCAATTATGTATTTTCTCCGAATATTAAAATTTCACCCTAATATTTATAAATTAATATGAAGTAATAATTACCATTGCTTCATATTTTAAAAATATTATGGAGAAAGGAGAGTTAATATGAAAAATTTTAGATTATATAAAGCCACTAGTTATTTAGTATTGGCTTTTTGCGCTTTGAATAGTTCCAGCTATTCTTATGCAACTGAGTCGAGTTTGGGTAAGTCTGTTGTAGAGAGGGCGAAAAAACAAATTACGCCTAAATTATCAATAGATCAGTATATTAAGCTTCAGAAATATGCATATGATTATATTGTAAATAATAAATATAATATAAAACCAGAAAAAAATGAGTCTGGATTTTATAGAATAAATATCAAGACGCCAGATTTTATCGATTCAAATTTGGGAATTGAAAAGTTAAGAATAAATTATTGGCCAATTGATGATTCAAATAAAATACTAGCAGAATCTATTCATGATCATCCTAGATATTTTGAAAGTTATATCCTTTATGGAGGCTATGTTCATTCAATTTATAATATGCATGAAAAATCTAATGGTGAAGATTCGGAGAAGTTTAATCTTTACAGAATTAACAAGCTTGCCGATGGTACAAAGAGTTTTGATCATCTTGGAGAATCATATGTTACTAAAAACAGAGATGAGCGTGTAAAAGAAGGTAAATTAGTAATTATGCCAACAAACGTTGTGCATCGAGTTCTATATTCTGTTCCAGGTTCTTTATCGATGAATATTGTTTACAACGATAAGACTAATAAGGATTATTTTTATAAATTTGTTTCACGAAGTGGAAGCAAGAAAGATGTAAAACTTACTAGAGCAAAAATTAGCGGAGAAAAAAGAGATGAGTTACTTAACCAAATTGAAAAAAGACTATTTAATTCATTATTTCAAAAGGGGCACATTTCAATTAATTGATTCCAATTTAGCAGATAGGTAGCCTTATTACCTATCTGCTTAAAACACTAAAAAGTGTGTTTAGCTATTTAGTTTATCTCTAGTCGGAAGAGCTTTTAGTGCTGTATCAAAAATTTCTTTAAGTCTTTTAGTTTCTATATTCTGAGCATTTTTACTAAATGCACCAGAAAAAGTTCCAAAACCTGTACGAGCAAAATTTGACCATACAAATTGACCATTATGTGGATTGATTATTGCAATTCTTATTGATAAAAGTTCAGCAGGGTCTTGACTACCAGCTGCTCCTACTAATGCTGCTGATAGAACGGCCACAGCAAAATCTTTTGTGCATGCTCCCGAGGTTTTTGCACGGAGATGATATTCAACAAAAATTACTAGATCTGAGTTGGCAAGTTTTGCTACTTCTTTTGCATACTTTTCAAGGAATAAGTTTACATTTTGAGCTTTCTCTTCTTGCCATTCTATTGCATTATATAGTTCTGCAATTTTTTTATTATAATCTTCTCTGAAGCTTAGAACATTGCGAGAGAGTTTGTTATTATGAATCTCACGTCTACTTAGGAATTTTGTTTTATAGCCCATTTGGCCTAGTTTTGGTCTTAGTACATCGATAATTACATCTTCAACTAAGGATTCATAATCATAGTTTCTTGTCGTTTTACCACTTGCATCAACTGATACTACTTCTACAGTTGCCGGTAAAATAGTTAGCGTTTTAGATTTAGAAAGTTGATTTTGAAAATCTTTATGATGTCTTATAGTTGTGGTTTTACTGCATGCTGAAAGCAAGATGGCCACTAGTAATAATGACCATAATTTATTGTTTATATTTTTCATAACAGATTGTTACTTACTTACGTCTCTAATAACTCTTGATCTATTTTCAGATATGATAACGAGCACATTTTCTCCAACTTGGATCTTTTTAGACTTTGTTTTCTCACTTGTTTGAATAACAGTAATCATTCCAGTTGCTTTTGCAGCGGCAATTGCATTTCTCATACGTGCGCTACCTTCATAATAATCATCACTCAATTTTGATTTATCAACTTTTACAATAAATTCAGTGCCTTTTGCGCTTGAAAGTGCGCTTTGACCAAGAGCTCCAACAACAGCACCTGCGACCGCACCACCTACTACTGCGCCAGTTTTACCACCTGAAGAATGAGCAATGGCTCCACCACCAAGACCACCTAATGCAGCGCCAGTAGTGTTATCAGATAGTCTGTCGCTATCTTTAATTTTAATTTCTCTTGTTGAAACTACGATTCCTTCCAGAACTATATTTAGTGTTGAATCACTAGTATATGTTGTACTTGATAGATCCCTTGCACAGCCAGTAAGAGAAAGAATTGCTATAAGTAGTAGCGAAGATATTTTAAAATTTTTCATATTATTAAACTTTTTTATCATAGAGCGGGTCACAATAACTACAATATTGTTATATGTCAAGATTATAACGCCCTACCAAAGGTTGCTCCAGAAGACCATGCCCACTGAAAGTTGTATCCACCTAGCCATCCAGTGACATCCAAAACTTCTCCTATAAAGTATAGATTAGGTACTCTTTTTGATTCCATTGTTTTTGATGAGATTTCGTCAGTATCGACGCCGCCTGAAGTTACTTCTGCTTTCAAATATCCTTCACTGCCATTAATTGGAGCTTGGAAATTATGAATATATTGTGCAATATTAAACAACTTTTCATTTGATAGGTCCGTGATTGCACGATTAAAATCATTATTCATAAGTGCTAAACTATCAACTAGCCTGTTAGTTAGATATTTCTTAAGATAGTTTGCCACAGTTTGTTTGCTGTTTTTATCGATTATAAATTTTTCCGATAGATTAAGATGAGGTAGCAAGTTTATAGAAATTGTTTCGTTCTCAAATTTATTCATATGGGATGAAATTTGCAGTATTGCGGGGCCACTCAAGCCTTTATGCGTAAATAATATAGCTTCTTCAAAATCAGTTTTATTGTGGCTTACAACTGAATGATTAGAAACTCCCCGAAGCTTTGTATACCATTCCAACTCTTTTTCATGGATAGTTAGTGGAACAAGCGCCGGTGCTGTTGGAATTATATTGTGCCCAAATTTTTTGGCAATTTCATAGCCAAAGTCACTGGCTCCAATTTTGGGAATAGATAGTCCGCCCGTAGCTATGACTACTGCATTGCTAGTAAATTCTCCAAAGTTGCTTTTTACAGTGAATTTATCATTTTTCGATATATCACTAACCGAGCATTCTGTTTTAATTGTAACGTGATATTTTTTGCATTCTTCAAGAAGCATATTGATAATTTGCTTGGATGACCCATCGCAAAATAATTGGCCCAAAGTTTTTTCATGATAAGCAATATTATACGATTCAACCAGTCTAATAAAATCATTTTGAGTGTATTGGGATAAAGCAGATTTAACAAAATGTGGATTACTGCAAAGGAAATTTTTACTACTTGTATTCAGGTTTGTGAAGTTGCATCTACCTCCACCTGATATTCTTATTTTCTCGCCAATCTTTGCGGTATGTTCAATTAATAATACTTGTTTGCCTTTTGCTCCTGAATGTGCCGCTGCCATAAGACCCGCAGCGCCAGCACCAACTATTACTACATCATATTCGGTATTTTCTTGCATGAATACATGAAACATAAATTTTAATGAAGGATTTTACTATAATAAGAAGACAAGTTTAAAACAATATAAATATATCTGGTATGTTGACGTTAGTTGATATAGCGGTATATTAGATATGTTAATAATAATTGGGTAAAAAAATGAACGATGAAAAATGCATAACTACAAAAAAATCATGCAAATTTGAGATGTTTTTCTTAGGGTTATGTCTTGCTTTTGGTCTTGCAGTTGGGGGCTATTTTATTGGCCAAACTATGTATAATGCAAAAGTAGCCCTTAATACTACTGACGTTAAAGGTCTTGCAGTTCGCCGTGTTGAAGCGGATCTTGCAAATTGGACTATAAAATTTAATGTAGCAACAGCTGATAGAGATCAAATTTCACTTCTTTATAAAGAACTTGAAGAGCAACAAAAGACAATAATCAATCTACTCAAAGAAAATGGTTTAGGAAATGACGAAATACAAATTGGTGTAGTTGATCACAATTATTATGAGTATCGTGACGAAAATCAAAAAGTCGTTGATCAGAGTCATCAGCTTACTGGGTCGCTTAATATAGAAACAAAAAATGTTAGATTAATATCAAAAGTAAGAGTTGCTGTTAATAAACTTATTGCTCAAGGAATTAATGTGGAAAATAGGGCACCAAGATATTTGTTTACAAAGCTGAATGAGATAAAGCCTGATATGCTCAGAGAGGCTGCCAAGAATGCTCGAATTGCAGCAAACGAATTTGCGCAGAATGCGGATGCAAATGTTGGTGGCATTAGAAGTGCAAGACAAGGAAGCTTTACAGTTAGAGATATTGGTGAGACATATGATGATACTACGAAGATTGATAAAGAGGTACGAGTAGTAACTAATATTACTTTCTATCTCATTGACTAGAAGCGGATTTTAGAAATATGAGAATTGCAAAATTCATTGCGGCAAGTGGACTGTGTTCAAGAAGAGATGCGGAAAAGTGGATAGATGAAGGTAGAGTTGAAGTAGATGGAAAAGTTCTATCAAGCCCGGCTTTAAATATTTCTGAAAGTAATATTATAAAAGTAGATGGAAAGATCATTGAATCTCTACCAGAGACAAAGCTATGGGTCTATTATAAACCACTTGGACTAATAACAACTCACAGTGATCCAGAAGGGCGTCCTACAATCTTTGAGCAGCTTAGGAAACTGCCAAGAGTAGTATCAGTAGGGCGTTTAGATATTAATAGTGAAGGGATATTGCTTCTTACTAATAATGGTGAATTATCTCGATATTTTGAGAAGCCAGAGAATAATATTGAACGCAAATATAAAGTTAGGGTTTATGGTCGCGGTCGCTCTCTAGATATTGAAAATAAGAAAATTATTATTGATGAAATTGTATATCGACCTAAATCAATAAAACTTACTAAAAAAAGTGGTGCTAATTCTTGGTATGAGGTAGTTTTAACTGAAGGAAAAAACCGAGAAATCCGTAGGATATTTGAGCATTTTGGTTTTGAGGTGAGTAGATTAATACGCACAAGTTATGGCGTGTATAATTTGGGTAATATGCAACCTGGGGAATTTAAAGAGGTAAAGATAAATGAGAATTATCGCTGGGAAGCACAAAAATAGGATAATTCCGTCCTTGAAAAATTCAAATTATCGCCCTTCAACAACAAAGTTTCGTGAAGCATTGTTTAGTATATTATCTTCAGGGGAGTTTGTAGAACATCCTCCATATGAAGGCGCTAATATTCTTGATTTATTTGCAGGAACTGGCTCTCTTTCATTCGAGGCTCTCTCAAGAGGAGCAAAAACTATCACTCTTTTAGATAATGACAAGGATCACCTAAAAGTAGCAAAAGATTTTGCAGTAAAAATAGGTGAGGAGGATAATGTTAAATTTCTTTTGGCTAGTGCTATAAGCTTACCATTTGCTGCCGAGCAATATAGTCTTGTATTTATGGATCCGCCTTATTACAATCAATTTGTGGAGAAATCTCTTATTAGTTTGATTAAGAATAGATGGCTAAAGAATAAAGCAATTATTGTTGTAGAGATGGAAAAGCGTGAGGTGTTTATAATGCCAGAGAATGTGAGTTTGGTAAAAGAAAAAATATACGGTAATAATAAATTGTTGATTTTAAGATATGAGCAAGAATAAAAAACAATTTGCTTGTGCTGCTTGCGGAAGTATCAGCGGTAAATGGATGGGCCAATGTCCTGATTGTATGGAATGGGGAACAATTTCTGAAGAAGTAATGTCCGCTAGTAAAATCGCTGTTTCAAAAATTGGTAATGTTCAGACGGTGCAAAGTCTTGCAGATGAAGTTGAATCAACTATACGAACAAAAACTCCAATTGAAGAACTAAACCGCGTACTTGGTGGAGGTCTTGTGTCTGGTTCAGCAATTCTTATAGGTGGTGACCCAGGGATAGGTAAATCTACACTTTTATTGCAGCTTTCATCAAGTTTGTCGCAGAATAATATGGGATGCCTATATATTACCGGAGAAGAATCAATAAATCAGATCAAGCTAAGAGGAATGCGTCTTGGTATTAATGATAATAAGACAGGTCTACTAGCTGCAACTAATGTTGAGGATATCATTTCGACAATTGATAAAAATAAGCAGGGTCTAGATCTTGTAGTTATTGATTCAATTCAAACGATAGCTACGGGTGATTTATCCTCAGCACCAGGAACAGTATCTCAGATTAGAGCTTGTTCAAATATGCTGATTAATTACGCAAAGCAGAATAATATTACCCTTTTGCTTGCGTGTCATGTTAATAAAGATGGGCAACTAGCTGGTCCAAAAGTGCTTGAACATATGGTCGATACAGTACTTTATTTTGAAGGAGATCATAATAATCATTTCCGTATTTTGCGTTCAATTAAGAACCGCTTTGGTGGTGTGAATGAGATTGGTGTATTTGAGATGACTTCAAAAGGTTTGGTAGAAATCTCAAATCCTTCGGAATTATTTCTTATGGAGCGTGAAAATAATGTGAGTGGAAGCGCGGTATTTGCTGGAATTGAAGGTTCAAGACCACTACTTATTGAGATTCAAGCATTAATTGCTCCGACAAATATGGCCACACCCAGAAGGTCAGTTGTCGGTTGGGATAATAACAGGTTATCAATGATTATAGCAGTCCTTGGGGTGCGTTTTGGGCTAAATTTAGCTGCACACGAGGTATATTTGAGCGTTGCAGGCGGTTTAAGGATAACTGAGCCTGCTGCGGATTTAGCAGTGGCTGCTGCACTCATTTCAGCTGCAAGTAACACACCACTTCCAAAAGGGAGTATATTTTTTGGTGAAGTGGGGTTATCTGGTGAAGTACGCAAAGTATCTCAAACTGAAGCTAGGGTAAAAGAAGCATCAAAATTAGGTTTTGAACAGATTTATTGTAGTACAAAAGGACATTTTGATGGTCTCAACCAAGTCATGCATTTAAAACAGCTTAAAGGGGTGTTGCAATAGTGAGTTAAGAAAGTTTTATGATGCAATATATAAAGAAAAATAAAGATTGGATATTAATTAACTTGCCTGCTTTGGTTATACTAATATTTCTCATTGTAGATCCTAGTATGCATAAAACTATGCGAGCATGGACTGGTTATATTGCTGTTTCTTTATTGGTATTACTACTGGCAATAAATCCTCTCAAGACTCTATTTAAAAATATCGTATTCTTAAGTAAAATAAGTAGATATAGAAGGGTAGTTGGAGTGGCGATTTTTACTTATTCTGTAGTGCATCTATTATGTTACCTCATTAAGAAGGGTGGAATATTAGCTGCTATGAAATATGTATTTCATCCAGTTATAATAACTGGACTTATAAGTTTTACTATATTTATTCCCCTTGCAATAACAAGTAATAACTATTTCGTGAAGAAGATGGGGCATGTTAAATGGAAAAAACTGCATGAGAAAGTGTACATAGCTGAGTTTGGTATTATTATGCACATGATTTTAATGGGTGGTACTGCAAGATTAGTTGGGATTTTATCTTTTATTCCATTAATAATAATTCAGTATATGCGAAGACTAAGAAAAAAGCGTTTGAATAATAGATAGATATGGTTTGAGATGTGGAGTCATATGAATATTTGATGTTTCATATGTCATTTCTACGCAATGATAAAATCTAAGCGATATTTTCGGCCGATGAATAGTCTGAAATACTGGATTCCCGCTTTCGCGGGAATGACACGTACCAGCTTAAAGATATTTAATAAGGGTGCAATTTAGGCAGCGCTCATTATGAGTTTATTTTTATTATGCGTCTAATTTATCTTCATCTAGATGAGTTTTTTCATAATTCTCATGACGCATTTGCGCATCAATACATAAAGTTGCTACTGGTCTTGCCTCTAAGCGTTTTAGACCTATTTCTTCGCCAGTTTCTTCGCAGTAACCATAATCACCTGCATCAATTCTACTTATTGTATGTTCGATTTTATCGATTAGTTTGCGATAGCGATCTCTTGTTCTTAGCTCAATTGTAGTTTCAGTTTCAACGCTTGCTCTATCATTAAGATCAGGTTCATTCCAATTTTCTTCTTTCAGATGTGTAAGAGTTTCACGAGACTCATCAAGCAGCTCTAGTCGCCAATTTTGCAGTTTTTGCTTGAAATATTCTAGCTGCATAGGGTTCATATATTCCTCACTTTCAGAAGGTTTATAGCCCTCTGGTAAAACAACTTTTTCCATAATTTATCTCCCTAGTATTGATTCATTAAATCAATATAACGCAGAAGCAAAAATTAACGCAAGTATAATTTGTTAAAAATTATTTTTTGAACCAGGGTGAGCTTTTTCGTATACGGATTCTAGATGAGAATGATTAATTTTTGTATATCTTTGCGTAGTGGAAAGGCTTTTGTGTCCTAGTAAATCTTGAATTGACCTTAAGTCTGCACCATTTTCTAGTAAATGAGTTGCAAAACTATGTCTGAATGCATGAGAACTTAGGTGTTCAGGTAGTCCAAGCATACGTCGCAAATTCATTAATTCTTTGTTGAATACCGAGCGTTGCAAGGGTTTTCCACGTTTTCCACGGAAAATTGGTTCATCAATTTCTATATGATAAGGCATTAGTTTAAAATATTTTTTCACTAAAAGTTTTGATTCTGTGATCCAAGGAATCAGACGTTCTTTTCCACCTTTTCCAACGATCTTTATAAATTCTGTATTTTCTAGATGTTTTTGAGTAATTGATAATGCTTCAGATATTCTAAGTCCACTTGCATAAATCAAGGTTAGAAGGGCTTTGTTACGGTAGTGTATCCACTCTTCATCACCAAGCATCTCTATATTATCAAGTGATATTTCCGTTTCAGATTTTGTAAGGGCTTTTGGTAGGTTTTTCGGTTTTTTAGGGCTTCGCACGGTAAATATTGCGTGGCAAGTTATATCAAATTTTTTCTCTAAATATTTATAAAAATTTTTCACCGATGATAAAGCTCGTGCAGTGGAAGCTAGGTTGAAATTATCCTGAGTTCTTGATGATAGCCAACTTCTAGCGCATCTTATATCTACAGATTTTATCTGATCAATAGATATTTGAGTAGAGTAATAGCCGCTTAAAAATGAAAGATAATGATTTAGATCATTTAGGTATGAGTCCAGCGTGTTCTGTGAGTAATTTCTCTGACAACTTAAGTAATCTTGCCAATTATTTATTATTCTAGTCATTTCTTGATCGCAATTTTTTATCATAGTTATTTTCCAATACAGAAATTACTAAAAATTTCGCCCAGAATTTCATCAACTGAAACTTTGCCAGTAATATTACTTAATGATCTTATAGTCATTCTAATATCCTCAGTAACTAAAACTAAATCATCATCAAGAGAGAAATTTGTTAAATATGTTATTGCTTGCTCAAGTTGAGATCTGTGTCTAGCTCTAGTGATTTGAGGAGTATCAGATGGTTTTGCGATATTCTCTGCTACTTCAATTATTCTATCTACAAGTTTATCGAGACCAATGTTCTGCTTAACTGATATTGATAGGCTTCCTCTTTTGTCTAGATCATTTGCAATTTTAGATTTGCTTAAATCTATTTTATTTAATAAAACTATAGTATTTTCATCAACTAGATCTGCAAAGTCATCATTTTTGTGACTGTTTTCGGTTGCATCATAAATGATAATTTTAATATCGGAATTTTGAAAGACTTGTTTAGCTTTTTCTATTCCCTTCTGTTCGATGATATCTTTTGTTTCAGTATGAATTCCTGCGGTATCTTGTAAGATAATTGGATAACCTCCTATATCAAGATGTCCTTCAAGAACGTCGCGAGTTGTTCCTGCAATGTCAGATACAATAGCAACTTCTCGTTTCATAAGAAAATTTAGCAGGCTGGATTTTCCGACATTTGGTTTGCCGATTATTGCAAGCTTTAGCCCGTCTCTTAAACGTTCGCCTCGGTTGTTATCATTTAGATGATTCATTATTTCTGTGATCAGATTGTCGATTTTAGTAGCAACTTGTTTTAGAGTTTCATCGGGTATATCTTCATCTGGGAAGTCAATATATGCCTCAAGTAGGCTAATTAGACTAAGTAATTCCTGTCGCCAAGCATCATATATTTTTTCTAATCCACCGCCAAGTTGTCTAATTGCTTGCCTGTGTTGTAGTTCCGTTTCCGCATCAATTAAGTCGGCAAGTCCTTCTGCTGCAGTTAGATCCATCTTGCCATTTATGAAAGATCGTTTGGCAAATTCGCCTGGTTCTGCAAGCCTCAGACCATATATTGAAGATAAGACTTGATTCATTTGTTTTATAACGGCTAAACTTCCATGAGTGTGAATTTCTACGGAAGTTTCTCCAGTGAAACTTGAGTCCCCTATGAAATATACAACCATGGCTTCATCAATTTGCTCTTTTGTTTTGGGATTATAAATCTTTCTGAAATATAGCTTTCTTGGCTCTAAATTATCTACTTTTTGAGCAATTAGTTGCTCTAAAGCCATAAGAGATTCTGGGCCTGAAAGTCTGAAGACTGCAACTCCCGCTTTGCCTGGGGCAGTGCATTGGGCAAAAATACTATTCATCTTAAGTTATTTATCAACTTGATAGGTGTTTTTATTTCTAGTATCATACATCCAGTTTGCATATTAATAAAGAGATTATGGGATTAGGCATCTATGGGTAATAATTTAACTAACAAAAAATCATTAGCTCTTAGCGAACTTAATTGTAAGATAGATGATTTTAGTACCGAGATATTAGATCTTGTTAGTGCAAGTAGTAAAGGTAATTTATATAAGAAGTTTGTTGAAAGATTTCTTATGTATATTCCAGTTGATTACCGATCAAGAGATAAAATTAAACTGTTTGGAGATTTTACTCATGAGGCTTATGATTTTTTCTTAAGTAAGCCTGATGGTATCAGAAAAATTGAAATAATTAAGGGTGATTTTCAGAATAATCCATCGATTACTATCCTGATATCTGCAGAAAATCGTCCATTTATTATTGATTCTCTCAATAGCTTGATGTTTAAGCTTGCCCTGCAAACCATTTTTACTTTTCATCCAGTAATTACAGCTGTTCGAGATGATAAAGGTGCACTAGAAGATATAGCAGCTCATGCGAAAAATGGAGTGCATGAATCGCTTGTATATATAAAAGTTTTGGGAAGCTTTGATGATGATGAGCTTGAGGAAATTAAATCAGAAATTAGCAAGATTATAGATCTTGTTGATTACACGTATGATTCTTGGCAATCGCTGCTGAATAAATTAATCAGTATTACAACGGATATTGTGCATCACAAAGAGGTTTATGAGAAAGCCAATTTGTCCGCTGAAGAGACATTAGATTTTTTGAATTGGTTGCAAAAAAATAATATTACTTTTCTTGGTGCTGCGGATTTTGACGTTAAAACAAAAAAACTTTCTGGAACAGAAGGAGTTGAAGAAATATGGCAAGATAATTTAGATGAAATATCAACTATTATCGAGTTTTCAGAAAGTGATTATTATGAAAATAAATTAGTGATGCTTGGGAAAATCAATAAAATTTCTCCAGTACATAGAAATGCTCTAGTTGATTACATTCTTATCAAGAAGCTTGATAATGATGGGGAGTACAGGGGTGGCACAATTATCTTTGGATTATATGGTACTGCTATTTATTTCCAATCTATTAAGACTATACCAATCTTAAGAGGGAAAATGAACCATGTGCTAGATGAGTCTGGTTTCCCAATGAATGGATATAATGCTAAAAAAATAAAAAACATTATCGAATCTCTGCCAAGAGACATATTGATTCAAATTGATGAGGACGATCTTTATTGTATGTGTATTCATATGCTTTCGAGTATGCGCAGTCATAAATTGAAATTATTTGTCCAGAAAGATTGGTCTAACTCTTTTGTTAATATTATAGTTTTCTTACCTAGAGAAAGATTAACTCCGGAAGTTTATAATGAAATTAGCTGCTATCTTACGGATAAATTTGATAGTGAGATTATTGCAGATGATATCACAGTAGTAGCACAGAATTTTTCTCATTTATTTGCAACTCTTGCAGTAAAAGATTCTTCAAAACTTGAATTTGATCATGATGAAATGGAGAAAGATCTTATTCAGATTACTACTAATTGGTCTGATGGTCTCCTACACAAATTATGTGAAGAGCTTGGAGAATATGAAGGTGGGATTAGGCATAAACAAATTGAGCCATCATTTCCAGCTGAATATAGACATAAATTCAATGCAGATGCAACGATTGATGATGTGCATCATCTTGAGCAAGCATCAGAAAGTAATAAAGTGGTTGTTAATCTTATAAAAGGCGAAGGTAACGAGTATCACTTAAAATTTTATAGTCCTGAAATTAGTTTAACACTTTCAGAAACTCTTCCTGCTATAGAAAATCTAGGATTTACTGCTATTGATGAGCAAAGTTTTGCAATTAAGGAGTCAGATGATTTTAAGTATAGCTGGATATATGAGTTTAAGCTTAGTAGCCCAATAGAGATAGAGGTTCCATTCGATGCTTTAAAAAAGAATATTGAAGAAGCCTTAGGTAAAATGAGTGAAGGAGAATTAGTTAGTGATTCTTTAAGTAAAATGTTGGTTTTATCAGGATTTGACTGGCGAAAAGTTAAACTTCTTAAAGCTTTAACTCGTTATTTACACCAAACAGGTTTGCCGTATGGTAAAGGATATGTTCAACAAACCTTGGTCAAGCATTATAAATATACTGAAAAATTAGTAGATTATTTTACAGCGAAATTTGACCCTAAGAATCTTTCTGAAGATAAGGCAAAATCTTTATCAGATGAAATGCAGGAATATCTAGATACAGTATCTAGTAGCACTGAAGATAAGGTGTTACAAAATATGCGGGGAGTTGTTGGAGCTATATTGAGAACTAATTTTTATCAGAAAAAGAATAATAAGATTAAAAATTACTTATCATTTAAGTTCGATTCCAGTAAAGTTCCTGATCTTCCTCTTCCACATCCGTATGCGGAGATTTTTGTCTACTCAAATGATTTTGAAGGTGTTCATTTGCGTGGAGGTAAAGTAGCGCGCGGAGGTTTGCGTTGGTCAGATAGAGGCGAGGATTATCGCACGGAAGTTCTTGGGCTTATGAAGTCGCAAATGACCAAAAATACAGTTATTGTTCCTGTTGGATCTAAAGGTTGTTTCTATATTAATCTTGTACAAGGCGGGCAAAGCAGAGAAGAATATATGAAAAAGGTAGTAAATTGCTATCAAAATTTCCTACGAGGTCTTTTAGATCTAACAGATAATTTAATCGAAGGTCAAGTTGTTCAGCCGAAAGATACGGTAATTTATGATGATGAGAATCCTTATTTAGTTGTTGCTGCTGATAAAGGAACGGCTACATTCTCTGATTTTGCTAATGATGTATCAAGCGAGTATAATTTTTGGCTTGGTGATGCATTTGCTTCAGGGGGTTCTGTTGGATACGACCATAAGAAAATGGGTATTACAGCAAAGGGTGCCTGGATTTCCGCTCAATCACATTTTTTGAGTATGGGAATAGATATTCAAACAGAGACATTTACAGCAGTTGGAATTGGTGATATGTCAGGTGATGTATTTGGTAATGGAATGCTTCTATCCAAATATACCAGGCTGATAGCTGCTTTTAATCATCAACATATCTTTATTGATCCAAATCCAGACCATGTTTCTAGTTATGAAGAGAGATTGAGGTTGTTTACTACTCCTAGAACAAGATGGAGTGATTACAATCTTAAACTCATTTCTAAAGGTGGTGGAGTATTTGATAGATCAGCAAAGATTTTGAATATTTCTCCTGAAATTAAAGAGTTGCTTGATCTGGAAGTAGATACAATTGTTCCTGATGATTTGATAAAAGCTATTTTAAAAGCACGTGTTGATCTTCTGTGGAATGGTGGAATTGGGACTTATATAAAATCTAGTTCGGAAAATAATGTTGATATTGGTGATAAAGCTAATGATGCACTGCGTGTTAACGGTAATCAAGTTAGAGCCAAAGTAATTGGTGAAGGTGGGAATCTTGGCTTATCACAGCTTGGTCGCATTGAGTATGCTTTAAGTGGTGGAATTATTAACACAGATTTTATTGATAATTCTGCTGGTGTGGATTGTTCGGATCATGAAGTTAATATTAAGATCGCCTTAAATAGCGCTGTTACCTCTGGAAAGATTTCAATGGAAGAGCGTAATGATCTATTGGAAAAAATGACTTCGTCAGTGGAAGATCTGGTTTTAGTTGATAATTATGATCAGAATCTTGCTATAACGGTACTTTCACTATCTCCTACATTAAATATCGAATCTTTTAGTCAGTTGACTCGTGAATTAGAGAATGAAGGTTTGCTTGACCCTGAAGTGGAATTTCTACCAAACAAGTCAGAACTATCTAGGAGAGCTGTTGCCAAGGAAGGAATGACAAGAGCAGAGCTATCAGTTTTACTATCATATAGTAAAATGTCTTTGGATGCAGATTTGGCGGATTCTTCATTTACTAAAGATGAATATTTTGAATCGCATTTGTATAATTATTTCCCAGAAATGATGCGTGAGAAATTTGCCGAAGAAATAAAAAACCATCCTCTAAGAAATGAAATAATACGTACAGTTATTAATAATAAACTAGTAAATCAAATTGGTGGTCCAGTAATTAGCTCTATAAAGAAAGAAACAGGTGGCCATTCTTGTGATATAGCAAGAGCCCATGCTGTGGTTGCAGAAGTTTTTGATTTAGATAATCTATGGGATCAAGTCGCAAAACTAGATAGATCAATTGATATTAATATCAAAGTTGAGATGTTGAGTGATTTGGTGCGAATAATGAGAAGAGGAATTGCCTGGTTTGTTAGAAATATTAAGGCTCCAATTAACATTTCAGAAACTATTGAAATATATAGTAAACAAACCTCTGAGCTAACAGATATTATTAGTAAGCTTCTAGTAGGTACTACAAAAACTCGATTCTTTAGTCGTATTGATCATTTTACTTCAGCTGGTGCGGATAAAAAGCTAGCAAGATCTGTTGCTACATTAGAGGTTCTGGTGTCGGCATTTGATATAATTTTCCTTGCAAAACAAATGAATAAGAAGAATGAAGATATTGCAAACTTATATTTTGAGTGTGGAGATTTATTAAGTATTGACTGGTTACGCCAATCATGCGAAGCTCAAATTGATCAATCATTCTGGAATAGATTGTCGGTCCAATCTTTAAAAGATGATTTTTATGATAAACAAAGACGTTTAATTAAGGCGATATTGTTGAGTAGTAATAGTAATGGAAGCGTTCCAAAGTTAAAGACTTGGATTAAGAATAATGCATCTGATGCGCATATTTTTGTAAGCTTTATAGAGGACATAAAATTGCAAGAAGCATTAAATCTAAATATGATAATTTTAGCAAATAAAAAATTGGAGATCTTTTTAAGAAAACTAGAGGTTAGCTAACATGTCTTCAAAATTGAAGGAAGCTAGAGAAGAGGCTGGATATACTGTTGAAGAAGTTGCGGAAAAACTTAATATTCGCAAACAGTATATTATTTGTCTAGAGGAGGGGAATTTTGAAGGTATACCAGGAAAAGTATATGTAGAAGGTTATACAAAAATGTATACTGAGTTTTTAGGTATAGAAGCTCCGAATAAGATTGCTCAAAATGTTATGCAAACCTCAGAAGTTAATGTCAATAATAACCAAAAAGTAAAAAGAAAATATGTAGTTTTTTTCTCGGCTATGATGTTGATTTTAGTTATATTGATTTATTCAATGATAAAATCTTCAAAAGTTCAAGTAGTCGAGGTTGTTGAAGACGAGTTAATACAAAATATACAAGAGCAGAATGGAAATAACGAAGAAGAATTTGATTGATCTGATTAACGAAATCGGAGAGAATATAGATAGATTAAATGCTAAGCTTGCAAAGCAAGAGGGGTTTATAGAAGATCTGAAGTCTCAGAATGAGAAATTAAGGCAAAATAATCACGAGACTCTTGATCAGATTAAAGAATATATAGAGGAACTTGAACAAATAAGAAGTCAATATGTCGATAGTAACAATAACATTGGCGGGGAGAAATTTTAAACTATCCTGCTCAGAAGATAGTAAGCCTCATATTGAGAAGCTTGCTGAAAAGCTCGATTTAGAATTGGGAGAAATGTCGAAAAGTAATTCATCTGCTTCATTTGAAATGTTATTAGTTATGACAGCTCTTGGTTTAATGGATGAAAGGCATTCAAGGACAAAAGAGTCAGCAGGAGAAGTCTTGGAGAAGGCCGAAAAAGATCATCATAAGCAGCTTTCCGCTTTGTTCGATGAGTTAAAAAATGTTGCAAATAAATTCTAAAATGCTAAAATCCGTTAAGTAACGCAAACTAATTAAGTGAAAGTTGGGTTGATATATATCTTCAACAGAACTTTCTTTGATTTTCCTTGCTTAATTATTAAGAGTTTGAGTTAGTTAGATTTAAGTTTTTAAAACTTTTTATAATATTTTAGGGCTGCTTGGTGCGTTAGGATGGATATTAAATTCCTCTGGACTATAAGCTTTTTTTCGGGGATGGTCCCTTGCATCGCCGTGGCGTTGTTACTTACTGACCCCACCTATACGAACTGGTTCCGATGGACCACTTCGTCCGACGGCTAAAGCGGTCCTAAGGTTTTGAGTATGTCTACTTGAACTTGTTTCCATTACTGAAGCATAACTATATAAATCAACACAACCCATTATAGCGAGCGCAGAGTCTCTATCCAGTTTATACTGCATTGTGATATGTGTTAACAGAATAGGTTACTGCATCATCTAATAGCTGCTTGCTAAGTGACGGGAGGGATATTATTTAATATACTAAAGATTTTGTTAGCAGCAATGCCTACTGTGAACGTATCTCGACGCTACACCAGTCATATTGAGAGCAAGCGCGTCTATCGAGTATATTAGTTAGTACGTTAAAATAGGTTGCCGCGCTGCCTAATAACTGCTTGCTAGGTGAGGGGAGCGATATATTTAATATAAAATTTTGTTAGCAGCAATGCCTACTGTGAACGTGTCTCGACGCTATACCCGTCATATTGAGAGCAAGCGCGTCTATCAAGTATACTAGTTAGCACGTTAAAATAGGTTGCCGCGCTGCCTAATAACTGCTTGCTAGGTGAGAGGAGCGATATATTTAATATAAAAAGGGTTTGTTAGCAATGCCTACTGTGAACGTATCTCGACGCTACACCTGTCATATTGAGAGCAAGCGCGTCTATTGAGTATATATTAGTTAGTACGTTAAAATTAGTTGCCGCTCCGCCTAATGACTGCTCGCTAGGTGACGGGAGCGATATTTTTCTGATGATTTCTCAGATCGTTTGTATTTCGTTTATATTTGCGTTTTAGTAGTAGCTAAAAGTATGAGCTATTAACTGCTTACTGGTTATCACTTTGTTCTTTTCTTGCTATCGCCCTCTGAAGCCTTGGGAATATACAGTAAATCATAAATACAAGAAGGGTATATTCAAGAATCCCGCTAACTATTTTAGTAGTTTCATTAATCATAATTGTAGGTATAACAGCAGATAAGCTTGCTAGCATTATATATGACATAGCGATAGAACTTATATGGTTTGCGGAAAACATACCTGGTTCAAAATGCCATCTGGATATTGTTTTTAGAGATAGACCAAAGCCAATTAATGCCCCAGTTGCAACAACAAAATCTTTAGAATATATATCGTCTTCAGCGGTTAAAAAATATAGACATAATATTGTCAAAAGTAATCCCCAATAGCTTGAACTATGTTTATTTAGCCATTTATGATAAATATTTTGCATAAAATTAGAACGCCACCAAATAAGAGTGATAAGTCCGAATGCAAGGCCACCTACAACATCAGCAATAGAATGTACTCCAAGATAGATTCTTGATATAAAAATTATTGATACCATTGATACAGATAAAGCTATTGCATAGGTTTTTTGCCATCTCAGCGCAATGATTCCCCAGAATATTGTTGCAATCATAATATCTCCGCTCGGAAAACCAAGCATAGAATTAACATCTATTAAATGTAGATCTTCGTGAGGTCTAAGTACAGCAAAACTGTTTTTGAGAATAAGGTTGATTAGTATTGAAATTGGTATTAATGCGCCAAGTTGTGCAAAGGTTTTGCCGCCTGGTCTGAGCCAAAATCCAATCGCAATAATAGACATATAAAAAATACTACCAGCCATAAATGGCATTAAAGTAAAGAACTCTGTAAGGCTTTCTGATCTTAATTCAATTAATGACCACTCGAATTCACTCATATAATTTATTTTTAAATATATCTATAGTTTAAGGTTACAAGATATTTGCATAGACTGAGAAATAATAAAGTCATATTTCTGTTAGAAAATGTAACTCTATATCTTTTTGGCAATTAATATTATGCCGCCAAGTTTGTCTGATTCAATAGAATCTAGTAAATATTGAATTTTTTCAATGGATAGGCTTATTTCTTCTTCTGTATAGTCGCTAGCTTTTAGCATATCAGCACTATGTTTGATTTTATCAATCAATGCATTATACCAAAATTTATATTTATCCGTTATATCAGTTTCTTCAATTATCTCCCAACCAAGAATCTTCATCATCATTTTAAGATTATTAAGTTCTATAGGAAACATCTGCTTTCCAGATAAGTTCTTGAATAGCTCTAATGTTTTTTCATCTTTTTGATAGTAGTCGAATATTGCGAGTATAGCTCCTTCTTTACTGATTGCTTTTAGGCGTTGTAGCATGGCTACTTTGTCTTTTACAGCATGGGCAACATTAAAGCTAAATATAAATGAGAAAAATTCATCATCAAATGTTTTTGTAAGTTTAGTCACATCTGCAACTGTGAAATTAACATTGGGATAGATAGATTTTGCCTCTTCTATAAGTTTTTCGTTAATATCAACCGCCCAGATATTATTATATCCACCTTTTGATATGAAGTCTGCTGCAGCACCTGTGCCACAGCCAATTTCTAAACTATTTCCGTCTTTGATAGATGGATTTTTTAGTAGAGCTTTGTTACTTAAAAGGTTTGCAGCTTCTGCTCCACCGGTATTAGTATAATTTCCATCTCTCATACTTTGTATAAGTTGTTTAATCTTTTCTCTGTGTAATAAAGCTGATTCTTCTTTTTCAATATCCGCACCACCTGCACTTACTTTAAGGTTAAAATGCATTACAAAGCAGATAGTAATTAAAATTTGAGCTAATTTACGCATAACAATATTTTTTTTATTTTTCATTTATAACTATATTTTTCTTTCTTAGTATGTTGTCAAAATGTTCTCTTTTTTCCTTTGGCAAGCTTTCTCTTCTTAAGTTTAGCATTTCTGAAAAAGTCCCTTGAGTACATTCTGGAGTAAGTCTATCGGTTATAAGAATTCCATTAAGATGATCTATTTCATGTTGAAGAACCCTTGCATAAAATCCTGATACTTTTTTCGCAATTCTTTTACCTTCTTCGTCTTGGTATTTTAAATTAATTGATTTATAACGCTTTACTTTACCATAAACACTCTTCACTGAATAACACCCTTCAAAATCTGCAGCAAAACCATCTTCAGGAATTGGAGAATATTCAGGATTAATTATTGTATGAATAGGGTATGTTCTAACATCTTCACGAAGCAGAGAGGCGCTTTCGGGTATGTAAATAATTGCAATTTTTTTTCTAATATTAACTTGTGGAGCTGCTAAACCAACTCCTTCAGCTGCAAATATTATATCTTGCATTTCTTTAATAAGCTCTTTGTCTTCCAAAGTTAAAGGAAATTCTACATCTTCTGCTATATTTTTTAATGCAGAATTATTTCTATCTTCTTGTTCTTCGATTGTGATTATTTTAAGTGTCATATAGTTTGAATTTTAAATTATTGTGGTAATTATCAAATATTCATTCGCTAATATAAATGTTTTTTTACTCTATTTAAGGAATATTATTCTAGCAATTGTAATATTGTGCTAGCATTCTTTTGTTCTTTGTGTCTGTTGTTTGATACGGAGTGAATTATATTTTAATTTAGGTGAGGCTATGATTAAAAATTTAAAAAAACTTCCAGCAATTATTGCTGTTTCTACAATGCTATCAAGTTCAGCTCTTGCAGATAATGCTTTTGTGGCTGTGGGTTTAAACTTATCTACAACTGGTATTGGTGCCGAAGCTCGTACGCCAATTGCAGAAGGCTTTTATGGTAGATTGGGTGCTAACTACTTTAAATATTCTCAGAAATTTACAGATGGTGAAATTAACCTAAAAGGTGATTTAACGTTGCTTTCTGCTCCAATAATGGTTGATTGGCATCCATTTGATGACTCAGGTTTTAGATTGTCTGCAGGTGTTGCTTATAATAGCAATAAAGTAAAAGCAAAAGGAACTCCAGCTCAAGGGGTTACAATTAATAATGTATTCTTTACGCCTGCTCAAATTGGTTCTGTGACTGCTGAACTTACTCTGGGTAACGCAATTGCAGGTGTTGCTTCAGTTGGTTATGATAGCTCATTTGTAAGTAACGGTCCGCTAAGCTTTCACTTTGAACTAGGTGCGATGTATACAGGTAAGCCAAAATTATCAACTAGTTCAACTGGTACTGGAGGCGCTTTATTTCTAAGAGAGTATAAAAAAGATGCAGATAAAGCTTTTAAAGATGTTGAGAAATATCTTAAGTTTTTCCCAATTCTTAAAATTGGTGTAAAATACGCGATTTAATTATAAGTGTTTGCTGATAAGTATTTATCTTTGAGGTAAATACTTATCACAAGCGGATTTATTGATTTTTTTTGTTGTATAACATCTAGTATTATAAGGTAAAATAATCGATACTCCGCTTAAATTTTTCTTTCATTATTATTTTGATCTAGTTTTATACAGAGTTATGGTTAAGAGAAAATTAGCCATGGACCTTCTACCAAAACCATTTCTTGACAAAAAAATTATCCTATAATAGCCTTCAATTATGCATTAATTTGGGGGAGATGATCGTGTTATTTAAAAAATCTTTTAAATTACCTGCATATAGATTGTTCTGTGTTTGTATAGAAAATATACATAGAAACTGCCTAGTTAATTAATTATAAATTAACATGAGTAAAAACGCATTTAAAACCAGTGCATTTAGGGCTTTCGCATATGAAATAGGAAGAAGGCTGTCTATCGCGATGGTTACTAGAGCTACGAAATGGTCTATTAAAAAATTTAATGAAGAACCTGGAAAAAATCAGCCAAAAACTATAAATAAAGAGAACTTATTAAAATTCGAATTTAGAGATTTTTTGACTGATACAGATAGTTTATCCCTGACCGATGCACCAGACTTAGACGGCAACGACACTTATCTTCCTTGTTTGTTTGAATCAAACTTGTAATTAGCTGCAAAAAATAACGCTATATCATACATACAAAGTTTGTACTATCTAGTGGCTTTCTATATAGAATAGTGTATCAAATCTAACTAATTATAGACTATAAATTACCATCTTTTGAACTATCAAGTAGTAAGCAGCAACCTATTTCTATGACTGTGTCCTCTGAATGCTCGCTGTCTTCTCTATCGCCAAAATCAACTTTTAGTAATGTTAGTAAGTCATCTACGCTACCGTAATCTGTGGATTCATCGTCTTCTTCTATATAGCCACATACAATTTGTGCATCATATACAAAAGGGCTCATTGGATGAACTTTTACAACCCCAATATTTTTGCTTCCAGCAGCGTGCAAATTCATATCAGAGTCATCAATTAATAAAACATCTTCATACGATTCTACGCCTGCAAGTTTCATAGCAAGATCTATGTGCTCATTTTTGCCGCTTTTTTCATCTAGTGGAGCTCCGCAAATAACATGAATTTTTGCAATCTCTTCAAGAGTAAAGCCCATCTTCACAAGTGCAACATCTATTATTTTTGGATATTTTGTATGTGATGCAATTACTACCTGTACGCCATCGGCTAACAACTCTCGGAAAAAATCAACTTGCATTGCGGTAAAGTTGAAGCGATCTTTCGCTTCAAAAAAACCTGTAGCCCATTCCTCGAGCGCAGTTTCATCATATTCAGGATATATCACTGTTTCACCATATGCCTTACCATCCAGAATTAAGCCTCTACTGTCTCCAAGCGTGATTGGAAGCTGCTTAGCAACTACCGCCTCATTATGACTATGACAATTAATCATCGACCAATCGAAGTCAAACACAACTACTTTATACTTTGACTTACACTCTTTTGAATCAGAGCTTGTAGAACTATACGAACTATTTGATGTATCTAGATCTGTTTTTTTCATAACCTTTCCCCCATTAAATTAAAAAATTCATGGCAAATTTGTATATATTACAGGCTGCGATAATCCGTGCCGCCTCCGCATTTTATAACAACTTCATAACTTACCCTATATATAAGATTGCCTTAAAATGCGAAGAAATACAAACTATAATTTGTATCAACTCGTAAACAAAGACTCCATACAAGGCCTATTAAGTGCTTGATAAAAACTTAAGTCTGCTCTACTATTAAAGGCACTAATTTCTACAATTTTGACAAATGAGATATTTAAGAAAGATATTTGCTCATAGCAAAGTTCGATCAGCAAGTTTATTGATAATAGCAGGGCTGGTTTTAGCATCACTTGTATCATACAGCTCAAGTGATCCATCGTTTAATCTTGTAACTGATAATAGTCCGAGTAATTTTTTACTATATTTTGGTTCATATCTTTCTGATATATTGTTTCAATTTATAGGTCTTGCTGCATATATTATACCTTTATGCGCAATTGTTTGGTCATACCTTTTATTCCGTGATGGAGAATTAAGTCTTTCATTCTTAAGAACTTTGTCGATGTTTGTATCTATTAGCTTTGCTTGCGCCGGATTAAATCTAGTTGTTATTGGGTATTTGCCTGCAGGCACAGGAGGAATAGTTGGTATATCAGTTTGGTATTTCAGTAAAGAGTATCTTAATATCAGCGGTATAGAAGACTTACTTAGCGCAGCTTTCATTATAACTTCTATATTCTTTTTGATTCTATCTCTTGGAATTAAATTTAAAACATATGCAAAAATTATGTCCTCTTTTTTCCGTATAATAGGAAAAGCAATAAGCAAAACGGGGATTTTACAAAAAATTGGTTCTAAGCTTGGGTCTTTAGACTCTGGAAAAGCCTATTATGCTGAAGGAGAATTTGCATCAGTAAATACTCAAGAAGAGAGCTTTGAAACTCCTTTTGAGCAAAGTTTAGCCACTAAAAAGCGTAAATCTCCTTCTATAGCCAAAAAAGCCCCAACACCAAGGAATATTGATGCTGGAATATTGCCTCCTATAGATTTGCTAGATGATGCAAATAGTCAAAATGTAAAGCCTCAGTCGCAATCAGAGCTTCAGGAAAAATCTGAAAAATTACTATCTGTATTACAAGATTTTGGGGTTAAAGGAAAAATTAACGAAGTTCGGGAAGGACCTGTTGTTACAATGTATGAATTTGAGCCGGCAGCTGGAACAAAATCATCGCGTGTTATAGGGCTTGCAGATGATATTGCAAGATCTCTTTCGGCGATATCAACTCGTATCGCTGTTATGCCAGGTAAGAATGCTTTAGGAATTGAACTACCAAACAAACAAAGAATGTTCTTTCGGCTCAAGGAGCTTCTTAAAACAAAAGAATTCCAAGATCCGAATATATCACTACCAATAGTGCTTGGAAAAGATCTTGGTGGCAGTCCGCTTGTTGCAGATCTTGCTAAAATGCCGCATCTGCTTGTTGCTGGAACAACTGGTTCAGGTAAGTCTGTTGCAATAAATACAATGATTATGTCGCTTCTTTATAGGTACACACCTGAAGAATGTCGTATGATTATGATTGATCCAAAGATGCTAGAACTTTCTGCATATGATAATATACCGCATCTTATGACGCCAGTAGTAACAGAGCCAGGTAAGGCTGTTGTTGCTCTTAAATGGGCTGTAAAAGAAATGGAAAACCGCTACAGATTAATGTCACACTTAGGAGTAAGAAATATAGCCAACTATAATGCCAAACTCCAAGAAGCTATTAAAAAAGGTGAAATATTAGAGCGTAAAATTCAAACAGGTTTTGACCCAGAAACTGGAAAACCAATACATGATGTTGTGCCTATTGATATGAATAATATGCCATTTATTGTTGTGATAGTTGATGAAATGGCGGATCTTATGCTAGTTGCTGGTAAAGATATAGAAACATCAATTCAACGTCTTGCACAGATGGCAAGAGCTGCAGGAATTCATATTATTATGGCAACTCAGAGACCATCTGTTGATGTTATAACGGGTGTAATTAAAGCTAATTTCCCTAGTAGAATTAGTTTTAAAGTAACTTCTAAAATTGATAGTCGAACAATTCTAGGCGAGCAAGGTTCAGAGCAATTGCTTGGAATGGGTGATATGCTATATATGGGTAATAGCTCAAGAATATTGCGTGTGCATGGTCCTTTTGTAGATGATAAAGAAGTAGAAAAAGTAACTAATTTCTTGCGAGAAAATAGTACACCTGAATATATATCTGCTGTTACTGAATTAACTGACGATGAGCAAGTTGGGGGTGATTTTTCTTCATCTAGCGAAGGTGGAGATGATATGTATACACAAGCAGTTAATATTGTCCGCACTGAGCGCAAATCATCAATTAGCTATATCCAAAGAAGTTTAAGGATTGGGTATAATAGGGCTGCAAATTTAGTGGAAGAAATGGAAAAAAATGGCATACTCTCTGAGCCAAATCATTCAGGGAAAAGGGAAGTGTTATTACCAGAAGATTAACGCATTAACTAAATAATACGCTTTTAATATTATTCTAGATATGATATAATATCTTGCGCTACATTTTACTAACGAACTTATGAGGCATGCATGTCAAAAGAACCAGAATTCAAGGTAGGTGACAGAGTTGTATATCCGTCACATGGAGTCGGCGAAATAGTTGAGATCGAAAGTCAAACAATCGCTGATATAAAACTAGAAGTCTATGTTATCTCATTTCCGCACGATAAAATGACTCTTAGAGTCCCAGTATCCAGAGCTGCAGCTTCTGGTCTTAGAACTTTAGCAGATAAAAGTGATGTATCTGGAGTATATGATATCTTAAATGGTAAGCCTAAGCGAGGTAATAAGATGTGGAGTAGGCGAGCTCAAGAATATGAAGGCAAGATAAATTCAGGTGAAATAGAAGCTGTTGCAGAAGTTGTCAGGGATCTTTACAAAAATGTTGATAATGATCGTTCATACAGCGAAAGAACTATATATGAATCAGCGCTAAATCGTCTTGCTTCTGAAATAGCTGCTCTTGAAAAAATTACTGAAGCGGCTGCAACTGAAAAATTAGTAGAGTTACTAAAAGAAAAACTAGTAGCTGCTTGATTTTAGATTCAGAATAAAGTTTCTACGAAAATACTAGAATAAAAAGTAAGTAATACTCCCCCAGAATATTACTTACTTTTTTTATTTATGAGTAGAAATTATAATGTATCTCGTGCTGCTTACTATTTTATTATATTTATCTTAAATTCAAGAACTTAAAATATACTCCTAAACGATAGATAGATTACTTTCACTTGCTATTGAGATGCAATTAAAATAATTGCTATGTACAGATAATAAGATATGTGAGTAATGAGTTTGTTCTGGCAATCGCTTCTCATTATTATGAAGAGCTATTAGACGATACAGGTAATAAAATGAAGAGGTAATTGTAAGTTGTTTCTTTTAGTACCCAGTTGTAACAATAAATTGGATAATTACATCTTTTTGCTACTTGAAGTCTTTCCCAGCTCGTATGTTGCTGGCATAATAAATTTTAGGTGTAGAGATTTGCTTAGATGATAATGAGCGCAGTTGCTAATTGCTTAGAGATGTTAGCGTAGATCGCTCCATATTGTTCCAAGTTCATATGAATATTCTATATCGTGAAAGCATATAGTTAAGTTTTAGTAAGTCTATATAGCTAAAATTGTTTTTTATAAAAGGTTTTACTGTGTTAACAACTAAAAAGTCCGAAAGTAATTTATTTAATAATACTTCTGAAGATTTTGTTCCAATAGCTTGTCATTACGATGAAAATACAATGCTTACTAAAAATGGAGAGTTGCTTCAGACTATTGAAATTAATGGAATCCATTCAGAAAAGATAAGTAAAGATTTATTTAATTTAAGAGCGGTAGTTAGAAAATCCATTGCAGAAAGCATAGATTGTACAAAGTTTGCTTTTTGGGTTCACACAATTCGTAGAAAAGCAGATCTAGATGATCCCACAGAGTATCCTAACTTTTTAACTGCAAATGTACATGATATCTGGCGCCGTAAGAACTACTGGCATGATAAGTTTGTTAATAGACTATATATTACGGTTGTTCATGATGCTCCTGAGTTAAAATTGAAAAATTTTAACTCTCTAGTTAACTCATTATCCCCAAAGATTATTACAAATTTTGAGGAAAAGTTTTTTAGCGTGGCCACACAAGAGCTCACTAGGACAGTTGACAGTATACTTGAAGGTTTGAGTTCGTATGGAGCGGAAAAATTAGGGATTAGATTCGAAGGAGAAGAATGTTATTCTGATCCAATGTTTCTTTACCGTCGTATTATGCAGTTAAATGAAGAAGATTGCCCAGTGCCAATTTCAGATACTTCTAAAGCACTAGCATCTCATGACTATACGGTTGGTAGCGATAAGCTTGAAGTTATAGGGGATAGTGGTAAGAAGTTTGCTGCAATGATGTCGATTAAAGAATATCAAGAAGTATCTGCAGAAGCGCTGGATAGATTTTTGCAGATTCCGGTTGAGATGGTAGCAACGGAAGTTTTTTATTTTGTTGATAAGAAAGAAGTGGTGCCAAAATTCGAAGATCAAAATTATATTTTAGGTGTTAGCGGAGACGAGCAGCTAAAAAAGATGAAGGGTTTGGATAAAATTATTGATGAAGAGGATAATGGTGTACGTTTTTGTCATCAGCAAATTTCTTTTATGGTTATGGGAGAGGATCTTCAGGCTCTTGATAATCAGGTGAATCAAGCATCAAAAGCACTATCTAAAGTTGGGATTGTGCATGTTCGAGAAGATATTAATTTGGAAAAAACATTTTGGGCGCAACTGCCAGCTAATTTTTCATTTTTATCTCGTATGAAACCGACAATACTTGATAATGTTGCAGCTTTAGCCTCGCTTCATAACTTTCCAACGGGTAATCAGTATAATCCATGGGGTAAAGCTATTACTCTCCTGCGTACGGAGAAAGGTACACCATTTTTTATGAATTTCCATGATGAAAACGAGCTGACAACTACATGTATTTTTGGTGAAGCAAAAGCTGGTAAGACAACATTATTGAATTTTCTACTATCTGAGGCTGATAAATTTTATCCAACTACTGTTTACATTACTGATGATATGGATTCTGGGATTTATACTAAAGCACGTTCTGGGAAATGGTTTCAGAGAGAGCAAAATATTATAAACCCGCTTCTATGTGAAGACTCACCAGAAAACAGAGAGTTTGTTTTTGAATTCTTTAAAATTATAACAAAGCATTATTTTGATCCAATGGGAGAGACTGAACTTGGTCTTCTGAAATTGCTTAGTGAGAATGTGTTTGAATTACCAATGGAAAATAGAAGTTTAGCGCTAATTTTTTCTACAGTTACTGAAGGTGACAAAGGTGGTAAAGCACTCATGGAGAGAGTTAAAGACTTTATAGAAGATGGTTTATATTTCGGGGTTTTTGAAGGTGACGATCCTTTGATTATTACTGAAGGAGATATGATTGCTTTTAATTTACAGATGTTTGATGATGCTAATTTTACCAAAAAGAATTATCCAAAAGAAAAAAAATTAGTAGAGCAATTTGAATATAATCTAAACTCAATGAGAGCGGTAAAAGCTGGTGTTGTATTTTCTATTCAAAATTTGATGAAAGACTTGGGAGAAGGTCCAAAGCTTTTTGCAATGGACAATGTTGATCAGCTAATAAACTTTAATTATTATGGTCCGCTATTTGAAAAATTTTCAGATGACATGAATTCAATTAATGGTGTTTTTGTGTCGACGGCAAATGTTGATTCATTGCTTAAACTTCAGGCAAATAAGGTCCCAATGGAGTGGGTTAATAGCATTAGCACAAAATTTATTCTTCCATCGGAAATTAGTGTAAAGGGGCAAGATAAAGTTATTGGTTTGGATACAAATGAGCTCAATAAATTAGCAGGGTTAACTATTCCGTCTAGAATGTTTTTAATTAAGCAAAATGGTAAATCTATTGCTTCAGAGCTTAGTATAGGTGGGCTTCCAGGTCTGACTAGATTATTTTGTTCTGGTAAAGCTGAGCGAGATATATATCTGGAGGTAATAAAAGAATATGGAGATGAAGCGCCAGAAAATTGGGTGCAGCAATTATATGAAGAATTTGAAAATATTACATAATTTTAAGTGGTAGTTTGGTGTTAAGGAAACTTACAACATTGATATTGGTAACATTAATTGCTTATAGCCCAACTGCCATGGCAGGGTTTTGGGATGCTGTGGGTGCATGCTTTACAGATCCTTGTAATTGTGGGCTGAGTGACAAATACAGAAATGAATATCATAATGGCTCTTTAGCTCGAAGAGTAAAAAAGAACTACATATGTCCGCCATGGAATAAAGATGGAGGTCGACATGATAATATATGTTTAATTATCAAACATTATCCTGATACTCCAACAGGTTATTACGAAAATATATGTGCCGAAGAGGCTCCAGATAGCACTTATTTTACTCCAAGAATTAGAGTGCGCGGGCAGCAATGTAATTTTCTTGCATGTTGGACTACAGATAATACTTTAGATTGGGATGGAGATTGTGTTACGTTAGCAAGTGGGTATGGGGCTTTCCCTCTTCATCGAATGTGTGCAAGGATCGCTCTTCCTAAAGATGACGTAAGAGATTTTGCTCAGGATCCAGGATATACAAATGGTGTACATTTAAATTCTCAAGGTGCAACTGAACCAGACGATGTGATTATTGGAAGTGATGGACAACCTGTTACATTCGAGTCCCCTAAATTATGTTTATATAGAGATCCAGCTTTTATGAGTGTGAAGGAAGGTCTTAGTATTGATTTTATGGATTTGGATCCAAATCATCAGTCAATGCATAAGACAGATAAAGTACATCCTGTAGTTGAAGTGATACTATTTTTCTTAAGTATAGTTACTGAAACAGGCACTTCTCTCGCTGATATGATAGGCTCTTTGTTTGGGTTGCTTGATAATGGTGAGGATGGAGAAACAACATTTGGTTCTGTAATGAAAGATATCTTCTCGTTTGTTGGAGAGGTGATTAGTTGGGTTGGAGATTTAATTAAGAAATTTTTAGAAGAAATAGGTCAGATTAACCGAGCAGTTGATGATAAAAAATATGGTTGTGTTAATCTTCCTATGGGACCATATCCTCCACCATTTTGTGAGCAGGTAGCTCCATTTTTCCAAGTTGCAGAAGTACAAGATATTTGTATCACAGGGAGTGATGGTTCCCCAGTTGCATCTGTAGCGAATTCTGAATGCCATGTTTCAACATTGCAAAACAACTATATAAGAAATTCTGTAAGAGTTGGATATGAAAATTTAGTTCCACTTTGTAAAAATGGTGAAAACCCGCTTAGTACTGATAAATGTGTGAATATCGAAAATATAGGCGCTTTTGCTTCTTCTAAAGGTATGCATACATCAACAGCAAGAAGAGATATTATTAAGCATTGTGATAGTGCAGCTTCTGGAGCTCCATGTGTCCAATCAATGGTACCGCATAGTTGCAGCGTTTCAAGTAATGGGTGTCAAGATGGATTTAGAATTGTATATGGTCATAATTTAGGAGGAATAGTTACACCAAAACAATATTATAGAGATGATTTACCTGATTGCCCTTCAAGTGGAAGTGCGGTTTGTCAGGAAATATGGGGAATTAATAGAGGAGAATTTGTCGATATTAGTATGACTTTCCCAACTCATCAAACAGCTTTTGATGTTTCTCCGCTAGTTAATAACTTTACATTAATGGATAAAGGTGGCCGGACGGCTTATTTTAATTCTTCGATAGTTAGAGTCTCTGGTTTTAATACAACTTTTGGCTTTAGGCAAGATCCAAATCAAATATGTGTATTTGAAGGTGAGTTTGTTGTAGGGTGTCGTGATAGAGCTCTAATTTTTAGACCGAATGTATATGAATGCGGAGCTTCTCCGAATCCAGGAATTACATGTACATCTAGCTATTTTGCACCCAAATTTGTAGTTTCATATGTTGCAGGATCTGATTCAACTTCAGCTTTAATTGAGCCTGAATCAGTTTATAATCCTGGAGGAATCAATAATAGCATTAATTTAGCTGGTAATACTTTCGAATCATTTGTAACGGATGATTCATTTGTTGTTAGACCTTTCTCCGGTCCGAATTCTCCAAATCCATCTAGCCTATTTGGCAGGTATCAGGATAATATTCCACCAGTATCTGGACAAACAATAAATGAAGATGCAGTTTACTTAAGCGGATTGGAGTATATCAATGGTAAGTACCATGTTGGAGGTAAATATGCATGTTTGAGTGGCAGTGATTCAACTAAATGTCCACAAAATCCAAAAATGTGTGTGCTTTCTAAGTTATTAAATAAAAATATAGTCCAATGTTCTATTTTCTTTTCTAAATCAATAGATCATGGAGGAATTAAGCTTTGCAGTGCTGCCCAGACGTCTACATGTGCGGCGGTTGATTCTTTACCACGTATTAGTGGTGGTACTATTCCAATCAGATCATGCGCAGACAATATAAAATGCTATGATGGTACTGTGGAATTATGCCAGATTAGTACTAATCCAGCAGATAGGATTAATCCATCCCCAGCTCTAGGTAGTACCTTATCTGATGATCAATACTACAATACAGTAGTTGATGGCCCATATCCAACAAGCCCATCTTCAAGTGCGGCAAGATATGACGATAATAATGAGGGAGTCCGTGATAAAACTCCTGTAGAACTTGGTTTATGTGTAGCTATTCCGCAAGGTACATGCCCTGCTGAAAATAATATAAATGCTGATACAGGAAATGCAACTTGGCCTGCAGCACAACTAAATCAGCTATCAAGAGGTACATGTGCTGGAGGTAAGATACCTAAAAGATATCAGAGTGATTTGGTAAGAGAATGTATTGCAAATCCAGCAACAAAAACTTTCAATTTAGAGCCAGTATATAGAATACAAAGGAATATATTTAATGCGACATACAAAACATACCCTACTAACATTGAATGTGTTGATCCTCCTCCTCCTCCGCAAAACCCATAAAATTATTTTTGGAGGTAGAGTATGTATTTAAAGTTAGCAAGATTAATAATATCGGCATTCATTATTGTTCTGATTTATGGCGTTCAAACTATTAATGCGTTTCAATCGTCTCTAAAGATTGAGATAAAAATGGAAAATCACTCATCTTTGAAAAATAAGATAAAAAAATTAGCCCAAGAGATTGAAAAAACAGCTGAATTATATCAAACTTCTAATCAAAGAGCTTACTGGGAAATTGAAGGTAAGAAGAGTTTTTTATCTTTGCTGCGTTCCGAAGGTTATTATTCCTCTACAATTGATGTTGAATTACCGAGCAAAGGTGAAAATATCATTATATTCCATATAGAGCCTTGGCAACGTTATAAGCTTTCGAGTATTAATATCGAACATTCAAAAGAGAGTAATTCATCGGTAACTTTACCAGAAATCAGTAAGCTAGGTCTAAAGGAAGGTAAATATGCGATTGCAGAAGATTTAATATTAGTTCAAGAAGATATTATGAAAATGATAGAAAAAGATAATTGTCTATTATCTTTATCAGTTTCGCACAAAGCTATAATTAATCATTTTGATGATGTAGTAGATATTACATATATAGTCGAAGCAGGACCAAGAGCATGGGTAGAGAAAGTAAATTATAAAGGTCTAAAGAAAGTAAAAGAAGAATATGTCCATAAAATAGTAAATTTAGAAAAAGGACAATGTTTTAAACGATCTTATGTAACAAAAGCAAGAGGTGAACTACAAAAAAGCGGATTATTTGCAACAACAAATCCAACTATTCCTAAAACAACTAATGCAGATGGTTCAGTACCAATTACATTCAATTTAACAGAGAGAAAATTCAGAAGCATAAAAGCTGGAGTTAGTTATGGTACAGATCTTGGTTTAGGGGCAAAATTTGGTTGGGAAAATCGTAATTATTTTGGTAGTGGTGAAGATTTGAAAGTTGATTCTTTTATTAATAGAGATGAGCAAATTGTTGAGTTAAATTATGTCGAGCCATTTTATAGAAGGCGCGATCAGAAGCTTATACTAGGATCTAAATTTGAAAATAAAAAGTCGAAAGCTTTTAATAATATAGAAAGTTCAGTATTTGGTTTTTTGGAGAGAGAGTTGACTCCAAAGTGGAGTGGAGGGTTTGGAGCTAGGTTTGCTCAATCAAAAGTGAAAAGAGATGTGGAAACACAGCATTTTTCATTGCTATCAACTCCAATTTATTTAAAATTAGATACTAGAAAGAATATTTTAAATCCAAGAAGTGGTCATGAAATTAGAATAGAAGCGGCGCCATTTTTCAGTGTAAGTTCTAAAGATAGTCCCTTTTTTAAAGCGCAAATTTCTGGCTCTAGATATTTCGGAGTGAAAACTAAGCTTAGTCCTATAATCGCTATCCGCGGTGCTTATGGTAGTATTCTAGGTGTTCGGTCAATAAAATTGCCAATCAATGAGAAATTTTATGTTGGAGGGGCGCAATCTCTTAGAGGCTACGAATATCAGCTTGCAGGTGAGCTAGACAATAAGAGACGTCCATTAGGTGGAAGATCTTTTATTGAAACATCAATAGAGCTTAGGTTAAGCATGACTGATACAATTGGAGTGGTAGGTTTCTTAGACAGTGGAAGATCTTATTCTGCAATTACTCCTAATACGAATCTTCCTTTGATGCATGGTGCAGGTTTTGGTTTAAGATATATGACAGATTTTGGGCCAATTAGAGCTGATATTGGTTTCCCACTAAAGAGACGAAAGTTTGTTGATAAAGCGTTTCAGCTATATTTCGGTATTGGGCAGTCATTTTGATTAGACACTGTTAGTTAATTATGACATACCTATAATTAACTAACGGAGCCTACTGTTAAGTATATGCTAATCCAATTTAAATGGTTAATAAGGAAAGTGTAGATGAAATTTATTTTAAAGTTTGTTGTAGTTTCAGTTATAGCATTCCTTGCTGTTGTTATTCCTTTTTCATTGTGGCTAAACACTGATGAAGCAAAGCAGCAGATTTCCGGTTTTGTAGAAAATTTTTTAGAAGAGGAATTTGGTATTGATGTAAGTATTGAAGGGTTAGATATATCTTTACCAATTATTGTTGATGCTAGCGAGGTTTCTTGTAAAGATGAGCAAGGAGAGGTAATAAATATCAAAAATCCTCGTATCAATATTATTCCATCTTTGATGTCATTTTGGGAAGTAACCATTTGGAGTGTAAGTGCTGACGAAATTAGATTATTTAAAGAGCCTCAGTTTAGAATTTCTAAAAATAATCAAAAAAGTGGTAACAGGGCTTTATTTAATCCCAATATCATCATTAAGGATATTAATTTCTCTTCAATAGTTTTGGATAAAAAATTTACTGATCAAGAACAAGATATTAGTTTTTCATTAGATTCATATGTGATGTATAAGTCTGAAAAGCAGGTTATTGATTATTCGTTAATCGGTCAGCTATTATCTCCATCAATTGATAATTTTACTGATAATCAATTAGAAGTAGTTGGAAAATACGATTTGAAGAAAGATTTAGTAGATTTGCGATCTATAAAATTTATATCGCAAGTACTGAATATAGACGGGAAAATATTAGCTGATATTAAGAAGAATAAACTATCTGGAATCATTAATTATAATATAGATAATGTTACAAAATTAGTACCACAGAAAATAGAAGGACTAAGTGGGTCTTTTAGAGGGAAGATTAATTTAGATGGTTCAATCAGTATTCCAATTGTTAAACCAAGTGGTAATCTAGATATTCGTTTGCCAAAAAATGATTATTTTAACTATTACCCATTAGCATTTGATGGTGATTTTCGTTTTAAACCTGGAGATATTGATGGGTCTATATACTTCAAGCAGGGGGATATTGAGGCAAAAGGTAATATTCGATACAAAGATCATAAACTATATTTAAAGCACATACGCGCAGAAGCTCCAGATTTCTTGAAAACAGCAGATTTAATGTTTGATACTGAAAGAAAAATAATAGTTGGTGATGTAAGCTTTAGCGATAAAAATTTAAGAGAGAGTTCTAAGTATTTCCCATTTCTTAAGAGTGGAGCAGTTGACTTAAATTTTAAATATTCGTCCTTTGATAACGCATCGCAACAGGTTAAAGTTAGTGGGAAATTAAAAAGACTAAATACAAAATATGGTTCATTTGGTTACGTAGATATTGATCTAGATATTTTAGATTTATGGAATGCCAAGCTAAATGACTCACTTTTAAAAATTAGATCATTTAATTATGAAGATATTATTCTTAAGGAGACGAAATTAGGAATAAAGTCAATTTCTGATGTATATAATGTTGATTGCTCACTAGTTTCTGGACAGCCTTATCCAGTAAATTTAACATTTAATAGCAAAATCAAGAATGATGTAACGAGTAACAAGCTAGTAGCCAAAATAACAGATTTATCTGGTGAGTTAAAAGAAGTGCCGATTAAACAAAACTCAGACATTGATATTGAAATTGGTGCGGATCAAATTATTAAAGTGCAAAATTTAGGAATTGGTAATGGTTCTATGAATCTAGATGCTAAATTTGGTAAAAGTAAAATTTATGCAAATATGGCTATAGATAAGGCTCCAATTATAGCGCTACCGGATATTTTGCCGGATATTTTTGATAAATCCCTAATTAGTTCTGATATAGAGTTGTCTGGTACAAATAGTAATCCTAATTTAGAAGCAAATTTAAAGCTTAGAGATATAGGTTTTGATGCGAAAAATAAAAACTTATCGATGAAGATTAGTAGTAAATATAAAAACAAGCAGATGAATCTAGATATGAGATTCTTGAAAAACGAAAAGGAATTAGCAAATTCTGAGCTAGTTTTGCCTATGAAATTTTCATTAAATCCTTGGGAATTCAGCATAAACGAAAAGAAAAATTTTAATGCTAGTTTATTAATTCATGAAAACTTTGATCTTATTTCTTTTATTCCAATGCCAATTGGTCATGAAGCTTCAGGAAGTTTAAATGGTAATTTAAAAGCGGCTGGAACTATTTTGTATCCTCAACTATCAGGAAAGATAAATTTATCTAACGGGGAATATAAATATAAAAGATATGGTGTAAAGTTTAAGAATATTAAGGGTGATATTATTGCGGATGGCAGTAGTTTTTTATTAAAAAATATAGTAATAGAAGATAATTTTAATGATAAAATCAATGGAAGTGGGAAATTTGATTTGAAGGATGAGAATAAATTTTCACTACATATTAATACAAAGAAATTTCATCCATTGAATACCCGCTATTTGCAAGGAGAAGTAGTAGGAAATATTAATGTTAGTGGAAATAGTAAAAAGGCGTTAGCTAAGGGGATGCTAGATCTTGGGCCATTGGAAATAAAGATACCGGAACATTTTAGACAAAATATTCCTTCACTAAATATTTCTGAGGTTATTGAAGAAAATGATGTTGTTGTTACTGAATCAGAAAACAGTTCATATAACTTAGATCTAGATATTAAATTAAATGCTGATAAGCAAGTGTATGTTAGAGGTTGGGGAGTTGATACTCAGTTAAAAGGTAAGTTACATATTACTGGTCAGGCTGCTGATCCAATTATTACTGGCAGTTTAAAATCTGAAAGAGGCCGATATCAAGAATTTGGCAAAGTGCTTAATGTTAAGGAAGGTGTACTTAATTTTGATGGGCCAATTTCTCCATCACCTTATCTTAATATTGTCGGTGTTACGAATGTTGGAGATACAGAAATAAGACTAGTTTTATCCGGTTCAATATTAAATCCAGATATTTCAATTGAATCCAGTCCAGCGCATAGCCAAGAAACAGCATTATCAAAATTATTATTTGGTGAAAATCCAGAAAATATATCGACTTTCCAAGCGCTGCAGCTTGCTGATGGTATGAGGAGATTAAGTGGTCATGGTGGTGGTTTTGATCCTCTTGGTTTGGGGCGTAAAATTTTAGGAGTTGATGATATAAGTTTTAAACAAGATTCTGAAGATCCAAATAAGAGTTCAGTTGGTGTTGGTAAGCACCTATCTGATAAAGTATATTTTGAAGTTGAGAGTGGTCGAAGTGAAAATAGCACTAAAACAAAAATAGAAGTTCAATTGACGCCAAAGATTTCCGTTGAAAATGTGTTTGAACCCGAAGGAAATACATCACTTGGAGTTAATTGGAGGTTTGACTATTAAATGCCTTTACTATAGTATGTAATTTTCCATTTAATCCGGTAACTTGCGTCACTGCTTCGCTCACCTACCTGTATATAGCGCTCGCTAGTTGTTCCAAGTGCCAAATTAATACGAAAACACTATATTTCAAAGAAGTTTAGGAAATAGAATAAAACTGCAGTAAAATCATTTATCTGGAATTGATGAAAGAATAAATATGACAAAAAAAGATCTAAATGTAGAAAATGTAGATTTTGGTGATGCAATTTCAGAAAGGTATCTTTCATATGCTTTGTCAACTATTATGTCTAGATCTCTTCCTGATGTTCGTGATGGTTTAAAGCCGGTTCATAGGCGTCTTCTATACGCTATGATGAAGCTTAAGCTCGACCCAAATTCTGGTTATAAGAAATGTGCAAGAGTTGTTGGTGATGTTATTGGTAAATATCACCCTCATGGTGATACGGCTGTTTATGATACATTAGTACGCTTGGCTCAAGAGTTTTCTTTGAGATACCCGTTGATAGATGGTCAAGGTAATTTTGGTTCTGTTGATGGAGATAATGCAGCTGCTATGCGTTATACAGAGTCAAGAATGACTGAAATTTGCACTCTTCTAATGGAAGATATTGATAAGGATACTGTTGATTTTCGCCCGACTTATGATGATTCAGATAGTGAGCCAGAATTAATGCCGGCAAAATTTCCAAATTTGCTAGCAAATGGTACAGAGGGGATTGCAGTTGGTATGGCTACTAGTGTTCCTCCGCACAATTTACACGAACTTTGTGATGCTTTGATTTATCTGATTGATAATCAAAAATCTGCTACTTGTGCTGATATGATGCAATTCATTAAAGGGCCTGATTTCCCAACAGGTGGAATTATAGTTGATAGTCAGGAAGGAATAAATCATGCATATGCTACTGGAAAAGGAAGTTTTAGGGTGCGTGCAAAATGGGAAAAAGAAAGTTTTAGCCACGGTTTATACCAGATCGTTATAACAGAAATTCCATATCAAGTTCAGAAATCAAAATTAATTGAAAGAATTGCTGATCTTTTTAAAGAGAAGAAAATACCTTTAGTTAGTAATATCAGAGATGAATCAGCTGAGAATATTCGTATTGTGATTGAACCAAAAGGTAGAAATTGTTCTCCTGAAATGATAATGGAATCTCTGTTTAAGCAGACTCCTCTTGAGTCAAGAGTGCATCTTAACATGAATGTACTTAGTTCAAAAGGAGCCCCACAAGTTATGAATATTCTTGAGGTGCTACAAGAATTCATTGCTCATAGAAAAGAGATTATCACAAGGCGTACAAAATTCCGTATTGGTAAAATTGAAGATAGGCTTGAAATACTTCAGGCGCTTAAAATCGCATATTTGAATATTGATGAAGTGATCAGAATTATTCGAGAAGAAGATGATCCAAAAAAGGAATTAATATCAAAGTTTAAAATTAATGATACTCAAGCAGAAGCCATATTAAATATTAGATTACGTGCTCTTAGAAAGCTTGAGGAGGAGCAAATTAATGCTGAGCATGAAGACCTTATGAAGGAGCATGCAGAGCTTAGTAAAATTCTTGAAAGTTCAAGGCAGCTTTGGAAAGTTGTTAAAAACGAGTTGAAAGATATCCAAAAACGCTTTGGTAGTGGAACTGAACTTGGAGCTAGAAAAACCATTTTTGAAGAAGTTGAGGGTGCGGCGCCAGTAGTGGATATTTCAGCCTTTATTGAAAGAGAACCAATTACTGTTATTTGTTCAAAGATGGGATGGATTCGCTCAATGAAAGGGCATAATCTTGATTTATCTAGTGTGAAATATAAAGAAGGAGACAAGCAAAGCCATGTAGTCGAAACTTATACTACAGATAATATTATAGTTTGTTCTACATCTGGTAAGTTTTTTACTATCCTGGCTGATAATATTGCTAGAGGTAAGGGGCATGGAGAATCTATCAGGCTGATGGTAGATATTGAAAATCATGATGTAGTAAATATTATTGCTCACAAGAAAGGCCAAAAGCTATTACTTGCTTCTAATAACGGTAAAGGATTTATTGTAAATAGCGATGATTTGGTAGCGTCTACAAAAGGTGGTAAGCAAGTGCTTAACGTTAGTAAAGACAATAAATGCATAGTATGTACGCCAGCTGAAGGTGATATGGTTGCTGTTATTGGAACAAATCGTAAGCTAGTAGTGTTTGGAATAGATGAATTACCTGAAATGAAGCGAGGACAGGGTGTTATATTGCAAAAATATAGAGATGCAAAGTTAGGTGATGCTAAGATTTTTGATTCAAATGAGGGCTTAAGCTGGAATTTAGGAGCAAAAACTCGTTTAGAAAAAGAGATTATGTCGTGGCGTGCAAAACGCGGTAGTATAGGAAAAATTCCTCCGACAGGCTTTCCGAAGAATAATAAGTTTAATTAGTGCCAATAATAATTCTATAATTGTACTTGTATTGCAATTAATAGTTGAAATTTTATGCGCTGGTTTTTTTATTTATCATCGATTATATGTTCTGTGCTTGTATATTTTGTATATCAATTTTGGCCACCAGTAATATATTTTCTAATTATTTTGGTACCATATATAATAATTGGGATCCATGATGTTCTATCCTTCAAACATACAGTACTTAGGAATTATCCTGTAGTTGGGCATTTGAGATATATGCTAGAATTTATTCGTCCTGAAATTCAGCAGTATTTTATTGAATCTGATAAAGACGGAACTCCATTTCCTAGAGAGATTAGATCACTTGTATACCAAAAATCAAAAGGGGTGCGCGAGACAATTGCATTTGGGACAAAAAATAATATTACAGATGTTGGGTATCAATTTTCATATCCTTCTCTTTCTCCAAAAGAAGTGCCTAACGAGAAGGCGAGAATTATTATTGGAGGCAAAGATTGTACTAAACCTTATGATGCTTCTAGGTTAAATGTTTCTGGTATGAGTTTTGGTGCTCTTAGCCCTAATGCTATTAGAGCTCTAAATAAGGGCGCCAGTATTGGAAGTTTTGCACATAATACAGGTGAAGGGGGTATTAGTCCTTACCACTTGGAGCATGGAGGGGATCTTATTTGGCAGATTGGTACAGGTTATTTTGGCTGTAGAACTAAAGACGGTAAGTTTAATCCAGAAGCTTTTGAGAAAACTGCTAAGCAGGATATAGTTAAGATGATAGAAATCAAGCTTTCTCAAGGTGCAAAGCCGGCCCACGGGGGTATTCTGCCTGCTGTGAAAGTCACAGAAGAGATAGCAAAGATTCGTATGCTTGAAATGGGAAAAGATGCAGTCTCTCCACCAATGCATAGTGAATTCTCAACCCCAATTGGTTTGCTAGAATTTGTGCAGAAACTTAGGGAACTTTCGGGTGGTAAGCCTGTTGGCTTTAAGCTGTGTCTTGGTCATAAAACTGAGTTTATGAGTATTTGTAAAGCCATGATAAAGACAGGTATTAAGCCTGATTTTATTACAATTGATGGTGCCGAAGGTGGTACTGGTGCAGCGCCTGTAACTTTTACAAATAGATTGGGCACACCAATTAACGAAGCAATTACTTTTGTAAATAACTGTCTTGTAGGATCTAACTTGCGTGATGACATCAAATTAATAGCTAGCGGTAAAGTAGCAACTGGCTACGATTTGGTTACAAAGATTGCTCTTGGCGCAGATGCGTGTAATGCTGCAAGATCAATGATGTTTGCTCTTGGTTGTATACAATCACTGCATTGCAATACTGATGCATGTCCGACTGGTGTAGCGACACAGCAAAAAGTGCGCTGGTCATCTCTTCATGTAAGAGACAAATCAGTTAGAGTTGCAAATTTTCATAAGCGTACGGTGCACTCATTCTTGGAGCTAGTTGGAGCTTTAGGAAGAGATAATCCTGATGATCTAGATCCTTCTTATATCAGAAGATATGCTGACCTTGGCACTAGTAAAAGTTTTGCAGTGATTTATCCGCAATTAAACGCAGGTGAACTTCTTGATAAAAAATCTGCAGGAGTTTATGTTGATTTGTGGAATCAGGCAAAAGCAGAAAGTTTTCGGTAGTTTTGTGAAATAATATTTTTGTAGCTCCTATGATCAGTTATTACTATCATATTCAGTCATTAGGGGCTTCCGGTAATCCCTAGTAATAGTTGATGACAATATAAATCAGGGAGTTTAAAATGAAAAAATTATTATTTTTACTAACAAGTTTGGTGCTAAGCACTAATGCCGTGGCCAGCACTATTGCTGAGCAAAAAGGAACTCATTCAATTATACTTGCTGGTGGTAGTGGCAAGAGAATGAAATCGGATCTGCCTAAAGTGCTGCACAAGTTAAATGGAGTTCCACTTGTTGAGCATGTGATTAAACTAGCAAAGGATATAAATTCAGATAGTATTTGTGTAGTTACTTCTCCAAATCTGAAAGACAGATTATCTTATTCAGGAATTAATGTAGCAATACAAGATAAGCCAAAGGGAACAGGGCACGCAGTACTTTCTGCAGAGTCTTGTTTAAAAGATAAAACAGGCGATTTATTTATTTTATACGGTGATACTCCGAATATAAAACCCGACACTTTATCTAAAATGAAAAAAGTTAAAAATGCAAAAGATGCTCAGATTGCAGTTTTGGGTATGCGTCCGGAAGATACCAAAAGATATGGAAGAATATTTGTAAATGAAAGTGGGTATGTTGATCGAATAGTAGAGCATAGGGATGCTTCAGATGAGGAGCGCAAGAATAATTTGTGTAATTCAGGGGTGTTTCTTGTTGATTTGGAATATTTACTTCCACTACTTAAAGATATTAAAAATAATAATGCTGCAGGAGAATATTACCTGACAGATATAGTCCAAATTGCACAAAATAAAGACTTGAAAACAGTTGTTATTGAAGCTCATGAACATGAATTATTGGGAGTTAATACCCAAGAAGAATTAAAGGCTGTATCGCAATTAAAAGAGCAAAAATAACAAATATAAAGATAAGGGAGCTAATTTGCTTTAGTTCTCTTATCTAACCTGATTAATTGATAAGGCATCCATATATCATTTTTTTAGTAGATCCAGAATCATTTTGCTACTTTCATTAATAGTATTTTCTGTTGTGTCTATCATTAAATTATATTTAAAGCCAACAGTATGTACTATTTCTGCTTGAGATCTTGAGGATCCAATCATGCGGTCGCCTCTAATTTTTTCACGTTTTTCTAATTCCTTTAAATTAGCTATGATTCCTATATAATATGTATCGAAATTGCTTAGTATTTTTTGCCAATTATTGGCCTTTTTCTGGTCAAGACAGACCTCATCGATAATTACGTTGTGTCCGTCATCTAGTAGTGCTTTAGTCATTGAAAAAAATGAATTTGAAACTTTTTCTGCAAACTCTCCTAGCATAATTTTACTATAAGTTTTGCCATTTTTATCAAGATTGATTTGCCACCAAAATCCTTCAGTTGATTGTTTTCCTGTCCAATCATTTAGATGATCTGGCATCATGGATATTACCTTATCAATACCAATTTGCATGAAATTATATTTGTTTGCTTCTTGTAGTTTATTGGCAATTGATGTTTTACCTGCGCTGGACGGCCCATTTAGCAAGATAACTTTTTGCATAACTTTAAAGACACTATTAGTTAATTTACGGCATTGTTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCATAGGGGGCGCAGAAGTA
>sequence03
AAGGCGTATAGATGCCGAATATATGACAGCTTCTTCATAAACCTTACCTTAAGATGAAATTTTACTTGACCAATCCCCTGCGTCCATTTATGACAATGACTAGTAAAAAATAATAAAAAGCAATAACTTAGTGCGCTTCTTGTCCTGAGCTCACGATTACAGTTTTTGATTTTTTGCACGATTACTAGTCAAAACTTACATATCAAGTAGTAATCTCTCTGGATCTTCTATTGCTTCTTTTACCTTTACTAAGAAGGTAACAGCATCTTTGCCGTCAATTACTCTGTGATCATAAGATAGAGCGATATACATCATCGGACGTATCTCAACTTTTCCGTCAATAGCAACAGGACGTTCCTGCGTTGCATGTAGGCCAATAATCCCTGTTTGAGGAGGGTTAATAATTGGAGTAGACAGAAGGGAGCCATAAACACCACCATTAGTAATGGAAAATGTGCCACCAGTAAGCTCTTTCATTGATAATTTCCCCTCACGCGCTTTAACAGCTAATGATACTATTTCACTTTCTATTCCTGAGAAGCTTAGTTTATCAGCATTACGAACAACAGGAACAACTAAACCTTGTTCTGTTCCAACAGCAACGCCAATATCATAATATTGTTTGTAGATGATATCATCACCTTCCATCTCCGCATTTACTGACGGAACTTGTTTCAAAGCGCTACATACGGCTTTTGTAAAGAAAGACATGAATCCAAGTTTTATACCATGTTTTTCCTGGAATTCGTCACGATGCTTTTTACGCATTGCAATTACATTAGTCATGTCAATTTCATTGAAAGTGCTTAAGATTGCAGCAGTATTTTGTGATTCTTTCAAACGCTGAGCGATTGTTTTGCGAAGGCGTGACATGCGAATACGTTCAACAGGCTTTTCTCCTCCTTCTAGAGCTGGAGCGCTTACAACACCAGGATTGCTTAATGCATTAATCACATCACCTTTATTAATTCTACCATCTTTACCAGTACCAGGGATATTCGCTGGATTTAATTTGTTTTCTGTAACCATTTTTTGTACAGATGGTGGCATGGTAGTTGCCGGATCAACAGTTTTACCACCAGTGCTTGATGCAGCCGGAGTAGGAGCTGGAGCAGAAGCTGTAGGGGCTGCTGGAGCTGGTGCAGCTGGAGCAGATCCTTCTTTTATTTTACCAACTACTTGTCCAACTTCAACCGTCGCATCTTCTTCTACATCAATTGATTCCAGTACTCCTTCTGCAGTAGCATTAACTTCTAAGGTTACTTTCTCGGTTTCTAGTTCGAGTAAAAGTTCGTCAACACGAACTGCATCACCAGGTTTTTTATACCATTTTGCAATAGTTGCTTCAGATACAGATTCGCCTAAAGCTGGTACTTTAATTTCAACGCTCATAATTAATCTCCAAAATGCTCTTTCTTTTTTATTTTAATTTCAAACCTAATGCTTCATGCACCAATGTTTCTTGTTGTTTATTGTGTACATACATATATCCAACAGCAGGGGATGAAGCTTCGCTGCGACCAGCATAAGTCAGATGTTGTTTAACCCCAGCTTTTGCAAATGCAGCTTCCATGTGTGCTCTAATAAATCTCCAACACCCCATATTTCTTGGTTCTTCTTGTGCCCATACATATTCTGTTGCTTTATTATATTTTTTTAGTACTTTGACAATCATATCTTCGGCAAAGGGGTATAGTTGTTCTAAACGAACTATAGCTGTATCATTTTTCTTTGCTTCTCTACGTTTTTCAAGCAAATCATAATAAACTTTTCCGGCGCAGAAAATAACTTTTTTCACTGAAGAAGTTTTTACTTCAGAATCAATTTCGTCAATAACTGGTGAGAATGTAGTTCCTTTGTCTAATTCCGAAATGTCAGATACCGCTAATTTATGTCTCAGTAGTGATTTTGGTGACATTACCATTAGTGGCTTTCTGAAATTACGCATTACTTGTCTTCTTAGTAAATGGAAGATAGATGCAGGAGTCGTTGGATAAACTACTTGCATATTGTCTTCTGCACATAGTTGCAAGAAACGTTCTAGTCTAGCAGAACTATGCTCTGGTCCTTGGCCTTCCATGCCATTTGGCAGTAAGCAGACAAGACCGCTCATACGTAGCCATTTTGTTTCAGCGGATGAGATGAACTGATCGAACATTATTTGTGCGCCATTACAGAAATCTCCAAATTGCGCTTCCCATATAACTAGATGCTTTGGATTAACTAGTGAGTAGCCATATTCAAAGCCAAGCACCCCATATTCTGACAAGTTGCTATCTGCTATCTCAAAGAAAGCTTGTTTATCCGAAATATTATTTAGCGGTTCATAAATTGAACGATCTATTTGAGAATGGAGGACTGCATGTCTATGTGAAAATGTTCCTCGCCCGGCATCTTGTCCAGTAATTCTAATTGGTGTACCATCTTCTAAAAGAGTGGCAAATGCAAGTTGTTCTGCAGTTGCCCAGTCGATAGGCTGGCCTTTATTAATAGTTTCTGTTCGGCTTGCAAACAATTTTAGTAACTTTTTATTTGCTTTAAATGATTCAGGTATAGAGCAAAGAGAAGTAGTAAGTTTCTTTAGATGAGATTTTGCAACACCTGTTACTAATTTTTCATCATTTTTTCTCTCTAGACCTGACCAATGTCCTTCTAGCCATTGAGCTCTTGGTTTATAGCTTTCAACTTGTGAGAATTCTTTATCAAGATGCGCTTTAAATTCTTGTTTTAGCTTTGCAAAATACTCATTATCTATTGTTGATTGCTTTGCAAGTTTTTCAGCATAAATTGCGCCTGGAGTTGGTTTTGTCTTAATTACATTATACATCAGCCCTTGAGTATACATCGGCTCATCGCCTTCGTTGTGACCATATTTTCTATAACAGACTATATCGACTACTACATCCTTTTTGAATTTGGATCTGTAATTACAAGCAATTTGGGTAGCAAGGACAACAGCTTCAATATCATCGCCATTTACGTGTAATATTGGTGCTCCAACCATTTTTGCTACTTCAGTACAGTATCTACCTGGTCTTGAATCATAAGCGTTTGCGGTAAAGCCAATTTGGTTATTGATAACTAGGTGAAAGATCCCTCCAACATCGTATGGTTTTAAACCTGACATAACTAAACTTTCCGCAACTATACCTTGTCCGCAGAATGCAGCATCACCGTGGACTAAAATTCCAACAACCGATGCTCTATCTCTTCCCATATAATCTTGTTTTGCTCGGACTTTTCCTGCAACAACCGGATTAACTGCTTCTAAGTGAGATGGATTAGGAGTTAGAGATAAATGTATTTTTTTATTTTCATTTATTACTTTGTCAGATGAAAAACCCATATGATATTTTACATCGCCTGCAATTCCTAAATCCGATGGAAATGCACTAGAGCCCATAAATTCTGAAAGTACAGCTCTATACGGTTTTTTCATTACTTTTGTTAAAGTTGAAAGGCGACCACGGTGTGCTAGTCCAAGTACGGCCTCACTTGCTCCAGCAAGAGCAGATAATTCTATTACCTTATCAAGACAAATAATCGATGCGTCTCCACCTTCAACAGAAAAACGCTTCGCTCCAGGGAATTTTGTATGCAAATACTGTTCAAACCCTTCAACTTCGACCAAATCTTTTAGCATTTTCTTTTTGTCCTCATCTGAGAACATGGTGTGAGTGTGAGCTCCTTCTAGCTGATCGTATAGCCATCTTTGTTCTTCTGTGTTTTCGACATGTGCAAATTCAGCGGCAACACTACCCGAGTAGGTTCTTTCCAGAATATCACGGAGTTCTCCAATTGTGCAGATTGTAATGTCACTGAGCTCTCCAGTAATATCTACTTCTTCATTCAACTGATCAGCACTAAATCCAAAATCTTCTATGTCTAATTTTAGTTCACTATGAGTTTTTTTTACTTCTAGTCCTAGAGGGTCAAGATTAGCTAAGTTATGACCATGCTCACGGTAGGCCATAATCATAAACTTTGCTCTAAGAGAATTTTCGGATAAAGTGTTTCCGGTTACGACAGATTTTGATTTATCTGATCCAAGTTTGTCTGATTTAGGTTCATCTTTAATAATAATTCTAGATGTACTTTTCATTGGAGTGAAATTTACTTGATCCTTGAAAAATTCAACCCAACTAGGATCAATAGAAGACGGATCTTCTAGATATTTTTGATATAGTTCTTCAATAAAAACTGAGTTGCTTCCAAATAGAAAGCCTGTTTGTTCAAAATCACTACTCACTCTCTTCCCTCATATACAGATAAACTTTTTGCACCTAATATGTTTCATAAGTATCAAGTGCACGAATAGTTCATTTTACCCATGTATATCAAGTAAATGCAAGGAATTTGTACCAATAATTAGATTAAATTATATGTTCGTATTTTACAGGTCTCTCTTGGACTGATGTATTTATTATATACATATGCTATTCGCTTTGAATTATGAAGATATAGAGTAGTTCGGTTTTTGATTATAGTATCGTGATTATTTGAGTAGAGATTTTATTTATACAAATTCTTTTCTGCTTTCAAATGCGGCTGTGAGTGTTCCTTCATCTAGGTAGTCTAGTTCTCCACCAATGGGAATGCCGCTAGCAAGGCGAGAAATTTTAATAGGTACATCCTTAAAGAATTCTGTAATAAAATATGCCGTAGTTTGGCCATCAAGTGTTGCGTTCGTGGCAATAATTATTTCTTTAGTTCCATTATTTTTGCAGCGCTCTAGTAGTTCAGGAAGCTTAAGGGAAGCAGGGTCTTTGTTTGCTGAATTGGCTAAATTACTGCCAAGGACATGATATCTACCGCGGAAGGTTCCGCTGCGTTCTAGTGCCCAAAGTTCCGCAACAGTTTCAACAATAGTAATGAGAGAATCTGATCTGGATTCATCAGAGCATATCCCACAAATTTCTGAGTAATCAACGTTACCACAAGAGTTGCAAATATTAATTTTATTTGCAGCATCTTCTAGCCCTTCAATTAATCCTTTTAAGCGAAGCTCCTTATCTTGCAGTAGGTGCAATACAATGCGTCTTGCAGATCTAGTTCCAAGGCCTGGGAGTTTTGAGAAAAGATATATTAATTGATCAGGGCCAGAGTTTTTTTGCATAATTTCGGATGTAATTTAGAAATTGAGACCAGGAGGCATACCACCCATATCACCAAATGCTCCAGACATATTATTTTTAGATTCTTCGTCAGCTTTAGCCTTAGCTTCGTTATATGCTGCAACAATTAGATCTTCTAGCATTTCTTTTTCATCTTCTTTCATAAGCGATTGATCAACATTGACTTTGCGCATTTCGCCGCTACCGCTCATGATAACTGAAACTAAGCCGCCCCCAGATTTGCCTTCAAACTCTTTTTTTGCAATTTCTTCTTGCATTTCCTGCATCTTTTTTTGCATGGTTTGAGCTTGTTTCATTAATTTTTTTATATCCATCATTTCCTCTTATTTATTTGATGATTTAAACGTGAATTTATGTTTTAAGGATTATATCCGAAATATTAGCATCTGGAAAATTATTTTTTATTGTTTGGTAATCACCAGTTAGTTTGACTTTTTCAAGCATTTTATCCTTTAGACTATCGACTTTATCTCGCTTTTTTATTGCGACTTTCCATTCTGAAGAAGACCACTTTTGGAGTATTCGTTCCAACTTGTTTTGCATGTTGCTTGCAATTTTTCCTGCTATTTCCATTTTGTTAGATGCAAATGAGTCTATTTCTACTTCATTAAGTAGAAGATAATATACGTCCATTTCTTTGTTTTTATGGCAGAATTTCAGAAAGTCAAATATTTGCAAATTATCGTTATTTGTTTGTCTGGTTGGACTTGTTTTCTTTATATCTTCAAATTTTTCCTCTGGTTCGGATGCGATAATTTTAGGATTTTCTGTATTTTGATGATCTTCTGAAGTAGGTGCATAATTTACTTCAGCATCCATTATTTCTTCTAAAGTAGGCAAATTGCAAGAGTAAATAGCTTTGATGACAAGCATTTCAGTGCAGCTTAGTTCATTATGCGATTGCTTGATTTCTTGTGTTCCATTGCTAAATATTTGCCATAGAATCGTAAGTCTAGATAGGCTAGTACCAATAAGTATATTCGCTATCTCTGTTGAATAGCTCTGAAATAGAGGATTATGATAATTAGGAATTATTTTAGATTTAGAAAGCTCAGCAAAAAAGTCGGACATGCCTTGAACGAAGCTTTCTAAGCTATTTGCATTTGCATATATTTCCTTTAGTAGCTTAATAGCAGATTTCGGATCATTTGCTATGATTAATTGCGCGAATTGAATCATTGTACTGGTTTGTAAAAGTCCAAGCATACGCCCGACAAGCTCAGCAGTAATGATATCACCTTTTCCAGCGTTGTGCATGTAGCTTGCAGCCTGGTCGATCATAGAAGTAGCATCACGAGCTGAGCCTTCTGACTTAATCGCAATAATTTTTAAAGCTTCTTCTTCAAAATTCAGTTTCTCATGTTTGATAATATTTTGTGCAAGATCGTGCAATTCTTCAAAAGTTAGGCGTCTTAAATCATATCTCTGACATCTTGAAATTACAGTTAGTGGTATTTTTTGCACTTCGGTAGTAGCAAAGATAAATACAACATGTTCTGGCGGTTCTTCCACTACTTTAAGCAAAGCATTAAATGCACTTTTTGATAGCATGTGTATTTCGTCAATGATGAAAAACTTCATTGTTCCAAGGAGAGGCCTATATTCACTGCTTTCAATAATTTCACGAATATCATCAACGCTTGTTCTACTTGCAGCATCTATTTCGATAATATCTGGATGGCTATGATTGTTAAAGCTCTCGCAATTTTTACACTTCTCACACGGTTCTATATAATCATTTTTTGATTTTTTATCAGTGCAATTAACTGTTTTAGCGATAATTCTTGCTGAAGATGTTTTTCCCACTCCGCGAATACCTGTAAGTAGATGCGCTTGTGCCAAACGATCATTCTTAATGCAGTAAGATAGGGTCTTTACAAGAACTTCCTGACCTAATAATTCATTGAAATTAGTAGGGCGATATTTGCGTGCAAAAGGTATATATGTAGAAGATTTTTTAGACATATGGGGCTCTATTTCAAGGTACTCCAATATAACGCAACTTAACTAATAATTAAAGCAAATGGCGATCGTATTTTGATGCTCAGATACCACGCTTAGCTCATAGGTGACGCTTGTGCATCATTAAAATATACAGCTGATAAGTTAATGCATTAGCTAGCAATTTATTTAGTTAATGCTGACCCGCCTAAGAATACCCTGGCTGCTTTCTTTCGAACCTGACCAACTAGACAAACAAAACGCCCAGCATTAACCAAAGATAGGATAATAGTTTTATCAGTTTTGATCAAGTATTAACTTAAATCTTTGCGAACCTTTTCTCTAAATCTTTTTTATTCAATCTGCTTGGTTTGCCAAAAACATCTGGATCTTTCATGATAAATAAGCTTTTTGCAACGTTTTTAATTTGTTTTGTCGGTCCAAAGCTTAGAGTAATAGTATTATTGTCTTCATAGATTTTCATTTGCTTTATATGTTTAGTTTTCTTATCAAAAGAGATTTCGCTGATTTTATTTAAATCATTACTCTTTAATTTTAAAACATATTTATTGCCCATAGTTTTTGCAGATAGAATTTCAAACTTATTTTCAAAATCAATGTCATTAACGAGCAGGAAATTAAATATATTATCTTCCGCTTTTATACGACTTAAATGTTCCATTTCATAATCGTATACGGAAACATAATTACTACTACCAACTATAACTAATGGAAATGGTTCATAATAGTTACAACGAAATTTATGAGGTTTATCAATAATTAGCATACCTTTAGATTTTGAGCCATTTGAGTCGCTTTGTGAAAATTCAACTGCAATTGACTTAATGCTTCTTATATAGGTTTTAATTTCTCCAGAAACATCTGATGCAATTGCTTGCTGCATGCTTAATGTTAGAAATAATGAAAAAATAATTTTTGCCACATAGAACTGTGACTTACTTGTTTTGTTTAACATAAAAATCCACTTAATAAAATAATTACACTATTCACAGTCTAGGGAATGGGTATTATAAGTTCAATAAATAAAAAATATATTTGGAAAATTATGAAGATTGTAGCGCTTAAGGAACGAGCTAAAGGCGAACATAGAGTTGCGATTACTCCTGAGACAGCTAGGCTTTTTTGCATGAAAGGCTATGATGTTTTTGTTGAAAAGAATATAGGCACATCTGCTAATTTTACTGATAAAGAATATGAAGAGGTTGGTGCAACGGTGTCGGCTATTCCGCTCGAGATTCTTTCTGATGCAGATATAGTTTTGAAGGTTCAACCAACTCCTCTAGTGGATCAATATAACGAAATTGAAATGACTAAAAAGGAGGCAACCATCATTGGTTTGCTTTCCCCTTATTCAAATTCGGAATATCTCGACAAAGCATTATCAAAAGGATTATCTGCGATTGCGATGGAGCTTGTTCCCCGTATTACTAAAGCACAGAATATGGATGTGTTGTCATCTCAAAGTAATCTTGCTGGATATCGCGCTGTAATTGAAGCTAGTTATTATTTTGATAGAGCACTGCCAATGATGATGACTGCGGCTGGAACAGTTAACCCTGCAAAAACTCTTATTTTAGGGGTTGGTGTTGCAGGCCTTCAAGCAATAGCTACAGCAAAGAGGCTTGGAGCTATAGTGTCTGCATATGATGTCAGAGCTGCTACAAAGGAGCAAGTGGAGAGTTTAGGAGCTAAATTCATTTATCCATCAGAGCCGGGCGGGGATACGGAAGATAGCTCTGGTTATGCAAAAGAAGTAACAAAGGATTTTGCAGACATTCAAGAAAGGTTTTTATCTGGGGTAATAGATAAATTTGATATTGTGATTACCACTGCTCAAATTCCGGGTAAAAAAGCTCCTACTTTGCTTACAAAAGCAATGGTTGCCAAGATGCATCCCGGGTCTGTCGTTGTTGATATGGCGGCAATTAGCGGAGGTAATGTTGAAGATTCATCAATTGACAAAGTTATAGCAAAAAAAGGTGTAAAAATTATTGGTTGGAGCAATATGGCATCTAAAATTGCTAGCGATAGTTCTAAACTATATGCCAAGAATCTTTATAATTTTTTAGAGTATGCAATCAAGGATAATAAAATAAATTTCAAAGATGATTTAGTTGAAGAAATGCTAATTGGAATGAATGGCCAAATGGTAAATAAGAAATTTAAGGTATAATATGGAAGAAGAACTAGGTAAAGCAATTACAGAAGCGTCAGAAATATCCGGTAAGGCACATGCGCTTGCAACAAAACTGCAAGAGATTAGTATTGCAAGCCAGGCGGCGGAGCAGGCTGTTAGCGGAGTTGATCCTTTAGTGTTTGCAGTAACAATTTTTACTCTTGCTTGTTTTGTGGGATATTATGTAGTTTGGAAGGTTACTCCTTCACTTCATACGCCTTTGATGTCGATAACTAATGCTATTTCAGGAATCATAATTCTTGGTGCGATGATCGCAAGTTCTTCGCCAATTTTCGGAGTCTCGTCAATCTTTGGGTTTGTTGCTGCTTTTTTTGCCGCAATCAATATTTTTGGAGGTTTTGTTGTTACCGAGCGTATGCTCGAAATGTTTAAGAAAAAATAATTGATATGGATACACAAATAATTGAATTTTCGTACCTAATTGCTGCGGTTTGTTTTATTTTTGCGCTAAAAGGTTTGTCATCTCCAAAAACTGCTAGAAGTGGTAGTATTGTAGGTATTATTGGTATGGCAATTGCCTTGATAGCAACGTTTAATTTACCTAATTTTTCCCATATAATACCGCTTATAATTACAATAGCAGCAGGTGGTATTGTTGGAACTATAATTGCCCGCAAAATAGCGATGACTGCTATGCCTCAGCTGGTTGCTGGTTTTCATTCATTCGTCGGTCTTGCAGCAGTTCTTGTTGCATATGCTGCACTTCTTGCGCCGCATAATTTTTCTATAGGGATTTCTGGTAATCTTCCAGTAGGAGCCTTGATAGAGATGTCACTTGGGGCATCAATTGGAGCTATAACATTCAGCGGTTCAATAATTGCTTTTGGTAAGTTACAAGGTGTGATTGGGGCAAAGCCGATGAAGTTTGTTGGGCAGCAATATGTTTGCCTTCTTATGACACTTGCGATTATTTTTTTAGTTTATAAATTTACAAATAATGAGAGTCTCTTTTTATTCACTGCTCTTGTTGTACTTTCTCTGATTATCGGCGTGCTTCTAATAATTCCAATTGGTGGTGCAGACATGCCAGTTGTTGTTTCAATGCTAAACTCGTATTCAGGCTGGGCGGCGGTCGGTATTGGTTTTACCCTTGGTAATAGTTTACTAATAATTACTGGAGCCTTAGTTGGAGCAAGTGGCGGGATTCTTAGCTATATAATGTGCAAAGCTATGAATAGGTCGCTTATAAATGTAATATTTGGAGCTTTTCAAAAAGTTGATATTAAATCCGGTGCTGAAGAAGATGATGATCGAGTTGCTAAAGTAAGTAGCGCTGAGGATGCTGCGTTTATGATGAATAAGGCTGAATCTGTAATAATTGTTCCGGGTTACGGAATGGCAGTTGCTCAGTCCCAGCACGCTATTAAAGAAATGACAGAGATCCTAAAAAAAGCAGGAGTGAAAGTTCGGTTCGCGATTCATCCGGTTGCCGGCAGAATGCCAGGGCATATGAATGTTCTACTGGCTGAGGCAAATATTGATTATGAAGATGTGTTGGAGCTTGATGAGATAAATAATGATTTTGGCTCAACTGATATTGCATTGGTCATTGGTGCTAATGATGTCACTAATCCTGCTGCTAAAACTGATGAGTCTAGCCCAATTTATGGAATGCCTGTTCTTGATGTTGGAATGGCTAAATCTGTTTTATTTGTCAAAAGATCAATGTCGCCAGGATATGCTGGAATTCAAAATGAGCTATTCTTTCAGGATAATACTCTGATGTTATTCGGTGATGCTAAAAAAGTAGTTGAAGATATTGTGAAATCTTTGCAGGAATAAAGTCGGTATATTTTTGTTTATATTGATATTTAGATTATTTAGCTAAACTATCAACCAGACTTTGAGCAGCTTCAGGGATCTTATTTGCAGCCTGTAGAGCTGTAATAGATGCAACGATAGTTCTAAGGTTTTGAGCATATTCTTGTGCAGTCATCGCATAATCGGTTTTCAAGTAAGAGTCAGCTGATTGTTGAACTGCATTAGTCGAAGATCGTAATGCATTAGTAATTTCTAAGATATTTGTCTTCTGGTTCGCAACATTTGCTTGTTCTGCACGAATTGTATTAATCGCATGAGTAAAAATATCAAGTGCTCTTAGTCGTGAATCATTGTCACCAATACTAATTAAATCTTGATTATCATAGAATGTGTTAGATATTTCAGGTGTAAAAACAGCCATAGGCGGTAACGCAAGAGCTAGTTGATCTTGATTGGCATTTGTAAAATCGACATTTGGATCAGCTGGAACTACGACTAATGCAGCTGTAGTTCCACCGGCTTTCATTCTTGCCAATCCTTCAGGTAGGAAGTCGTTAAGTAAAACTCCAAGAGATGGCTTTGCAGCTACCGCATTCATTACTGCAGCTACGACTTCTGTATATAGTAGTTGTGGACCTGTACCAGATCCATTCATAAGTGATGCTGCATTTAATAAGTTTACGTTATTGTCTATATCTCTATCAAGTTCTTGTTGAGTTTGATAGTATTGCAAAGAGCCAAGGTTGCTAGCAAAGTAGTCATTCATTTGTTTGACTATAGTTGATCTGAAAAGTTTTGATGACCCTATATCCTTAATTTTTACAGTAACTTTATCTGTGCTAGATAACCCTGCTCCTACTTCAACTGCTGATGCATCACCTCCTAGTAGTATCTTTGAATCAAATTTTGCAGTTCTCGTAAGCATTGCTATTTGTTCTCTTTTATCATCAAGATTTTTTTGAAGGACTGCTATTTTGTCTTTAGAAAATGCGCTAGCATTTGCTACAATTTTAAGGCAGTCTTGGAATGATTCAGCGATTATTTTTAAATATTCATCTGCTACGTTTAGCATGTTAATACTATATGCAGTAGTTTTTGCTAGTGCTCCAAGCATAATTTCCTTATCTCGAAGTGAACTTCCAAGAAAACCATCCACTACTTCAACGGATTTATTATTTCCTGTAGTTAAACTATCGCCTAAATTAGATGTATTACGTATAGCATTTTTAGTTTCACGAGATGCGCTACCTGATAGATGATTTCCAAGAGTTAAAGACATAATTAATTAATTTAAGTGAATTTAAAATAATGCTTGACGAATTATAGGGTATTTTTCATAAATATCAATATACGCGATGTTTATATATGGGATTAGTATTATTTTAAATATATTAGGGGTAGAGTTTGGTATGATTCTGGTCTAGAAGCTATAGATAGATATTATAGCAATATTGAGTTGACAATAGCTAGTTTTATGACAAATTGAGAGGAGTATGTTTTAACTAACTTTACCATTTGATTTGAAGAGTTAGGAATGGAAATTTAAACTAATATGAAAATTTTCAATGGTTTAGTTTTCCTCAATAATAGAATTTTTAGCTTCTTCTCCTTCTGGGACGAAATGTAAGGCAAGTGAGTTCATGCAGAATCTTTTTCCAGTTTTGTCGTCTGGTCCATCATCAAATACATGGCCTAAATGCGCTCCGCAGCGACTGCATGAGACTTCAATTCTTGGGCCGAAAATGCTGAATATTCTCTTTTCTTCTGTCAAAGTGACGCTGGAATCCGATATTGGCTTCCAAAAACTTGGCCAGCCAGTACCAGAATCATATTTTGCATCAGAAGAGAAAAGTGGAAAGTCACCACCACAACAATTACAATGATATGTGCCTTTTTCATAAAACTTATCATATTTTCCAGAGAAGGCTCTTTCTGTGCCGTTTTCTCTGCATATATTATATATTTCTGGCTCTAAATGCTCTTTCCAAAATTCGGGCTTTTGGTTTTTAAAATCAAACATAGTCATATCTCCTGTATTTGCTAAAGCATGAGTTTGCCACAATGATAAAAAGATAGCTAAAGTAAATATAGCTGTGCGCAGCATTGGTTTACTTAAAATTTAATTACTTATAAAACTTTAGCTATTATAAGTTTTGATGACAAGTATAGAACATTATGATTAAATGCTTTTTTTGTTTAAGTGGTATAATTTTATGAAAATCCAAATCATATCTGTTGGAAAATTATCATCTGAAATAGCAAAGATTTCTGATCAATATCAAAAAATGACAAATTGGCAGATTAAGAATAGCGAAATTGTATATTCGAAAAAACTTGCTCCAACTCAAATTAAGCAATATGAAGCAAAACTTATTGAAGATAAGTTGACTAAAGGAGCATATATCATCGCTTTAGATCTTTCTGGAAAACAATATAGTAGCGAAGAGTTTAGCGTAATATTCTCTAAGCAAATGATGGAAGGTAAGAGTATTGATTTTATAATTGGCGGAGCATTTGGCCTTGATGGGTCAATCTTGAATTTATCGAATGCTAAATTGTGCTTATCCAAAATGACTTTGCCGCATCAAATGGCTAAATTAATGTTGATCGAACAAATTTATCGTGCCCAAACGATCTTAGATGGGCATCCATACCATAAGTAACTTCGTAGAATTAGTAATGGTTTAAAAGTCTTATATAAGTTTAGATTGCTATAATGATTGAACTAAAAAATGCTAAATGGTGAGCCCGCCGGGGCTCGAACCCGGGACACCCTGATTAAAAGTCAAGTGCTCTACCAACTGAGCTACGGGCTCATTATCTTTAGCTTAGAAAAACTAAACGATTATGTGAAAGCCGTACTTGATATTCACTTGAGTAGTTAAAATATCAAAACTCACCACCGCATATGTACATTTAAAAAGCTTAAGCAAATTATACTATGATTGCCTTCCCTTGAAAATGTGATTTACTTTATCGTAGAAAAACTATAATATGTCAACAATTATTTTATAAAATAAGGTATATATTTAAGTGACCTACTCAGATGTAGCGTTTATAATTCCATCTAGAATTGGTTCGACTCGTTTGCCAAATAAAGCGCTTGCAGATATTGGTGGTAAGTCGATGATAGAACATGTTGTTTCTAGGCTAAACGCTGGATCTGCGAGTAATTTATATGTAGCAACCGACTCTGAAGAAATTGTGGAAAAAGTGTCGTATACAGGCGGAATTGCCATAATGACTTCCGAAGATTGTCCAACTGGATCTGATAGAGTTTATGAAGCTTTCCAAAAAATACCACATAATGATAAGATAAAATATATAATTAATGTACAAGGTGATATGCCTTTTGTTGATTATAGAGTGCTTGAGAAAATTATAGAAAAATTGAAGAATACTGATTTTGATGTAGTTACTCCGGTTGTAAAAGTTGGCAACGATATTGCTAATAGTGACTCAAATGTAAAAGTCGTAGCAGATGTAAATGATAAAGCGCTGTATTTTTCGAGAAGCGTAATACCTCATGGGGCAGAAGAATTTTTGTATCATGTAGGTATATATGGTTATAAATCTGGAGCGCTTGAGAAATTTGTTAAATTAAACGAAACTCAGTATGAGTCAGTTGAAAAGCTAGAGCAGCTAAGAGCGCTTGAGAATGGCATGAGTATTGGTGTTGTCATGTCAAATGAAATACCAATTTCTGTGGATACTCATGAAGATCTGGAGAAGGCAAGAGAATATTATGCAAAATTGGCAGCAAAAAAATAATAAAATGTTTATGAATATTAGAAATATAATTATTACTTCGCTAATCGCATTGTTGCCCGTCATGGCAAGTGCAAAAACAAGAATCAAGGATATCGCTGCTGTTGAAGGTGTGCGCGAGAATTTACTTGTTGGTCATGGTCTTGTTGTTGGGCTTAGTGGTACTGGTGATAATCTTAAAAATACTGTTTTTACCAAAAAGGGGCTGACTGATTTTCTTGAACGCCTTGGTGTTAATGTGCAAGGAGCAGATATTAAAACGAAAAATATTGCGGCAGTGACTGTTACTGCAAGTCTGCCACCATTTGCAAGATTGGGTACCAGAATTGATGTAAAAGTTGGCGCGCTTGGTGACGCAAAAAGTTTGATGGGGGGTACATTGCTGGCGACTCCGTTGCTTGGTGCGGATGGTAATGTATATGCAGTAGCGCAAGGAGCGATATCTCTTGCAAGGTTTACTCCAAATTCAGGAGATGTTAAGACAAAATCATTGTCTGTTGATACTAATGGTTATATACAGAGTGGCGGAATTGTTGAAAATGAAATTGATTTCTCGTTTGGAGATTTACAAACGGTAAAATTTTCTCTTTATTCACCAGATTTTGCAACAGCAATAAGAGTTGCTGGTGCTATTAATGATAATGTTCCGGGTAATACTGCTGGTGCTCTTGATGCTTCAACTGTTGAGGTGACGGTGCCAAGTTACAGGCAAGGTGATATCGTTGAGTTTATTGCTGAGATTGAAGGTTTGGAGGTAAAACCAGATTACAAGGCAAAAATTGTTATCAATGAATCAACTGGCACAGTAGTTATAGGTGATAAGGTTAATATAAGACCGGTTGCAATTGCGCAAGGAAACCTAATAGTAAATGTTGGGCAGCCAGATGTAATTGATGAAAAATATGGTCCAGATACTGATGAAAAAAAACGTGATTTAGTAAATGCTTTCGTTGATAGTAGGCGTGGTCGCGAGTTGCACCAGTTAAATGAGAGTGCGACTTTAAGTGATCTTGTAGCCGGACTTAATAAGCTTGGTGTGTATCCAAGAGATATTATAAATATTTTGCATAACATGAAATCTGTTGGTGCACTAGATGCAGTAATTGAGGTGAGATAATATGCCTGGTATTGGTGGAGGAGGTGTTGCAAATGTTGGCAAGCCTGCAGAGTATTATCAAGTAATTGATCGGGGTAAGGTTAATTCTTCTAGAGATGCATCTTCATCTGGTGAAGTTTCGGGATCTTCTTCGGTACATCCCAATAAATTTGGTAAGGTTTTGGGTGCTCAGCGGGCTCTAAACGAGAAGCAAGTTAAGGCCAGAAATTCAGTTGATTCCAGAGTAAGTAGAGCGCAGCTCGCTTTAGATAAGCAGGTTGCTAGATCAAAAGCATCAATAAAGCCAACTCGAGCAGATATGAATTCTCTGATTAGTGCTAGTGGTTTAACAAATGAACAGGTAAAACAACTTATGGGATCGGGTTCAAAGGGTTCAGCTAAAGGCGTTAATACACCGTCTGGGCTAAATGATGATAAAATTGGCACAAATCTTGCTCTTAAGAAGTTAGCGAAAGAAATGGAAGTCCAGATAATGGCTATGTTCTTTACGCTTATAGATAATGCAAGAGAGACGGAGCCAGAAGGTGGTTTTGGCGAAAAATTATTCAGAGGGCAGTATTTAACAGAAGTAGTTAAAGATAGTGCTGACGCAGAATTAGGAGAGATAGGTCTTGCAATTTATCGTAATTTAGTTAAAGAAGATAATATTAAACAAGTTCGTGATGTTAGGAAATAGTAATAAGGGAAATAGCTTAAGTCAGAGAGAGATTGTTAGTAATCTAACAAAATCTCTTAAAGACCTTATTACAATTATTGAACAAGAGAACGCGTTGTTAAAAGCCGGCAAAATATCCAATATCAATGTAGTAGTTGAGAAAAAAGTTGATGCAATAGCAAAATTTAATGAAGCTCAAAATGATGTTGAAGATTATGCAAAGGTTGGTGGGCAGTTTGATCAACAATCATCTGCGTTGAAGAAATTAAAAGATTTGTTTTTTAAATTAGATCTAGCTAAGAAAGATAATGAAATATTGATTAGAAGTAATTTAGAAGTCAGCGATCAAATGATTGAAATGTATAAGGAAAATAAGGCGCAAGAGACAATGCGTCAATTTGGATATAATAAAGATGGTAATGTTTCTACTGATAAGGTGAAAAACGCAATGCCTTCTGTTGGTTATAGTAATAAGGTATAAAGTTATGGTATCATCTCTAGAAGTAGCAAATAATTTAGGTGTAGCATCAAGTGTTCTTGGGCAAGGATCAGCTGATAATTTGAATCGTCTTGGTGATCCAACGGCTCGTAAGCTTAGTGCGTCAACTACAGTTGATCGTTTAGGTAGTTCTGGAATACTGAGAACAAGCCTATCTTTAACACGTGGTACAGATCCTCTTTTAGAAAAGGCTATGAGGGTTCAGGTGTCGCGCCTTGAGGCTAATAACACAACTACTTCATATTTGAGAGAGATGCAATCTGTTATTGGCGGGAGTAGTAATTCACAAGAATCGGTCTTAGTTACTTCAGTTAATGAGTTTTTTTCTCAAGCAAAAATTTTGGAGTCTAATAGTGGCATTGCTATGAAGCAGTCATTTGTTGACAAAGCTGAGACATTAGCAAAAAGGGTGACTGATATTACTTCAAAGGGTGTTAGCCTCCAGCTTGAAGCGGATAATCAGATGCGAGAGAGTATCGCGAGTGTGAATTCAAAAGCAAAAGCTTTGTTTGACTTGAATCAGAAGCTACGCATTACGACTAATCCGATAAAACTTCATGATTTGCGCGATAATCTAGTAAATGACATTGCAAAATATATGGATGTAAAGGTCACTTATGAGGCTTCTGGGTCTGTAATGCTGCAATCAAAAAGTAGTGGTACAGTTTTAGTATCTGGAGAGCACTATGCTCAGTTTAATTATCCAGGTATTCAATCAGAGTCAAAAATACAAAATGGAATTGATTTTCCACCTATGACTATGACTCACTTTAATGTTGATGGAACTAAAGCACGTGAACCTATAGTATTTATGGGCGGATCTGATGACCCAACTCTTCAGTTTTCTGGTGGGCAATGGGGTTCGATAGTTGAACTTCGCAGAGAAATTTTGCCTGAAATGGTGAGTGCTGCAAAGGTTGTTGGTCGAAATATCACAAAAGCTGTAAATGATATACATAATAGTGGTACTACATTTCCTCCGAAAAGCCGTTTTGAAAGCTCAATGGATGTTTATGGTTCGCAAACATTTGATTGGAAGCCGTTTACAATTCATGCAGTTAGCAAAAATGGTGACCCACTTCGTGGTGGTGCAGGACTTTTAAATCCAATTACTATTGATATGAGTAAGGTACCATCTGCTCAAGGTGGAGGTACAGCAACTCTTGCAGATATGGTAAAAGAGATTAATATAGCGCTTGATACCAGCCCTTCACGTGACCGCGCGGCAATTGGCGCAATTACTAATGGTGGTGGTGCTCAAATAGCTGGTGAATATCTTGTTAATAATATCCAACTAAAATCAAATGGCCCAGTTTTTGGTCCAAATAATAGTTTTACTTTTGAGCTTGATTTACAAGGAAACTCACATTTTGGAAGTAATATTGAGGTGATGGGAATTACTACTTCTGATCATCCTGGTGGAGCCAATCCAGTAAATCTTACAAATGATCAATTACCAGAGAGTTTTAGGTTAGATAAAGGGGTAAATACAGCAACAGGTCAGCCTATTACTGTAAATGGTATAAACGCTCCAAAACAGATCACAGTAGATGTAAGAGTAGTTGGTGACAACGGTCAGGTCCAAAGAGGTACAATCACATATATTGTAAATCCCAATGTTGAAGTTAATGATAGAATTGCGATTGATCCGGCTACAGCGAATCAGGGTGGTAATTTTGCTAATCCTGCGGCAATTAACGGCTTTACTTCCGTTGCAAGAGCGATGCTAGTTGATGAAAATGGTATTGAGATAGATATTAATGCAAATCCTTCTGCTAGAGGGAAATTAGTAATTCAAACTGCAGACGCTTCATATGGTTTAAGTGTTGAAGGTGGTCTTGGTCAGATTTTTGAATTTAATAACATGTTTGAATTTGATGAAGTTACTGGTGAAATGACTGTAAATTCTCGAGTTTTGTCTGATGTAAATGAGCTTGCAATTGGCAGAGTTGCAAAAGGAGATGGAATTGATACAGTTCACACTGTTGGTGATGCTAAGGCGAGTGCAACACTTACTTTTGCTGGTGGAGCAATAGCTAATGGTGATACGGTGTCTGTCGGAGGTCAAGTCTTCACATTTGCAGCCGTACCAGTAGGCCCAAATCAAGTTCTTACTGGAGGAGGGATTGTAGCGTTGAGGGATGCTATCAATAATCATCCAGATGTTGGTGGGATAGTCAGGGCAACAGATGCTGGTAATGTATTAACGATAGAGGCAAAAAATGCCGGTACTGGTGGTAATGTAATTGCTGTTGCGACAAATCTAGTTGGTGGTGCTACTGTTGATTTGAATGGCGGTGGAGCTAATGCTGTTAATGCAGGTAATTTGCAAAATGGAACAAACAAACAAGAAACTTCAAAAGTATTTAACTATACTATAAAGCCAGAAAGTGGTGAGATAATTGAAGAGTTAAGTAATTTGCAATTTGGTCTTGTTTCGGTTCAAGGTGATGGTTTGATTCCAACAACAGAAATTTCTCTTTCAAATTTAGCGACAATATTTACAGGAGTTCTTTCTGATAAGTTAAGTGCTGCAGAAATTGAATCAAGCATAGCTACTAATGTATTAGAGCAAATGCATAATACGATTCAAGATAAGTTTGGAATTAAAAGAGATGAAGAGTTTATTCAGGCAATTGAGGATGGGCGTTTGATGCAAGCGCTTGCCAGATTGCTTAGTATGATAAATAATATTCAGGTAAAAGCTGAAGACATTATATTTGGTTAGGAAAACGATAAATTAGGAAAAAAGATTATGGTAGGTGCATTAAAATCTTCTACAGATATTTTAGGGGCAGGATTTGGGAGTGCAAGAGATATTGGTACTACAGCTAGCCAGTTAAAAGAAGCTCAAGCTGCAGTGACTAACCCAAACAAATTTACTTCAAGATCAGATCTTGATCAGTCTGGTTTAGCAAGAAAATTTGATGAATTGCAGGGGACATTGCTGAATGTGAATTCGCAAGATACTACGGCAAATATTACTAAGTCTAGACTGGGTAATGAACAAAAAGCCTTAAAGCAAGTAAACGATATTATGGTTCGTTTCGAACAAGAGATGTCACAATCCAATAGTGTCGCTGGTTCTAAACAAGATAAAGTAAATCGTGCTCTTACTGAGCTTCAGACAGCTTTGAGAGCTCAGGATACTTCGGGTAAATATGTTTGGGGTGGAAAAGATGCAACAACTGATCCACTTTCTAGATTAGATGGAGCTGGAAATAGGGTGGCAGTCAGCTTAGTGAATGAATCTAATGTAGTAGATGGTGCAGATACATCTGGGTTGATCACAAATGGTTATAGCACTAATTCATCAAATTCAACAATAGTTACAGTTTCTTCCCAGCACGAAGTTAGAGAGAGTTTTCTCCATCCTGGGCATGATGCGATTGCAAAAGCAATAGGATATTTAAATATGGTGAAAGCAAATGCAGATGCTATTGATGCAGGTGGTGCTGGTGCTGCAATATACACAGGTCAAGAGCTTGCAGCAGCGCAGCGTGAGCAGTTAGATGCTAGAGGGGCTCTGAAGGTGCAGATTGATACGGAAGTGAAGAAAGTTGAACAAGCTTTTGATGTAAATAAAAGAGATGCAAAAGATGCATTGAAGGAGAATAATGACTTATTCTCTGCGAATCTTGTTGAAAGAACTCAACAAGTGCATAATCTTATTGTAAGTATGGCCGCGCTGATATCGGTTTCAAATGTGGATTCAAAAATTTCTGGTATTTTAGAAGGTTTGAGAGTTTAGGCTTTTTAATTGTACTGCAGGATTTTATTATATAAATAAGTAATTCTAGTAGTATCATGATAGTTTTAGACAGACATTTAGAAATAAAATCTAAACATTTCATGGTGATTATTAACCACCTAAATTCTAATGGTGGTAATTCTCGTCTTGTTGGTGGTGTGGTTCGCGATAGTTTTCTTGGTAGTGATTCTTCAGATATTGATATTGCAACTGATTTTGTACCAGATCGAGTTACAGAAATTCTTACTTCGTATGGTATAAAAGTAATTCCTACTGGTATAAAATTTGGAACAGTTACGGCTATAATTAAAGATGAATCATTCGAGGTAACTACCCTTCGGAAAGATATTAATTGTGACGGGCGACATGCATCTGTTGAATACTCAAATGATTTCGCCGAAGATGCTGCGCGAAGGGACTTTACTATTAATGCACTGAGCTATTGCCCGATTCAGGAAAAAATTTACGATTATCATGGTGGGCTTGCTGATCTTGAAGCAAGGAAAGTGGTGTTTATTGGAGATGCAGCAAAAAGAGTGCAAGAGGATTATTTACGCATTTTGCGTTTCTTCCGTTTTTCTTCTAGATATGCAAAAGAAATTGATTCAACAGGGCTTAAAATTTGTACAAAGTTTAAAGGTCACCTTAAGAGTTTATCACAAGAGCGGATTAAATCAGAAACTGATGGCTTGATGCTTAGTGTAAATGCCCCAAAGATGCTTCAAGTAATGAATGATTACGGTATTTTAAGTGAAATATTACCCGTTGAAGATTATGATTTAGATATGCATTTACAAGCTTTATCATTGTCTGAGCAGTTTAAAATTTCTCTGACATTACCAATCATATATTCCGTTTTATTTATGCATAATGAGAATGTTACTTTTTCTAATCTTATGGATTTGAAATTCTCAAAGACTCATGCAAACATAATTATGAAGATGCATTTACTGACGGAGTTGCAAGATAAACAAGATTTAATGTATTCTTTAAAAAATATTTGGCTTGAAGAAAAAGATTTTGTACAGTATTTTATCTTTTCTTTGCTGCTTTTTGAGGATAATCAGTATATTTATGATTTATACAGAGGGTTAGTTGAAAGAGAGAAGCCCATTTTTCCTGTTACAGGAGATGATATATTAATTCTGGGTTATCAAGGGAAAGACGTTGGTAGAATTCTAGGGTATTTAAAGAAAAAATGGATTAAAAGTGATTTTAAGGATAAAAAATCATTTTTGTTAGATATGGTTTTAGAAAATGAAAAATAAAATTTTACTTTTGGTATTGATCTTGTTTATCAATGTTAATGCTTATGCGATACCTAAAATATCCACTAGTATCACGCCAATTGCTAGTATTGTTTCAATGCTTACGGAAAATAATGCCGAAATTTCTGCGATAAATGTGGCTGCAGGTTGTCCACATCATTATCAAATGAGACCTAGTGATAAAGAAAAAATAGCTGGGGCAAAAATGCTAATTTATATCGATGATTATTTTGATGGTTATGCTGCGCATTTAGCTTCTAATTTTAAAGGCAGGGTGGTCAAAATTAGTGAATTTGAATCTATTAATTTTATTGATGGAGAAGATCACAAGAATTGGCATTTTTGGCTTGATTTAGATAATGTTTTAGCGCTCCAAGAGGAGTTGGCTACAATTATCAAATCAGAGATTCCTGAACTTGCTAAAATTGTTGATGATAATATGAATAAGGCAAAAGCTAAGATTAATTCACTAAAGCGTCTTAAGAAGCATGACTTAGCATCTCATGGAGAGATTGTTGTGCTTAGTGATAGCTTGGCTCACTTCGTTAAAGGGATGGATGGGTCGATTATAAAGCTTTATCAAAAACATAGTTCAAGTTTGAAGGATTTTGATAATCTCGAATATATTTTAAACACAGATCAACCGCAATGTATAGCGCTTGATAGTTTGCAAGATCCAAAAATATACGAAAAGTACAAGAAGAAAATAGTTCAGCTTGATACAGAAAATTGGAAAATGCCTAATGATATGTCTGATAGTAGTGATTTATTTTGTACTAAATATCTAAAAATGATTAATCAGCTAAAGACCTGTCGTTAGTGTGATAAGTAAGAGCATTTTTATGCATTCAGATATTTTTTGAGTGCTTGCAGGTTCATCTCTTTTGAAAATAATTGCTCTATTTCCTTCAAAGTGTAAAAAATCTCTATATTTTTTTCGGAAAGATGAGATTAAAGTAGTTTTGCAGTTAAAATATATTCCGTATTGATCTGGTTTCTTTTTGTTCCATGCGAGTCTAATAGTACTTCCGCTTTTGTTTTTAGTAAGATAGCTGGGCTCGCCACATTTTAGAGTTTCTTCTATTTCTCCTATTACGGGAGTTTGTTTTGCAATATCAAAAATTAGTGTGCGTACTAGACACTGTTAGTGAATTATAGCAACGCCCTAATTTAGCCCTTTTTGGCTGCAAATCGAAAAGATTTCTTGAAATATGAATACTATTCCTGCAAAATCTTTTCAATTTTCGCTCAAAAATGCCTTAAAATATGGCATCACTATAATTAGCTAACAGTGTCTAAGAGAAGTTTTTCTCGATGTAGAGATGGGTAAGATGAGTAAACTTCTCTTATGTATTGTTGCATTTATATGGTTATTATTTCATTTTCTTTTGACTTCACATTGGCTTCCACTTTACCAATAAATTCGTCAGTTAATTTTTGTACTTCGTCGGAATATGTATGGTGCTCATCTTTGGAAATTTCATTACCTTTTTCCATTTGCTTAAGCTTATCCATTCCATCCCTGCGCACATTACGAAGAGCGATTTTTGTATTTTCCCCATATTTGTGTGCAATTTTGACGAGTTCTTTTCTTCTTTCCTCACTTAAAGGTGGAAGATTCATACGTATCAATTGTCCGTCTGAGCTTGGGTTAACTCCAAGATTTGCATCAGCAATTGCTTTTTCAACAGTTTTAACCATTGCTTTATCCCATACTTGAACCGTAATAGTTTTTGCATCAGGCGTTGAAACTGTACCTACCTGGGATATTGGCATTTTGCTACCATATACTTCTACTATAACGGGATCAAGTAGATGTACAGATGCTCTGCCAGTACGGAGTCCGCTAAACTCTCTATCTAGCATATCCATAGCTTTTGTCATTTTTTCGGATAGTTCGTTCTTTAAATTTTGGTCCATTAGTTTCCTCGTATAATTGTATATTCACCTTGGTCTTTTAACACTTTAGCAAAATTGCCTCTTTGCTTTATGGAGAATACTTTAATTGGTAAGTTATTCTCTCTAGCAACGGCAATAGCTGCCATATCCATTACCTTTAAATTATCTCTTAGTACGTCAGTATAAGTTATTTCGTGATGTTTTTTGGCATCTTTGTTTTTATTTGGATCTTTATCATATACTCCATCTACATTTGTGCCTTTAAAGATATAGTCACATTTCATTTCAACTGCTCTTAGGACTGCAGCACTATCAGTAGTAAAGAATGGATTTCCAATACCTGCTGCAAAGATTACAACACGTCCTTTTTGCATATGCCGAGTTGCTCTTCTTCTGATGAAAGGTTCAGATATGCTTGTCATAGGGATTGCTGATTGCACTCTAGTATAGATTCCTTGTTTTTCTAATGCGTTCTGTAAGGCAAGAGCATTAATAACCGTTGCAAGCATTCCCATATAGTCACCTGTTGCTCTTTCCATGCCAAGATTTGCAGCATCAACGCCTCTGTAAATATTACCGCCTCCGACAACGATACAAACCTGCACTCCCATTTCGCAAACTTCTTTTATATCTTCTGCGATTGCCTTTAGGGTATTTGGATCATGTCCATATGTTCTTTCCCCCATTAGGGCTTCGCCAGAAACTTTGAAAAGAACTCGTTTGCAATTTATATTTGTCATTTTTTAGCATTAGAATATTTTTGATCATGCTAACGTACATGTTGTAATTGTCAAGTGTCCGTTACTTTTTTAAGTGTTAGTAGGGTGTTATTATTAGTCAGCTAATGGATAAACGTATCACTAAATTAGGTAGGTTTATAATTAATTAATTTTTTATATGAATTATAATAAAATCTACTTCATGGCAACAGTATTTGATGCAAAAATGCATTTTCCAATAAAAACAATGGTTTTATTGACCTTCCTTGGGTATGCTTGATGTGAATGATAAGATAAGTCTGGTTAAAATAAAGGATGCCAAAATTAACAATTGATGGAAGTGAGATTGAAGTCGAAGAAGGCTTAACTGTTATGCAAGCTTGCGAAGCAGCTGGTATTGAAATTCCACATTTTTGTTTTCATGAAAGATTAAAAATTGCTGGAAATTGCCGCATGTGCCTTGTTGAAATGGAGCGTGCTCCCAAGTTAATAGCTTCGTGTGCAATGCCTGTGTCTGAAGGTATGGTAATCAAAACAGATACACCAAAGGTAAAAAAATCCCGCGAAGGTGTGATGGAATTTCTGCTTATTAACCATCCTCTAGATTGCCCTATATGTGATCAAGGTGGTGAATGTGATTTGCAAGATCAGGCTTTCAAATATGGAAAAGGTAAGAATCGTTATACAGAAAATAAACGTTCAGTGAAAGATAAAAACCTTGGTCCCTTAGTTAAAACTGAGATGACAAGGTGTATACATTGCACACGCTGTATTCGTTTTTCTACTGAGGTTGCTGGAGTCCCTGAAATGGGTGCAGTGAATCGTGGTGAGCATATGGAGATTGCAAGTTATTTAGAAAAAACACTTACGTCGGAATTATCTGGTAATATTATTGATCTATGTCCAGTAGGGGCTCTAACATCAAAGCCTTATGAGTTTACTGCTCGCAGCTGGGAATTAGAAAAAACGGAGTCTATAGATGTTATGGATGCGGTAGGTTCAAATATTCGTGTTGATTCCAGAGGTTTGGAGGTAATGCGAATTTTGCCAAAGCTCAATGAAGATATTAATGAAGAATGGTTGTCAGATAAAGCAAGATTTTCGTATGATGGCCTGAAGGTTCAACGTATTGATACGCCTTATATAAGAAAAAATGGTAAGTTAGTTGAAGCGAGTTGGGATGAGGCAATTTCTAAGATTGTTGAAAATATAGGTTATATTAAAGGTGAATCAATAGCAGCTATTGCTGGTACGATGGTTAATGCGGAATCTTTGTTCCTGCTGAAAAAAATGCTGGGCACTCTTGGTAGTAAGAATGTTGATGCAAATCAGTTTGGATACAGAATTGATTCTACTAGTCGTAGTAATTATTTGTTCAACTCAGGTATAGCGGGTGTTGAAGAAGCTGATATATGTTTGTTAGTTGGTGCAAATCCAAGACAAGTTGCTCCAGTATTAAACGCAAGAATTGGTAAAATGGTCAGAAATGGATATATGCATGTTGCTCGTGTAGGAACAGAAGATGATCAAACTTATTCTATAGAGGAACTTGGAGAGGAGTTAGCTTCTCTTGAATCAATTTTATCAGGCAAAGGAGATTTTGCTAAGAAATTGCAAGATGCAAGTAAGCCGATGATAATTGTTGGTGATGGTGTTTTAACACGCTCGGATTCTCACGGTATATTATCATTATTGCATGATATAGCTGAAAAGTATGATGTTGTAAGTTCTGAGTGGAATGGGTTTAACATTCTGCATAATCATGCGTCAATGGTTGCAGCGCTTGATTTGGGTTTTTATTCTGGTAAGAATGGTTGTGGAACATCTGATATTTTGAAGGCCACGAAAGAAGGTAAAGTAAAGACTTTATATCTTCTGGCAGCGGATGATATTAATGTGAATGAAATTGACAAAGATTGTTTTGTTATTTATCAAGGTCATCATGGAGATGCGTCAGCTGGCCGTGCAGACGTTATATTGCCTGAGGCTGCATATACTGAGCAGGATGGAATTTTTGTAAATATGGAAGGGCGTCCTCAATATGCAAGAGCTGCAATTTCTCCACCTGGCCAAGCTAGAGAGAGCTGGGATATAATTACTTATTTGGCCAAGAGATTAGATGTGCCAATACAAGCAGATAGTTTAGCTGCAGTCAGGGATATGATGGCTAAAGAAAATATTATATTTGCTAATATTGATGAGATTATACCTACTAATTTTGTTCCGTTTAAGTCGTCTGTGAGGCTTCTTAAAAAAGGTGTTCAGAAAGTAGAGATGAATTATTACATGACAGATCCAATTAGTAGAGCATCTGTGACAATGGCAAGATGCACTAAAATGCAATCAGGAAACGAGGTGTCATCATGATAGATTTGTTTTTTGAATATGGTTTGCCGATAATTTATATTGTAGCTAAAATTTTACTTATAACATTGCCATTGCTGCTTTGTGTTGCTTATTTAACTTATGCAGAAAGAAGAGTAATTGGTCTGATGCAAATGAGAAGAGGACCAAATGTTGTAGGTCCTTTTGGTCTTCTGCAGCCAATAGCTGATGCTGTGAAGCTTATGTTTAAGGAGGTGATTGTTCCAACTCCTGCGAATAAAATAGTGTTTATATTGGCGCCGATGATTACTTTTATTTTAAGTCTTATAGGTTGGGCTGTTATACCTTTTGGAGCTGGACTTGTGCTTGCAGATATTAATGTAGGTGTCCTTTATGTTTTGGCAATATCATCACTAGGTATTTATGGAATTATTATGGCTGGTTGGGCGAGTAATTCCAAATATGCATTTTTAGGTGCAATTAGATCTTCGGCGCAAATGATCTCCTATGAAGTATCTATGGGTCTTGTTATTGTTACTGTACTCCTAGTTACAGGTACATTAAACCTGTCAGAAATTGTTGAATACCAAAGAACAATGCCATTATGGATTCAATTACTGTTAGCTCCAATGGCGGTTGTCTTCTTTATTTCTGTTTTAGCTGAAACTAACCGTCTGCCATTCGATTTACCTGAGGCTGAGGCTGAGCTCGTTGCGGGATATAATGTAGAATATTCGTCAATGGCTTTTGCCTTATTCTTCCTTGGGGAATATGCTAATATGATATTAGTAAGTGCGATCACAGTAACATTCTTTATGGGTGGTTATTTGCCGCCTTTTAACATTGAATTTTTGGATATCGTTCCAGGGTTTATATGGTTTGTTATAAAAGTTGCATTTTTACTATTTGTATTTTTATGGATCAGAGCGACATTACCTCGCTATAGATATGATCAGTTAATGCGTATTGGTTGGAAGTTTTTCTTACCATTAACGCTTTTTTGGGTTGTCTTAGTTGCATCGCTTTTGCTATGGACTGGGAATTTGCCTGGGTAGGGAGGGTATAGTTATGATAAAATATATAAAATCTTGTGCGTTATATGAAATAGTTTTGGGCATGGCTTTGACTTTGAAATATTTCTTTAAGCCAAAAGTTACATTAAATTATCCATATGAAAAAAGTCCAATTAGTCCAAGATTTAAAGGTGAGCACGCGCTTCGGAGATATGCAAATGGTGAAGAGCGTTGTATCGCTTGTAAATTGTGTGAAGCAATATGTCCAGCTCAAGCGATTTTGATTGAATCGGAAGATCGCGTAGATGGTAGTAGACGCACAACAAGATATGACATTGATATGACAAAATGCATCTATTGTGGTATGTGTCAGGAGGCATGCCCAGTTGATGCAATTGTTGAGGGGCCGAATTTTGAATTTGCAACCGAAACTCACGAAGAGCTTTTATATGATAAAGAAAGATTGCTCAAAAATGGTGAGATGTGGGAGCAAGAGCTTGCTAGAAAACTAAAAGATGATTATCCGTACAGGTAGTATATATGGCATTATTTTTCTATGGATTTGCAGCATTAATTATTCTTTGCAGTATTATGGTTATTTCAAGCCGTAACCCTGTTCATGCTGTACTTTGGTTGATTTTTGCTTTCTGCAATGGAGCTGGCCTTATGGTGCTTATGGGTGCGGAATTTATTGCTATGATGTTAATTATCATCTATGTGGGCGCAGTTGCTGTATTATTTTTATTTGTTGTAATGATGCTTGATATTAAGTTTACAGAGCTTAAAGGAGCTGCTACTTCAGAAATGGCCTTTGCCTTCTTTTTGTCAGCTTTCTTATTTGCAGATTTAGTTATAGTTGTATTGCTTGGATCTAAAGTAATTGTTCCAGAAGGAAATGCATCATTTGCTATTTCTCCGGATATTGGTAATGCTTACGCTATTGGTAGGTTACTTTATACGGAGTTTGTACTACCGTTTCAGACTGCTGGAGTTATATTATTCGTAGCTATGATTGCAAGTATTGCTCTTACAATTAGGCTAAGGCCTGGAGTAAAAAGACAGAAAGTATCGCGCCAGTTAGCTCGAAACAAAGAGAATAGTCTGGCAACTGCTAAATTGGATGGAAAATCAGGGTTAGATAATTTGAATTATGACGATTAGTGAAATTTCTTTAGAACATTATTTGATTCTTTCTTCGCTACTTTTTGCGATAGGAGTGTCTGGTTTATTTATGAATAGAAAAAATGTCATCACCATTTTGATGTCTGTAGAGCTTATGTTATTAGCTGTGAATATTAACTTTGTTGCTTTCTCTGTACATCTTCAGGATATAGTAGGACAGGTATTTAGTATTATTGTTTTATCAATAGCGGCAGCCGAAGTATCAATTGGCCTTGCGATTTTGGTTCTATACTACAGAAATCGTGGCTCAATTGAGATTGAAGATATTAACCAGATGCGAGGTTGATCTATGGAATTAATGTTAAAATTGATTGTATTTTTGCCTTTGATATCTGGATCAGTAAATGGTATTTTTTGCAAAAAATTCTCAAATAAAACTGCTAGTATTATATCAAGTAGTGCAATAGTGTTTGCTGCTATTTGCGCGGTTTTTGTTTTTAATAAAGCAGGCATTGAACAGGATGCAATACATATAATATTAACAAGCTGGATTAATATTAATTCCATCAATGTAAGTTGGGCAATCTATGTAGATCAGCTAACCTCTATTATGATGCTGCTTGTGACCTCGGTATCTGCTGTTGTGCATATTTATTCACTTGGTTATATGTCGGATGATAAGAATTTACCAAAATTTTTATCCTATCTTTCATTGTTTACATTTTTTATGTTAGCACTTATTTCTGCAGACAATTTTCTGCAGCTATTTTTTGGATGGGAAGGTGTTGGCTTATGTTCTTATTTGCTGATTGGTTATTACTATGAAAAAGCATCGGCAAATAATGCGGCAATAAAAGCTTTTGTTGTTAATAGAGTAGGAGACTTTGCGTTTATAATTGGAATTGTTATGATTGCGCTATATACAGGAAGTCTTGATTTTGAACATGTTTTCGTTTTGGCAGAAAATTTAGCGCAAACAGATTTAGAGATATTAGGTATGAATTTTATTGTGCTTGATGTGATTTGTTTAATGCTATTTTTGGGCTGTATGGGAAAATCCGCGCAGATAGGAATGCATGTGTGGCTTCCAGATGCGATGGAAGGACCAACTCCAGTTTCTGCTTTAATCCACGCAGCAACTATGGTGACAGCAGGTGTATTTTTAGTTGCTAGATGTTCATTTATGTTTGAATATAGTCCGTCAGTTTTACAGTTTATAACTATTATTGGTGGTGTGACGTGCTTATTTGCAGCGCTAGTTGCTATTGCTCAAACTGATATTAAGAAGATCATTGCTTATTCAACGTGTTCGCAATTAGGCTATATGTTCTTTGCGTGTGGGGTTTCAGCTTATCATGCAGGAGTATTCCATCTTGTAACACATGGTTTCTTTAAGGCGCTTTTATTCTTATCAGCGGGGAGTGTTATTCATGCTTGTCATGAGCAAGATATATTTAAAATGGGTGGTTTAAGAAAAAAACTACCAATTACTTATGCTAATTTTTGGATTGGATCGCTTGCAATCATTGGGATATTCCCGTTTGCAGGATTTTATTCAAAAGATCTAGTTCTTGAGTCTGCATATGCTGTAGGCGGAGTTGGATCGCTTGCTTTTGTTCTTGGTATTATTGCAGCAATTTTGACTGCAGCATATTCACTTAAGATTATTATGGTGACGTTTCACGGCAAGACAAAGCTTAGTAAGAAAGCTTTTGACCATGCGCATGAGTCGCCAAAAATTATGAATGTACCATTGCTTGTTTTAGCTGCAGGAACCCTATTTTCTGGTATGTTTGGACATTACATTTTAAATATATCAAATCCAAATGGATTCTTTGCTGGTAGTATATTTAACTTAAATATTGGTGATCATGAACATCATGTGAGCCTTGGAATTCAGCTATTACCTTTGATTGTTGGTATATCCGGCGCTTTATTTGGTATTTATGTTTATATTAGCAACATGTCAGAAAAAATTGCCAATCAAATGAAATATACATATTGCGTACTTAAGCATAAATTCTTTTTTGATGAAGTATTCGATCGCATTTTTATTAAAACTACTAAGCATTTGAGTAATTGGTCGCGTAAGTTTGATATCAAAATAATTGATCGGTTCGGACCAAATGGTTTTGGCATAACAGCGCGTGGCTTTAGCTGGTGTATGTGTCAAATCCAAACTGGTTATATATTTAATTATGCATTCTATATTATCTTTGCGATAGTTGTATGCATAACAGTATTTGTTGCAAAATATTTATTTGGGGCGTAAGGGGTTATTATAGATGTCAGATTTGCCAATCTTATCAATTAGTATTTTACTACCGCTATTTAGTGCGTTGTATATTACGTTTTTTATCAGCCACAGCAAATCAAGCCGTAAACAAATTTATGCTATGTATGTAGCAATTCTTTCATCAGTTCTGACGCTAATTGCAACAATATATCTATTAATTAGATTTGATCCTGACGTACAGTCATATCAATTTATTGAGAAATATAGTTGGATAAAATCTATAGGTCTTGATTTTCATGTAGGAGTTGATGGTCTTTCAGTTTATTTTGTTGTTTTAACTGCGCTTTTAACCTTGATATGTATAGTAGCTAGCTTATTTACGATTAAGAAAAATATCAAAGAATATTTGCTTTGCTTTTTGCTTCTAGAGTCATTTTGTATAGGTGCGTTTTCAGCATTAAATCTTCTATTATTCTATGGATTTTTTGAAGTTATATTAATCCCAATGTATCTAATTATTGGTATATGGGGCGGTGAAGAGAGAGTTTACGCAGCAGTCAAATTCTTCTTATATACATTTTTTGGTTCAGTATTCTTATTGATTGCATTGATTTATATTTATGGTCAAACAGGGACATTTGAATTTACCGAGCTTGCAGAAAAAATGCCATTATTGCCGCTTGAGGTTCAGCAATATCTGTGGCTTGCTACCTTTATATCATTTGCGATTAAGGTGCCAATGGTTCCATTTCATACATGGCTGCCGGATGCTCACGTGCAGGCTCCAACTGCTGGGTCTGTTATGCTAGCTGGCATATTGTTGAAATTAGGAGGATATGCTTTCTTACGTGTTTCTTTGCCTATGCTTCCTGGAGCATCAGAATATTTCTCAGTTTATGTAATGTGGATTAGTGGATTTGCCGTAATTTATGCTTCATTAGTCGCTCTTGCACAAAAAGATATGAAAAAGATGATAGCATATTCATCTGTTGCGCACATGGGATATGTAACAGCTGGAATATTTAGTTTAACAATATCTGGTATTGGTGGCGCAGTATTTCAAATGATTAGTCATGGACTAATATCATCAGCATTATTTTTGATTGTTGGTATGCTTTATGAACGCCATCATACAAAAGAAATCAGTCGTTATGGTGGTGTTGCTTCTAGTATGCCAATGCTTGCTACATTTTTTATGATTGCAATGTTGGGTTCAGTTGGCCTACCTGGCTTAAGTGGTTTTGTTGGTGAGTTTTTAAGCATAGTTGGTGCTTTTGATGCAAACCCTGCTGTTGGAATAATATGTGCATTTGGTGTGATTCTAGGTGCGGTTTATATGTTGAAATTATATAGATGTGTGATGTTTGGAGAAGTGACTGATAGTTCAATTTTGAGCTTTAAAGATTTAAAAAAATATGAAGTTGCTGCGCTTGTCCCTCTTATAATTTTAGTGATTTATATTGGTATAATGCCAGCGGGGATTTTTCGTTCAATAGATATTCCGGTAGAGAGTTTAGCTGGAATTTATGATGCATTATAGAGTTGGAAAATAAATATGTTGAATCAAATTACAATGATAATACCAGAGATTCTACTTGCAGGTCTTGCGATGACTATGCAGATTGTTGGTGTTTATTATAAAGGGAATTCTAGATTGGTCGCTTCAGCAACAGCTGTTTTATCTCTTGGGGTTATTTATTATTTACTATTTAATGCGCCGAGTCTTACATTTGGTTTTTCGGAATCATTTGCTATTTCAGAAAGAATATTCTTGTATAAAGCATTGGTGTTAGGACTAACTGTAATGAGTTTGGTTATTTATCATGATTTAACAAAGATTGCTAAATCAAATTTAAGAATGGAATTTGTTACATTGGTTTTGCTTTCGACTGTTGGCGTGTTTATATCAATTTCTGCAAGAGATCTTATATTATTATTTTGTGGTCTAGAGCTTCAAGCTTTGTCTGGATATGCTTTAGCGGCTTTTAATTCTAAGGAGTCTAAATCATCAGAAGCTGGGCTTAAATATTTTGTACTTGGTGCTCTTGTTAGTGGCTTAATGCTTCTTGGTATTTCTTTTCTCTATGGATTTAGTGGAAGTATGAAATTTAATGATATTAGAATTGCATTAAATGGTGATTTAAATATAGGTCTAATAGTTGGCGCTGTTTTACTACTAACGGGAATTTTATTCAAACTATCTGCTGCACCACTGCATATTTGGACTCCTGATGTATATGAAGGCGCTCCAATTTCAGCAGTGACCTACTTTTCTGCAGCACAGAAGATAGGCATGTTAGTGGTGCTAATAAATATAGTTGATGCTGTGATTGGCGATTATATTTATATTTCAGTCGAAATTATAAAAATAGTCGCAATATTATCAATGATCGCGGGGGCTCTTGGAGCAATTATGCAGGTTTCCCTAAAACGTTTGATGGCATATAGCACTATACTTAATATGGGTTACGTCTTGGTTGCAATTTGTCTGCATTCACCTGTTGGTAACTATGCAGCATTTATTTATATGCTAATATATGCTGTTGGTGCGATGGGCTTTTTTGCATGCCTAGTTGCATTATTTGGTGAGAAAAGTGATGTTGCTACATTTGAAGATTTAAAAGGAATTGCTAATCAAAGAAAGTCGTTAGCAGGTGCAATATCAATTATAATGTTCTCGATGATTGGGCTGCCTCCACTTGCAGGGTTTTTTGGTAAATATCTTGTATTTTACAATGCAGTATTGCAGGGTGAGATAGTTTTAGCTCTTCTTGGTGTTCTGACAAGTGTTGTTGCAGCTTTTTATTATTTGAAAGTTATAAAATATATGTACTTTATGGAAGCTAAAGAAGAAATACAAGCTATAGCAACAAACCGTGGTTTGCTGATGGTAACAGTAATTAACGTGGCTTTCATAATGCTTTTCTTTATCTTTGCTCACAAAAATATTGTATAGTTAATTATGAAGCTAGATTGGCTACAGAAGTATAGTTTATTTGCATTTGATGAAATTGACAGTACGAATTCTGAAGCTTTAAGAATGGCAAATTCAGGAGCCATAGGTGATTTTGTTATTTTATCAAAAATCCAAACAGGTGCTAGAGGAACAAAGGGAAGACAATGGGAATCTCTTGAGGGTAATTTGCATGCAAGTATTTTGCTGCAAACAGAATTTGATCTTAAAAAAAATTCTCAACTACCATTTTTAGTTGCTAATGCAGTTTTTGAAGCAATTAATCACTTTGCTAAGGAGAGAGATATAAAGCTTGATATTAAACTAAAATGGCCAAATGATGTATTAGTTGATAATAAAAAATTAGCAGGGATACTTCTTGAATCCGTTTCGCTGCAAGATAAAAACTATGTGATTATAGGTATTGGGGTAAATATAGATAAAGCTCCGGATATTAATAGGCAAGTAATATGTATGAAGGATCTAGGTTTTGACTTTGAAAATCCAAATGATTTTTTAAATATATTGATGGCTAAGTTTGAAAAGCTATATACACAATGGAAATCAGATAATAATTTTATAAAGACTCGAAAAGACTGGATGCGTCGTGCATATAATTTAAATAAAGTTATAATCGTTGATGATGGGTTGAGAAGAATATCTGGAGTATTTAAAGAAATTGATTTTGATGGTTCTATGCGACTTCAGTTAGCTGGTGGACAATATTGTAATGTAGCTTCTGGTGAAGTTCTATTTCAGGATGATGTATAGTAGTTGGGTTTATAGTCGTGGCTAGTTGAATATCATATGAATATAAGTTTTGACCTTAGGGCCTAGCAATTAAATTCAAATTAATAGAGTTTTTGGTAACATATGAGCAGTGAGACTTTCCCTATAAGAAATATTTCAATAATCTTAGTTGAACCTCAGATGGGAGAGAATATTGGGGCTACCGCTAGAGCTATGAAAAATTTTACAATTGCTGATTTGCGTATTGTAAATCCAAGAGATGGATGGCCCAATGAAAAAGCCAAAAGCATGTCGGTAGGTGCAATTGAGATAATAGAAAATGCAAAAATATATGATTCAGTACGAGAATCTATAGAGGATTTGGAATACGTTTATGCTGCAAGCGCCGTACCAAGAGATATGAATGTTAATTATGTTTTATCACGTGATTTGGATAATGATATGTCCGGTTACAAGCGTTTAGGTTTTATGTTTGGTAGAGAAAGTTCTGGTTTGAGTAACCAAGAAATTTCTTATGCAAATAAAGTCGTTACAATCGATACAGATGTAAATTTTAGCTCGCTGAATATTGCTCACGCAGTTGCTGTTATTTGTTATGAAATATTTCAAAAAACAAATCAGCAGCGTGATGATTTAAGTAATTTTCCCGATCTTGCTTCGCATAGTGATTTAGATTATTTTTACGATCATCTATTTAATGTATTAGACAAGAAATCTTTTTTTAGGACAAAAGATAAGAAGGAGCATATGAGCTTGAAAATTCGTAATTTATTTAATCGAATCGAGCTTCTTTCAAAACAAGAGGTGCAAACTTTAAGAGGTATTATTACTACTTTAGCAAACGATAGGTGAAATAGGGATGTTAGAAGATTATTTCCAATTATTAGATTTACAGAAAAAATACAATATTGATAAAGCCGAGCTTAAATCTAAATATTTATCAATGCAGATTAAGTTTCATCCAGATCGAGCTACTAATGAAGAAGAGAGACGTATCTTTTTAGAGCAATCAATGAAGTTAAATGAGGCAGAAAAAGTTTTTAAGGATGATTATTTGCGTGCTGAATATATGCTTAAACTAGCTGGTTCAAAGTTTGATGATAAAACATTGCGAGATGCGATTAGTGCCCAGGAGCTTGAAGAAATTATGGAAATGCATGAGATGGTTGATGATGCAGAAGATCTTGACGAATTGAAGCAAATGGAGCAAATCAAATTGCAAGAGAAGGATAAGATGGTTCAAGAATTAGAAGGTTATTTAAATGAAAATAATCTTGCAAAAGCACTTGATCTTACAGTCAGGCTGAAGTATCTTACTAATTTAGTCAAGAATATAAAATTAAAAGTAAAAAATGCAGATAGTAGGGATCTCTGAACCAGGTGAGACGGATGAAAGAGATGAATTAGTTGTTGGTATTGATTTTGGTACTACAAATTCATTGATTGCGATTTCACAAGACTATAAAGCCAAAATAATTAAGATGGAGAACGGCGCGGAGCTTGTACCATCAATAATTGGCTTTGATTCAGGTGAGGTTATAGTTGGAAAAGAGGCGAATAATTGTAGTGATAAAGTCAGATCAATTAAGAGATTATTAGCAAAATCATATTCTGAAATTAATTCTAATCCGAATTTGTTGAATTTAAGCTCAGTAATTTATGATGATAATAATATCCCAAAAATTGAACTCTTAGGAGCCGGTAAGGTACTAGCTGAAATTGCTTCGGAAATATTTAAATATTTGAAAAATCAAGCTCAAATAGAGCTTGGAGCAGAGCTTGAGAAAGCTGTTGTATCAGTGCCTGCTTACTTCGATGATGAAGCAAGGGGGCAGGTTCTTTTAGCAGCAAAACTTGCTGGTCTTGAGGTAATTAGGCTTATCTCAGAACCAACTGCCGCGGCATATGCATATGGCTTGAGCAAGTCAACTAAAGGTTCATATTTAGTATATGATCTTGGAGGTGGTACTTTTGATGTTTCAATTTTAAATATGCATGAGGGAGTACTGCAAGTTGTTGCAACTGGTGGTGATAATATGCTTGGAGGTGATGATATTGACTATGTTATTGCTGAATATATTAGCTTAGAGCTTGCGAAAGAAATGTCTGCAGAATTGATTCAGTCGGCTAAAAAAATTAAAGAAGATTTTTCTTTAAAAAGCGCAATTACAATGTCTATTGAAGGTTCTGAAATTACAATTTCTAAAGAAAAATATGAAGAGATTATATCTCCTATAATCAATAAGACAATAAAGATTGCTGAAGAAGTTTTAAGTGATGCAGAAGATATTGAACTTGATGGAGTTATTTTAGTAGGGGGATCAACAAGAATAGCGCAAATATCAGATAAACTGCAAGATGCATTTGGAGTGTGCATTTATAATGATATAGATCCAGATAGAATAGTTGCCCTTGGTGCGGCAATGCAGGCAGAAAACCTTACAGCAAAATCTAACTCTTTATTAATTGATGTTGTGCCATTATCTGTTGGTTTAGAACTATATGGAGGTATTACTGAGAAGGTTATAATGCGTAATACTCCAATTCCATTTTCAGTTACTAAGGAATATACAACTCACACTGATAATCAGAATGGTATGAAGTTTCACGTTGTCCAGGGTGAGCGTGAGATGGTAAAAGATTGTCGCTCTTTAGCTCATTTTGAATTGACAGGTATTAGGCAGTCAAAAGCTGGAAAAGCAAGAATTAATGTAACATTTGCAATGGATGCTGATGGTATATTATCAATTAACGCAGTTGATGCGGATACTGGTAAAACTCAAAATATAGAAATAAAGCCAAGTCATGGTTTGGATGAAAAAAGCATAAATGATATACTGGAAGTAGCTTATAAAAATGCAGCTACTGATCATGAAACTAGATTACTAGTTGAATCTCAAGAGGAGGGGAAAAGCTTAATTCAAGGGATTGAATCTGCTTTAGAAGAAACACCAGAGATATTGAGTGACTTAGAACACGATGAAATGAAGAAAGCAATAAACTCTTTACAAAAAGCAATAAATTCTGATAATCGTGATATAATTCTCTTAAAAACAGATAATCTTAATCAGCATGCAGCTAATTTTATTCAAAAGCACTTGGATAAAGGGGTTGATCTGTTCTTAAAGAACCGTCATGTTGACGAAATTAAATTTGATAAATAAGTAAGTATTAAAATGGCAGCAGAAAAAATTAAAGTGATCTTTATTGAAGGAGATCAAGAACATGAAATAGAAGCTCTTGTTGGTCTTTCTATTTTAGAAGTGGCACATAATAATGACATAGATCTTGAAGGGGCTTGTGAAGGTTCTCTTGCTTGTGCTACTTGTCACGTGGTATTAGAGGATAAAATATACAACATGTTAGACGAACCAGAAGAAGCTGAAGAAGATATGCTTGACTTGGCATTCGGGCTTACTCATACTTCGAGGTTAGGGTGTCAAATTATTTTGACAAAGGAACTTGATGGTATGAGAATTAAGCTACCATCAGCAACAAGAAATATTAATTTATAATTTGCTGTGATTCGAAAGATTCTTTTTTGTATTATTACTCTAGCTATTGTAGTTTGGTTATCAGGGGCCTACTATATAAAAAGTAAGTTGCTAGAGTCATTGACCGCAATGGAGAATAGTAATGTTGATTTTTCCTATAAAGATTCTAGTATTGGAGGCTTTCCATTTAGTTGGAATATTTCGATAAAAGAGCCTAGGATTGCTCTAATTAGCCAGTCAGCTGCTAGAGAAATATCAGCAGAAAAAGCAGAGTTTTGTTTCGATTATGATTTAAAATCAGTCAGTGTTAGTTTACCTGGGGCAATTGAATATAGTTTCAATAGATCTGAATCTTTGTACAATTACTCGTTGTTAAGTGAGGAAGAAGTAAATGCAGAAGTGAGTTTTGTAGATTCATTGTACAAAATTCCTGGCGACAAGAAATGGACTGCAAAATATATTAAAACTATTGATCTTAGGCTTCCTGATATGAAAGCAATTCATGAAAATGAAGAGATTTTTTATGTCAGTAATTCAAGTATAAAATTATTGCAAGATTATGCGGATGATATTGATAGATATAGAGTCAAAGTTTCCAGTGATTATAGGTCTGACACAAGTCACATGAAAATAAATAAGGCTCATCTGCTATTAGATTTTGATTATGTTGTAAGAAATAATAGTGATTTTGAGTATGAATCTTTAGAGAACTTTGATCATAAATTTAGCATTAATAAGTTTTTATTTAGGTTTGATAATGCCTATTTAGATGTCGTGGGTTCACTTAAATTAGCCCGTAGCAGTCTACCTGATGGCAAGGTAAAGATCTCCATGATGCAATACAGAGATGTTGTGGACTTTGTGGTTCCTGAAGATTTTATTATTTCTAGATCTTATATTAAAAAAGTAATAGCAAGATCAACAATGGGTTCTTTAAACAAAGTGGCTTCAAACGATGATGATATAAAATTTGAAATTACTTTTTCTGATAAAGGTATATTAATTGGTAATTTAAATCTTCTTGATTTAAATTTAGATAAATAAAAGAGGTAATTTATATGCGTAATATTGATGAAATTTTTCATGATAGAACTTGTAGCAAATTTTTAAGTGACCCTATTGATAAGAATTTATTGGTAAAAATTCATGATCTAGCTAAATTAGGTCCAACATCTGGTAACTCTTGCCCACTTAGGATCGTTTTTGTTCAAAGCGAGGCAGAAAAAAGTAAGCTTTATAAATGCCTTATGGAAGGTAATATAGAAAAGACTAAATCAGCTCCAGTAACGGCGCTTTTCGCGTATGATGAGAAGTTTTATGAAGATATGGAGAAGATAAATCCTGTCGCTCCTGATTTGATTAAGTTTTTTGCATCCTCTGATGAAGTTGCGCTTGATACTGCTGTTAGAAACTCTACTCTACAAGCGGCTTATTTTATGCTCGCTGCTAGAGGGGCTGGATTGGATTGCGGTCCAATGTCTGGGTTTAACAATGAAGAAATTGAAAAAGAATTTTTTGCAGGTACTAGCTTCAAAATCAATTTTATATGTAATCTAGGCTATGCAAATGGTGTAAATGAGCATTCAAGGCTACCTAGATGGGATTTCGATAGAGTTTGTAAGATTGTTTAATTCCAATATTTTTCATACTTAAGTATTTGTTGACTTGAATAATTGTTAATGTTAATTTACACACCTTGCAAATATATGTTGCAAAATGTAAAATTAATTTTAAGGTTAAGGTAATGAAAATTAAAAAGGATACAAAAGTTGAAGAGATAGTCAAAATTATAAACAAAAACACTATGGAAACTGATTTTTATCTAAAAGACAGTGATCATTTAAAAGTCGCCGATATAATCAAAATTCTTGAGGTTGGAGTATCTGATAAGAGTCTGCATATTTCATATTGCGATGTGTATGCTAAAGTTTGTGGATTAGCTGAAAATTCAGAAGAACAAAAAAATGATATTGAGGAGCTTAAGGAGCTTATATCTGCGATTCAGGATTTTTCCAAAAATAATAATACGGTTTATTGGTATGATGAGGCTGAAAATCAAGAAAAGGAAACTAATGCTAGCCTTATAGGTAAATTAGCTGAGGATTCAAGGAAAGTTTGGGAAGAGTTTCAATTATTTTCTGCGGAACTTAAGGTTGATGTTAGCGTTTATGATCTTTTTAGTGAGTATAATGATGATAATAAAGTAGAGTCAAATAATCAAGAAATAGATTTAATAGGTGATGATGCGTAGGTTTTTTACACTGAACAATCTTTGAATAATACTATATAGATAGGCTGTGTTACACTTACTTTATAATTGAAAATTATTTGTTATAAAGAGCGTTAGCACAGCTATTTATAGTTTTTACAAGCCAAAATTATTGTATAGATTACTGTGGAGTAATTAGAGATAGTTTTTCTCCACAATTCTAAAAGCCAATAATGGTTGATATTAAAACCCAAGTTGTTTTACTATTAAACTTTTATAGCTTTCAAGTAAATTATTGGTATCTTCATTCTGACCATGGCATAAAGACATAGTCCCCTTGCATTTTTTTCGCATAATAGAGTTGGCTTTATAGAATGTATCGCCATTTAATTCTGCCATGTCAAGAACTAAGCCTGGGATGAATGCAATGTCTAAAGAAGGATACTTGCTTTTGTCTTTTATATCAAAATTAGCATTCACATGATAGAAAGTTTTATAATAATCCTTGATATCACGTGTGAATCTAAGTTGAGTGGAAAACCCTTCGAATGAAGGCAAATGATCGCCAAAATTCACAATAATAGTTTTTTTCTTACGATTCATTAGCTTTTCAATTAAATCTAACTGATCTTCATTAGTCATTTGTAGACGTGAGATATAGTCATTAAGTTTTGAACATAGTTGATCGTTCATGGCGCGGCTACAACCAATTTCATCTGGAAAAAAGCTTGAATGAGGACCATGATTCAGCATTGTTGATGCAAATATATATTTGGGTTTCTCTGGGTTTTTATCAAGTGCATCAATAATCATATCAGCAATCATCTTATCAGGTATATGTCCCCAGCTTTCTGGTTCAAACCCGAATTCATAAATGTCTGTGATATTATGCGATCCAAGTTTAGTATATGCCTCTTCAGCTAAAGAGAAATTTTTATCAACCGGGTAAAGGACTTCAACTCGATAACCAATTGATCGTAAATATGACATTATAGAATTATTTGTAAGTGGTACTAGCGTAATAAATGGCATATATCCAGGTCCAGCAAAGGATTTATGTGGAATGCCAGTATTAATTTCGTACTCACTGATCCAGGAACTTCCACCAAAGGTGTTAACATTCATTATTCCACTATATTTTGTATATTTTCCGTCTTGGAAGTAGCTAAATTTAAGATTATCAGCAAAATCATAATCAAGTTTACTTGGATCGAAAGTTGATTCATTTAAAATCACAATAATATCAGGCATTTCACTTCGGTCATTCGTGATTTTATTTTTAGCTTTTGAAGCTTTATCAGTAATTAAGCTAGAATCAATTTTGCCGGGTTTTGGTTCTATGTAAATATCTTGTACTGTAAATAATATATCTGCGAATGGTCCGTATGCTTTGCGTGGGTAGTGTTTTGTTTGAGCTTTTGTTGATTCAATTGCCATATAAAAATATGATTTCTTATCCAGTGCTACGTCAAATAATTTTGATGCTAAAAGAATTGCAACTCCAAATGATACTAGTCTTAATGCATAAAAGTTTTTTGGACCAAGCCTTTTTTTATCAAGCAGGGTATCAAATTTATTCCACAGTAACATGAAGTTAATAAGTAGGAGTAAAATGATTAAATATATTTCTTTTGTTGCATATTCATATATCAAACGTAGCAAGCCGTGGTTGATCAATAGATTAAGCATAAATGCATCTGCCGCAGAGAGCTCTTGCATTAGGAACTGCCATTTTATGAGCTTAATATAATCAAATGAAACTGCTAGAAGTAGAGTTAAAAAGCCGGATAAAAGAATTCGATTTGTGATTAATATAATTACTAAATAAACACAAAGAGCAATTATTATATTAGCAATCCATAAGCTAGTATGAAATTTTGTGGCAAAACCAAGGAAGGTAACAAGTAAAACGAACCAGCTAGATAAAGAAAAATATAATTCTTTAAGTGAAATTTTGTGTTCTACTAGAGTTTCAAAAAACTTAAATATTCTTCTCATTAACAACTATTTCTATTTTTTTGTGGCTTTTAGTAAATAACTTAGCAGTTAAACAAGATATAGTAAAAATCAACTGAATCAATTATATTCCAACAAAAGACTTGATTCTTTTTGAAAAATAGTGCATATTCCACTTGGTCGGGCGATTAGCTCAGCTGGTAGAGCATCTCGTTTACACCGAGACGGTCGGCAGTTCGAATCTGTCATCGCCCACCATCGATCAAATCATAATTTAGTGTATATCCCATGAATATAAATATTAAGCAAATTTCGTTTGTAATTTTAGGTTTAGTTATTGTTACTGCAATTTTTGGTTTATCAAAGTTTAATATTGCAACGGCTGCAAAAAAAGATGGGAAAAAGTTTGATGATTGGGTTGTTTCATGCTCTTCTGCAAATAAAGAAACAAAAACTCCAGAGGTTTGCCTGTTGTCTCAGCAACTCAATTTGACTCAAGATAATAAACAACAACCTATAGCTCTATTTCAAGTTGGATATTTTGGGCCTAAAAAAGAGCTAAAAATGATACAAACGCTTCCGCTTGGTGTAAGAATTGAAGCTGGAACGTCGATAATAAGTTCAAAAAAACTGATTGCTCCAGGTAAATATACAACATGCACACAGGCTGGTTGTCAGGCGGTTGCTTCAATTTCGGATTCAGATTTGAAGACTTTAACTTCTACAAAAGAAAATTCTGTAGCATTTATGAATCTAGAAGGAAAGCAGATTACCTTACCTATATCAATCAAAGGTATGGATAAGGGCCTAAAATATATTAAGTAGTTCAAAAGATACTTTTGTATATACTTATAATGTATTGCAAATCATACAAATAAGGCATTTAATTTTACTTATACAAGGTTATTTCTTTGGAATAATTTATAAAAAAATAGTATTATTTTTCTAGCTTTATGTTTAAGTCCACTGATTTTAAAACTTAGCTATATTTAAATTTTTTACGTAGATTTGTATGAAAAAATTATTTACTGCAGTACTAACTTTAATTATCAGCAATACCTGCTTTGCTTCAAAGCCAGTTCCTTGGCAAATAGATTTTCAAGAAGCGGCAAGTCCTATTATGCAAGAACTGCATAGTTTTCATAATTTTCTGCTAGTTTTGACTGGAGCAATTGTACTATTTGTATTGTTTCTAATAATATATGTTATCTTGCGTTTTAACGCCAAGGCTAATCCAATACCTGCAAAATTCACTCATAATATTACAATTGAAGTGATATGGACAGTAATACCAATTATCTTACTTGTAGTGATTGCAATACCTTCATTTAGGTTGCTGAAACTTGCAGAGCATACTCCGCCAGCTGATATGACTGTAAAAGTTGTTGGGTCACAATGGTTTTGGACTTATGAATATCCGGATCATGATAATATAACTTTTGATAGCTACATGATTCAAGATGCTGACTTAAAGCCTGGTCAAATAAGACTTTTGGAAGTTGATAATAGGATTGTTGTCCCGCAGGGTGCAACGATTAAGTTCTTAATTACTGCAGCAGATGTTATACATAGCTTTGCGGTTCCGGCGCTTGGACTTAAGACAGATGCAGTACCTGGTCGGACAAACGAAGCTTGGACTAGAATAGATAAATTAGGAGTCTATTATGGCCAGTGCTCTGAAATTTGTGGTGTAAATCATGGATTTATGCCAATTGCTATTGAGGTTGTGACAAAAGAAGAATTTGAAGAATGGGTTAAGCATGCAAAAGAGAAGTTTGCATCAAATTCAAATAAGCTTATTTATGCACAAAATAATTAAATAATAATTATGGATAAAAATATGACTGATCATGCACATGATACTCCGCGCGGACTGAAAAGATGGACTTTATCTACCAATCATAAGGATATTGGTAGTATGTATATAGGCTTTTCAATTTTAGCTGGTCTTGTTGGTGGATTATTTTCTGTACTATTTCGTCTTCAACTAGCGACTCCTGGTTCTGACTTTCTTGGAGGAGATCACCAATTTTATAATGTGCTAATTACGGCGCATGCATTAATAATGGTTTTCTTTATGATTATGCCAGCTCTCTTTGGTGGATTTGGTAATTGGTTTGTTCCTCTGATGATTGGTGCGCCTGATATGGCATTTCCAAGGATGAATAATATTAGCTTTTGGCTTATAGTTGTTTCATTTGTTTTGCTCATTCTATCGAGTACTGTTGATGGTGGAGCGGGTACCGGTTGGACATTATATCCGCCTTTAAGTAATTTATCAGGGCATCCTGGAGCAGCTGTGGATATGGCAATTTTTAGTCTGCACCTAGCTGGTATGTCATCTATTCTTGGATCAATCAATATGATTGTTACTATTTTCAATATGCGTGCTCCAGGAATGAGTTTGTTTAAAATGCCGCTATTTGTATGGTCAATTTTACTGACAGCTTTTCTTTTGGTCTTGGCACTTCCGGTTTTAGCTGGCGCTATTACTATGCTTCTTACGGACCGTAATTTTGGAACGCATTTCTTTTCACCTGAGGGTGGAGGAGATCCTATTTTATTCCAGCACTTATTCTGGTTTTTTGGACATCCTGAGGTATATATAATAATTCTACCTGGATTTGGTATAGCGTCACAAGTTATTTCAACATTTTCTAAAAAGCCAATTTTTGGTTATACTGGGATGGTTTGTGCAATGGTGATTATTGGATTCATTGGTTTTATAGTTTGGGCGCACCATATGTTTACTGTTGGTTTAACATATAATGCACTACTATACTTTACTGCGGGTACCATGGTTATTGCGGTTCCTACTGGAATTAAAATATTTAGTTGGATTGCAACCATGTGGGGAGGTTCTATTACTTTCAAAACACCAATGCTTTTTTCTATAGGATTTATTATTCTATTTACATTTGGTGGGGTTACAGGGATAGTACTATCTAACTCTGCATTAGATAGAGTGTTGCATGATACTTACTATGTTGTTGCGCACTTCCACTATACAATGTCGCTTGGTGCTTTATTTACTGCTTTTGCGGGTTTCTATTATTGGTTTGGAAAAATGTCTGGTAGAGAATATCCAGAATGGATGGGTAAGTTACATTTTTGGCTGACTTTTATTAGCGTGAATATGACATTCTTCCCGCAACATTTCTTAGGACTTGCTGGAATGCCAAGAAGAATACCTGATTACCCAGATGCATTTGCTGGATGGAATTATATTTCAACGGTAGGATCTGTAATTTCATTTGCTGCAGCTCTGTTCTTTGTATTTATAGTATTTTATACCTTGAAGTTTGGTAAAAAATGTCCACCAAATCAATGGGGTGAGGGGGCGGATACTCTTGAGTGGACAGTAGATTCTCCTGCTCCGCATCATACTTTTGAGAAGCAGCCAGTAATAAAGTAAATGACAAAAGCAATATCAGTAAATTCAATAGCGCTAGATTCTGGGCCATCAGTAAAGGATTATTTTATGCTGATGAAGCCCAGAGTTATGTCTTTGGTAGTATTTACAGGCTATTGCGGTGTGCACCTAGCTCCAGGCAATATACATCCCGTAATTGCCTTTGCAGCGATATTGTTAATATCGATTGGAGCAGGATCTGCCGCTGCAATTAATATGTGGTATGATCGAGATATTGACCGCATTATGAAGAGAACGCAAAAGCGTCCTATAGTGACTGGTGCAGTAAATCCTGACGAAGCTTTAGGTTTTGGTATTGTAACGGGAGTAATTTCTGTTTTGCTTATGGCATTATGTGTAAATATTATGTCATCAATATTACTAGCTACAACCATTCTTTATTATGTATTTATATATACAATCTGGCTTAAAAGATCTTCAATACAAAACGTGGTCATTGGTGGTGCTGCAGGTGCTCTTCCCCCAATGATTGGGTGGGCTGCTGTTACTAATAATGTATCTTGGGAGTCATTAACCTTGTTTGCTATAATTTTTATGTGGACACCTCCACATTCCTGGGCGCTCGCTTTATTTAGAGTGCAGGATTATAAAGATTGTAGTGTTCCTATGATGCCTGTAATAAAAGGTAGTCTATATACTAAAAAGCAGATGCTTTTCTATACGATTTTAATGCTAATAACTTGTGCTATGCCATATTTTCTTGGTATGGCTGGGATAGTGTACCTGATTATTTCATCAATCTTAGGAGCTATATTTTTAGCATACTCAATATTGCTTTTTAGAGATGATAATTCAGCTAGAGCAAAAAAGCTGTTTTGGTATTCAATTATTTATCTCTTTGGTATTTTTCTAACATTGATAATGTTTTGATTTATTCATTGAGTATAGCATGATATGGGATTATTACATTTACCAGTTACTGAGCATTTCAATCATAATTAATATAAGAGTTGCAACAAATTATTATTAATATTTCTCTCTTCTAGTAGTATTTTTTACGGGAGTTGTAAGAACTTGTTGCAGTAGAAATAGTTTTTATTTAGGTGAAGCGTAATAAGGTTTTTTGCTTATACTAAGTTGATCTAAACAATATTAGTAGCTAAGAATCAACATATCCTGGGTGATTTTGAAATCTTTAAAATCTTCAATTAAACTCATTCCAAGTAATGAAATATCAAGTTCACCAGATGTGACATGACCTTCTATATTGTAGAAGGTTTTTTTACCAATGGTTAGTTGTGGTATGCGCACAGGTGCTGCAGCGCTTATTCCATTTGCTGTGTTATACTGGCGCGTATATCTTAGTTTTGAAAGATCAAATCCTAATTTTTTAGCATCACTTTTGGTAAGCGCTATGTCGGAAGCCCCGGTATCAATAAGGAAGGGAATCTTCTGGTTATGTTTTCCATATGCATTAAGATAGAAATGTCCGTTTTTATGTCTGGCTATTACTAGCTGTCCATCATCATTTGTCCAGCTATACGAAGGGATAAGTACTGCAAGGACTTTGTCTTTCAGTGTATCTAGTTCGAATCTAAAGGCATAGACAATGATTAAGACTAAAAATATCAGCAGCCATATCAGAATATTTGATGAGTTGTTTCCATCTGATTTTCTTGAGAAAAAAGACCTAGTGATAAACCATAGTAGGATTGCAAAAAATAATATCTGCATTATGGTGCTGAAGTCTAGTTGATTCACTTAAATACGCTCTATCTGCATTCGTTACTAAATAATATAGTTTAGCATAAGAAATTCACCATGGCTATTTCTTGTCTTGTTGCGTTTTAATTTTTTGCTTTTTAATATAAAAAATCAATTAAAGGTGTTTATAATTTTTTATAAATTGACTTATAGTTGTAATATAGATTAAAATCTAGTAATACGATTTTTTTAATGGAATAAATTTGATTAATGGCAAAAACAGCAGAAACTGATTTAATAGCTGAAGCTCCCGATACAGAGGAGAGTGGGGGGGTAATATTTTCCTTGCCTAAGCTAGTTCTGCCGGGCGAAGGGATGGATTTGGAAGGCGTATTAGAAACACTTCTTAGTGAATCTGGTTCTATTACTCCAAGGACAATAAAGGGTGAAGGAGGTGTTAATGAAGTGATGCTAGGTCCAGTATTGGAAGAAATTATAGCTCATCAAAAGCCTATAATAGAGGCAAGGATAGGTGAATTGAAGGAAAAACATGAAAAGATTGTTGATCAGTTGCGTGAAGTAGAAGCTGAAAAGAGAAAGTTTTGAAGCAGCAAAAGTTAGGGGTGATATAAGTCAAGCCAAGACAAAATCAGAAATTATGGAAAAAGTTGTGTTAAGCAGAGATCTTGGAAAAGAGCTAGATACAATAGTGGAAGATTTCAGAATTCTTGAGGGGATGATAAAAGCTTTTGAACTTGGGATTGGTACTACTTTGCCTAAAGAAATCACAGAAGGTGATAAGAGTGAAGTGGTGGATTCGAGTGCTAGTTCTGGTGGAATTAATTATAAAGCTCCAATAATGTTAAAAACATACCAAGAAAATGCTGGCTTGCCTGGAAGTGAAGATAATCTTGAGGTGTTGCGTTTTGCTTTAGTTGCAGAAAATTTAAGAGGTATGGAAGGGCAAAGCTTAATATCAGATATGCTTCACCCACTTGAGGTAGTTCTTTTGAATGAAGCTCTTCATCAACTAAAGATGTTTCCTGAAAAAACAGGCGGTGTTGTATGCGATATCTTTGTGCGCGTGGATAATAAAATATCAACTGTCGATGATGATAGTGGTGGAACTATTCCTGAAACTCACTGCATTGCTTTATGGAAAGAAGAAGGTACATTATTTTTAATTGATCCAAGTAATTCTAATTTTAGTTCGCCATTAATTGAGGAGATTAAGACAATTTGGGGATCTGATGAAGTGATTAAGTCTATTGATGGTGTTTTATAGGGCAATGGTAAAAAGCCGGTGGGTAGAATTGATGGCACCGCTCGCGATTGCATTGATATAGAGGTAAAAATTATTCTTGAAATGTCTTATCAAACAGAAGAGAATGCGAAAAAGAAAGTTATTGCTAGATTAGCAGAGACATTTGCACAGCTATCTACAGAGAAGAAGTTTACAAAACATTTTATTAAAGATAGTGATAGACAATTAAGAGAGCTTACTGCCACTTCATCAGATATCAGGCACATGGCTCTTAAGGTTGCTAAAGCAATAGCAGGAATCAAATAATAAATAAAAAAGGAGGTTATTATGGCAAAAGTTTTAAATTATGGAACTCTAAGTGTAGGTTCTGGATACATAGAGAGATTCGATGCAGTTAAGATCGAAGATGAAATTATTGAAGCCACAAGAGATGGAAAGAATATGGGCTTATTAAAGTCATTTGCTCGAGGAGATTGTAATGGTCTTATACAAGACGGTTATGGTTCTCTAATGCGCCAAGTGCTTTATATTGCTAATTTGAATGATCACGATGAAGTTATTAAGGCAATGCTAGGTATTAACCCAAAAGGTTTAGATTTTTATGATACAAGTCTGCTTGGTTATGACCACATAAAGCATATCTATACTGAACTTTCTGGTGAGACAGGAATCGATGTGGTTGATGAATCTTCTACTTGAGAAGATAATAAATAATATTATTTCTAGAAAGGGGACAGGCTTATTACTAAGTACATTGTACCCCTTTTTTATAATTTAATATAAATTTTATTCAAAATATTTATATAGAAATTATTCTAGTAAATTGAATCTAAAGACTCTTTTGAAGAAGTGACACTAGTTTCTTTTATATACTTAAATTCTAGAATCTATTATAAGTATCTACAATCTTTACGTTTGTATCTTTGTGATCCTGATTTATTTTTTATTTCTTTTTAATTTGTGTCTAATAATGTAATTTTTGTTGATATGCCCTGATTTATCGAGTTAACATATAATTATATTAGTTTGTAAAATCTTGTAAATGCACATATTTATTACTGGTGGTAGAGGCTTTGTCGGCTCGGCTCTGACTAAATTTTTTCTAAAAAAGAAATATAAAATTACTATCTTATCACGCAACTCTTCTGATTTAAGTGATGTGAGGATTATCAATTCTACAGAAGAAATTAGTCCTGATGAAACAATTGACGTAATAATAAATCTTGCTGGCTCTTCAATTAACAAAAGATGGAGTGAGCCATATAAACAGCAATTAGTTAAAAGTAGATTGGATGTTACAAGAGATTTAGTGAGGTTAATAAAGTCACTAAAAACTAAGCCAAAATTATTTATTAGCGCTTCAGCAATAGGTTATTATGGTTCTCAAAATAATGAATATATAGATGAAGATTCAAAATATATTGACGATTTTACTCATGAATTATGTAATTTGTGGGAGAAGGAGGCTACAAAAGCGGAAAAATTTGGTGTCAGAACCTGTATAACAAGATTAGGAGTAGTTCTGGGCAAGAATGGTGGAGCATTAAAAGAGATGCTTCCTGCATTTAAACTTGGTGTAGGTGGAAAAATAGGTTCAGGGAAGCAGTTTTTCTCATGGGTTCATATGGATGATGTAGTTAATGTATTTAATTTTTTAATTCAAGATAAGAGTCAAACAGGGAAATATAACCTAACATCTCCAAATCCAATTACTAATTATGATTTTACCAAGGAGCTAGGTAAAACATTGTGTAGACCAACTATATTTCCTTTACCAGCTTTTGTTGTTAAAATGATTTTTGGAGAAATGGGTGAAAAATTATTATTGAATGGAGCGGCAATATATCCAAAAAAATTATTAGATAGTGGCTATAGTTTTAAATTTAAAACTATAGATTTGGCATTGAAAGATATATTGAATTAGTATATTCACTAACTATAAAATTTAGGTTGATAATGAAAATTGCTATTATTGGTGCTAGCGGCACGATTGGTGCGGCATTTTTAGAATATTTTTTAAATTCTAGTGAAACAGAAAAATTATATCTCTTTTCTAGATCAGAAGTTAGCAATCAAGATGCAAGAATAATCCACCGATATATTGATATTGAAGATGAAGGTTCAATGGAAAAAGCTGCCAATACTATTCCAAATCACGAAAATTTAGATTATATTATTGTCTCTACTGGCATACTATATACAGATAATATTTTGCCAGAAAAATCTATTAAGGACTTAAGTTATGCCAAGTTTAGTAAACTTTATGCTGTAAATACTATTGGTCCGGCATTAATAGGAAAGCATTTTATTCATAAATTAAGTAGCAATAGCAGGTCAATTTTTGCAGTTTTGTCGGCAAGGGTTGGAAGTATTTCAGATAATATATTAGGTGGTTGGTATTCATATAGATGCTCTAAGGCTGCACTTAATATGTTGATAAAAAATTTTAGTATTGAAGCTAGGCGTAAAAACCCTAATCTAATTGCAGTTGGTTTGCATCCAGGAACTGTGGAAAGTACTTTATCAAAGCCTTTCTCTTCAAATATTAGGAGTGATAAGATATTCTCCCCAGAATATTCAGTTACAAAAATGGTTAGAGTTTTGGAGAATTTAACTTATGAAGATTCAGGCAAATTATTTGCCTGGGATGGAAGCATAATAGATTTCTAAGGATTATGAGAAATTTAATAATTATACTTGGTGATCATCTAACTCATGAAATCTCTTCGCTATCAGACATAGATAAAACTAAAGATATAGTTTTGATGGGTGAGTTCTATTCAGAGTTCACCTTTGTTAAACATCACAAAAAGAAGATAGCTTTTATTATATCGGCAATGCGTCATTTCGCTGACGAACTTTTAGATTTAGGTATTAATCTTAAATATATCAAATTAGATGATAAGCTTAATAAAAATTCTTTAAAAGATCATGTTAGAGAGATTATAGAGAACGATCCTATAAACCAAATAATCATAACGCATCCATCCGAATATAGAGTCTTACAAGAGATAGAGAACTGGAAAAATATTTTCGATATTTCAATAGATATCAGAGAAGATAATCGTTTTTTATGTACAAAAAAAGAATTTAGTGATTGGGCTGGTAGTAAAAAGCAGTTGAGAATGGAGTTTTTTTATCGCGAAATGCGAAAAAAACATAATATCCTAATGAATGGTGATGAGCCGGAAGGTGGGAAGTGGAATTATGATAGCGAGAACCGTAAATCTCCTACAGCAAAACTGAATATTCCAGAAAAATACATTACAAAACCAGATCAAATAACTAAAGATGTAATTCAACTAGTAGAGAAGTGTTTTCCAGATCATTTTGGCGATCTCGAACCATTTTTCTTTGCCGTTTCACGAGATGATGCATTGCTAGTGCTGAGTGACTTTATAAAAAGGAGACTTGAAAATTTTGGTGATTATCAAGATGCGATGATAGAAAATGAGCCTTGGATGTTTCACTCTCACTTAAGTTTTTACTTAAATTGTGGTCTTCTGACTGCGATGGATTGTATAAAAGCTGTAGAATATGCATACCATAGAAATCATTTGCCGATTAATTCTGTTGAAGGCTTTATCAGACAAATTATAGGATGGCGTGAATATATAAGAGGTATATATTGGCATAAAATGCCTGAATATAAAAACGAGAATTTTTTTGGTGCTAATAGAAAATTACCTAAATTTTTTTGGCAAGCCAATTCAAAAATGAACTGTATTAATCAATGTGTCAAAGAAACTAAGGCTAATGCTTATGCCCACCATATTCAAAGACTAATGGTTACGGGTAATTTTGCTCTTTTATCTGGAATAGATCCAGATAAAGTAAATGGATGGTATCTCATAGTATATGCTGATGCATATGAATGGGTTGAACTTCCAAATGTCACGGGTATGATACTTTTTGCTGATGGTGGTTACCTTGCAAGTAAGCCTTACGCTGCAGGAGGTGCATATATCAACAAAATGTCAAATTACTGCAAAAATTGTTCCTATAAAGTATCTACTAAAAATGGTCCCAAGGCTTGCCCATTCAACTATTTATATTGGAACTTTTTAGCAAAAAACAGAAGCAAACTAGAGAAAAATCATAGATTATCTATGATGTATAAATTATATGATAAAATGAGCCAAGAGCGTAAGGAAGCAATTGAGTTTGACAGTATAAAATTTTTAGATGAAATAGAATATGACGATTAAAAAGCAAAATATAGCTATTATTGGAGCAGGTATTGCTGGCTTATCTCTTGCAAATATGCTTAATGATGTGGTTAATATAGAAGTCTTTGAGAAGTCCAGAGGTTACGGAGGAAGGGTTGCAACACGTTACAATGAAGATTTTGTGTTTGATCATGGTGCACAATTCTTTACGGTCAAAAATGAAAAATTTAAGAAATTTATTCAGCCACTGATTGATAAAGAAATAGTTGGAATCTGGAATGCAAAATTTGTCGAAATAGATGGCAATAAAATAACTCATAAAAAGGATTGGAACTCTCATTATCCACATTATGTCGGTGTTCCTAAGATGAATGCGATATGTAAGTATTTGTCAAACAATATTGAAACTAACTTAAATATAGAAGTTAAGAGAATAGAAAAATCTAACAATAATAAGTGGCAATTATTTGATTCAGATAGTAATTATCTGGGCAATTTTGATTGGGTGATCTGTAGTGCTCCTGCATTTCAAGCTCAAGAACTTTTACCGCTAGAATTTGCTCATCATGATAAATTGCAATCTATAAAAATGCTTGGATGTTATGCTCTAATGCTGAGTTTTAAAAATAAGTTAAATGTTGATTGGGATGCAGCTCTTGTAAAAAACTCTAATCTTAGTTGGATTTCATTTAATTCAAGTAAGCCAGCAAGAAATTCTTCAAATGCAGTAGTTGCGCTTGCAAGTAATAGTTGGGCCGATGAAAATATAGAAGCTGATCTTGAAATAGTAAAAACGGAAATGCTAAATAGTTTATCTCAAATTGTTAAATTTAGTGATCAAGATCTATTAGACTGCAATATTCATAGATGGAAATATGCAAATATAGGTAAAAATAATCAATTCAAATATTTGCTAGATCAAGATAAGAAACTTGCTGCGATTGGTGATTGGTGCATACAGGGAAGAATTGAAAGTGCTTTTATTAGCGCTGATCAATTACATAATCAAATAATAAAACTTATATCTTAGATACTAGCCAGAAATATAGAGAGTATGGAAGTAGTCTTAAGAATTTCAGTAATAGGCTAAGTTTTTTCGGGAAGTGTATTTCAAATGACTTAGAATCAAGCTTGCTACAAATTTCTTTTGCTGCTTCTTCTGGTGCAATAATAAATGGCATTTTGAATTTATTTTTGTCAGTTAGTCTCGTTTTGACAAAACTTGGATTTATAACTTTTATATCTAATGCGCTGTTAAGATATTCAGTTTTAAGGCTTTCAGCAAGATTAAGTATTGCTGCTTTTGTTGCACTATATGGTTGTCCATTTGGTAGTCCAGAGTATCCTGCAACACTTGCACATAAAACTAGCTGTGACTTATTTTGTTTTTCAAGAAATGGCAAACAATAATGTACTATGTTTACAGCTCCTGTGAGGTTTACATCAATAATTTGTTTTGCTTTTTCAATATCGATTTGATTACAGGCGGTTGGTTCGTAAATGCCTGCCATAAATATAACTCTATCAATGGTATCATATTTTTTGGTGAGTTTAGTAACTGCCTTCTTGACTTCATTTGCGCTCTGAACATCAATTTGCAAAGCTAGATCATGTTGTCCTTTTGTTTGTCTTACAATATCCTGTAATGGTTTTTCAGAGCGTGCTGATACGATTATATTTGCTCCATTTTTGGATAAATAAAGCGCAATTTCCTTTCCAATGCCAGTGCTTGCGCCGACTATCCAGATGTTTTGGTTGTGGAATTGTTTTTGCATCAATTTACTGTTTTTGAATAAAAATTGTCAGTTCCGCTACTGTTATGCCAAATTTTTTCATATAGGATCTGTTAACCACTACACCATCGTTCATTTGCCACATCCAGTCATCGAATTTTATGCGATATGTTGAACCATCTACAGGAACATCCATTACATACTGCCATTGTCCTGCATTACCAAGAGTTTTACCTGTTGCTTTATCGATTATATCGTCCGCATAACCTATATAGTTTCCATTATCTTGCTTAGTAATTCTCCAGGTGCGGTGTTGAGTTTTTCCGTTATAGTACCTAAATTCTTCTTCTAGAGTTCCTTCATTCTCATTCCAAGTACCTTTCATATCAGCATCAAATCTTGTTACAACATTACCTCGCCAATCTTGAATTATTCCCCAAGCTTTTAATGGACCAGAAAAATATTCCTTAAGATCAAATTTTGGTTTTTCATCTTCATAGTTTTTAATGTTAATTGCCATACAACCGCTCAATAAAGTTAAACAAAGTAATAATAGTAAATTTTTAAATCTTAGCATTGTTGCTTCTCCAATATAGTGCAATAAATATTGCTATTACTTTCATGATACATGGTATGATAGCATAGTAGAAGCTTAACCAGTATATTGCACTTGCTGAATTTTCTTGCCCTGGTACAAAAGCATTAAGAGAAAGAAGATATAATATTGATCCACTTGATAATGCTAAAGCAAACTTTGTTAAAAAGGCTAGAATTGAAAAATTTGTAGTTATTTGTTCTTTTTGATTATCTGTCAAATCTGCAAGTATAGAGGGAGGAAGAGAAAGTTCGCTTCCAAGTGCTGCACCAGATAGAAGGCAAATTATTGAATATTCAACAATCTGTCCTTCTTTGAGTAGGAAAGCCCAGATAAAAGTAACTACGGCTAAAAGCATAGCGGTAATCCATGATTCCATTTTGCCAAATTTGTAGGAAATAATTTTCCACACTGGCATGCATAGTGCACCGGATAAAAAATAAAGCAAGAGAAATAGACCGCTATATGAACTTAGATTAAGTACATCTTTGATAAAGAAGAGCACTAAAACAGAAGGAATTGATGATGCGAAACTACTAACAAAAAAAATTGTGTAGAAAACCTTTTTGTTCTTTAAAATGTCGAATACTAATACCTTAGTAAGCTTTTCATTTTTATTCTTTTTCTTTTCAATGATTTTCTTATATCCATACCATCTAAAAAATAGTAGGCAGCTAATGCAAGATACTATAATAAAGATCCATGAATAATAATTGAATGCTGTTTTTTGATCAAAGTAGTTTTGCAATATATTTGGTGTTACTGATGCAGCAATTAACCCCACAAGTCCCAACGCCTCACGATGTGTGGTGATTCTGGTTCTTTCAAACTTATTGTCAGAGCATAATGCGCCAAGAGTATTATAGTTTATAACTAAAACGCTATATGAGCTAGTTGCAAGAAATATGAAGATAATTAGCCAAATATAAGGATTAAACAATGGGCGGTGAAAAAGACCAAAAACAGATAATATTAAAACAAGTGATCCGCCCATTAATATCAATTTTCTTTGTTCATTATATTTATCGCTTAAATAACCGATTAAAGGGTCTTGAAATGCATCAAAAAGTCTTAAAATAATCATAATTAGACCAAGGGATGCAAGGCTTATATTATATTCTGTTGAGTATAAATACGGAGTATGTATATAGATTGGTAGGCCAGCAAAGGAAATTGGAAAAGCTAGTATTGCATATTTGAAGTAAGATTCTTTGCTATTCATTTATTTTTTTTGATTTAGTAATTTATCTCTAAGCTTGGGCTCCGAAGTTTTAGCACCAATCCATATATCAAAAAATCTTTTTGTGAATTCAGGTGAGTCAATGTACCCAAGGGACTTATTTCCAGAAAAGAAACCTATTGATCCGTTACCTAGTGCAACAGCTGTAATTGTACTACCTTCCTCTACGTCTGGAAAAATGTCTATCAATTTTTGTTTCCATAAATTTAGCATTTTTTTATTGTTATATCCTTGTCCTCTGATCTCTTTAATAGTTCTATCAGTTAGAGATTTACTACTAAAAGACATTAAATACCTTATTGATAAAGCAAAAGGTTTTGAAGGATTATATTTACCATTAGGCCCATAAAGATATGCATCATATACATCCCACATCCAAAACTTTAGTCTACCACTTCCAACTAGCTGGGGTTTTTTAATATATATCTCAACAGATTTTGGCACTGCATAAGTATAGGTTGGGAGAAGCAATAGAATTATAGTAAATATTCTAATCAGATTAAGCATGTTCCAGTTTAACTTGCATTACATTTGTTCTTTCTAGTAAAAAGCATGATGAACAGCTGGCCAAGTAGAAGTTCCATAGATTGATGAATTTATTGTCAAATTGTAGTTTTTTTATTGCCTCTATATTGGAATTAAAGTTAGCCTGCCATATATCTAGTGTTTTACTATAATCCTTAGCAAATCTATATATATCAGTTATTTTTAAACCACTTTGAGTAGCGTAATATTTGAACTGTGATTCTGAGGGAAGCATTCCTCCAGGAAAAATATAACTCCTAATCATATCGCTACCTTTCTGATATTGTTCTGATAGATCATCATTTATGGTAATTGTTTGAATTATAGCTTTACCATTTGTATTGAGGAGTTCTTTTATCTTCCGGAAATATATAGGCCAGTATTTTTTTCCTACAGCTTCAAACATTTCTATAGAAACAATATTATCAAATCGACCATTCTGAATTCTATAGTCTTCAAGAGCGATGTCAGCATTACCATCAAGTTTGTCTTTTGCATAGTGTAATTGTTCTGATGAAATAGTTATTCCTTTTGCTGCAAAATCTTTTTTACTTAAAGCCTGATTTATAAAACCTCCCCATCCACAGCCGATCTCTAAAAGTGTTCCAGAGTTATTAAGATTTTCAATGATCCTGTTATATTTATTCTCTTGTGCCTGTAAAAGATTATCTTGCTCTGAGCCAAAAATTCCTGATGAGTAGGTCATCGATTTATCAAGCCATATACTATAAAAATTATTTCCAAGGTCATAGTGTCTATGAATATTTTTTCTACTTTGACTAATTGTGTTTGTGTTCAAGAAATAAATAAACTTATGTATTAGTCTTCCAAATACGCTGCTATATATGTAAGAATCAAGTATCTGACTGTTCCTTAATGCAAATGTAAGTAGTCTCTGAATGTTGGAGGTTTCAACTTGATTATCTCTATAGGACTCTGCAAATCCTATATCTCCCGTTGTTACAAGTTTTGGTACAAACGACCAACTATTAATTTTGAGATCTGCTTTTTCTCCTGGTACTTCACCTTTGAAGTGAAACTTCTCTCCTTCAAAGGTTTCAATATCTAGAGAGCCATATTTTATGTTCTCAAGCTTTTCTAAAAACTTCTTTTTTGATATCTTTCTTATCATTTGTTTAAATTTTTTATTGTACTAAATCTTTCCTTGAATTGTTTTGGAAGAGGTATATATTTTATTCCTTTGTTAAAAATTCTCAGTGCTTGCCAGTGTATCATTAAGATGGTTTTAATAGTAACAAGAGGATAAAATATTAAGCATTTAAATAAATTTTTTGTATTATAAATTGTAGTTTCACCAAGAATTGATGTTGCTAGCAGCTTTTTTCCTTCGCTATCATAGTGGTCAATCCATACACCTATTTTTTTCGATTTTTCTTCGAATAGAAATTTGAATTTATAGAAACCGTTTCGTTCAATAAAAGGTGAGACATGGAACATCTTCTCTACGCAAATAATATCGCTCTGTTTAATTTTACTTTTATCAGAATTATAGCATAAATAGTTATGGCTCTCGCCAAAAGTATTACGTACTTCAGCTAAAACTGCTCTTAAATTAGATTCCTTATCGAAACAAAACCAAAAACTAACAGGATTAAAGACATAGCCAAATACTCTAGGCATTGCCATTAAAACCACTTCTTCAACTTCAAATTTAAGTTGATTTTCTAGCAAAAGATTCTTAATCCACTCAGAAAAGTTGTGAGTTGGGAAATGATCTTTTTCAAAAAAGCTCATTAAGCCGTGTTTATTAACTCTAAATACAACATTTCTCGATAGTTCTGATATTTTACTAATAGGAAAGATTAGATAATACAATTTATAGCTAAATTGATTAACTCTAGGAAAAAATCTTTTATGGAATACTTTGGCATGAAGGATTTTAGGTGCTACCATGGTAGTTTTTCTCCCATTTTCTCTGCAATTTTTATTGCACTTAAAATTCCATCCTCATGAAATCCATATCTAGAGTAAGCACCTGCAAACCAATATCTATCTTTACCTTGTATCTTATGAAGATATTTTTGCGCTTCTATAGACTTTTGGTTAAATAAAGGGTGTTCAAATTCATACTCGTCTAGTATCGTGTCTTTTTTGGGATGGGTTTTAGGGTTTACTGTAACAAATATATTTTTATCAGTATTCAGTTTTTGCAGATTATTCATCCAATATGTAAGACATAAATTTTCATTTTGATAATCATTTTCCCTAAGATATACCCAACTTGACCAGCATTTTTTATTTTGGGGCATGAAGCTAGAATCTGTATGAGTAATAATTTTATTCTTCTGATATTTTATGTTTCCAATAATATTTTTTTCTTCGTCATTTGCGTCTTGTATAATTTTCATTGTTTGGTCGCTGTGACAGGCAAAAATTACATTATCATATAATTCTTTGTTTCCTGAATTATCAATAATTTCTACCTTTTCATTTAACCTATTTGTAGACAAGGCGGGTCTTGAGAGATGTATTCTATCTTGAAATGAGTTTGAAAGTTTACTTACATAGTTTTTGCTTCCACCAATGACGCTATACCACTGAGGTTGATTTGATACTGAAAGTAATCCATGGTTATCAAAAAAATTTACAAATGTGCTTGTTGGAAAGTCAAGTATTTGAAAGCTTTTTGAGCTCCATATTGAAGCAGCAATTGGCAGTAGAAAGTTATTTTTAAAATATTCGCCTAGCTTCATCTTTTCTAGCATTTTTCCAACAGTTAGGTCTGTATCTCTATAATTTTTTGCATTTTTATAGAATTTAAATATGTCCTTAATCATTAACAAAAACTGTAAATTAAATAAATTATGTTTCTGTGCAAACATACTGCTGAGATTACTAGTTCCATATTCTAGTTTTCCCGAGTTTATTGATACTCCAAAGGACATATTACTTTCTGAGTATTCAATATTAAGATGATTAAATAAGCTTACTAAATTTGGATAGTTCTTCTTATTAAAAACAATAAATCCTGTGTCTACAGGAACTTCTTTCTCATTGATTTTAGGTGTAATAGTACGGCTATGGCCACCTATATAATCATTTTTTTCATAGATTGTTAGTTGATGGTTTTTAGATAAAATATAGCTAATCGCAAGACCGGATATACCTGTTCCTATTACAGCAATTTTCATGTAGAATGCCTAAATTATGAATAATCACGGTTAACTCTAGGTAATAGATTTTTCCTTGTAAATAGTTTTTTGTATTGAAAGTTCAATTATTAGTACTAGCAGGTGTGATATAGTCAAAACTTTAGATCAAATTTATACCATTTCCCATCTCAAATTATATATCCGTATTTTGCAGAACTCGGCTGTGCTCACGTATTTATATACGCTGCGCAGCCTCGCCTTGAAATACGAATCTTTAATTCAAGCTGGGAGATGGTATTATTCAGTATTAAGCAGAAACGGTGGGCAAGACATATAAATCTTATAACTAACATTATCTAGGTTTATCAAGAAAAAAATATTTAACTCTAATATCAAAATTATAGTAAGCTAGTATTTTTAGCTTTACTTGAAATAGTCATTTTACGCAGTTTCATGGGCAAGCATATCCATTTCAATGTCGATGATATCTTCTGGGCGAGTTGCATGATACCATCTGGCATCATGTGCCGGTAGTCCAATAACTTTATCGCTGTTTAGATAATATTCACGCAAGGAAAATATGCGTAAAGGGTGTTTTGCTACTTTTCCAGGTTTTAGAATTTGCAAGCCAGAATACATATATTCGTAATTTTCTTGCTTGTCTGGTCTAATTAGTTTTCCTTCTTGATCAAGATCAAAATCTCCGTGCCCTGAATATCCAACAGAATCTTCGTATGGCTGCATTAAAAGCAAGAAATCCATCTTGTCTTTGTCCCACTTTTTGAGCATAAATTCGAATATATTATACTCAGCTCGAAGTACAATGTCAGTATTCAGAGTAAAAATCGGCTCATCACCAAGAATGTTGTGTGCGTTTTTAACAGCTCCACCTGTTTCTAGAAGCTCTTCTTCATAGACGATAACTATTTGCGGCATGTCAGGATTTTCTTCTTTAAAATCCTCAATAGATTTTTCTACTTGTTTGCTTAAGTAATGTGTATTGATTACAATTTTTTTGAAAGGGTAGCTTTTACATAATTCAAGCGCGTGGTGGAGAATTGGCTTACCTAATATTGGCAGAAGAGTTTTTGGGCTATTCTCTGTCAGGTGACGCATTCTATTTCCAAGGCCTGCTGCAAATAGCATTATTGTATCTATCATAAAAATTACATTATCTGTGTTTTTAAAAGCCAATTTTTGATCGGTTCAAGAATTGGATGTAATAAATCATACTCAAGATATTTAAGCACTCTTGGAATATATTGTAAATAAGTATCGTCTTTATCTCGCAAGTATTTTCGAGTAAAAACTCCCAGAATTCGTGAATTTCTTTGAGCACCTAGTATATGATAATTTAGCAGCGTATGCTGAAGATCCACTTGTTTCTTTTTTGCATAATATTTTGTGCAGCTGAGAGCAAAATCTCGATCAATATCAATTCTTGCATCTTCTAAAATTGAAACTAAATCATAAATTGGTGAACCAATTAATGCATCTTGAAAATCTAGTAGTCCAAGTTTTTGGATTCCTTGTTTTTCTTGAAGATACATCATATTTTCTACATGATAATCTCTTAAAATAATACTAGTATTAAGAGGTGCTTGGCTTGCTAAAATATCTTGCCAAATTTTATTGAATTCTTTCAACTCTTCTTTTGATAGAGCTTTTCCTGTTTTATGTGGAATATAGTAATCTGTAAATACACTAAGCTCTTTGAGCATCAAATCATTATCAAATAGTTTTAGGTTTCTTGGCGGACTAGTCTCTTGCAATTGAATTAGCAGATCAATGCTAGCGTGATAAGTACTCTCTTGTTCCTCTTTGCCACGTTTCAATAGATAATCTTTAACGCTTAAATTGCCAAAATCTTGCAGTATTAGGAAACCATTCTTAATATCTGATTTTATAATTTCTGGAGCAGAAAAATCATTCTCATTTAAAAAATTTGCAATATTTATAAATGGCTCAATGCTTGTATAGCTTGGGGGACAATCCATAATGATGTAGCTTGCATCATTCGTTTTTGCTCTTAAATAGTCACGAAGTCCAGCGTCGCCTACAATTGGCTCCATAGAATATGAGGTTGATGCAAAATACTCATCAACAAATCGTTTTAATTGTTTGGATCTGTCGATATTTTGAAGTGTCATATTTAGACAGCTAGCTTGTTTTTTGATGATTTTGCTTTAGTTGCTTTGGCAATTTTAGCAGACTTTTTTGCTTTGATCTTTGCCTTTTCTTTATCCTCCACTGTTGGGCGGTTATATACAACTTCCTTATTTTTAAGATCAGAGAAGTTATACATATTTTCTAGAAGCATCTCTTCGATAATGGATCTCAATCCTCTTGCTCCAGTTTTTCTTTTTAAAGCCTTATCTGCTACAGCTTCAAGTCCATCTTCTGTGAAGCTTAAAGTTGCTTCGTTGAGCTCGAATAGTTTTTGATACTGCTTGATTATAGCATTCTTAGGTTTTGTTAAGATGCTGATCAAAGCTTCTTTATCTAGATCTTTTAGAGTAGTCACTACTGGTAATCTCCCGATGAATTCTGGGATCATACCGAATTTAACTAAATCTTCAATTTCAAGGTCTTCTAGAATATCACTATTACGTAAATCATCTTTGGTTTTTACGTTTGCAGCAAACCCTATTGCGCTTTTGTCACTTCTAGCAGTTATTATACTTTCAATTCCCATAAAAGCGCCACCGCAAATAAATAGTATATTTGAGGTGTCAACCTGGATGAAATCTTGCTGAGGATGTTTTCTTCCTCCCTGAGGTGGGACATATGCTACTGTTCCTTCCATGATTTTAAGGAGAGCTTGTTGTACACCTTCACCGGAAACATCGCGCGTAATTGAAACATTCTCGGATTTTTTTGCAATTTTATCGATTTCATCAATGTAGATTATACCCTTTTGAGCTTTTTCAACATTGAAATCCGCTGCTTGCAATAGTCTGAGTAAGATGTTTTCAACATCTTCACCAACATAGCCTGCTTCAGTTAATGTAGTTGCATCAGCCATTGTAAAAGGAACATCCAATGTTTTTGCGAGTGTTTGAGCAAGGAGTGTTTTACCGGAGCCTGTTGAACCAATCATCATTATATTAGATTTAAATAATTCAACTTCGCTTTTATCGTCAGATAAATTTTCAAGTCTTTTATAATGGTTATAAACAGCAACCGATAATATTTTTTTAGCTCTATCTTGTCCTATTACATGATCATCAAGAGTCTTGCAAATTTCTTTTGGAGTAGGGATAGAAGATATAATTTCTTCTACAGTTTCATTAGCTTCTTCTTTGATTATATCTAAGCATATTTCCGTACACTCATCGCAAATAAAAACAGAGGGACCTGCAATTAGTTTTTTTACTTCAAATTGGTTTTTCCCGCAGAATGAACAATGTAGCGATTTTTTATCAGAATCTTCAGTCATTATTTACCCAAATTTACAATATAATACAACTATTAACAGCTTATTACTAGAAAGTAAATATTTACTTTTTAACAAGCATTAAATCTCTATTCTCAATTATTTTATCAACTAGCCCAAAATCCTTGGCTTCTTTAGGAGACATAAAATTATCTCTTTCCATACTTTTTTCTACTTGAGCAAGGGTTTTTCCAGAGTGTTTAGAATAGATTTCATGTAGTATTTTTTTGACTTTCATGGTTTCTTTTGCATGAATTTCAATATCTGTCGCTTGGCCTCTATATCCCCCAATAGGTTGATGGATCATAACTCGGCTATTAGGTAGTGCATATCTCATGCCTTTTTCACCGGCAAGAAGAATTGTAGCACCCATTGAACAGGCTTGGCCAATACAAAGAGTTGCAATTTTGGGCTTGATATATTGCATTGTATCATAAATCGCAAGTCCAGAGCTCACAACGCCGCCAGGAGAATTAATATACATGTAGATTTCTTTTTCTGGATTCTCTGCCTCTAAAAATAGTAGCTGTGCTACGATTAAGTTTGCCATTTGATCTTCGAATTCACCATTTACGAATATAATCCTCTCTTTCAAGAGTCTTGAGTATATATCATAAGATCTTTCACCTTTTGCTGTTTGTTCTACTACTATTGGGACATATGCCATTAAATTACTCTCCTAGCTAAAAAATTATTTTACTTTTATAGTTTTCCTTCATTTTCCAAATTTTGCAATTCCCGAAAACCACCTATGAAATCATTGTTGATAAATATATAAGGAACAGTGGTTTGTCCTGTTTGATTTGCTAATTTTAAATGAAGATCCCTATTATTTGATAGTTCAATTTTTTTATATTTTAGCTGTTTCATTTCTAAAAACTCTTTTGCTTTTAAACAATATATACAGCCTGTTTTTGCATACATTACTATATCCAAGTTTTGTTCTGATGATTCAATGTTTTTTGCTTTTTCGGAGGATATATATCCAGAATAGATTTTGGCAACTGCAAATACAATAAGCAATCCTGCGAGAACTATAAATATTTTATCTAAGATTTTATTACCCATGATTAATCAAGTCTAATTTAATGTTATTTATTTTATTATATTACATATATGAACTCATACAACAAATCTAGATAAAATTGCTGTTTATTGCCAATATTCCGATTAAGTATAGGTGTAGTTCTGTTATAGTTAATATTACATATAAGGAAAAATGCAACAGAAGGTGATGATATGCTTTCAAACGATCTAGAACTTACATTGCGAAAAGCCCTAACAATTGCATCAGATTGTAAGCATGAATATGCAACGTACGAACATTTGCTTCTGGCGCTTTCTGATGATAAAGATGCAAAAGAAATTTTTCTTGAAAATGGTGTTGTTTTAGAAACTTTTAAGAAAAGATTGAAAAATTATTTGCAACATGATTTGGCAGAGCTGGTGGATGAGGATGTAAAAGAAGCAAAGCCAACTGCTGGATTTCAGCGTATTATTCAAAGAGCTGCATTGCATAGCCAAGCTAGTGGAAATAAAATAATTAATGGACTACATGTGCTAGCTGAGTTCTTTTTTGAGCATGAAGCATATGCGCTGCTTTGTTTGCGGGAAGAAGGATTGTCTCGTCAAGATGTTCTCAGCTATATAAAGAAAAGAGAGGGCGGTGATAAAGATGAGTCTGCAAAAAGTCAAACAACACAAATTACACTGGTAGAAAATCAAGTAAAACCAGAAGATAAGGAAAAGTTTGAAAATTTCAAGAAAGAAATAGCTGACAAATCTGGTGAAGAAGATGATGTTGAAAAATTTTGTGTTAACCTTAATGAAAGGGCGGATACAGATGCTATTGATTGTTTAATTGGTAGGCAAAATGAAATTCAAAGAACAATAGAAATTTTATGCCGAAGAAAAAAGAATAATGCAATTTTAGTTGGTGAGCCTGGAGTAGGGAAAACTGCTATTGCAGAAGGTTTGGCTATTCGTATTGTTAAAGGTGATGTACCTGATTTACTTAAAAACGCAGTAATTTATTCACTTGATATTGGTAGTTTAGTAGCAGGTACAAAATTTCGTGGTGATTTCGAGGAGAGAATAAAGAACCTTCTGGAATTTTTGAAAAATAATAAGGAAGCAATATTATTTATTGATGAAATTCACACAATTATTGGTGCAGGTTCGACTAATAGCGGTGCAACTGATGCTAGTAATCTTTTGAAACCAGCTCTTGGAAAAGGTGAACTTAGATGTATAGGTTCTACGACTTTTAAAGAATATCATAACCATTTTGAAAAAGATATGGCGCTTGTCAGAAGGTTCCAAAAAATTGTTGTTGAAGAGCCTGATGAAGACTCAACTATGGAAATTTTAAAAGGTCTGAAAGGGTATTATGAAAAGCACCACAAAGTGGTTTATTCTGATTCAGCGTTAAAAGCTGCAATTCACTTATCAGAAAGATATATAAATGATAGGCATTTACCTGACAAAGCGATTGACTTAATTGATGAAGCCGGTGCTAGAAGTAAAATGGATGGTTCAGGGAAAAAGACAACTATAACTAATAAGCATATAGAAGATTTACTTTCAAGTATTTTAAACATACCCAATATTGGTGATAAAGCAGATGATATTAGTCAATTAAAGCAACTTAGTACGAATTTAAAGAAGTGTATTTTTGGTCAAGATCAAGCTATTGATGATTTATGCGCTAGTATAAAATTATCTAAGGCGGGCTTAAAGAAAGGCGATAGACCAACAGGTTGTTATTTGTTTGCAGGGCCAACTGGAGTGGGCAAGACAGAGCTTGCAAAGCAGCTTGCTATTTTCAATAATATGAAGTTAATAAAGTTTGATATGTCAGAGTTTTCTGAAAGTAGCTCTATATCGAAACTGCTTGGTAGTTCTCCTGGTTACGTTGGTTTTGATCAAGGAGGAATGCTTACCGAAGAGGTTGCAAAATACCCTTATTCCGTAGTGCTATTTGATGAAATTGAGAAAGCTCATCCGGAAATATTTAATATTTTATTACAGATTATGGATGAAGGAAATCTTACGGATAGTACAGGTAAGCATATTAATTTTATGAATACTATGATTATTTTAACTACAAATATTGTTGCTGAAAAAGAAAAGGCTGCAATTGGATTTAGTGAGAATGATAAAAGTAGCTCGATTCCAGCATTAAATCTTGATCCAATAAATCAACAATTTAGCCCAGAATTTAGAAGCCGTTTGGATAATATAGTATTATTTAACCCGATTGATAGAATAGTTGATAAGATAGTCTCTAAAAACATTAAAGAACTTGGTGCGCAGCTAGCCGATAAAAAAGTAAGGCTCAGTGTTAGCGCTGGAGTGAAAAAGTATTTTGTTGAGAAGTGTTTTAATAATAATGGTGCTCGGGAGCTTGATAGAGCGATTGATACTCATATCAAACAGGCTATTGCGGATGAAATTTTATTCGGTAAATTAAGAAATGGTGGATCTGCCAATGTCGATTTATCAAAAAGAAATGATGAATTTACATTTAAATTTACTCCAATGCAAAAGCCTACTAAAAAGCACTTAGAAACAAATTGATACTGTATAAAAATAGCAATTTTTAATATTTATTATTTGCCTGGAAAATGCTATAACTTCCAGGAAGTTGCTTGCTATTTGAAAAAAATGAAATTGTCCTTGACAATATAGGTATATAACTGCTATTTTTACGTGCAAAATGTCTAATTAATAGAAGTATTACCTGTGAAAACTTATTCAGCAAAGCCATCAGAAATAGAAAAAAAATGGCTTATCATTGACGCTAAAGATATTGTTCTTGGCCGTTTAGCTAGTCAAGCAGCTATTCTGCTTCGTGGCAAACACAAGCCAACATTTACACCGCATATGGATTGTGGTGATCATGTAGTAATTATTAATGCGAAGCATGTTCATCTTTCTGGAAATAAAGCAGATAAAAAAGATGGTAAATTTTACTATCGCCATACTGGTTTCCCAGGTGGAATTAAAGAGACAACAGCTGGCAAAATTCTTTTAGGTAAGTATCCAGAAAGAGTTGTGCAGATGGCAGTTAAAAGAATGCTTAGCAGAAATAAAATGGGTAATAAACAATTTGGTAATTTGCATGTTTATGCAGATGCTGAGCATCCACACACTGCACAAAAGCCTGTTGCTTTTGATATTGCTGAAAAAAATACAAAAAATAAGAAGTAATCATAATGGAAGTACCTACACTTAAGGAATTAGAAGAACAAGCAAAAGGAGCAAAGGCTCCTGCTACTGTGGCTTCTGTAGCTGAAGCGCCAAAAGTTATTCAGTGCAAATCAAAAAAATCTACACCAAATGGTGGTGGTTATGGAACTGGAAAAAGAAAAAATTCTGTTGCAAGAGTTTGGGTTAAGCCAGGTAAGGGTAAAATTACTGTAAATAATAAAGATTTTTCAGAGTACTTTCCACGTGAGTCCTACAGAACAGCAATATTAAGACCTTTTGTTGATACTAATACTACTGCGCAGTATGATGTTGTTTGTACTACGAAAGGTGGTGGAACAACTGGTCAGGCTGGAGCTATTATTCATGGTATTGCAAGAGCTCTTGATTGTATCTCGGATGATTTTCATTCTATCTTAAGAAAGAATGGTTTCTTAACAAGAGATTCAAGGGTTGTTGAGCGTAAGAAATACGGTAAGCGTAAAGCACGTAAGAGCACTCAGTTCTCTAAACGTTAATATATATAAGCCCAGGACTTTAGTTCTGGGCTTTGTTTTATATATAAATTGTTGTTCTAAATAAAATTTTTTACAATATGTTGGTATGAGTTTTGAAGTTAAAACTCTCCAAGAAAGTACAAGGACTGCAGATGATGCAGCAAAAGCAATTTGTTGCGTAGTTGGTCAGATATGTAAGTCAATAATATTTAAAGCTAAACAAAGTAATAAGCCTGTGTTGGTTTTAGCAAGTGGTATTAATAGAATAAATGAAAAATTTATCAAAGATTTTGTGGGTGAAAAAATCTTAAATGCTGATGCTGAGTTTACTAGGGAGGTAAAAGGTTTTGCAATAGGTGGCATTCCTCCAATCGCTCACAGGACAAAAATAAAAAAAGTTTATATAGATCAAGACTTAAAGCAATATGAATCTATATGGGCGGCAGCTGGAACACCAAATAGTGTATTTGAGCTAAATTTTGAATCTTTAGTTAAAATGACAGGTGGTGTGGTAGTTAGTATAAAATAATTATTTTTTGGATTTGGATAAAAACTGCTTGAATCTAAATCTTTTTTGCTTCATATTGCTATGGAATTAGTAGTAGTTAATTTTGAATATTGAAGTTGTAGTTCTTGATCTTGATTTGTTATGTAAGTTTAAGATTATTACATTCAGCCTAGTGTTAGCTATAGTTAATTTTATTTGTGGCGGGGTAGCTCAGCTGGTTAGAGCAGCGGAATCATAATCCGCGTGTCGGGGGTTCAAGTCCCTCCCTCGCTACCATTTTTAATCTTGTTGTTCTTATTTCATTTAGGTTGCCGCGATCGTGGGCGGAATACAAAGATTCCAGTGTTTCAGTAAGCGTATCACAGTAGCTTCTCTCAGTTGTCATAGCAAGGCGAATGCTCGGCGATCCATTAGCATTATCAGATATTAAACTAGCAGATTATTACACTGTTTTAGCTGACTTATCTTGCAATGAAGAGTTTTTTCTATCTTGCCAAGTGGCTAAAAAGTAGATTCATTGTTTTATTATATTGCTGCTATTAGTCAAATGGATTGCCGCGTCGTTACGCTCTTCGCAATAACGAAATCAGTTGTCATAAATGGACGCAGGGGATTGGTCAAGTAAAATTTCATCTTAAGGTAAGGTTTATGAAGAAGCTGTCATATATTCGGCATCTATACGCCTTAATGGTTTCTGCATTCTGCCTTTATCCTGAAGTTCACTATCATCC
>sequence04
AAACTCTCTCATCAGACATTATCTTGCTAGGTCCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCTTACTCGGAGAGAAAATATACTAGACACAAGAGTAAAATTAGTATTTTTAACAAAAGAAGGGAAGCTACTTATACAAAAACTTGTACCTGCCATTGAAAAAATTGATGAAGAATTTTTTGGCAGATTACCCGATATAGAACAAAAAAACCTAATAGATATAATGCAAAAACTATCTAAATAATAAGTATTTAGAGCAAGAAAGAACTAAGTTAAGGCAACTAAACTATATATACTCTAGAAACAAATTATTTTCTTCTAAAAGCTTTTGTGTCTCTTCAGGTTTAATAACAATTACCCCCTTCGTTTCAATCGCAAGACCGCTAAAACCATGCTTAGCTAAACAAAAAATTGTATCTGGACCTATTACAGGTACATCCAATCTCATATCTTGCGCTAATTTAGACATTTTAACTAATACACCACCTTTATCTTTTTTTCGGAGCAAATCGCATCTACGAATTAAATTATCGGTCCCTTCTGCTGCTTCTATCCCAAGCGTATAACTATCACAAACTATAACAGATTGCCCTACATCTAGTTTACCTAAATTCTTTAAGATAGCTGCACCAAACTCTATATCTGAATTATCGTTTTTTGATGGTTTTTTCTTTGTGGAAATCAAGTTTTTATTATTCACCGCTAAAATATCTAATGGAGAAATTACGTTAAATCCTTTCTTATTTATATGATCCATAACTATTGTTAGGACATTATCATCTCCAAGTATCTTCTGTTTCATAATATTTGCAATCAATGCAGTGCCACCCCAATCAACCTTTAATGACTTAAGATCTGGGCGCTGAACACCTCCAACAATAATGACATTCTCAACTTTATTTTCTTCAAAATACTCTAGAATTGCACCAACACAGCCAAGAGTGAAAATTTTACATGGAACTCCATTATAACTTCTATCCTTATCGATTGAAGCTACAAAGCAGCTCCCTCCATTAGCAACATAAATATTTGCAATCTCATCTGGCAAATCGCCGTTTCCTGCAATAATTCCAAGCACGGGGAAAGTCATTATATTTATTTATACCTACAAAAAGTTCTAGAATCGTCCTTCTGCAAAAAGTCTATAATTTCCTGAATGATCTTATTTTCAGGATATTTTTCTTTTGCACGCTCTATTCTTTTATTAAAAACTATATCTGAGTTTTCATCAAATATTTCTTTCACAACCTTGCTTGCCTCAATAGATTGTTTTTTATCAAAACCTCTTCTATTCATACCCACTAGGTTTAAGCCCTCTAAGTGAGCTCTATCACTTGATGCTAAGCCATAAGGCACTAAGTCTCTTACAACTGCAGAAATTCCTCCAACCATAGTATGAGGACCAACTCTACAAAATTGCTGCACTGCAGACAAGCCACCTAAAATTGCAAAATCACCAACTTCAACATGCCCAGCAAGACTTGCATAATTTGCAAAGATCACATTATTTCCAACTGAGCAATTATGCGCAATATGAACACCAACCATAAAAAGGCAATTATCACCAATACTAGTTATCATCTTATCTCCAGCTGTTCCATGCTGGATAGTTACATATTCACGAATAGTATTATTTTTACCGATTACTATCTCAGAGTCTTCGCCATTATATTTTAAAGTTTGTGGATAACATAAAGAAGCAAATGGATATATTTTTGTACCCTCGCCAATTGTTACCCTACCTTCCATTACTACATGTGATTTTAGCTCAACATTATCGCCTATAATCGCTCCATCACCAATAACACAAAATGGACCAATTTTAACATCTTTCCCAAGCTTAACTTTATCACCTATTATTGCGGTTTTATGAATCATATAATTATTCTTATTTATTTTTCACCATAGCAGTAAACACACCTTCTGCCGCCACTTTTCCGTCAACTTCAGCACGAGCCTTAAATTTCCAAACCGGACCTCTATTTTGAATAATCTCAGCAAACATTTTAAGCGTATCACCAGGCTCTACAACTTTACGAAATTTTGATTCATCAATAGACATAAAAAATACTTCCTTATCATCTGTACTTTCCATAGATTTTGCAACTAAAACAGCTGAAAGCTGAGCCATTGCTTCAATAATTAAAACGCCTGGCATCACAGGTCGGGTTGGAAAATGTCCAGTAAATTGAGGTTCATTCGCTGTTACATTTTTAATTCCAATAATTGACTTTTTTAATTCTATTTCAACCACTCTATCAATTAATAGAAATGGGTATCTATGTGGGATTATTGACATTATCTCATTTATATCAATTTTTTCCTGTGTCATCTTACTTTGCCTTTAATTAGTTTTTTCATCATTATTGTTTGTTTGTGCCAATCTCTTATTGGTACAGCTGGAGTTCCGCCCATAATTCCAGGCTCTTTTATATCCTGAATTACACCACCTTGGCCAGCAATTTGTACGCCGTCTGTAATAGTAATATGCCCGGCAACGCCAACTTGACCTCCAAGAGCACAATAAGAGCCAATTTTACTACTACCAGCAACACCAACTTGTGCAACTAGAATTGCGCCTTTCTTAATATGCGCATTATGACCTATTTGAACTAAATTATCAATCCGACATAAATCTTCAATAACAGTATCATGCATTGATCCTCGATCAATTGTAGAATTAGCACCAACTTCTACGTTATTACCAATCAAAACACGGCCCGTATGATATATTTTTTTATGGACCCCTTTTTCTGTTGAAAAGCCAAAACCATCTTGTCCAATTCGAGCACCAGAAAGAGCAATAAAATCATCGCCAATTACAGAGCAACTAATTGATACATTTGCATCAATTCTAGCTCTATTTCCTATTTTGACCTTGTAATCTATAAAACTACCTGATTCAATTACACAATCATCACCTATCTCTGCATCTTGTTCAATTACAACATTATGACCTATGTAGCAGTTTTTACCGATTTTTGCACTAGGTGAAATATATGCAGTGGGTGAAATAGATGGCTGAATAGACTTCCCAGGCTTGTAAAACATATCCAAAATCACTGAGTAGCTATAGTAAGGATTACTAGTTTTTAGTAAAATTATATTTGAATCTATGTCTTCATTAAAGTCTAGTGGAACAAGACATGCTGCAGCACTGCAAGAACGGAATTCTGATATGTATTTTTTGTTTGTTAGAAATGTAAGCGATTTTTCATCTGCATCTTCTAGCGGCCTTATATCACTAATCAGCACCTCTTCATGAGCAGAATCAATCTCACATCCTACTATTTTTGCAATATGCGATAATTTATGTGGACCTAGATTTGTAAAAAACATCCTATCTGACATGGTTTTCTCCTGTAAGAAATATCACTAGAAGAAAACTATATCAGATTATTAAAAGTGTAAATCAGTTATTTGAATTTTTATTATTCATCCTTGAATAGATACGAACTAGCTGCATTATACCCATAGTCAATTGTCTCTTTAGCAACTTCGTACGCAGCAGAAGCCATTCCCCAAAAAATATCTGTAGCTGAAAATGAGAAATCAAACCCTCCATCTTCATACATGTAATCATCGAATTGATTGTAGTCTAAATCTTCCTCTATAGCTTCTGGAACTAACATTAGATTTTCTCCTTCATCCTCATGTAGAGGATTTATCTCATTTATAACGTTAAGCGGATTAACTAATCCTGCAGAATTCTTGATATATTTTACATTATCTGAACCGTTAAAAGCATTTTTTAGCAGACTATTTGCTTTAGAATTAGATCCAATAGTCGTATAGTTAATTTTAACAGAGTGTTTATTTTTGCTTATAACCTGAATAAAGCTATCATCATTATTATTGATTTTTCCGGCTTTATATAAATTCAATAATAATTTCTTTGGATCATTAATATTTACGTTATTTCCAAACGAAACTAAAACCAGCCTTTGCTTATTACCATTAGTTTTAATCTCAGCTCTAATCCCAGTAAATTTGGATATTTGATTAATTTTTCTTTTAGCTGATTCCAAACTACCACCAATATTAACCCTCTTTCCATTAAGCATAATCTCACCGTTTGCAAATACCTTTTTACTACTCACAAAACTAGTTGTAGTAACTTTAGTTGTTACAGAAAGTGAAATATTTGATATTGATGTAGCCATATATTATTAACTCAAATTATTTATATAACAATATTATATATTAATTTATGTTAATATTCAAGCGACTGTTAAAGAAATTTAATTTCTCTTAAACGTTTTGATAGTCTGGCTTGGTCATTCTTGATATAACTGTGGACAAAACTCTAGCACTTTTAGTAGTTAAAACCACTTTTCCTTTCCCTATTTCTTTTTGGTCAGCTTCTTCTTGTATTCTAGATGAAATCCATTTCCCTATACGCCTACTATCAAAATAAAAATCTTCAAACGTAATATGCTTATTAGTCATCAATCCAGTCTCTATAGAACCTTTAATCCTTCCCGCATTTGAATTAGAAACTTTATAACCACCTCTTTTAAAAGAATCTACAATACCACTAGCAAGAGCTTTTACCTCATTTACTTTAGTTGTTCTAATTGCAGAATCAATAGCATCATCTATTTTTGTTTGTGTTAAACTATATGTTGAAGATAAGGAAAAGCTCTTCTTAGAATATATCGCATTAGCAATTTCTAATCCTAGTTCTATGCCATTTCTCCTTAAATATGTTTCACCAAAACCTGATCCCATTAACTTCTTTTGAATTGAAGCCACAAGACCTGATTGCTTATTAGTGATGGTTTTACTTTTGCTAAGAAGCACATGAGCAGCTTCAATTGCCACTCTTTCAACAGCTTCATTCATGGCTTTAAGTAGCTGAGCTCTAATTTTAGCTTCTCTAATAATCCTTAGTTCTTCATTCGTTGGACCAATATCCACTTCTTGCTCAACCTCGGGCAAGAGGTCTGGTACTTCACCTTCATCAACTTCCAAAATTTGCGCAGCAGGAGCAGGTTTATTTAAAGATCCAAGATATTCTATATTATGCCCTGAAAGTTTTCTATGTAATGAGTTATCAGCTTGTTTAGTTCCATACCTAGAATATACAAATTCTGGAGTATTTCTTTTACTTGTACCAGTAATCTCTATTAATTTATCTGCTCCAATCCCCATCTTACCAGCATTAAAATATTCAGCTAAGGCACCAGATTTGTCTATTATTGATACTTTTGATTTATTAGTTTTTAATACTAATCTTTCTTTACCCTTTGCTGATATATGAATTTCTGCAGTAACACTTGTTCCTGCTTTAAATCTGTTTATTTGTCTTGCAATATCTCGAAGGCCTCCAGAAATTCTAATTTTATGGCCATTAAGAAAAATATCAGAAGTACTAATTCCTCTACCCCTGCTAATTGCAGAACTATTTGATACTAGGCCTTCATTAATTACTCTTACTGTTGATACCGAAGCTGACAAAACAATCTCCAAACTAAATTCATAATCACAATAATTAACCAAAGATAAATAAATACATATATATTAATAGTTAATGTGCTTCCTATTTTTTCAAAATCTAGTTTAAATATTTTAACATGTCAAAGAATTTATTGAATTAAGTCAACACAACTTGAATGTGCATTCTAAACAGGGAATTTTCACTAAAAAGATTTAAAAAATTAAGAAAATATTGTTGATCCCACAATGATATTACTATTACCATTAAGATAGTCTTCAGAAGACATTTTAGGTTTACCTTCAGGTTTTACAGATTTCACGTGCAAAATACCTTTTTCAGATGCAATATCAAAAGACTTATTAATAATCTGACCAGCTTGATAAGCATGATCAATATTTGAATATTCTGCTTCTAAAATTTTTATTTTTTTATTTTCAAACTCAAAATAAACCCCGGGCCAAGGATTCATACCGCGTATCATGCAATCTATTTTAAAGGCGGAATCACGCCAATTTATTCTACTTTCTTCCTTAGTTAACTTGTGAGCATAGGTCTGGCCAGTAGCTGCCTGCTTAGTTCGTGGAAGCGTCTCAATATTATCAAGCGTTTTAAGCAGTAAGTCTCCACCAATCTGGGCACATTTATCGTGCAACTCCTGCAGAGTAATTCTTGGATCTAAAGCAAAATCTTCCTGTAAAATTATATCACCAGTATCCAATCCTTCATCCATCTGCATAATACAAACAGCCGATTCTTTTTCTCCTTCAATAATCGTTCTCTGAAGCGGAGCAGCACCTCTGTATTTAGGAAGCTTAGAAGGATGAATATTTAAACAACCATACTTCTTGGACTCCAGTATATCTTTAGGAATAATAAATCCATATGCTACAACAACTATAATATCTGCCGATATAGAATCTATTAATTCAAGCGACTCCGCTTTTCTCAAAGTAGTTGGAGTATGTACTGAAATTTGATGAGACTCTGCTAATTGATGTATAGAAGACTTAGTGATCTTCATGCCTCTACCTTTAGCTTTTGGCTTTTGGGAGAAAACAGCAACAACATTATGTTCTTTTGAAGAAATTAAATTTTGAAGTGCAGGAACAGCAAAATCAGGAGTTCCCATGAAAATAATATTCACTAAAATATCTCTATAATCTACGCAATAATAATTTTCTAAGCTGATAATCTTTTGATTTTCACAAGCTTTCTAAGAACAACATCCTTCTTTAACTTGGATAGGTAATCAAATGTTAATTTACCATCTAAATGATCGATTTCATGTTGAAAAGCACGAGCAAGCCAACCACCTGTTTCTATTTCCTGAATTTCATTGTTATAATTTAAAAATCTAACTTTTACTCTCTCAGGCCTTGCAACAGGAATCCTCTGACCTGGTACAGACATACAAGCTTCATCAGCTTCAACTATATCTCCAGATGTCTCTATTATTTCTGGATTAGCTAAGAAAAGAGGATAAAAACCCTTTGGCCTTTCCTTGTCATCATCTTCCTGCAAATCCATCACTATAACTCTTTGAAGCACTCCAACCTGATTTGCAGCAAGACCAACACCATGATCATCGTACATAGTTTCAAGCATATCATCCATAAATTTGCGAACATTATCATTCACCGACTCAATCGGTTTTGCTTTTTTAGTTAGTCTTGGATCAGGCGCCGTTAAAACTTCAAGTTTTCCCATTATTATTAATTTATCTATTTTAATTAAGAAGATTATAACATAAAGGTTATGAAGGGTAAAGTACGGCTTAAACAAACTTAGCTTGAATAAAAATTCAACCAGAAGGCTAAGAGTAAATTATCGGCTTTTGAGTCTAAATCTAAAGTTTTGGTGGCTCCTTTGGCCCCTCATCTTCATCATCTTTCTTTACTTCTTCGGATACATCCTCTTTTATATTCTTTGCTGGCTTTTGAGTTTTTACTGGATCTCTTGGAGGTTCTTCCAGTTCAGGTAGCTCTTCTTCTAAAACCGTTGGCTCCTTTGGTTGATCTACTACTGGCTTTGACTTTTCTAAATCAATATAGTCATTATTATTTCTACTTTTTAGTTCCTTAGCTTCTATCGCCTCTTCCTCTGCTTCTTTCTTCTTTTCAAGCTCTTTCAGTTCTTCAATATTGTGTATCTCATCATCAACATCAAGTGCTTCAGGGTTTGTTATTTCAACTGTATCTGCTCTAAATTTTATATTAGGCACTTTAAAATAATATGCACCCATTCTGGTGATAAAAGCACCAGCAGCGATAACTATAACCGCATTTCTTATGCCGGTTGGATCTGGATTATGTGAGTTAATATCTAGATATAGACTAAAGAGAAGACCCCATATTATTGAAACTTCTGCATTTATCGCACCATTTAAACAGATGATATAGTGTTTTTTTCTGAGTAGATCACGAAGTATTCCACCTCCATTTGCTGTTAAAAAAGCAAAAAATGGGCCCCATAACTCAATAGGCTCAATCCTGGCCATGATTGCTATAGAAACACCCGTTACAATGAAAGCAGATTGACCAAGCGCATCACCAAGAACCAAGATATTATCCCAGAATTTCATTATCACATCATCTTCATTTGCCTTTTTATTATAATATTCAAGAAGCCTTATAGATGAAAATCCGACTAAAACTACAATCAAAATATAATACATATATGAAGGAGTTAAAAATAACCCCACTTCTTCCCTATTAATCAGGACATCTCGCATGATTCCACCCCCAACAGATGGTAACATTGCAAATAAAAATGTTCCGAATAATGTTGCATTGTCTTTTGCAGCGATAGCAATACCAGAGATGGCAAATGCCAGAGTGCCTACTACACCAATAAAATAAAACCATTGCGAGTCAATCGTTTGAAGCAACATTACAGGATAAAGATAGGTCTTTACAACATCTTTATATTCGTCACTACCAGAAAATTCTTTAATCGCTTGATTGTATCTATCAACAACATCAAGCGGAACAGATTTCTTACTAAACATTAGGTGAATTGGTGTTTTTACGTGAAGTTGAATTTCACGAATTTTAGTAGTCGCTCTGCTATTCAAAATTGCAGCAGCTCCAACAACACGATCGGAAATAAATCCATCAATATCACCCTTAATAAGAGCGTGCAATGCATCTACATCATTCTGATATTCTCGAATAATATCTCTATTAGTAGAATCATTAATAAACAAATTAATTTGTGGATCCGCATAAATGAAACCCTTCGTCACCCCTAGATTAAAATTCTGCAAACGAATCTGCACTAAAAATTCAGATACAGATTCAAAATCAAGGTCCTTTATACTATCTCTCATCATAAAAAGAGAATTTTCTTCATAACGATATGGTTCAGAAAAATACACATATTCAGATCTAGCTTTTGTGTATGTGGCACCTGCTGCAATATCTCTTTTTCCATCACGAAGATCTAATTGATGTTGACCCCATTCAACTTGGTCATACTGCATTTCAACACCAACTTTTTCAGACAATCTCTTTACAAGTTTAATATCCATTCCAGTTAGGCTAAACCCACCAGTGGAAACTTTATTATATTGGTATGGCTCCCATAAATACCAACCATTTTTTAAAACATTCTTATCTATAGTTTCGGGACACTCTATAACTTTTTCTTGTTCAACAGCATATATTTTTAATGGCTGAATTATAAGGAATATAACAAGAAATAATCTAATGAAGTTCATATGGAATAATTGCAAATATTATCAAAAAAAGAATATGCTCGATATTTAAATTAGCCTATTGAGTAAAAAGGTACAATGCAATACCCTTATACTCATACTTAATTAAAGCTAAAGTTGATTTACTGTTACAGAAATTATACTATTTTCCTTAACTTGGCATAAAAATCATTTTAGATTTCATGCCGATGAAGTTACTTAAGAGATTTTCTTTAATATTTTGAATTTAACAATTCCGTAAGTTGAAATCAGTAACCATAATATTTCAATTATAACAGAAGCCAAATTCCAGTGATAATATAGAGAAAAAAGTAACATTATCGCTCCAAAAAAGTTCGAATATAAATATATTGAAGAGCTTGATGTAATTTTCTCTAGTTGAATCAGAAAAAATGCCATTATCACCAAACCAACGCCGATAATACCAACTATATCTGATATAAAATGGATATCTAGGGACATTTAACTACTAATTTTTTCTATCTTAGTATCTCCTCCCATATATGGAACAAGAACAGGTGGAATTGTTATAGAACCATCTTCATTTTGATAATTTTCTAGAATTGCAATAATTGTTCTACCCACAGCTAGTCCTGATCCGTTCAGAGTATGAACAAATTTAGTTTGGTTATCACCAAAATCTTTATATCTAGCTTTCATTCTTCTAGCTTGAAAATCACCGCAATTAGATACGCTTGATATTTCTCTGTATTTATTTTGTCCAGGAAGCCAAACCTCTAAATCATAAGTTCTTCTGGCTGAAAAACCCATATCACCAGTACAAAGTATCATTACTCTATATGGAATTTCTAGACGTTTTAAAATTTCCTCAGCAGCAGATAGCATACGCTCTTGCTCCGCATCAGATTCCTCTTCAGTTGTTATAGAAACAAGCTCAACTTTACCAAATTGATGATTTCTAAACATTCCTTTTGTATCTTTACCTGCACTACCTGCTTCAGATCTAAAACATTCAGTATACGCCACATATCTCTGAGGCAAGTCTTCTCTTTTTTGAATAGAGTTTGCAACAAGATTTGTGAGTGGCACCTCACCAGTTGGTATCAATCTATAGTTTTCTCCATCCGTAAGATATGAATCTTCACTAAATTTCGGCAACTGCCCAACATTATACATGGCATCTGGTCTTACCAAAACTGGAGGGGAAATTTCCATGCACCCGTAATCTTCAGTGTGCACATCTATCATGAAACTTATTATAGCTCTTTCAAGTTTAGCTAATTTTCCTTTTAAAGTAACAAATCTGCTGCCAGAGATTTTTGCCGTCTGCTCAAAATCAATCATACCTAGGTTTTTACCAAGCTCATAATGATCTTTTGCATTTGCCAACTCTTTTGGCTCTCCATATTCTCTAATCAATTTATTCATTGATTCATCAGTACCATAAGGTACTTCATCAACAGGAAGGTTAGGAATATTATCCATTATTTCCTTATATCTATCGCTATCACCTAATTGCTTTGATAATTCAGATAGTTTTTCATTAATATGCTCAACATCACGCTTAGTCTCATCAAACTCTCTACCCTTTCTTCCCTTAAGGCTACCTAATTTTTTTGATTTAGCATTTCTCGATTGCTGAAATTGTTGAATTAGAGTTGTTAGCTGTCTTTTTTCTTCATCTAGAGTTAATAATTCATCAGAATTAATTTTAACTCCTCTTTTCTGTAAAAGACTATCAAATTCTTCTTTATTATCTCTTATCCATTTGATATCTAACATTTTTTAAGACCTCTTTTTTTCAACTAGTTTACATAATATAATTGAAAGTTCATATAATAAAAGTAGTGGTATTGCAAGAGCTATCTGACTAATCACGTCTGGAGGTGTGAATATTGCAGCCACTATAAAAATAATAACAATAGAAACTCTCCTTTTGCGTCTTAATGAATCTGACCCAACTAATCCTAGAGATCCTAATATTACCATTACCACAGGTAGCTGAAAAGCCATTCCAAATGCAAAAGTAAATTGTATAACTAAATCTAAATATTCACTTATTCTTGCTTCTAAAACAAGCGGAATATTAATTGAACTATTTTCATAGCTCAAGAAAAACTCCCAAGCTCTTGGCATAACAAAATAAAAAACAAAGAAACCACCTATATAGAATAGAATTGGCGAAAAAGATAAGATTAGTGTAACTAGCTTTTTTTCATTTGCTAAAAGGCCGGGAGCCATGAAAGAATAAATCTGATAGCAAATTATAGGAATAATAATAGAAAAAGCTGAAAAAATAGATAGTTTTATATAAGAAAAAAAAGCTTCAGCAAGACCTGTATATATTATTTTTCTTCCTTCTTTTTCTGAAAGGTCAACAAGAGGAGTTAAAAATAGTTCAAATATTTCTTCTCGAAAACTATAACAAAGCAGAGCAGAAGCTATAAAAAAAGCAAAAACAACTAGGAGTCTTTTTTTTATTTCAACTAAGTGTTCTTTTAAAGTATATTTTTGCACTACAAATCAACCAACGTTTGACATTCTTTTATAGATACTTATCTTGTTTAGGATAAACATTTATCCTTGTATTACCTTTAAAACTATTATTTTTCAGTATTATCCTCATCATCTGGAAGAAGCTCATCAATATTTTTTTCTAAAGTTTTATCCATAGGAATCTCTAATACAGATCTAACTTCACCATGTTTTTTCTTTTTTATTTCATCAATTTGATTTATGTCCTTATCTTCTTTTGATAGATCTATTGAATCCAATAAATCTTTTGGAATATATCTAATTGAATTTTTTAATGTTGTTTCTAAATATGGAGTTGTAACTGAATCTTTTAGCCATTCCGGATACTTATCCTTTTCAAGATTATATATAACATCTTCAGCTTTCTCAGCACCAGAATATGTACCGGCAGTGAAGACTGCAACGACACTAAATAGTAACAGGGAAATTAGTCCACCTCTTAACGAACCTAAGACAAAACCTAGAAACCTGTCAAATATACCTTGGCTAACTTCTTTAAAAAGAAAGATAATTTTTGATGATAAAAATGTAAAAACAATCAAAGAAAAAATATAAGAAACAACACCACTTCCTATTGAAGTTACAAGGTCATTAGCTATATAACCTGAGAATATTATTCTAACATACGAATATAAGAATATCGCCGCAAAAATTGAAGCAATAAAACCTAAAAGATTTATAGTTATATAAATCATTCCTCTATAGAGCCCCATTATTGATGAAGCAAATAGAATTGTTAAAATAATAATATCAAAAACTGTAAACATCATATTTCAATAATAACTTTATCTGTAATAACATAGTCGAGCGTTAAATCATGAGATTCTTTTGGTAAATATTCACTTAAATCTCTGTGAAAACAAACCCCAATCTTTATAATATCTTCTCTCGAGCCCTTTTTACTAATATATCTATCATAATACCCAGCACCAAATCCTAATCTATCTCCATTTATACTAAGAGACAAACCAGGTATCACAATAATATTTGGCTCCACTTTATTTTCATTTTGAGGCTGCATCAACTTACTAAAAGAACTCTTTTCCATCTTGGAATTATAACCATATTTGACGTAATACATCTTAGTTCCTTTAATCTTAGGTAAAGCAGCTTTTGATAGAAATTTAACAGCTAATTTCATTATGTCAACTTCACCTTGCATAGGCCAATATAAACCAACAGTTTTGTTTTTGTCCAGAACATCAGTTTTTTTAACGAGTTTTGTTTGCTTATTTCTTTTGAAAGAAATCGAATCAATAACTTCTTGTGTGTTTTTAACAATAGTTTCATTTTCTATACTATGACTCAAATCCTTATATGATTTTCTTAAATCTAAAAATTTTTGTCTTAATTGCTTTTTTAATTCCATCTCTTGTATCAATTATTTCTTTATAAACTTTTCCATAAATTCTTGATGCTTTTTCAATTCTTCTTCAGTGGGATATACCACTAGTTTATTACCTTCCGCCATAACATTGACCACATCATTTTGAATCTCATTCGATTCTCTATTTCCTATTACAAAACTTGTCTGTCTGCCACCAGTAAGTTCGACATACACCTCCGCAAGCAACGCTGCATCCAGTAAGGCTCCATGAAAATCTCTTGAAGAATTATCTATCTTAAATCTTCGACAAAGCGCATCAAGATTAACTCTAGCTCCAGGATAATTCTTTCTTGCAATAATTAGTGTATCTATTGCTTCAGACAACTCAAGAGAAGGTAAATTAACCAAAGACAATTCATAATTTAAAAACTTAATATCAAATGGCGCATTATGTATAACTAATTTTCCATCTTCTATAAAATCTAAAAATTCCTCTGCTATCTCTTTAAAAACAGGTTTATCTTTGAGAAATTCTGATGAAATGCCATGTATTCTGTAAGCTTCACTTGGCATATCTCTTTCTGGATTGATATAAAAATGAAACTTCTTCCCCGTTAGAACCTTATTAACCATTTCTAGGGCACCAATTTCTACTATTCGATGACCATCCTGAGGATTTAAACCTGTTGTTTCAGTATCTAGAACTATTTCTCTAATATTCATGCTATTTTCTTTATTATTTTCTCTAATGATTTTTCTATTTCTCTTTGGTTAGTATCGCTATTTATCACAAAATCTGATCTCCTTTTTTTCTCCTCTTGATCAAACTGTACTGATTTTATCTTATTATATAGATCAATATTGCTTACCCCTCTTTCTTTTGCTCTTTGCCATCTAGTTTCTTCCGAGCAATATACACAAATTGAATAAGAAAAATATTCGTCAAAATTTGATTCGAATAATAGTGGTACTTCTGTAAATATAAATTTTTGATTTTTATTTATTTCCTCAAACTCTCTTATTCCAGATCTAACAATCGGATGAATTATAGATTCAAGTTCTTTCCTAGGTTGTGGATCATCATATATAATTTTAGATAGCCTCTTTTTATCGAAAATCTCTAACCCTTCTATCTTGCCTATAACTATATCTTGTAATTTTATGTCTTTATAAGCTTCACGAATAAAATCATCGCAGGAAAAAACCATATACCCCATGTTTTTAAGGCAATTTAGTACAAAACTCTTACCAGAAGCAAAACTTCCAGTGATAGCAATGTTTTTCATTATTTTATTCCCTTTTTCTGATCGTAATATGCTTTCATTATAATTGCTGCAGTCTCCTCAATTGATCTCATAGAAACATCTATTACTTTCCAATTATTTTCATAACATATTCTCTTTACTTGTCTACATTCATCTTGAATTGTCTTTATATCAGTATAGTTAGAATTTTCGGTAACTTGCAGTAAATTCATTCTACTTTCCCTAATTTCAACTAATCTGCCAGGATTAATAATTAATCCAAATATTACTGGATTATTCATTTTGGGCAATATATCCGGAAATGGGCATCCACTAACCAAGGGAATATTAGCTGTCTTAAATCCGTTATAAGACAAATATACAGAAGTAGGAGTTTTTGAGGTTCTTGATGGACCAATCAAAATTATATCAGCCTCCTCAAGATCATCTAACATCTGACCATCATCATGACGAAGGGAATATTCAATAGCATCAACTTTATCAAAATAAGTCTCATCGAATTTGTTAGTGTAACCAACCCCACTATCAGCACTTTCACCTATATATTCTGCAATTTCTTTAACAATTTTACTTACAACCGATACACAAGGTATTTTCATTTCAAAACAAAACTTCTTCAAAGCATCGCGAAGCCCCTCATCTGAAACTGTATATAAAATAACACCTGGTTTAGCCTTAACCTTCTCAAAAACCTCATCAAGCATCTTTAGGTTTCTAGTCATAGGCCAATGATATTTTTTTACTTCTACATCACTAAATTTTGCTAAAGCAGTATTTGCAGCATGTTTTACAGTTTGCCCCGAAGACTCGGAAACTAAGTGAACAGTTAGTTTTTTCATTTTTTACACATTTACTTTGTGGATAACATTATTGGTCTAAATATCTATTACTACCTTTATTTTAAAGATAAATCTACTAATATAGATCACAAAAGCCCTATGTATAATAAATTGTGCATAAGTTGAGTATAGTATGAATCACCCCTACTTATCCTCAATTTACCCCATATTTATACACAAATATGTCAACTGTATAATTTAATCTGTGAATAAGTTGTATAATTTTTGGAATTCAAAACAGAATCTATAATAAATCGATCATATATATGTTGATAAAATAGTGGATAACTCCTAATTCATATTATCCACTATACCTACAACAAACTATAATATATATTACTTTATATTATTATATTAGTACCGAAAAGTTATGAGCAATCTTATAAAAGTTTTTCAAAAAGAAAATAAAGAAATTCCTATTTGGCTAATGAGACAAGCTGGAAGATATTTACCTGAATATATGGAAATAAGATCTACAGTTAGTGATTTTTTGGAACTTTGCTACGATTCTAAAAAAGCTACTAAAGTAACACTACAACCTATAGATAGATTTGGTTTTGATGCTGCAATAATTTTTTCAGACATTTTGGTTCTTCCTCATGCTTTAGGTTGGGATGTTGCATTTAAAAAAGGAGAAGGACCGGTTTTAGCAAAATTTGAATCTGAGAAAGATTTACTAAAATTATCAGATAGTTTTTCTAAGCAAATAGAAAATATTTATGATACTGTAAGCAACGTCAGACATTTTTTGCCAAAGAACGTATCTTTAATTGGTTTTGCTGGAAGCCCATGGACAGTAATTAGCTATATGTTTGAAGGAAAAGGGAAACAAGATTTTTCAGTAAGTAAAAGATTTTTATATAATAATTACGTAACTGCTTTAAAGTTATTTGATATTATTTCTGATAAAACTATTGAATATTTATCTAATCAAATTGAAGCGGGTGCTGAAATAGTTCAGCTTTTTGATTCATGGTCTGGAATGTTGAATGGATTTAATTATGAAGAATTTGTAATCAAACCTACGAAAAAAATAGTAACAGAATTAAATAAGAAATATCCAAATGTGCCAGTAATAGGATTTCCAAGGGGTTCAGGATATAATTATGATAATTATATAAAAAATACGAATATCGACGCAGTTGGTGTTGATCAATTTACACCAGTATCTCAAATGAAAAAATGGCAAAGAAATATTGTTGTTCAAGGTAATTTTGATCCAGTTATTTTACTTACGAATAGAGAAAAAATTAAAAATGCAGTTGACGAAATATTATATACAGTAGAAGATGATAATTTCATTTTCAACTTAGGACATGGAATTATGCCAAATACTGATCCTAAAAATGTAGAATATTTAGTAAATTATGTCAGAGAGTTCAAAAAATAAAAAAACAGCAATAGTTCTTTTTAATTTAGGGGGACCGGATAGTAAGAAGGCGGTAAAGCCTTTTCTATTTAATCTTTTTAATGATAAATATATAATTACTCTTCCAAAATTTTTGCGTTATTTTATTGCATGGCTTATTTCTTCAAGGAGAGAAAAAACAGCTCAAGAAATATATTCTTATTTGGGAGATAAATCGCCAATTCTAGATGAAACAAAAGCTCAAGCTGATTTTTTAGAAAAATCCTTAAAAAGTTCTTTAAAATCAGATTGCAGGGTTTTTATATGTATGAGGCATTGGCATCCAATGTCAGATAAAGTAGTTGAAGATATTACGAATTATGGGCCGGAAGAGATAATTTTACTTCCACTTTATCCACAATTTTCTACAACTACTACTCTTTCTTCAATTGAGGATTTTTCTAATAAAATTCAAAAGAAATTACCCAATATTTTTTACAAAACTATTTGCTGTTACCCAAGAAATAAAAATTTTATACAAAGCCATGTTGATTTAATTAACAAGTCGCTTGAAAAAATAGAAGATAAGGATAATTATAGAATTTTATTTTCTGCTCATGGTTTGCCTAAAAAGATTATAGAATCAGGTGATCCGTATCAGTGGCAGGTAGAAAACACAGTGCAGGGCATAATTGATCAATTGCCTTTTTCCAGAATTGATTATAGGATATCTTATCAAAGCAGAGTTGGTCCGCTTGAATGGATTGGGCCTAACACAGAAGATGAAATAGAAAAAGCTGGAAAGGAGCAAAAAGAATTGATGATAGTTCCTGTAGCTTTTGTCAGTGAACATTCTGAGACTTTAGTAGAACTTGATATAGAATATAAGGAAATAGCTGATAAATACTCAATGAATTACGTTCGGGTTCCAACTTTGAGCGTTAATGACCACTTTGTTGATTCGCTAAAGAATATGGTTGTTAGTGCAAGTAATTCCGAATCTAGCTTTTTATATTCTGATGAAATGAAGAGAATTTGTCCGGGAAGTTATACAAGATGTCCGTGTAAAACTAAAAATAAAGGTAAGTAGAAAAATGGAAGATTATTTTATTTGGTATAAAACTATTCATGTAATTTCAGTTATATCTTGGATGGCAGCAATATTTTATTTGCCAAGGCTTTTTGTATATCATTCGAAGGTGGAATTAGGCTCAGAGATGGATAAAACTTTTCAAATCATGGAAAGAAGGTTGTTAAAAATAATTATGACACCGGCGATGCTATTAACATATATTTTTGGTTTGCTTACTGCTTATGTTTATGGTGTTGTTGCATTAGGAGTATGGTTTCATATTAAAATGCTAGCGGTTCTTGGTTTGACGATTATGCATGGATTTTGTGCTAAATGGGTGAAAGATTTTGCTAAAGGTGAAAATAATCATTCAGAAAAATTTTACAGAATGGCAAATGAAGTGCCAACTATTTTGATGATACTTGCTGTTACCATGGTTATAGTTAAACCTTTTGAATAGTTCGATTTTGTTATTGCGAGCAAAGCTTGGCAATCTAGGCATTTTAGCACGAAAGATTCGCCATCAATTTAGCCAGATAGATTGCCGCTTCACTTCGTTCCTCGTAATGACAAAAAAACTATTTCACCTTGAGCAAAGTTAATCAGCATCAAAGTATTCCAAAACGAAATACTATTTGTGGTAATATGTATTCATTCTTTAAGACATAGATTTTACTAGATCATTTAGTACATTATCTGAGTGAGAATCCCAAATATATTTAGATTCAAAGTTATTGTAATGTTCTAAACCTAGATCTTTTATGATTTGAGGACAAAACTTAGATTGAAATGCTCTGATGACGAAATTTGTTTGTTTATCAAAAATTTCTGTTATGTCTATGTTATATCCAAGTTTTCTAAATTTACTTTGGATATTGCCAATATTTTTTCCAATTACACCAAATTCATACAAGCTTATATTCATAGAAATAGGTTCAACTTCATGCCACATTCCAAAACCTTGCTCAGAAAGTAGTTTCCAGTTAAAGAATATTCCCGGATCTATTTTTCTTTCTGGCGCTACATCTGAGTGACCAATGAAATTTTCTTTTGGAATATTGTATTTTTGGGCTAAATCTTTACACAACTCAATGCATGAATCCATTTGATCTTTAGTAAAGTCCTTATTTCCTAAATTGTCGAGTTCGATGCCGATAGAATTTTGGTTTAACTTATCTTTTTTATGCCAAGAACTTTTTCCTGCATGCCATGCTACATTTTCATCTTTTACTAGTTGAAATATTTCACCATTTTCCTTTATTAAATAATGAGCACTAACTTCGCTTGATGTGTCACAAAGCCTAGCAAGAGCTTCTTTAAATGGCATTTCCGTAAAATGTAAGATAACATATTCAATCTTCTGACTTCTTTTTAAAAAATTAGGAGAAGAGAAATTACTATTAAGAAGCATAATTATATAGATTTAATTTTCTTTAAGAGTTATATTATAGCCCGGAAAAGCATTTTAATATAGCATATTGGAACAATTAAAAGTGAATGAAACTGAATCTATTCAATCAAATACACATAATTCTACAAAATCCGAAGTAAAATCACTAATTTTAGTAATATTATTAGCGTTGGCAGTTAGGACCTTTTGTATTGAATTATTTTATGTTCCAACAGGATCTATGAGAGCTACAATCCTGGAAGGAGATTATATATTTTCTACAAAATATGATTATGGGTATAGTATATATTCTATACCTTTTAATCCTAATATTTTTGAAGGTAGAATCTTTGATTACCCACCAGAAAGAGGGGATGTGATAATTATGCGTCCTCCACATAATATGGAACAGAGATATATTAAAAGGTTAATAGGGCTTCCAGGAGACAAAATTGAAATAAAAAATGATCTAATCTATATTAACGATTCTCCAATAGAGAGGGTGGAAGTTGGTATATATACTAGCGAAGATAATATAGAATATATAAAATTTCGTGAGACTTTGCCAAATAATGTGAGTTACTTTTCGTATAAGTTAAAAGACCAACCGATGATTTTTGATGTAGATATTAGTAATTACGGACCAAAGATTGTTGAAAAAGGTAGATATTTTTTCCTAGGAGATAATAGAGATAATTCTGGTGATAGTAGATATCAACTTCAAACTGTTGATCCAAGAAACTTTATTGCCAAAGGAAGGTTTATTTTATTTTCAACAAAAATACCTCTTTGGGATTCATCTTCTAGCTTTTTTGAACAAATTGCAAGAATAGGCGATTGGATTTCATCAATAAGATTTAACAGAATATCTAGCAGCTTGTATATTTCAAAAAATAATCATGATAAATAAATTTTCTAAGGAAGAATTAAATTTACTCGAGAAAAAATTGGATTATAAATTCAATGATGTTAATTTTCTCATAGAAGCTTTAACGCACCCTTCTATGAAACAAATAGATAACACTATAAGAGATTACGAGAGGCTTGAGCTTTTAGGAGACTCTATTCTAGGATTTCTTGTTACAGAAATGATTTTTAATAAATATACAGGATATGAAGAAGGTAATTTAGCTAAAATAAAAGCTCACGTAGTTTCAAGTGGTACATTAGTAAAAATTGCTAGTACAATAGATTTGTCTAAATATTTAATAATTACGCCAGGTGAAGAAAACTCTGGAGGAAGAAATAATCCTAATAATATAGAAAACGCCATGGAAGCATTGCTTGCAGCCATATATCTAGACAGCAACGTTGAAAATGTTCGCAAAATTGTCAGAAGATTATGGAAAGAGTCAGTAGATAATATTGATTTTAGTGCTGCTGATCCTAAAACATATTTGCAAGAATTCCTGCAAAAGAAAAAGCTAAATATTCCTAAATACGAGCTTATAAATCAAGAAGGTCCTGTACATGCACCTTTATTTACCGTTAAAGTCTCATCGAATAGTAAGTCTAAACTAGGCGAAGGAAAATCTATAAAAGATGCAGAAAAAGATGCTGCAAGGAAATTGTTAAAGCTTTTGGAATCTGAGAGATAGTTAATGTCTGAGAATATTAAAAAATCTCTATCAGTATGTATAGTAGGAAAACCCAATGCTGGTAAATCTACGCTCTTAAACCATATTATTGGAGAGAAAATATCAATTGTTACTCCGAAGGTTCAAACAACTAGATCTATCATAACAGGAATCATTACGTTCGATGATGTCCAATTAGTGCTATTTGATACACCTGGTATTTTTGAACCAAAAAAGAAGCTTGAAAAAGCTATGGTTCGTTGTGCTTGGTCTAGTCTTGGAAGTGCAGATATGATTGTTTTAATTATTGATGGATCAGCCAAAATTGATGAAGGAGTGACTGATATAATTCACCGCATTTCTGAGTCTGGAAAACCCATTACATTTTTATTAAATAAAACCGACCTTAAAACAAAATATGCGGTAGAAAATATTAGTTTTTTGCAGAAAGTAGCACCCAAAGCTAGGATTTTTAATATATCAGCGTTAAAAGGAAAAAATGTTAGTGATTTTCTAGAATATTTAAAAGAAAACACGGGCATTTCTGGTTGGGGTTATGATGCTGATGATATTACAAATTTGCCATCGCGCTTTTTGGCTACTGAAATAACAAGAGAACAGTTGTTTCTTAAACTAGAGCAAGAATTACCTTATAATTTAACAGTTGAAAGTGAAAGTTGGGAAGAGCAAGCAGATGGTTCAGTTAAAATTAATCAAGCAATTATTGTTTCTCGCGAAAGCCATAAGAATATGATAATTGGCAAAAAGGGAATTAAGATAAAAGAAATAGGAACAGAGGCAAGAGTAAATATTGAAAAATTGCTTGGGCAAAAAGTTCATCTATTTCTTTTTGTAAAAACTCGTAAGAATTGGGAAGATAATCCAGAGTTTTATCACACCATGGGATTAAAATATCAAGGCAATCACTAAGATGATTCCCCTAAATCTTTATCAACTACAATTATAGTATCTCCTATAACTAATATTCCTTCAAAGTCTTCTTTAAGTCTAATGCCATTTGCAGCAAGTATGCTATTACCATTTTGTTCACTAAAATAGTCTGACATAATTAAATCTATAAAAGTATCAAGTTGAATGTTAGTAGGAATTTCACGATTTATAGGGCTATAATCTTCAGATTCCTCGGCAAGAACTGCATTTCCAGGCATTAAAACTTGAAGATTTGAGCCAATTGGGCGAGGATATGTTTCTTCTTGATCAGAATTATAATTGTTTGGATGTGGAATTGCTGCTGGTTCTCCCATTTCTTCTTCATTGTTTGGTGGAAAGGTATCATTTTCTGCTAATTCTCTACTCATAATAACCTATATTTTATATAAAATTGTTAGCTATGTTTAGATAATCTTCCGGAGATAAATTTTCAGCTCTGTGTTGCAGGCTTATACCTGATTTTTTTAGAATATTATCTATGTCTGAATGTAATGACTTTAAAGAAGATTTTATCATTTTTCTTCTTCCAGAGAAAGCCAGTCGTGTGATCTTCTCTAATTGATTTATAATTTCTTCAGAAGGTTGATTAGGTTTTGGTGTTAGCCTAACTATGCTTGACCAAATCTTTGGTTCTGGATAAAATGCCTTTGGACTAACATCGAAGCATTTATAAGTATTACAAATAATCTGACAGATTACAGATAATCTTCCGTAAGATTTGTTATTAGGTTTAGAAATTATTCGATCAACTACTTCTTTTTGGAGCATAAGAGTCATACTATTTACATGCTTTATCTCGCCAAGCCAATTAATTAGAAGTTGGCTTCCAATATTATATGGAAGGTTAGAAATAATATCTAAGTTAGTTTTTGAAAGTTCCTTAAGACTAGTTTTTAGTGCATCTTCATGCCTTATTTCAAGAAAAGGAAATGATTCTTGTAATTCTTTTAGAAGAGGTATACACCGGGAGTCAGTTTCTATTACAGTGAGTTTATTAGGTTTTGCTTTTAATATTGATCTAGTCAAGCCTGCTGGCCCTGGGCCAATTTCAAGAACGCAAGAATCCTGATTTATGCTGGAATACTGTACTATTTTATCGCATAAGTTTTCATCAAAAATAAAATTTTGACCGAACTTTTTTAAAGGAGCAATACCATGTTTACTAGCTAACTTTGCTATAGATGGCAACATTTTACAATCCAGGCATCATAATTTTTATATTAGATTTTACTTTTAGGTCCTTAAAGAATTTGGTTGCCTTTTTTGACATTTTTTTGTTAGACAAAAACGATTCAATTTTATTTAAATCATTCTTAGAAACGCCAGAATCTTTTTTACAGACTAAAACCATTTTGAATAAGTTTCCTTGTTTATAAATATTACTTGAAGCCCCTACTTTAGTATCAAGAACTACAGATTGTGTTTTTGGCGGAAGTTTGGTTAGTTTTCTATCAAATTTTTCACCATCTGCAAAATCAGCAAATAGTTTGTCATCTATTTTGTTGCAGCTTGATAAACGCTTTTTTAGTAATTGCATCTTACCTTTTGATTTTTCATCACCTGATTTTGAGGTAAATACCCAAGCCTCAATATCAAAATCTTGATAGCTATTTATTAAAGCTATATCCATTTCATTAGGGGAAACGGAAACAGATTGAGATAATGAATTTACAATATTATGCTTAATCAATTCTCCTTTTATTTGCTTTCTGAAACTCTCTATGTCTAAATTACTTGCCTTCATATGCGCTTTCATACCGCCCTTTGGCATTTTATTTCTTTGTTCGATTGAAAGAATTGCATTATCGATTTCTTCTTCGCTAACTTCTCCTCCAACCTTTTCAGCGTGTTGATTTAATAACTCTTCCTCAATTAGAATATTCAGAATATCACTAGTAACTTTGCTGTTTACTCCAGGATCAGAAATATCGATATTATTTAATTCTACAATCATTTTTTTTCTAGCTTCGAAATCGTACTTTGTAATTGGTCTATCATTTACAAATGCTACAACATCAGGTAAATCTGCCAATGTATTAAATGAAAATAGTACAAGAAAAACACTTATTAATCTTTTCATGGATTATCTGCTCACATATTTAAAACTTTTAAACCAACAGAAAATGACTTAGTTCTAGTCTTCCGAACGCCTCTTAGACTGTCATTTAAGAAATTATCTGTAATTACGCCATTTATACTAACACAATCGAATATATATGTCACCCTGATACTTCTAACTAGAACTCGTGGTGATTTCGAAGTAATATCAAGCTTAGTTGTACCACCAATCCAAAGATTTTCTTGAACTCTATAGTCAGCATTCATGTTAATTTGTGAAGCTTTATCACTTTCAATCATAACGTCATTATCGGCAAAATATCTGGAAGCTTGATGAAATTCAGCGAAAGATACATTTCCTATAAAATCTTCGGTTATTGATTCAAAACCAACTTCGTTTCTGATTGGCTTTAAACTCTGGTCTCGTCTAAATCTATAAAAAATAGAAGTATTATTGAATATATCAGCTCTTGCACTTCCAACATATTCAGAATTACCTCTTTCAACTACATTGTCCTTATAAATTAATTGCCCCAAAAAGGTATCAATATACAGCGGTCCTCCAGATAAGGTAGAGTTAACACCATAACTAAAGCGACTGCCATATTCGTGATAATCAATACCACTAAATCTATTGGTACTAAATATATTATTCTCGGACAATTCATTTTTTGGCGCATCCACTAAAGCAAATTTTTCAAAACGTTTCTCATATTTTCTACCCAAAACTACCATTGCAGTAGGTTCGATTTTTATGCTAGATTTTTGAGTAATAGATTTCATTAAAGGATATCTCCATTTTGCACTTACTTCTGGGATATTTCTATACCAAACTTTTTGCTGTCCTTTTTTTGATTTGCTTTCATTAAAGTCAACAACGTATAGATCCCCTCTGTTTGAAGCTGTAAGAGTATACATATGACCACCTTGTGAAATCATATTGGACATCATTTCTAGTTCGAGAGCGTTCCTTGCAAGCTGAAGTTCGTTTGGTTCAGAATATATAATAGTATTATTTCTTACATTAAGCAGTAGAGTTTCATCGTCTGATAAATCTATAACATTTTGAGTTTTGATGCTCGGAAGGATAAAAGGTGTTTTTAATTTTGAATTTTTATCTCTTAAATCCTGAAAATGATATCCCTCAAGTAGAAAATAATTTCTTCTATCAACAGTGCTTGTATAAATTCTCGATGTTAAATAAGAATCATATATTTCTTGGTGATTGGTAAGAAAAGCTTTGTCCGAAGCTCTTTGTACATCAAACCCATAATTTATACTATTTCTAGAAAAATCACCTTTGGCGTTTACATGATATCTTCCAGGGTTTGAGCTATTTGATTCTCCATCAGCTCCTTTTCTTCTGAAAGATGGGTTACCGTAGCTACCATTAATTTTATAACTTCCGTCCTCAACTTTATGACGATATTCGCTATCAAAAATAGTGTATCTTTTTGAAAATCTTGGGCTTATTGTAAAGTCAATATTAGGCTTTGCTCTAAAGTAAAAAGGAATCATAAAGTCATCTTTTAAAATTTTAGGACCTAATATTCCTGATTGAGCTTTTGCATCTGGGGTTGGGTGAGAAAAATAAGGAAAATAAACTATTGGAACGCCATAAATTTCAAAAAACACATGCCGGTAAGTTATTTTTTCTTTACTATAGTCAATATCTGTTTTTCCAGAACTGATTTGCCATATAGGTTTATTTCCACAGTTGATTTTACAAGGAGTGAATACAGATTTTTCTAAAGAAAGTCTGTTTTTATCTAGTCTTTTGGCAAGCCTTGCAGCTAAAATTGAATTTTCATCTAGCTTGGCGATAAAGCCTTCTATTACACCTTTTTTTAGCTTATCCTTAAAAATAGCTTTTTCACCTTTTATAACTCGTCCACTTCTATCAGTGATTTGTACATTTTCTTCAGCAAAAATAGTGTCATCCTTTAAGTCATAAATAATTTTTTGTGCATTAATAGTATATCCTTCCATTTTGACGAATACGTTACCTTTAGCGGTAATTAAATCATTTTTGGAATCATAATGAACTTCTTTCGCTTTTAAAGCATTATTAGTAGAATTTGCCCCGCATGCAATAAAAGGAGAAATAAAGTATATTAAGAGTAAAAGTTTGCAAACTCTAAGCATTTAAATTAGTTTGATTTTGTGCACTTGGAAATATTCTAAAATATTATACATTATGTTAGAAGATAATTTAACAAATAACTTAACTCAAACGGAATTTTCTGTTTCAGAAATTTCAGGCAAAATAAAATGGCTGCTTGAAAATAAGCTTGGTATTGTAAAAATAAAAGGTGAAATTTCGGGTTTAAAAGTAGCGGCATCAGGCCATGGTTATTTTTCATTAAAAGATAATAATGCTGTACTTGCTGCAACTTGTTGGAGGCATAATCTTGCTAGAGTGAATTTTAAACTTGAAGAAGGTTTAGAAGTTGTTGTTACCGGGAAAATTACTGCATATGCTGGTCAATCTAAGTATCAAATATCTGCGGACCACATAGAGCCAGCTGGTTCCGGCGCTTTTATGAAGATATTAAAAGAGAGGCGCGCAAAGCTAGAACAAGAAGGGCTTTTTGCAAAAGATCATAAACAAAAAATACCATATCTGCCTAAAAAAATTGGTGTTATTACTTCTATTTCTGGAGCGGTAATTAAGGATATTATTCACAGAATAGTGGATAGGTGCCATACTCATTTAGTTATTTGGCCAGTGGCTGTTCAAGGAGAAAGCTCTGCAGATGAAGTATCAAATGCAATTGATGAATTTAATAAGTTAGACTCCGATCAAAGACCTGATTTGCTGATAGTAGCAAGGGGGGGTGGTTCTATAGAAGATTTATGGTCGTTTAATGAAGAGAATGTCGTTCGCTCCACATATAATTCAAAAATACCGATTATTTCTGCAGTTGGGCATGAAACAGATTATACTCTGATTGATTTAGCTGCTGACGTCAGAGCGCCTACACCTACAGCAGCTGCAGAATTCGCTGTTCCAGTTGCATCAGATTTAAGATATACTATAAATGTTCTCGGTGATCGAATGCATACTAGGCTTAATGATTTATTGAAATATTATTCTCAAAAATTATCAAATAATAAAAGAGCGCTCGAGCAGGTTAAGAATTCGGTCGAAAATTATGCGCAGAAAATTGATGATCTATCGTTTCGTTTGCTTGGATCTCTTCCTAACTTACTAAAACAAAAAAGCAATATGCTTGAATATTTTCCTATATCTCGCATAAAGCCAGTGAAGATAATGAAGTATAAGTATCTTCAGTATAAGCAATTCGATGATTACTTGCTCAATAAGAGTAGCACTTTACTGAATGAATATCAGCATAAACTAACCCTAAATAGTTCATTGCTTAATAGTCTTGACTATAACAATGTTCTAAAAAGGGGGTTTGCTATGGTTAGCAACTCAGAAGGAAAATATGTTTCTAAGCTTGCTGAAGTAAAACAAAGCTCTGTATTAAACATCAAAATGCAAGATGGTGCGATTGAGGTAGTTAAAAAATAACTGTTATGAGAACAAGTAAAAGATTGCCCTTGGAACTAATATATTGAATTGCTATTTGCATGAAAAAATGCTATACAATATAACAAATTTAATTATGCATTAACCTATGAAAACTTCAGGACAAATTGTCGCTATTCTAATGTGCACATATAATGGCGAAAAGTTTCTGGCCGAGCAACTAGATTCGTTTTTGGATCAAACTCATAAAAATATTGTTTTGTGGGTATCTGATGATGGTTCTACGGACGGTACTTTGGATATTTTGAAAGAGTATCAAGGAAAATTTCCAAAGGATAGTCTTAATATTGTAAAAGGACCGGGTAAGGGGAGTGTAATAAATTTTCTATCAATATTATGTAATCCCGATTTAAAAGCAGACTATTATGCCTTTGCTGACCAAGATGATATTTGGGAGAAGGAAAAAATTTCTACTGCTTTATCAAAAGTGAGTAAATTTCCTGAAGATATAGCTGTTTTGTATGGTTCACGTACAAAAACAGTTGATGAGAATGGTGTAGAGTTAGGTTATTCTACTATTTTTCCCAAAGCCCCATGTTTTAAAAATGCTCTTGTACAAAGTATAGCTGGTGGTAATACAATGCTTATGAATAATAATGCGGTGGATATCATGAGAAAAGCAGGCCCTATGCAAGTGATTAGTCATGATTGGTGGGCGTATGTGCTAATATCTGGTGCAGGGGGGTGGGTGATTTATGATGATTATCCAAGTCTTCTGTATCGCCAACATGGTAATAATCAAATAGGTGCTAATACAAGTTGGGCAGCAAGAGTTAAACGTCTAGGGTTGCTTTTGTCTGGTAGTTTTAGGGAGTGGAATAATACAAATGTAAATGCGCTTTTGAAAGTAAAGTATTTGTTAAATAAAGAAAACCAGGCTATATTAGATAAATTTGAAAATTCTCGAAATGGTGGTCTGCTTCATAGGGTAGTAGGTCTATGGAAGCTTGGAATTTTTAGACAAACTTTTTTAGGCAATATAGCGTTAGCTTTTGCAATCATTTTGAAAAAAATATAAGAAATTTATTATGGCAATATTAGTTACTGGCGGCGCTGGTTTTATTGGTGCAAACTTTGTTCTGAAATGTATAGAGCAGCTCGATGAGCCAATTATAAACTTGGATAAACTTACTTATGCAGGAAACCTAGATAATTTGCAGTCAATTGAAAAGGAAAAAAGGCATATTTTTATTAAAGGAGATATTGGTGATAGTAAACTTGTTGACGATATCCTGGATAAATATAAGCCAAGAGCGGTCATTAATTTTGCTGCCGAGTCTCATGTCGATCGATCGATTAGTACTCCAGAAGAATTTTTGCAGACAAACGTAGTTGGTACGTTTAGACTTCTTGAGAGTGCAAAACAATATTGGCAACAATTGCCTATAGAGGAAAAAGATGGATTTAGGTTTTTGCATGTATCAACTGATGAAGTATATGGAACTTTAGAAAAGAATGAAGATCCTTTTAAAGAAACTAATCGTTATCAGCCGAATAGCCCTTATAGTGCCAGTAAAGCTTCTTCCGATCATTTTGTAAGAGCATATTATCACACCTATGGACTTCCAGTATTAACTACCAATTGCTCAAATAATTATGGTCCATATCAATTTCCCGAAAAATTAATACCACTTATTATTCATAATGCGTTGAATAACAAGGAGTTGCCTATATATGGTGATGGTTTGCAAGTTCGCGATTGGCTATTTGTTGGAGATCATTGTTCCGCTATTCTTAGTGTGCTTGACAAAGGAGATGTAGGAGAAGTTTATAATGTTGGTGGGCTAAATGAGAAAGCCAATATAGAAGTTGTAAATCATATTTGTGAAATTTTAGATGAAGTTAAGCCAAAATCTGATTCGTCATCATATAAATCTCAAATTACTTATGTAAAAGATAGGCCTGGACATGACAGAAGATACGCTATAGATGCTACAAAAATTAAAAACTCTATTAATTGGTCTCCAGAGTCAACTTTTGAAGATGGTATTAGGCAAACTGTAAACTGGTATTTGAATAATCAAAACTGGGTATCAAGAGTTATTTCGGGCGATTATTCGAAATGGATAGAGGAACAATATTCATGAAGATACTTTTATTTGGAAGTAGTGGTCAGATTGGCGCCTATTTACAAAAATCCTTAGCTGGAATGGGCGAAATCAAAGCATGTTCTAGAAATGAATGTGATTTTGCTGATTTAAACCAGATTGAAAAAACTATTATTAAATATAAACCTAATATTATAGTAAATGCCGCTGCATATACAAATGTTGATAAGGCGGAGTCAGAAAAGCAAAAGGTAAAAGCGATAAATATAGATGCGGTAGAGATAATAGCAAAAGCAGCAAAAAATTTAGGAGCGCTTTTAATAGATTACTCATCTGATTATATTTTTGATGGTACAAAAAATGCGCCATATGTAGAGAATGATAAAGCAAACCCAATGTCAACTTATGGTTTGGCAAAGTTTCAAGGAGAGGAGAAGATCAGAAAATCGGGTTGTGACCATTTGATTTTTCGTACTAGTTGGATTTATAGCCCAAATGGTAGAAATTTTGTTAATACAATAATTAACCTTGCTAGAGAGAAAGATAAATTGTCAATTGTAGATGATCAAGTTGGGGCTCCTACTAGTGCAGAGTTTGTCGCTGAGGTGACTGCACATTGTATTAGAAGGGGGGTTAATAGTAATAATTGGGGGACTTACCATCTAACTGCAGGAAATTCTGTAAGTTGGTATGAATTTGCAAAATATATTTTAAACTACCTAAAAAGTAGGGGGTTTACTTTTCGCTTAGATATAGACAATATAGTGCCAGTAAGCTCTGAGGATTACAAGTCAGCCGCAGTTAGACCTAAAAACTCAATTTTAAGCACTGAGCTAATAAAAAAGACATTCGAACTACAGATTCCTTCTTGGGAAACCCAAGTGGAACAGGTTTTATCTAAAATAAAATTAAAAGAAATGGATTACACGTCATGAATAGAAAAGGAATAATATTGTCAGGTGGAAGTGGAACTAGATTATATCCTGTTACTAAGGGTGTTTCCAAGCAAATGTTGCCTATATATGATAAACCAATGATATATTATCCGCTTTCAACATTAATGCTAGCGGGTATTCAAGAGATCTTAATTATTACAACCAGAGAAGATATAGATGGATTTAAAAGATTAATGGGTGATGGTTCGCAATGGGGTATTAGCTTGGAATATGCTATACAAGATTCGCCTGATGGAATTGCTCAGGCATTTTTAATCGGAGAAGAGTTTATAGGAGATAATTCTTGTGTATTAGCGCTTGGAGATAATATTTTCTTTGGTAATAATTTTCAAAATTTGCTTAAGTCAGCAAATGACAGAGTAGATGGAGCAACTATTTTTTCTTACAGAGTGCATGATCCTGAACGCTACGGGGTAGCAGAATTTGATGAAAATGGTAAGGTGCTAAATTTAGTGGAAAAACCTACAAATCCTAAGTCACACTATGCTGTTACGGGGTTATATTTTTATGATAAAAATGTAGTACAGTATGCGAAGAAAATAAAACCATCTGACCGCGGTGAGTTAGAAATTACGGATTTAAATAAATTATATTTAGAAGAAGAAAAATTATCTGTGGAAATAATGAGCAGAGGTTATTCGTGGCTTGATACCGGTACTAACGAAAGTATGCTTGATTCTCACCATTTTGTTCACACTATTGAGAAAAGACAAGGTCTTAAAATAGCGTGCCTTGAAGAAATTGCCTTTAATAATGGTTGGATAGATATAAATATGCTTAAGAAGCTTGCAGACGAAATGAAAAAAAGTACCTATGGCTTGTATCTAAAACAGATTATTGATGAGGTTGGGAGTAATGCAGGTAACTAAATTAAGCATTCCGGAAGTGATTTTAATTGAACCTCGAGTGTTTGCAGATGAACGTGGTTTCTTTTACGAGAGTTTTAATCATGAGATGTTTGAAAAAGCTACTGGAGTAAAAACAAAATTTATTCAAGATAATCATTCCCAGTCTAAAAAAGGTGTTCTACGTGGATTGCACTATCAACTACCTCCAAAAGCTCAAGGAAAATTAGTACGTGTAGTAAGAGGAGAAGCGTTTGATGTGGCTGTAGATATTAGAAAAAATTCTCCAACTTTTGGAAAATGGGTAGGAGAGTTTTTATCTGAAGAGAATAGAAAGCAATTATGGATTCCCCCAGGATTTGCTCATGGTTTTATGGCAATGCAGGATGGAACTGAGTTTTTATACAAAACAACAGATTCTTATTCAAAGGAAAATGAACGAAGCATAATCTGGAATGACCCTGATATAAATATAAAATGGCCAGAATCCTCAAAGTTAAATGTGTCCGAAAAGGATAAAGAAGGACAATTTCTGAAAGATGCGGATTTATTTTAGCTGCGCTGGTGTATAAACAGCTAAAAACAAAAATGTAATTGACTATGCAATTGAAAAATGCATAGAATGTTGAATCAATTTTACTGAGATATAAATATGAATAGAAAATTTTTACTTTTAGGAGTTGTGGTTTTTATTATTACTACAGTTGCAACTTTTGTTTTATATAAAAAACTAAGAAAAATACATAACGATATTAGATATACAATTCAGAAAATTCCTGAAAAGTCGGAGCATAAATATTCTACAGATTCATATTTTGATAAAGAAAAACATGACATAATTGCAGATCCATACTCTCGTGCAAAATTTATTGCTAATATCCAGCAAAGTAAAGGCTTGCAGTTAGAAATAGGGCCTTATTTTACGCCAGTTCTTAAAGGCGATAATGTTAGATATTTTGATGTTCTTGATAAAGAGGGGCTAATTGAAAAGGCTAAAATTGATAAGATATCTATTGAAAATATTCCTCATATCGATTACGTAGAACCTCATGGAGATATGAGTGTGATTAAGCAAAAGTTTGATATAGTTTTTTCTAGTCATAATGTTGAGCATCAAGTAAATCTGGTTAAACATTTTCAGCAAGTTGAAAATTTGTTGAAAAAAGGTGGAAAGTTTTACCTAGCTGTACCAGATAAAAGATATTGTTTTGATCACTTTATATTTGAAACACCATTATCTATGGTTCTAGCTACATATTGGGAAAACCCACAAAACCATTCTTTGCAAACAATTCTAGCTAAATGCGAAACCGGTCATAATGATTCAAAAAGACACTGGGAAGATGATAGTGGAATCCCAGTATTTATGGATAATAGAGAATGTTTTAAGCAAGAATATATAAATTATGAAAATGCTAATGGTAACTATATAGATGCACATAAATGGAGGTTTACACCTCAAAGTTTTGCATTTATCATTAATGAATTAAATAGAATGAAGCTTGTTTCATTGAAAGTAGAAAAAATGTGGGAAACCGCTCTTCACTCACACGAATTTTATGTTGTGTTAGTAAAAGAATAAATTAATTAACTATATGGGTATGTTTATGAGTAAAAAGACTATTAGTACTTTTCTGAGTATACTAATTACACTAGTAGGATTGATATATGATGCAAACGCACACGATTCTATAAAAAAGATATATTTTGAACATGAGGGTAATGCTTCTGATAAATGGATAAATTACTTAGATGTTTATGATGAGTGTTTTTCGCGCTATATAGGTAAAAATCCTAACCTACTTGAGATTGGTGTTCAAAATGGCGGGGGATTGCAAATATATTCTAAATATTTAAAGAATGCAAAAATCTATGGAATTGATATTAATCCTGAGGTCTGTAAAATGAGTTTAGGTGAAAATATTAAAACTTTCTGTTTTGATATCAATATGAAGGATAAGTTTTTATCAAATTTAAAAGATGTAGAGTTTGATATCATTATTGATGATGGGTCACATATGCAAGACGATATGATTAATACATTTGAGTTTCTTTTTGATAAGTTAAGAGCTGGAGGTATATATATCGTAGAAGATGTTCATACTTCATACTGGAAATCATTCAAAGGTAAGTATAAAGGAAAAAATACCAGTGTAGAATATTTTAAAAATCTCGTTGATTACATGAATTTTTACCATATTAAAGAGGATTTTAATTCTATTAAAGTGCAAGAGAATTTACTTACTCAAAAATACATTGATAAATACGTGCCATGGATAGAATCAATAACTTTTTATGACGGTATTATTGCTATTAAAAAATATAAGGAAAAAAAGCTTGCTCCTCATGAAAGAATTGTCGTAGGAAAAGAGCAGCCAGTTGTACCATCAATAGATATAGCTAAAGATGCTGGATATTATATAAAATAGAGCGTTTAAAACTCAACCATCAAATGATTGAAAGTAGAAAAAAAAAGATATTATTATTTGGCGCCAATGGACAGGTTGGATGGCAACTTCAGCGATCACTTGCTCCAGTCGGTGAATTGATTGTTTGTAGTCGTGAGGATGTTGATATAGAGAATTTTGATTTACTCAGGCAAGCTATTAAGCAATATAAACCAAATATTATTGTTAATGCAACCGCATATACTAATGTTGATATGGCGGAAACTGAACAAGATAAAGCTGAAAAAATAAATGCAACTGCTGTACGTATCATGGCTGAAGAAGCAAAAAATTTGTCGGCTCTATTAGTTCATTATTCTACAGATTATGTATTTGATGGAAATTCTTCTGAGGCATACCTTGAATGTGATCAAACAAACCCGATTTCTGTTTATGGAAAAACAAAGCTTTTAGGAGAGGAGCACATTATTAATAGTGGTTGTGCATATCTAATATTTCGTACCAGCTGGGTTTATAGTAGCAGGCGCAAGAATTTTATAAAAACTATAGTTTCCCTTGCTAAGGAAAAAGAGCAATTAAAAGTAGTATCTGACCAACTTGGTTCACCAACAAGCGCTGATTATATTGCTGACGTAACAGCGTTGTGTCTTAGCAGAGATATTAATAAGAACGAGTATGGTATTTATAATCTAACAACTGATGGTTTGATTAGTTGGTTTGATTTGGCAAAATTTTCAATTGAGCTTCTTCGCAATAATGGCGTAGAAATTAAAGTACTTTCATCGAATATTCTTCCTGTGAAAACTGATGATAGTAATTTTGTGGTTAAAAGACCTAAGTTTTCAAAGCTTGATAGTAAAAAATTGAAAACAATTTTTGGAATTAATATCCCTTCTTGGCAACATCATGTTAAGTATTTGCTTGAAGATGTAAAAAATAATGACTTTTTGTAATTTTAATAAGATTTGTGAAAATGATTAAAAATATTGTATTAAATCTAGCATACTACTTTGTCGCATTCTTTCATATGTTGCTAGATCTTCTAAATCCACTTTTTTATTCATCTGTAAGACGTTTGAATAGGAAAATTGATGGTAAATTAAAGTTTAACAGTAAATTTACTGTTGTTTTTGTTTTATATCAAAAAAATTATATTCCTTTTTATGTACAAAATGTGCTTGATGTTTTTAAAGAATTACAAGTCAACTGCATATTAAGTGTTAATGAAGATGCAGATCAAAGTGTAATAGATAAACTTAAGGACAATTGCAATACGTTATTTGTTCGTAAAAACTTTGGCTTGGATTTTGCCGCGTATAAAGATTCGATCTTACAATCCGACTTCTCAGATTGTGAGAGATTAATTATTATGAATGATAGTATATTTTTATTTAAAAATGGACTAAAAAAACTGCTTCTTCAATTTTTAGAAGATAAATATGATGTTGTAGCATTAGGTGAAAATATATCTGCTCCGCGTTGGCACTTACAATCTTATTTGGTTAGTTTTAGTAAGAAAGTAATTCAGGATAAGGATTTTATAGGCTTTTGGAAGAACTACAAGCCATTTACACACAAAAAATATGTGATTTACAATGGTGAAGTTGCTTTGTCAAATTTAGCACTGAAAAAATATTATAAAACTACTAAAGTTATTTTCAACCTTGATGTTATAATAAATAACTATAAAAAAATAGAAGAATTGGCTTCTAAATTAATATCAAATAATATGTTTAGTACTTACCAAAAAGAGTTTTCTGAGAACTCTAAAGGTAAAGAATTACAAAAAGATCCTTCTATATTAAATTTTCTGGAGAAAACTAATATTACTCATAGTGCAGCCTTTTTATTCAAAGAATTTAGTGATGGTAGCATGATTTTAAAAAGGGATATAGTTTTTAAAAAGAGTTTCAATATAAATGAAGTTTACCAAAACTTAAATCAATTAAATATAGATATTGTAGAGAAAGAACAGGTTATTAATGAATTGAAATTACGTGGTAATCTTTCGCATCAAGGTATCATTGATAAGTTTCTTTTTGCAATTGGAATAAAGTAATCTCTTGTTGATAATGTATAATCTTAAAAAGTTAGATATGCTTTGTAGGTTTCTATTCTCTTCTTTATTTTAATAAAAAAGATATCAGCAATTAAAAAAAGGTATCACTCTAGGCGATACCTTTAAAAAAGTAGAATATTTTAAGTTTGGTTTTTTTTGTAGCGTTCCCTAATTCTTAGCAACAGCTGCTACTTCATCAGCGAAGTTTGATTCTTCTTTTTCTATACCTTCACCGATTTCTAGTCTTACAAAATTCTTTAGCTCAACTGAAGTGCCAAGTTCTTTTGCAAGATTAGCAATCACATCTGAAATTTTAGTTTTACCGTCAATAACAAACGCTTGGTCTAGAAGAACGATCTCTTCTAGGAACTTACGAATTCTACCTTCGATCATTTTTTCGATAATGTTGTCAGGCTTTCCTGAAGCTCTTGATTGCTCAGTAAAAATGTCCTTCTCTCTCTGGATAATAGATGGGTCAACACCTTCCTTATTTAAGCTTTGTGGCTTTGCAGCAGCTACATGCATAGCTAATTGCTTACCAACTTCCATTAATTTTGTTTTATCACCAGTCGACTCAAGAGCTACAATAACAGAAATTTTACCCATACCATCTGCAGAAGCATTGTGAACATATGAAGCAATAACGCCATCACTTACTTCTACAGTTTGCATACGGCGTAAGTTCAGGTTCTCACCAATAGTAGCTACATTTGCAACTATTTCTTCTTCTACTGTTTTTCCAGAATTAGCTTTTGCTGATTTCAATGATTCAATATCATTATGATTAACAGCAATTTCCGCTACTTCTTTTACCAACCCTTGGAATGTTTCATTTCTAGAAACAAAATCTGTTTCAGAATTAATTTCAACAACAGATCCTTTTGTTCCATCAATTGCAACAGCAGTTAGACCTTCTGCTGCAACGCGGCCAGCCTTTTTAGCAGCTGCAGCTAGCCCTTTTGTTCTTAGCCAATCTACTGCTGCTTCAAAATCTTCATTTGCTTCAACTAGTGCTTTCTTGCAGTCCATCATGCCTGCGCCAGTTTTTTCTCTTAATTCCTTAACCATTGATGCTGTTATAGCCATATCAATCTCCTAAATTTATTTTTTTATCTTTAAATGCAATTTATTTCTTTTCAGTTGCTTTTGCTTCTTTTTTAGCTGGCTTTTTTTCTTCTTTAGCTTCTTCTGCTTTTGTTACTTTAGTAGCAGCTTTTTTAGGTGCAGCTTCTGTCTTTGCTTTTGATACTTTTTCTACTTTCTCAATTTTTTTAACGCCATCTAGACTATCACCTTCAACTAGTTTTTTAGCAGTTCCAGCATCAGCACCAGAATCAGTCATTGCATCTTGAATACCAGCAAGAGCAGCTTCTGCAAATAAGTGGCAATATAATCTGATTGATCTAATAGCGTCATCGTTACCAGGAATCGGATAATCGATATTATCTGGATCAGAATTACTATCCACAACCGCAACAACAGGTATATTTAGTTTTACAGCTTCAGTAATTGCTAAGTGCTCTTTATTTGTATCTATCACAACGATTAAATCTGGTTTGCCACCAATTTTTCTAATACCTGCAAGTGATTTTAGTAGCTTTTCTCTTTTTCTATTTAGATCTAGCACTTCTTTTTTAGTGTATGTTGCAACTAGCTCTTCATCTTCAAGAATCTTTTCAATATTATCAATTTTTTTGATAGATTTTGAAATTGTAGTCCAGTTAGTTAGCATACCACCAAGCCACCTATTGTTAACATAGAATTGACCACATTTTTCAGCATATTCTGCCACTAAATCTGTTGCTTGTACTTTACTGCTTACAAATAAAACTTTTCCGTTATTTTTTACAGTTTCATAGATTTGTTTTAGAGCAATCTGCATTAATGGAACTGTTTGCTGAAGATCGATAATGTGAATATTATCCCTAGTACCATAAATATATGGTGCCATTTTTGGGTTCCAGCGTGAAGTTTTATGACCGAAATGAATACCAGCGTCTAGTAAGTCACCGACGCTAACTTTAGGTAAGTTAGACATTTAATATCTCCTATAAATTGTTAGTTATACCTCCGCAAGAGCCAAGACTACTTAGAACTTAAAGCAGACTAACAAGGCTGCATCTTGCGTGCGAATTTACCACTTCCCATTTTAAATTATATATCCGCATTTTGCAGAACTCAGCTGTGCTCATGTATGCGTATATACACTGCTCAGCTTCACCTTGAAATACGCATTTCTAATCCAAAATGAAAATTGGTATCATTCTTAAATTTCTCTAAGAATGACTGGTTATCATACTTTAAATTTATATTTTTTCAAGACAAATTTAACTTATAATGGACAGTTTCTAAACATTAAACGAACTGCCACAGCCACATTTTCCCTTTTCATTTGGATTAGTGAAGGTGAATCCTGATTTAAATTGTTCGGATACAAAATCCATTTGTGTTCCAAGTAAGTACATCAAGGCTTTTGGATCGATAAGGACTGTTACGCCCTTATCTTGTATTATTTCGTCAAAAGGATTTTTCTCATCCGCATATTCAACAAAATATTTTAAGCCAGAGCAACCACCAGATTTAACGCCAACTCGTATTCCCATTGATGGCTTACCTCGCTCTGCAAGCAAGACCTTTACTTGCTCGGCAGCATTATCTGTTAATTGCATTACTTGTTTTTTAGACATTACTTTTGCTTGTTCTTATAATCAGTAACAGCAGCTTTTATTGCATCCTCTGCAAGCATTGAACAGTGTAGTTTTACAGGCGGTAATGATAGATGACTAGCAATTTCAGTATTTTTTATTTCCAAAGCTTCGTCAACATTTTTACCTTTTACCCATTCACTGACCAGTGAGCTTGAAGCAATAGCAGACCCACAGCCGAAAGCCTTGAATTTTGCGTCAACAATCATGCCATTATCATCAACCTTAATTTGTAATTTTAAAACATCCCCACACGCTGGTGCACCAACAAGCCCGGTACCAACATCTGAATCTTTTTTATCAAGCGCACCAACATTGCGTGGATTTTCATAATGGTCAATTACTTCATCACTATATGCCATAATATTTCTCCCTTATTTAAATATAATTATTGGACTAATGTGCAGCCCATTCAATTTCATTAATATCAATTCCTTCTTGTACCATCTCCCATAATGGACTTAGTTCTCTTAACTTGTTTATGCGAGAAAGCATCAACTCCGCTGCATATTCAACCTCTTCCTCAGTTGTAAACCTGCCAAAACCAAATCTGATTGATGTATGTGCTAAGTCATCACCAACTCCAAGTGCACGCAATACATAAGACGGTTCAAGCGAACTTGATGTGCAGGCAGAGCCGGATGAAACAGCTAAGTCTTTAATAGATAAAATCATTGATTCACCTTCAATATATGCAAAGCTTAAATTTAAGTTTCCATGATATCTTTGGTCCTTATCACCATTGAGATATATCTCATCAGCATTTGATTGTATTTTATTTAAAAACTTATCAAATAGTTTTTTTACATGGACATAATCTTTATCCATCTCCTTTGAAGCAATTTCTGCAGCCACCCCTAGCCCGACTGATAAAGGTGTTGATAACGTACCAGATCTAAATCCTCTCTCTTGTCCTCCTCCATTAAATATCGGAGCCAAACGAACTCGAGGTTTACGTCTAATATACAAAGCCCCAATTCCGTTTGGACCGTATATTTTATGCCCAGAAATACTGGCTAAATCTATATTACATTCATCAACATTTATTGGAATTTTACCGAAAGCTTGCGCTATGTCCGAATGAAAAAACGCTCCCTTTTCACGACAAATCTGTCCAATTTCTTTTAAAGGTTGAATGACACCAATTTCATTATTTACAGCCATAACCGATACAAGCATAGTATCTTCGTTTATTGCATTTTTTAGCTCATCTAAATCAACAATTCCGTTAGGTTTTACAGGTAGATAAGTCACCTTAAAACCTTCTTGCTCTAAGTGACGGCACGTATCTAGTACGCATTTATGCTCTGTTACTACAGTTACAATATGCTTCTTTTTGGAGCCATAAAATCTTGCAATTCCTTTAAGAGCCATATTGTTTGACTCAGTAGCTCCTGAGGTAAAAATAATTTCTTTTCCTGAAGCCCCTATTAAGTTTGCAACCTGAGTTCTAGCAAGTTCACAAGCTTCTTCTGCTTCCCACGCATATGAATGACTTTTAGAATGAGGGTTGCCAAATTTTTCAGTAAAATATGGTAACATCGCGTCAACTACTCTAGGATCTGTTTTTGTGGTGGCTTGATTATCCAAATATATCGGAAATTTACTCCCACTATCAGCTACTTTTTTTCTCAATTTTTCTAGGTTCACCATAATTTTTATTTATTAATTTCGTTATATATTCCAATGAATTTATCAATATCTTCTTCTTTTGTATTTGTTCCAACTGAAATCCTAAGCGCAGAATGTAATTTATCTTCTGTATATCCCATCGCAGACAAAACATGTGATGGAGAAGATTTACCAGAAGAACATGCAGAGCCAGAACTAACGGCTACTCCTTTTAGATCTAAGGCAATTAGCTGCGTTTCAGCCTTTTTATTTAAATTAAATATCAAGCTTGTATTTGGTAGGCGCTCAGTATTGGATCCAACAATTTCTATTGAGTGATCGCTTTCCAATAGCATTTTTTCAAGCTTGGACTGTAGCGTAGCCATGTGCGCATGCCTCTCTCTCAATTCTTCTTTTGCCAATTTTGCAGCAAGCCCTAGCCCAGCTATTGCAGGAACATTTTCAGTTCCAGACCTAAGAGACCTTTCTTGACCCCCCCCAATAATTTGCGCCTCAAGATGAATCGATGTTCTTGCTATTAATGCCGCAGATCCCATTGGACCGCCAAATTTATGACCAGAAATTGACAAAAAATCTATATCAAGATCAGGCATGTTTACATCTATTTTACCAATAGCCTGAATACAATCGCTATGAACAAGTGCCTCGTGATTGTGAGCTATTTCACATATTTTTTTAAGAGGTTGAATAACACCAGTTTCATTGTTTGCAAGCATAACTGATAGCAGTTTTTTAGAGGATTTTGACTTTTTTAATTTTAGAATTAAATCATCAATATCTAGAATTCCATTCTGATCGACTTTAATTATAGTAATATTTTTCAAATGCTTGCTATGCACATAAATTGAAGGATGTTCAGTTGCTGATATAAAAACTTCATGATCCTTGAAATTCGAAATAATTAAATTATTAGCCTCAGTTCCACTGGAGGTAAAAGTAATTTGATATCCACGACGATTAGATTCAAAACCTAGTAGAGTCGCAATAGATTTGCGCGCCTCTTCTAGAAGGCTTTTCCCTTTTTGTCCATATGAATGAATTGATGATGGATTTACAGGTCCATAGCTTGCAAGTTCATTCATCTTATTCCACACTTCAGGGCGAATATTTGTTGTAGCATTGTGATCTAGATATATCATAATTTTACGTATCTCTAATCCCTAATTAACAATATTAATTTCACCTGATATCACATCATCTATCGAAATATTGGCAAAATACTCTCTAATATGACGCCCTAAGCCTTTCCATAAATCATGAGTTTTACAATTAACTCCATTTTTTCTACAGTTTTTATCTTTAGAACATCTAGTCATTTTTAGATTTTCTTCAACAGCATCTACAATATTTTCAATAGAAATTTCTTTTGATGATAAATTTAAATGGTAACCACCACCAGGTCCTTTTACCGAGCGTACTAAGCTGGCTTTCTTTAATTTTAAAAAGATTTGCTCAAGATAGTTTAAAGGAATATTTTGCTTTTCAGAAATATCTGCAAGCCTAATAGGAGTCTTACTATCTCTTGCAGCAACTTCTATTACAGCCATAACAGCATAGCGACTTTTCGTAGTTAGCATCATATACATACCCTCCTTATCATCGAGGATGAGTTTAACTTACCCAACAAAAATAGTCAAGTATTTGAGGGAAAAAATATGTATTAGTATAGTGATACTATTTTTTTAGCTATTTCGATTTTCTAGAGGTAATAAATAACGTTTTTTGCTAATTTTTTATATATGAAGTAGCTAATTAAAGAGACTAACATACAAACTATCCATGATTTAACAATTAAAAATATGCTCGGTAGCTGGCTTGTGATAACAAGATCTTGCATAGGTTTAATTACTATATAAATTGGATTTAATTCAAAAAATATTTGTTTGGATTCCGGCACCATACTATATGGATAGATAATAGGAATAGTCCAGTATAATACACCAAGTATTACGCTTAAAAATTGAGGGATATCTTGTATATATGGTGTTGCATATGCCGCAACAATACTACTTGTCATTACTGATATAATTAGAGGTAATGCTAAAAGAGGAATAAAAATTATTTTCCAAGTAAATACTTCGGGAAAGAAGAGTAAAAGAGAGAAATACATAGCTGCAAATGAGTATAGTAAAGTGTAGCAATTTGCAAATATATCTGAGATAGGAAAATATGTTTTTGGTAGCAAAACTCTTTTCAGTACTGCTGAATTAACTTTTAGAGATTCTGCTGCATTTCCAAGGCCGTTCATAATGAAGGTCCAAAAAGGAAGCGATCCAACTAAATTTGTAACAATTACTTTTGGCTCGAATCTCAGCAAAAAACTCATAAAAAATGAAATAACAGTGATATGCAAAAATGGTTGAATTAGACCCCATAAACTTCCTAGGAAAGTGTTTGCATTTCTGCGGGCAATTGAAATTTGCGTTAAAAGTGCTATTCCGCTCCAATATTTATGTGTAAAAATATGTTTAAGCATTAATAATTCCCTGAATTGTATAGTGGTAAAATTTCATCTGGTCTACCATCTTTTATTATTCTTCCATCCTTTACTAAAATACATCTATTACAGTGCTCTTTGACAATTTCTTCTTGGTGAGAAACCAGTATAGTAATGGGCACAGTATTTATTTTATTTTTCATAAATTCAAGAGATTTAGTGATGAATTTTCCATCGCCTGCTGCAAATACTTCATCAAGAAGTAAAATATCGGGGTTTTGAAAGATACAAGTAGAAAAAGCCAAACGTGATAACATTCCTGAACTATAGTTTTTAAGAGGTTGATCTATTTTTTCTCCAAGTTCCGAGAAATCTATAACTTTTTGTTCAAACTCTTTGTTGTATTTATCAAGCATGTTGTTATAGAGCATTAAAATTTTGATATTTTGTCTACCAGTAAATTCTGGCTCAACTCCAAGTCCCATTTCGATTATCGATGTAATTTTTCCTTGAACAGTTATGTTTCCCTGAGCAGGTGGATATATTCCAGAGATGAGTTTTAATATTGAGCTTTTCCCTGATCCATTGCTACCTATAAGTGCTAATCTGTCTCCTGTTTTACACGAAAAACTTATATTGTTTAAAATAGGTATTTCTGCACCAGTAATTTTTCCCGGACTTAAAAACAGTTGCCTCAAGCTTTGAACTCTTTTAATTGAATCGATACCAGAAAGGCTACAATTTTCAATATTGACGAATATTTCTTGAGTCATGAAGTTTGTGCGTGAGTATTTATTTATGAAAAGACTATACAGTTTAAATAGTATTTTGTAAATATTATCAATTAAAGTGTTTATTTAAATACTATGTACCACAAGCTTATGTTTTATAAGTATTATATAAAGATATAGATGGCTATTGATTAAATTACATGACAATATTAAAGCTGTAATTTGCGAAAGAATGAAAAATGAAAATAGGAATTTTATCACGTAGTCCAAAAATTTATTCAACTGCAAGGCTTGTAGAGGCTGCGGAAGAGAGAGGGCATGAGGTGATGGTTGTCAATCCACTTAAATGCTACATGAATATTACAGGTAATCATCCTGACGTTTACTATAAGCCTAAGGATTCACAAGAAAAGTTGGCGTTTGATGCAGTGGTGCCAAGAATAGGAGCGTCTGCAACAGTATATGGAGCAGCAGTTTTGCGTCAATTTGAAGTAGCTGGTGTTTATGCCTTAAATGGATCCGTTGCTATTACAAGATCACGTGATAAGCTAAGAGCTCATCAACTGCTTGCTAGAAAAGAAGTCGGTATACCAGTCACTAGCTATGCTCACTCTGGTAATGCAACAGAAGATTTGATTTCCTCGGTTGGAGGTGCTCCATTAATTGTAAAAGTTTTAGAAAGCACTCAAGGAAAAGGTGTATTGCTTGCTGAAACAACTAAGGCGGCTGAGAGTTTGATTAATGCATTCTTAAGTTTACATGCGGATTTTCTTGTGCAAGAGTTTATTGAAGAATCTGCTGGAGCTGATATTAGATGCTTAGTTATTGGTGATAGAGTTGTTGCTGCCATGAAAAGGCAGGGAGCTGAAGGTGAGTTTAGATCTAATTTACATAATGGTGGATCAGCCGAGATGGTAAAAATCACCCCAGCAGAAAGAGCTATAGCGGTTAAAGCTTCAAAGGTGTTAGGACTAAAAGTATCTGGAGTTGACCTAGTGCGCTCAAATAGAGGGCCATTAGTATTGGAAGTAAACTCATCACCAGGTTTAGAAGGGATTGAAGAAGCAACGGGTAAAAATATAGCTGGCAATATAATAGAATTTATTGAAAAGGATATTGGTAAAACAGCTAGAACACAGATTTTTATGAAAGGTTAGGCTATATTTATGCAAGAAGAATTAGTAATAGATGGGACTGTTATAAAAAGAGGAGAAAGTAAGCGCTTTGAAATAGGTGTTTCTAAATTATACGATTATACTGAAATGACAATACCAGTTGAAGTAATTAGAGGTCAAAAAAAAGGGCCTACTATTTTTATATCAGCTGCAATTCATGGTGATGAAATCAATGGAGTTGAAGTTATTCGCCGATTACTATCCCGTAAAAAGTTACTATCAAATTTACATGGGACTCTAATTGCAGTTCCAATTGTCAATATGTTTGGATTCAATAGAAATTTGCGTTACCTCCCAGATCGTAGGGATCTAAATAGGGTTTTTCCAGGAACAAAGAAAGGATCTCTAGCGGGTCAGATTGCATACAAATTCATGAAGGAGATAGTTGAAAAATGTGAGTATGGTATAGATTTGCATACAGGTAGTGCTCATAGATTTAATTTGCCACAGATAAGAGCGTATTTAGATAATCCAGAAATTGAAAATTTAGCAAGAGCATTTGGTGTTCCTGTAATTTTGCATTCAAACTATAGAGATGGATCTTTGAGGCAAGCTGCAGCAGAAAAAGGTGTAAAAATCTTGCTATTTGAAGGAGGAGAAGCTCTAAGATATGATGAGAAAATTATTCGATCTGCAGAAAAGGGTATATTGTCAATTCTAGCAAATATTGGAATGCTCAAGAAAAGCCTTGTTAAAACTAAGGTTCCCAAACAGAGGGAGATTTTTTGTGCCGGCTCTAGCCATTGGGTTCGGGCTCCTCATAGTGGTAGTATGCATATTAGAAAATCAGTTGGTAATAAAGTTAAAAAGGGCGAAATATTAGGTGTTATTTCTGATCCTTTTGGAATTGAGAAGCATTTTGTTAGAGCAAGAAAAACTGGAATAGTTATAGGAATTACCATGATGCCTTTAGTAAATAATGGTGATGCACTATTCCATGTTGCTACTTTTAACAATCCAAGAGCGGTTGCAGATGGAGTAGCGAATTATGATGAGGATCTAGGATGAGTGAAAACTCACTTATGATAGGGTGGAGAGAGTGGGCAACACTTCCTGAACTTAATGTTCCATTGATAAAGGTGAAAATTGATACAGGTGCAAAAACCTCCGCCTTGCATGCATATGATATAAAAATAGTAAAGATTGAAGGCAAGGATTTTGCTGAATTTATTATTCATCCAATTCAAAAAAATGATAAAATTTGTAGAAAAACCGTTGCTGAAATTGTTGGCATGCGAACAATTAAAAGTTCAAATGGGCACAAAGAAAATAGGTTGGTTATTCGTTCTCCAATAAAAATCGGAGAATATGTATGGGACATAGATATAACTTTGACAAATCGTGATATAATGCATCATAGAATGCTGTTGGGAAGAGCTGCAATGGCTCAGGTATTAGTTGATCCTACAAAATCATATTGCCAGGGGGTTATCTCTGACCAGCAAGCACTTGTAACATATGAACCAATTATTATGGAAGAGTAGGTTAAATCAAAAATAAGATTTTAATCTGATTCTACTAACCTCAGTCCAATTCCGAAATATACTTTATCTTCTAGTTTTGCGCTTCTTGAGCTAAAACTCTCAAAAATTATTCCATCAATTGGATTTGTAATTATACTTTTAAGATCTAATAAATTATTTTGAATAATATAGTCTTTAAAAGTTGTTCCAACTTCTAGTTTATTCGTAGTATCTTCAAAACTAAAAAATCTTATTTCAAACTTCCTATTATTCATTTCAACAATTGTTCCTGGTATAGATTTATTTACAAATTTTGATGATACACTATTTGCGATATCTTTATTTGCCTCGATTATATCTTTCATAGTCAATGTTCCTGCTTTTATTGGAACGGATACTGATTTTGCTGCAAGGGCGTTTGCTGACAAGCTAAGGATAAAAATAAAAGTAAGATATTTAGTGATTAGTGATAAGTTTTTCATTTTACAGCTCCTATTAAATTATTTGATTTTTATTACTACTCCAATTAACTCATGAATCGGAAAAGTGGTGAACTTGTTTGAGAGTTTTTTGTGATATATTGAGTCAGTGACATATATTTTATTGACTCTAGACTTTTCAATTTTTTTAATTGCATTACCAGAGAGCACTGCGTGAGTGATTATTGCTTCTACTGATTTTGCACCTTTATTTATAAGAAGTTCAGTCGCCATACACAAAGTACTTGCTCCATCAACTATATCATCAACTATGATACAATTTTTATTTTCTACGTTACCAATTATTTCGCTCATCAGGCAGCTATTATTTATATCTCTAGTTTTATTTACTATTGCCAAATCCATTCCAAATAATGAGCAATAATTTCTCGCTCTTGGAATTCCTCCGATATCGGGAGATACTATAATTGTGTTTTGTTTATTTTCTCCTGCAGAGAAAAATATACTTTCAGTGCTTAAGTTAGTTATAGGTATATTAAACATCCCTTCAAGTTGAGCGGAGTGCAAATCAAGAGTTATTACATGATTAATACCCGCTGCTTCAATCATTTTAATTACTAAGCTGGATGATATAGGGCCATTTTTATATGTACAGCGATCTTGGCGACTATAACCAAAATATGGTATTACTGCTGTTATATTCTGAGCCCCAGCTCTTTTTGCTGTATCAGCCAGAAGAAGAAGTTCCATTAAATGGTCATTAACAGGAGTATTTGTTGATTGGACAATAATAATATCTTTACCTATTTGTCCATCAACCTGAACTCTTAGTTCACCATCATGAAAATTATCAATTTTAGTTGATAGTAATTCTATACTTAGCTCATTTGCTATTCTGGCTGCAAGATCCGGATTGCTTAATCCCGAGATTATTTTCATAGTTTTCTTTAAATTATCACCAATATCGGATATCTTATTGCATGAAATAGCTAATATACAAGTGATAAATTACTTTTTATGAATAAGATTCTTTGTTTCGATGTATCAAATAATAGTTGTTCAGTTGCAATCGCAAGAGGACAAGAAATTTTGTCGTTTAAACAAGAATTAGCACCTTCAGTCCAAGCTGAGAAACTAATAGTTATGATTGAGTCGGCTCTTAAAGAGACTGCTATGGATTATTCTGACATTGATTATTTGGCTGTAACAGTTGGTCCAGGTAGTTTTACTGGTATTCGAATTGGTTTAGCAGCGGCGAAAGGGATTCTATATGCAAGCGGTATTGGAGGAGTTGCTATTACCAATTTTGAGGCTGCATTTTATAGATTGAAGATGCAAGTAAAAGAATTTGACTCTGCAATAATTATGTTAAATGCTTATAGAAACCAATTATATGTGCAGCAATTTTTTCCAGATGGAAAGACGCTAGATCCTGTGCTTATGGATTCCGATTCTATTAAATCTTATTTAGAGGATCAACCTGGTAGGGTCGTTTGTACTGGTAGTGGGCTAAAAGAAGTATACGATCAAATTAAAGATATGAGTAGATTGGTTTTGCTTCCAAGATTCCCAATAGTCAGAGCTATTCATATTGCAAGATATGCAGATGATAAGATAAATACTGGCAAGATAGATTCAATTGAGCCCCTTTATATTAGGCCACCAGATGCTATTCCTCCTAAGTAGATATTTTTTATATCGTTTATATTTATTATAGAAAGAAAATGGCGGTAACTATTTTAAAATGCTGTTCTTAGAGCTGGTGATCATAAGCCGACAGTTCTACATAATTTTTAAAATAAAAAACCCCGTCAGATTCAATATCTAACAGGGTTTTGTATAATTTATATTTATCAAGTAGTTTAGAACTTAAATCCAAATCCAGCAGAAATTACTATAGGATTCCAGACTACAGTAGAGCCAACGTTTGAATCGCTATTTAGGAAACCTTTCTTAAAAGTTACCTTTGATTTTAAGAAATATTGTCTAACGTCAAAAGTGAACATTGTATCATCTTTAGACATAAAATCTATCCCAACTTGTATCACTGGTCCAAATCCATTTGCTGTTTTAATTGCTTTAGAACGTGTATGCATAAATGTGCCGTTAATGCCTCCGCCTACATAAGGTCTAAGTGCACCAAATGGAGCTATATGGTATTGTGCTGTTGCTGTAGCTGGTATGTAATATATCTCATTTTTAGTTCCAGCATTTCCTCCTCCATTACCGAATGCGTTCGAAGCACCAGCTAAAGCTGCACTTTTAACTTTTATAATACCGAAGCCAAGAGATAGTTCAGCAGCTATATTATCTGTGAAGAAATAAGTTGTTGCAGTATCAATACCGTAACCATTTTGTGCAAATGATTTTGGTTTAGGTCTATTTGCAACGGATGATGGTAGCTTTGTAAGTTTTGCACTTGTGTTTAAATAAAATCCACGAATTTTAAATAATAAATCTCCTTCATCTTCATAGTAACTATTTTTATATTCGCTAGCTGTTGAATTAAGTGCAAATAGAGTTGCGAATAAAAAAATAATTTTTTTTGTAAAATCCATATGTTTAAGTCCTCAAGTAATTATTAAGTTATATTTTCTTATGCTATTTGCTACATTCTAGTCCAAAATGTTTAAAATTACTCTTTTAGAGTTTATGTATAAGTAGTTTGATGATTTTGTGAAAATAATTAGTGTGAATAATACAACATTATGAGTTTTCCAAAAAATTCCTTCACTAATCTTGAAAAACATTATATCATTTGCGTGATTTTTTATTAAGCAGCATTAAGAGAGCTAAAAAATGGATTCTAAACTTCGTATGTATTTTGTCGGCGTTTCGTGGTTTATATTAAGCTTAATTAGTAGTTCAATTAATGACGTTATATCAAAATATGCAGGTATGCGCCTACATAGCTATGAAATTACATTTTTTAGATTTATGTTTGGTACAATCACACTCCTTCCTTTTGTTTTTTATTATGGGGTGTCGACATTAAAAACTAGTAGACCTACAGTGCATTTTATGAGAGGTTTACTACTGTTTTTAGGTATTGCCGCCTGGACTTATGGGTTAACTATTGCTCCAGTTACTACTGCAACTGTTGTTAGCTTTACTATTCCAATTTTTGTATTAGTTCTAGGGGTGTTTTTCTTGAGTGAGCATATCATCTGGCAAAGATGGTTAGTAACGATTGTAGCATTTATCGGCTTAGTTATCACATTGAATCCGAGTGCTGAAGATTTTAATCCTGAGGTTTTGATTTTTATTGCTGCAGCCGTTTGCTTCGCAATTTTGGATATTATTAATAAAAAGTTCGTTATTAAGGAAACAATGATTAGCATGTTATTTTACTCAGCGATTGTAACAGCTGTTCTTGCATTGCCTTTTGCTTTGCAATATTGGATTCCACCAACTGCTGAAGAGCTTGCACTATTATTTATTCTTGGAGCGAGTGCAAATTTAATATTGTTTTTCTTGCTCAAAGCATTTGCGGTTGCAGATGCTACAGCTCTTGCACCATATAGGTATTTTGAGTTAGTTGTATCAGCATCAATTGCATATCTGGTGTTTCAAGAAGTTCCAACAGAAGCAACAATTTTAGGTTCGATTGTAGTTATACCCTCTACTCTGTTTATTATTTATTCAGAGAAGAAACAGATTAATAAAAATAAATAGCTGCAACAATATTCTATTGAATATATTGAAGAATATAGAAATTTAGCGACTTAAGGAGCTAAATCAATTACTATTTCATTAAATTAGGGGATTGGAATGAACAAACGTAAACTGGTGCTAACAAGTGGTGTAGCAAATACATTTGAATGGTACGATTACGCCTTATTTGGTCATTTTGCTCCAATTATTGGACAAAAATTTTTCCCAGATAGCGATCCTAGTACTGCTTTACTTGAAGTATTCTTAGTATTTGCCATTGGTTATTTAATGAGACCAATAGGTGGTATATTTTTTGGTATTATAGGTGATAAATTAGGTAGGAAAGCAGCTCTTAGTCTTGCTATTATGTGTATGGCTGTTCCGACGGCAGCAATAGGTTTCTTGCCAACATATGAAACATTGGGAATAACTTCGACTATAGCTATGATAGTTTTTCGCATGCTTCAAGGTCTTTCAATGGGTGGAGCGCTTACCGGCTCTATTTCATTTGTAATTGAGCATGCTGAAAAGAGTAAAAGAGGATTTTTTGGTAGTATTTCCATGATGAGTATATGTCTGGGTATATTATTTGGCTCATTAGTATCATACTTCACTAAGAGTGTTTTTTCCGAAGAACAATTTAATTTATGGGCTTGGAGACTTCCTTTTATCATTGGTATAGTGGTGTTTTTTATTGGTGTGTATATTAAGAATAATACAAAAGAAACCCCTTTGTTTGAAGAAGCAAAATATCGAGGTGAAGTTGTTAGATCACCACTTAGAGTTGTGTTTCAAAAACATTGGTTTGATATGCTAATATCCATTTTAATTAATGCTACCGGATCTATCATTTTCTATCTTGAAGCTATATATTTGATTTCATACTTAAAAATCAATCGTGGTTTTCCAGATAGTGATGTAGGGGTTTTAGTGAATTCTTGCTATATACTAATGATTTTTGTTACTTTGTTTGCCGGTTGGTTATCAGATAAAATTGGCAGAAGAAAGATCTTTGTATTTAATTTGGTTTTTATAATAATTGCTAGCCCGTTTCTTTTAAATGTTTTTGAGTCAGCAAGTTTTGGCTATGTCGTAGTAGCTCAAATCATTATTGCTATAATGGCGGCTTTATATATTGGGCCAGAACCTGCTCTTCAGGCTGAGTTTTATCCAACTAAAGTTAGGAATACTGCTCTTTCAGTTTCGTATAATACAGCAACAAGTGTCTTCGGTGGAACGACTCCGTATATAATTGAATCTCTAGTACAAAATACTGGAACAATAACAGCAAGTGTATATTACATTATTACGGCAGCATTTATTGGTCTTTTTGCGTTATATTTTTATAAAGATAGATCGCTGCAAGATCATAAAGTGCATATTGATTTAGAAGATTAGTTGATGCAATATTACAGAATTTAGCATGAAAAATAGTTTTTTTACGATTGATTTCGAAGATGAAAGAAGTGTAATAAAAAGAGTTTTGCCTAATACAAAATTTAGGCGAGCAGAGAGGCAGCTTATTGTTGCAAATAGTAAAAAATTTATTGAGACAATAAGAGATGATACTAGTTTCTCAATTGAGGAGTTTCTTCATAGGTATAGTCTTTCTGAAGATGAAGGAGTAGCAATTTTAGGACTCGCCGAAGGACTATTAAGAATTCCTGATTTTTCTCTTGGATCAGAGCTTGTAAATGATAAATTATCTGATAAAAAATGGGCGAACTTTCTTTTTAAACGTACTAAATCATTTAAAACGATTTTTGCATCATTTGGTTTATATTTTTCTGGTAAATATTCAGATGTAGTTAAATCTAAAAATCTTATTGCAAAAATATTTACAAAATTTGGTCAGAAGAGTTTTGTCACTATTCTCAAGTCTGCAATATTATATTTAAGTAGAGAGTTTGTTTTTTCGGATGAAATGAGTTCTGCTCTTGAGAAATGTGAAGAATATTCAGATTATAAGTTTGCTTTCGATTTATTAGGTGAATCTGCGAGAACCTTAAAGCAGTCGGAAATTTACTATAAACAATATAAGAATGCTGTAAAGCTTATTTCAGATGCATTTCCAAATCGTGATGAAGAATTATACAATAGACCTAATTTGTCAGTTAAACTAACAGCTCTATATCCTAGATTCGAACTTTCTAAAATTAAAGATATAGAGCAAGATTTATTTCCTAAAGTTGTTAGTTTAGTCGAGGAAATTAAAAATAAAAATTTAACTATTACTTTTGACGCTGAAGAGACATACAGATTAGATGCATATTTATTGTTTTTAGAAAAACTTTTGAGACATAAATTGTTTCAAGATTTTGAGGGTATTGGTGTTGTTGTGCAAGCCTACCAAACTAAAAGCTATGAATGCATAGATCATATTATTTCTTTAGCTAAAGAACTAAAGAAAAAGATACCAATTAGGCTAGTAAAAGGAGCATATTGGGATTCAGAAATTAAACATGCTCAAGTGCAAGGACTCAAAAATTATCCGGTATTTACAAAAAAAGATTATACGGATCTGAATTATATTGCATGCGCAAAAAAGATACTTGAAAATGATGAGTATATATACCCGCAGTTTGCAACGCATAATGCTGTTACGGCTGCTACTGTCATTGAGCTTGCCGGAGATAAGGTATTTGAGTTTCAAAAACTTTATGGAATGGGGAATGCACTTCACAAAGAATTAATAGATAAGAGGGGTGTAAGGATTTATGCGCCAGTTGGTACTACAAAAGATTTGCTTGCATATTTAATGCGTAGAATGCTTGAAAATGGCGCTTCAGCAAATTTCGTAAGTAAAGTAAATTCAAGAGATATTTCTATAGATGAAATAGCTTATGATGTTAATGATAGAGTGCTCAATTTATTAGACAATGCTAATAAAATTGTGCTTCCAGAAAATATATATCCAAATAGGAAAAATGGTATGGGATACGAATTGGGTTATAAAACTAATTACGATTATATTCAAGAAAAGGTAGCTAGCTACTTTGATAAAGTTCATAAAGTAGGTTCGGTTATTAATGGCAAAGAATCTGCCATGGTAAAAAACTCGAAAGAAGGTTTTTGTCCTGCAAAAAATGCTGAAAAGTTTTCAACAATAAGTGATTGTGTTGAAGCAGAAATTAAAGATGCAATTAATTATGCGAAAGAAGGTTTTGAAAAATGGAGCGAAGTAGGTGTAGAGAAGCGCGCTATTATATTAGAAAAAATTGCAAAAGCTTTTGAAGATAATAAATTTGAGCTATATGCTTTGCTGGTTAAGGAGGCGGGTAAATCAATTCATGATGCTATTAATGAAGTAATTGAGGCGATTGATTTTTGTAGATATTATGCAAGTCAAGCAAAGCTAATTATGGTAGAACGTCATTTACCTGGTCCAACGGGTGAGACTAATATTCTTACAATGCATCCGCGTGGTGTGTTTTTATGTATTAGTCCATGGAATTTTCCTTTTGCAATATTTACAGGACAGATAGTAGCAGCTCTTGCCGCTGGTAATACAGTAGTTGCAAAACCATCAGGTCAAACACCTGTCATAGCAAATTTTGCTGTAAAATTAATGCATAAAGCTGGATTACCAAAAGCAGCTTTACATCTTACTATTACTTCTGGCAGTAATATTAATAAATATGCAGTTTCAGATGAAAGAGTTTCAGGCGTTACTTTTACTGGGTCTTGTCATGCTGCACATTCGATTAATACAACTTTATCACAAAGAAAGTCCGGTATTGTCCCATTTATTGCAGAAACTGGCGGACAAAACGCAATGATAGTTGATAGCTCCGCTCTACTTGAACAGGTTACTGACGATGTTCTTGCTTCCGCATTTTATTCTGCTGGTCAGAGATGTTCAGCTCTTCGTATGCTTTATATACAAGAAGAAATATACGATGAATTATTGGAGATGTTAAAGGGTGCAACAGAATTAATTAAGATTGGAGATACTTCAGATTTTACCATGGATATTGGTCCTGTAATTGACAAATCAGCTAAAGAAGCATTGGATTCTCACATCGAAGATATGCAGAAGAAAGGACATAGCATATATGTGCATCCACATAATGGTAAAATGAAAAATGGCTATTATTTTTATCCTCATATTATTGAAGTTAAATCGATCAATGATATACCTGATGAAAAATTTGGTCCAATTCTTCACATAACTAAGTTTAAGTCTAAGAACCTTGATAAAGTAATTGATGAAATAAATAATTGTGGTTTTGGTCTAACTTTTGGTGTTCACTCTAGAATAGAAGAAAAGATAGAATATATTAGATCAAGAGTGCATGTAGGAAATTTCTATGCAAATAGATCAATTGTTGGAGCAAAAGTTGAGTCGCAACCATTTGGTGGAGAGAATAAATCAGGTACAGGCTTTAAAGCTGGTGGTCCAAATTATTTATTGCGTTTTATGACAGAGCGCACCTCATCAATAAATACTACAGCTTTTGGTGGAGATGTTGAGCTTTTAAATAGCTAACTCATGTTAAATAGAGTGGATAATACTAGATGCTGTAGTTTAAAAATGCGATCATACGTAATAATAATCAAGAAAAAAATTAAAGAAGATTATTCTTCACAAGCCCAAGAAGAATTATTTTTAACAATAGCGTTCATAAAGGCAAGAAGTTTACGCATAACAGCGTTAAGAGCAACTTTAGGAGGTTTGCCGTTGTTGATGAGTCGATCATAAAACGCTTTGAGTTTTGCATTACATCTAAGAGATGCAACAGCAGCCATATATAGAACTTTAC
>sequence05
CCAACCGGAAGACGCAGTTCATGATTCACATTATTCAATATCCTCTGAGCAGTCGCCCCAAGTCTCTCGATCTCCTTCCCCTGATCTTCAACACGCTCAATGTAATGTACTACTTGCTCGTTTAAATCAGCTACTTCTTCCTCTAGAGTGCCTACCTTTGCTTCTGTTGCTTCTTGCTCTTCTTGTTTATTTTTCAGTATTGTTATTGCAAAACCTCCTGCCATAAATAATATGTATAATAGTTTTACTTTTAAATCATATATTTCTTGTGCTACAAGTTCGCCAATAAAACTTGTATACAAACAAAACGCCAACCATAAACCTAAAGCAATCATAACAAGCGATGCTCTCCAACCAACTAATATAGAAATCATCACTAAATGTAATGTCATTATTGTCAAAGATATGTATGAAAAATTACTCATTAAAACTAAAAAAATACTTACAAATGCAAGACTTATAAATATAGATATACACCATATAACTCCCAAATAATTCTGAACAAATTTTATCCATAACCCTTTGCATAAAAATAATGTTGCTACAGAAAATGCTATAGCTTGGAAAATGTTTATCCAAAAAAAGGATTTATCATAAACTGGTTTAGAAATTGATAAAGTTACTAAGATAGTTAGGAAAACTGCAAATACAAAATAATGATATGTTGATTCTTGTTTAGGTAAATATTTATTATAGTACTTTAAGTTTAATAAACGTAGAAAATTCAACCTAAAAGTTTGAAGCAAACTTAATCTAGAATTTTTTTTTACATCTGCACTTTCTCTTGATTCATCAACAAAATCCGGATACTTACGCCATCCTCCTTCCTGTTTCAGCAGATAATGACTACCAAATAAGAATAAAATATTTGCTACTATACCAGGAATTACACTATCAATATTTAACTCCGTCATCCAAACATTCCAACAAACTACCGTAATAAAACCAGCCCCCATACCAATTAGAACAGATTTTTGGCTACTTCTAAAACCGCATATGGCAAATAATAATGGAACTGACACTATAGGCATGTAACAACCTAAAATAAATAGCAATAAGTTTAGTATGCTACTTGCTTTGAAGGCTAAGACAAATGCTAGAGATCCGATAAAGACAGAAAATATCTGTAGGATAAACATTTCTTTTCTTTCTCCTTTACCAAAAAAGGTCAGTTTAAATAAATCATTTGTAAACATAGTAGATGCAGAATTAATATACGAATCTGCTGTTGACATAATTATTGAAATTACACCAATAGCAAACACACCTCTAAAACCTACATAGCTATATTTTTCAATTATATATAAAAGCAAATTATTTGGGTCTAAATGCTTGTTATCTGATAAAATTAGCGTACCTAAAAAACTCGTAATCAACAATATTGTTAATGAAACAAATCCAGCAATTAAAAAAACTTTTTTTGCCTGCTGTATATTGTTCGACATTGTTACTCTTTGAAAGAAAACTGGTTGAAAACCAGGAACTAAAAAGAAGAGTAATAGAAAGAATGCACTTATAAACTTAGGATTTGATAAGTCAAATACTTCACGCCAGTCATACATAGGATTAGTAGAAATAATATCAAAAACTTCATTAGGAGAACCAAGAGTTTTCCATACCATTAATGCAACCATTGGAACTATTGATCCGAAAGTAAAAAACTGCATTAAGTCAGTAAAAGTTACTGCTCTAATTCCACCAAATGTAGAATACACTACTACAATTAGTGCACTTAACATCGTTGCATAGAAACCTGATATACCAAAAAACAACTGGAATATAGAAGCAGACACTCTAAATTGTAGAGCGATAATACCTGCACACAAAAATATACCTAGCAATGCTGTAATAATTTGTACATATTTTCCAAACATTGTACCCATTGCCTCAGCAACTGAAACCTTGCCTATAAACTCTCTCATCCTTGGAATTAAAAATAAGCTAACTATTATTAAAGCTAGTGGCTCACCCAACGCAGGAATTATAAAATATAATCCTTGCCTATAAGATTCTGTTATCGCTCCAGCAAAAAAACCTCCTCCTATTGTAGTCGCAACTGTTGTAGCCACCAAAGCGCTTGTACTAAAGTTTCTTCCACCTAGTGCATAATCTTTAATACTTCTAACCCCACGGCCATAATATAGCCCAACACTAAGATTTAAGACAAGAAACCCAATTACTATTGCTATATCTATGTCGAAATTCATATATTTACTATTTCTTAATATCAAAAAGCACCAATATAGATTCAATGTTTGGATATTGCAAACTTTAATTTTGGCCTGATTATAAGCTAGAGGTATGATTCACATGAATTCACTGTCTTTAATCTTCTAGACCATTAAAATGCATATTTCTATTGAATCTACGATTTATACAAAAGTATAATTATAATATTACACAAAACTTTTTACTGCCATGGTCTGTATCTTGTCCAGATAGATCAACCTCTTGCAACAACTCTTCATTTGTCGTGCTATCATGGGAAAAAACATGCTCCATAGTTTCTTCGTACGACCTTGTTTTTAACTGAAACGCATCTAAAGCTGCATTTGCTGCGTTTTGTCTTGCTTCCATAATTTCATCGGTTATTTTATAGCCGTTCTTAACAATAAAATCCCTAGATTCAGCATACACCGAAGCAACAGCCTCAGCTGCATCAAAAGGCATTCCTTTTAAATTAGCCGTTTCTATGCATCGAGAATCATTACAAATTCTACCAATAAACAAAAATAGCCCAGCCATCTCTACATTTGATGTAACTCCTCCTTCACCATCACGTAACATTTCAAAAAGCGGATAAGCAGCTCTTCCATCCCCACAAACAAGAGCTTGCCAAAAGCGAGTTACTGCCATTAAACCATTACCCTCTTCTCTCTCACTCAGTCCAGCCTGATAAAGAGCATCTGGTGTAAATGCTTCTTCATCTTCTTGTACTGAGGCTATTTGCTTTATAAAAGCTTTTTCCTTAGCCTGCTTTTCAAGTTTTGCTTTTTTCTTATCTTCTTCTAGCTCTCTACGATACTCTTTATATTCACGATATTCTCTAGCACCATTTTCTACACTATGCGTTTGTTTATATCCAGGATTCCAACCCAAATCCTTTTTGTATTGTTTTTGAGCTTTAGATTTTTCTCGTATTATATCAGCCTTTGTTTTTGCTCTCCACATAATTTATTCTCCTTAAATTTTACAAATCTATAACTTTTAGATTAAATATTAATTACAAAATAATCAACCTATAGTTATGCATTTTTATTATCCTCTTCTTAAATCTTCAATCTTACGCACTTTTCTGACCCCAAGATCAGGCTGCTGTGGATGATATTCTTCCATACCAGCTTTTGTTCTATGCTCATTAATGTGCGCAACATGGCTTTCTATTTCTTCAGATACTTCTACTTTACGCTGATCAATCTGACGTAAAACTTCTTGGCTTGACGTAAAATCATTCATTGCTTGTTCAAGTTCTTGCATGTTGGATGATATTTGTTCGTGACTTATTCGGCCTTTCTTTTCGTATATTTCTTGCACAGTAGATAGTAATTCTTCTGGTGGAATATCCGCATTGTAACCATCTGTTTTGTCTATAATCGCATAAGCATCCTTAATCCTTTCCTCAGCTAATTCAAACGTAGTCTGATATTCAGCCTCTCTAGATATAAACTCATCACTTCTAAAGATATCTTCTTGCACCTTATAGCTATTATCAATCAGCTTATGCATCTCAGAATCTTTTGCGTAATTACTTAGATATGTTTCACCATATGATGCTGGCTCTTCTGATGTTTTTAGGGCTTCTTGTACTCTTGATTTTGCTTCTTGCCTTTCAAGAGTTTTAAATGTCTCTAAATTTGGATGACCATTCTTTTCTGCTTGAGCAAGGAATTCAGGCGATGTAACGCTCTGACCATATTTTTTATTATATTGATCAATGGTTTTGTTAAGTTTTGTTCTTGCAAAGCCTTCTTTATTCTCAGCAAGTGTCTCAGCATAAGTCATACGTCTTGGATCAGCACTGTTAATGTCATGGTATGCACCACCTGCAAATGTACGTCCAAATGAACTTTCTTGAGTTTTTCCACCAAGAGCTGTAAATGCTCCTCTTTTAACTCCAGCAACTGCAGAATATATTTCTTCACCAGTTTGATGCTGTTTCTCTTTCTTAAGCCTCTGGCGCTCTTTTGCACTATGTCTAATTTCTTCAACAGAACGAATTGCACTACTATGTTTGCCGACAATACCGATACCTCTATCTGACATTCCAGCATAGGAATTAACATAAGCATTTCTGAATCTACGAGCTTTTTCATTTTCATTTGCGGCTTTGCGTAAATTTCTATCATTAGTCATGAGTTTTATACTAGCTTTTTGTTTGTCAGATAACTTACTAAACTCTTTGCCATATTTCGCACGAGCAAACTCATTATTTAGTTCCTTTGGATTTCTCTTAGCAAGCTTCTTAGACAACTTCTTAGCATCCTTTTTATCAATACCTGAATCTACAAGTTTCTTAGTTAGCTGCTCTCTATATTTTGAGTTCGCTTTTGGATCAATATCAGATTGTTTTAAACCTGTATTTTTTCTGACCTCAGCAAGCACTGCTTTGTTAGCACTTCCTTTTAATGCTTCATGCTTCAGATTACGGATTCTTGCTTTATCAAACAACGTAGATGGTGAAAATTCATTACGCGCAGCTTGGCCATATTTCTTTTCCAGAGCTTTAATCTCGCTCTTAGACTTGCCAGATAAATCAGCACCAGAAGCCTTTAAAGCACGCCTACCAATTTGCCTATCAATACCATCAATTGCACCTTGTTTAATTCTGCCTGGTATTGAGGCCATGAATGCATTTGACTTTGCAAAAGTCTGGGCATTTACTGCATCTCCAACATTCTGTATGTTAGTGTAATTACCCGAAGTTCCAGTAATAAATCTAGCCATAGAAACAGCTGTTCCATTAAACTTATGCAATAAATAAAGTGCAACAAATATTAATAGCAAGCCATCAAGCTGAACAAATTTACCATTCCAGAATTGAGTTATACGCCTCTGATCCTTTACTGGATCTAAGAATGGCAAGTCAATATATCTACTACCAATACATCCATAAGCTTCACAGAAACCATCGCGAATATCTCCAGTTTCATTAGCTTGCGCTTGATGATCAATTGGAATAGGTATATTCACAGGTGTTCTCGTAAAACCTTCACCTTTCAGAGGTTTTGGGAACCACCAGTAAAAAATTGAATCACCAGGATCAAAATCTAATGTTGCCCTTGTTGCCTCACCTATTAATTGTGGAGTATTCATTTTTGGGAAACTTTGTTTACATATTCTAAAACCAAGTGCTCCATAAATTTCTTCTCTGATAATCATTGAAATGAAAATTAGACCAGTAAATAAAATAACTGGCTGGATAGCATATGATATAAGCTGCTTCAGCCAATTTTCAAACAATGATCTAGTTATTCCAAATAACAAGAAACACACAAAAATTGGCCCCATAACAATAATCATACCAACAGCAATTAAGGCACTTAAATATATAATTGTCGCATTAAAGAAAACCATCACAACGAAATATAATGCAACAATAAATAAGATGATATATAGCCATCCAAGCCAATCAACAAATAACAATGAGAAAAGTTTTGAAAGAGTTTGAGGCGCAATCATCATTGCAAGTATTCCTGGCGCGCCTGGGCCAGTTGCACCAGCTTCCATGAGCATTTCTAATATTTGCTGAACACCTCCAACAAAATACACGAATAAATAGTTGTTGAAAAAGTCCCAACTATATTCACTACTAAGAAGTGCTGAGACAATAGCTATCTTCATAACCCTGACAATAAGCTCAGTATGCGTCAATTGTACATTACCAGCCAGATATGAAAGAGCAGTCCACATTATGTATAGTGTAAGCATTGCAGATACTGCTGTCCTATAGCCTTGATTATTTACTACTCCCATATAAATATTTTTAATAACACCACCGTTACCATCAAATATTCCATCAGCATTTGAAGCTTTAAGCCCTGGAAGTAGCTCCTCTCCATTTCCTTGAATCCCAAATAAGAATTGTTTTACTAACATTGTTACATAGGAAATTGGATCAGGGTTAGATCTGTTAATCCCTGACTTAATTACTATTTTATACTGACCAGAATTGTCGTCATAAAACTTATCCAGGATTTTAAAATATAGCTGACTATCATTATATTGGCGTTTTTCACTATCAGATGCAAATGTATAAACTCTACCACCGGCTTGTCTACTCTTACCATTCTTATCAATATCATATAAGGTATATCCTGAAGTTGCCTCACCCAGATGCATTGATATACCAGTTGGATCTCTCATAGAGCTTAATGACTGATTAGGATCGACACCTTTAGCACCAATTAACGCATAAAGCCCTACTCCATGCCTAAAAAGACATGGAGCATTAGCAATCTTTGCATCTGGCGTTCTCGTACACATTCTACCGTCAATAAACTGGCAATCTTGCAAACGTTCACAAAAACGACTTAACTTATCATCTTCACCACTGGCACTGAACCATGCGCACCAGGCAGATAGCTCACTACCATTATTCCTATCAACTCCGTAGTCCCAACCCTTAACCATCATAGTAAGTGGACGCCCATTAACTCTGTAACCAGATTCTCTCCATGGAGCTACCTGGTTTGCCCCGACCTGACCTTCAAAATCTGACTTAGGATATCTTGCACTAACAGTAATTATACTATGACCAAAATCATCAGCTTCTATGCAACGCTCTCCTGTACAACCAGAGAGAGTCAATAATACTAATATCGCTATAATATAATTTCTAATCATGATCTCCTGTCAATTTTTTACTTGTTCTTCTTTCAGTGCTTGATTTTTTTCCACTAGAAGATTCATTATTTGTTTCCGGTTTTTCATGTGAATCTACTTGTTTAGAGCCACTATCTATTCCTGATCTTTCCTGAGAATCTCCTGATCTAGAACTACTATCCATCCCAGAAGTCTGATTATCAGTCCCTATATTTGAACTACTTGTACTTGAAGTTGAAGTGTCACCAGTTCCTCCATGCTCTGTCGAACTGCCAAAGCCTCCATCAGTTGTAGTTTGACTACCTGAACCTGTGGTATAGTCAGATTGAGTGAAATCTTGCCTCTGGAAACCACTAGATCCTGATCCCGAAACATCTGTTTGATTTATTGTTGATGAAGCTCCAGTTGAAGTTTCTCCTATTGTTGATTTAGAGCTTAAGCTACTACCTTTGTTTGCTTCTTTCTGAGCAGTGCTAATATTTTCTGTTGCACCTTTTCTATGAGCACCAATAGTTGGTTTTTTCTTAGCAGATAATATTTTGTCACTTGCATCTTCCTTAACTCCAGTTTTAGAGCTTGTATTTTTGTTTGTATCCGTCCTAGTTTGATTTGCATCTTCTTTACCAAGATTCTTAGGTTTTTTACTACCAAACTTAGTGGTGCCTTTCTTAGCTCCTTTATCCCCATCTTTACCAACATCAGATTTCTTAGCATCTGTATTAGTTTTAGTTGCTTTAGTTGGATCTTCATTTTGGTTTCTCTTTGCTGAGCTATAATCAATAGGCCCTCCATCGCTCTTTGTCGCTCTACGAGATAATTTTTGATCAATTAATTTTTCTTTTGCAAAATTACCAACCCCTTTAGCAGCGCCAGTAACTGGGCTTACAAGTTTACCCATATCGCTGGTAATATCTTTAATAGGGTTCATTCCACTTTGCAGTTTACCATCCTGACGTGCAGCAAGCACATTTGTTAAATACTGAACAACAAGAGTGACATAGTCAACTAATCCATCTGCAAGCTTACATAAAGCAAAAAATAGGAATGACGAAGATGCAAGCATTGCAAACGTACCAGGAGCAAAGAAGAAATCTGTCATTGTCCCTATACCTCTTACTTCTGGTACATAAAAAGGAATCCCAGGAAGGAATGGTAATGTAAATGAAAAACTAATTGGAATAGACATATGATTTAAATCAAGCCCAATCTTAATTGGAATTAATATATCCCAACAAGCTCTAACTATTGTTCTAGTTATAACGTCACCCATTATCTGATCAATTAATAAGAAAAATATTAATAAAATTGTTGGTTGTATCATCTGACTAAACATAGTAGAAATCCACGCATCAAACATACCTTTTGTGCGTTCGAACAAAATCAGAATAATGAAAAATGGGGCTATTGAAATCATCACGGCTAATCCCAAGAATGCAAGACAATAACCAACTATAACCTGAAGTACCGCTCTGAAAAAGATCAAAATAGCATATATAGTCATAATTGCAAAAAATGTTAAGCCATTATGAATCTGCAATAATTGAATAAATAATAGTGCCCACATATTACCATTAATATATTTTTCTATTACCGGATCTATGAAGCCAAAAATATTCCCTGCAGAACTTGTTGTGCCAATAACCGTGGTCATTAAATATTCAGTACCATCTATAAATACATTAAATAAGTTTCTACTAAAGAATGTCCAGCTTGTTTCGCTAAATAGCGCTAATACGACACCAACTTTTAAGACTCTCATAACAATATCGGTAACTGTAATTTGAGTAGCTCCAGCAAGGAACATTAAACCATAAATTATTATATATAAAACCAGCATTAACCTAGCAATATTTTGTAGAGCTGCATTGCTAATTAATTTTCTATATATTACTTCTGACAGCTCATTAAATTTATCTCTGAGTGGCTTTACAATATGATTATAAACAATATCTGAAAACCAGGTTGTTCCAGTATAGTTTGCCGTTTTCACTTGAATTGTTCCAGTAATATCTGGATTTGGATTAATTACTCTTAGCCACAAATATCCACTGTCATTCGCATTTCCTCTGAAATCTTGTTCAATTGATGTACCAGAAGTTCCAGCACCTGGAATTGATGTATCAGCAATATAATATTCAACCTGCAGTGCTCTTAGATCATCTGAGCTCACAGCTTCAGCAGCATTTCCAACTTCAATTTCCATTAGATACCTTCCCATATATAGAAAATTCATATGTAAAGAAGGTTTTATAGCTGTCATATATCCATAAAATAAGTTGTAATCTATTACAGGTATTAATGATTGCCAGTCTGACATAAGCTGAATATCGGTAGTATACATTCCATTAATACTCCAAGGGGAGTTGAAATCTAAATCCCCGGTTGTATCAGACTTGTGATAGAAAAATGCCTGCCCATTAAATGGTGACTTTATAAATTTTTGTTTTTCATTTTTAATTTCCGTTCCTGCGACGCTAAAAATCATACCTCGTCCTAAATCATACTTACATGCAGGACTATTATTCATACCAGTTGAATTATCAGGACAAATCGGCATATTTTGCCATTTAGTAGCAGGTACTGAAAGAGGATTCATTTTTCCGATGTAACTTGTCCAACTAGTAGTCACGTCAATATACTTACCAGGAAAAAGCAAACAATACGGAAGATACAGTGGGTGTAATGCAGTCATGACTGAGTTACAAAATTCACTAGCATCACTATAAAAAATATTATTATCAGGCACTGAAGTTTCTGTATACACTGACAATAGTTCTTCTCCAATTCCAAATAACTCTCTATCCATTTGAGAATCACTACTAAAGAATTTACCAGTCGTGTCCATTGTAATGTTTATAACATCATCTTTTTTAACTGGTATCTTATTTCTGCCATTAAAATTAAAATAATCATTGTAATCTATAATTCTTTGCTCAAAGGTCATCTCAGCCACGTCTTGGTACCTTAGTAATTGACCTCCTTTAAACTCATGAAAATCTGAAACATATTTTTTAGTGGAAAAATCATATTTTTGAATAAATATTTGTGGTGTAGCAAATCTTGGATCAATTCTATATAACACTCTGTATTTAGCAGGTCTTGGTAAAACTCCTTTAGTCAACCATTCAATTTGTAACAATTTGCCATCCTCAACTCTAACGCCAGTTGATACCCAATTCCCTGAGTTATCAAGCTCAAGTGAATGTGAAGCTTGGTGCATGCCTGCAAACACTGGAACCTCTATACAACCAAAAAGCCCTTTTAATGTATCCATACCAGAATCCATCCAGGTAAAACGATCATTATCAGCCATTGCCGATACAGAAAACTGCATCGATAATAAAATAGCTATAAATATAGACCGTATGAATTTCATAATTCTAACTACTACCCTCACTATTTGATCCAGTATTCCCACCACTAGATTTTTTTGCTGAAGACTCAAGACTTGATCTTTGTACTTTAGACTTACCAGTTGTAGATTTTGAAGAGCCAAGACCTCCTGACCCACCACTTGAACTTTTACTCTTTATGCTGCTAGATTTTAACTTATTACCTCCGATTGTAACACCTGATCTCTTTGCACTTGATGAAGGTTTAACGTTACCAAAACTACTACCGCTTGAAGAACTACTTCCTATACTGCTAGATCCTGTTGTGTTACTGCCAGTAGAACTACTTCCTGTTGAACTAGAACCGACATTTGAACTAGTTTTAGAACCAGAAGTTTTGCTACCTGAGCCTAAATTTGAAGACCTTTTAGCACCCATCTTAATTCCAGACTTCGCTGTTTTTGCACCAGAACTTACAGCAGACTTCCATTTTGAACCACCACCAGAGGAAGACTCAGAACTCATTGAAGAAGTTGTTTCGGATAGATTTTCTGTTGCGTCTAAGCCGCTATCTAGTCCTTCATTATCAGAATCTGTTTTATTTGGTTTTGGAGCACTAACTCCACTCTTTGGATCAGCACTTGTATTACCTTTACCAGATTCTTTACCTGAAGGAGGTTTGATATCATTTCTATTTCCTTTATCCAGAGGCATCTTTTTATCAGCAGACTCCATAGTCTGTAGCCTTTCTTTAATTTGCGCTTTAATTTGTGCACGACTCTTACTATCAAGACCGACTTTTGATAAAGCTTTTTCTTCAATTGCTCCAGACATTCCTTTACCCATTCCAGAAGCAGATGGTCCACCAGCACTTCCAGCAAGTCTTGCAACTATGTTACTAGAGAAATCAAGATACCCCCACATACAATAAACAATCATTATAAGAACAACCATATTTTGCATGTTTAATCCCATTTGGCTGCTTCTATGGTCAAAGCCCCAAGGAGCAAACCAATTAAAACAGAATAGTTCTACATCAAGGAAGGCAGGAGTCACACCCTGAACACTTGGGAATGGTATTTTAAGAGGAATTGCACATTTCCAACAAACACTATAACCGATTACGAAATCCAAATAAATTGTAAACAACTGAGTAAGAATGATTATCCCAGCAAGCAAAACTATTGGCTCTAGCATGTATCTAAACATGAATTTTACCCAATTATCAAATAGATAAAATGTTCTTTCAAATAAGATAAATGTTAAAAATAGCGGCGTTAAACCTATCAAGACAGTTATTGCCATAAAGGCCATCAAATAAACTGCTATTGATCTTAGTAATACAATTACTACAATCCCTAAAGCGACAATTATTAGTATAAAATAAATTACTCCATTTATTCCCATAGAAAGTAGAGCTAAGATCTGAGCAATAAAAGTTGAGCTTAAGAAGATCTTTGTCATTACTTCATTCAAGAACATAAATGGATTAGAAATTGTTGTACTTCCCGAGAAAATACTGTAACCAGCCATATTTGCGATAATATCGTCAGTAAACCCAGTAACAAAATCAAACACATAAGTTCTGAAAAATTCAAATGTAGTATCATTTAATAAGCCAGCGACAAATGCAATTTTTACAACCCTCATGACTAAATCAGTTTGACTGATTTGAACCATTCCAAGTAGGAACATCATTCCATAAATCATTATATATAGAGATAGAAGACCTTTTATGTAATTGAAGAAATTTGTACACCCACCTGATCCAGAAATACCTTTGTAACACGTCATGTTCTTAAATACCTGCTCAGCTGCACCTTGAATTTTATCTTTAAATCCTTGGAAGAAAGGTTCTAAGACATCATGATAGAAGCCTCCTTGATCAATAGATGTCATAAAATCAACACGATACTGTCCAAAACTATCCTTATAATCATTAGGAGCATTGTTAATTCTTAGCCACAAATAGCCATCTTCATTTCCAGGAGCCGTGATGTTACCAGACCCATTTGCATCTAATAAAATATTTCTTGTAGTAAGAGTATCATTATTTGGATTTTTCCCATAATCAGCAATTACATATTGAATATTGCCTCTACCTGAGAATGTATCATTAAAGCTATTACCATTTTGTCTTCGACATTTTGTCTGTTTAATATTAAGAACATATCCTCCAGTATTATCACCAAAATATGGACTAACGTCATGATTCCTATATTGAAGATAAGCTACGTCACTGGCTGTGAAAATTTGATCTCTTATCACTCTATAATCCGCACCAGGATTCAAATTACTCTGATTAGAATCAATCCTAGAGTAACCAAAATTGCTACCTCTGCTCTTCTTATTTGTTGGATTTTCATTTGAATCGAACCTGTAGAGCAGCCCAGTAGCACTATCAGCAGAAAACCAGAAATATTTTTCATTTTGCCAATTCCCTAGGACATATCCCGCATTATTTCTACAATCTTGATTAAAGTTAGTTATTAATGCATTAACATCAGCTCTCCAAGGTGAGGTATATAATCCATCATTTCTATAAGGCTCAGGAGCTGTTCCCATGACATTTTCATGGCAGCCACACCAATCACATACAGTTTCATATCCCTTTATACACCAACCCAATAAATTCCAACCTCTACATACATCTCTACAATTACACTGATAACATGTAGGATTCCAATTACAAGTAGATACATATGTTGTCCCGCTATCCCAAATTGAATAACGGCCGCAAATTGGACTATATGCTCTTTTACCTTCAGTACAATCAGCACTTTCAACCCTTTTCAAAATATTATTATATACAGTACTACTTCCAACTGTTGATTTCTTATCGGGATGAATCGCAACAACTATATGATCATTTTTAAATACTTGAGTTAGATTTCTCCATTCATCTGTTCTTGCATCAAAAATAAGATTTATAGGCGCTGATGACTTATCTTCTACTCTTGGTATTTCAATTAATCCTCCATCTTTATCTAGATGTGAATTCTGCTGCAAATTATATGCCGGAATATAGGCCTTACATAAACTAACCTCACCTTTCACCACTATGTCTACTTTTTGTCCACTTTTTAGTCGTAGGTTTGTATTTAACCATTTTCCATAAGCATTAGGATCTAATTCCAAACCACTAGATGATGCAGAGCTTAGAGCCGTGTAGTTAGCATTAGCTTTTAAGGTAACAGAATTCATAAGGCTAGATGACCCTGAAACAGACATGTCTTTATCAAAATTATATCTATAAAGACAACCATCTGTAATATCCATTGCTCCAATGATTGCAATTATCCAGAGAACTATCATCAAGATAATTGCAGCTAGAGTTAAGGCACCTATAATAATCAATTTCTCACTTTTCATTAGCCACCTCCTCCGCCGGTCGGCATTCCACCGCCGCCACCCATGCTGCCGCCTTTACCGCCACCCATGCCGCCGCCCATGCCGCTACCTTTACCGCCAGACATACCGCCGCCTTTACCGCCAGTCATACCACCGCCCATGCCGCCGCCTTTACCACCGCCCATGCCGCCAGACATTCCACCGCCTTTGCCGCCACCAGGCATTCCACCACCCATGCCGCCGCCTTTATCACCGCCGCCGCTCATACTAGTTGAAATTTGGTCTGCAGCATCACTGCCATCTTTTTTAGTGCCATCAAGAGAAATTTTATCTCCAGTTGCTTCACGATTAGATGTAGTATCTTCTTTTAATTTCTGTTTTGCTTCTTTAGCATCTTCCATTGCACCTTGCGTATCACCAGTCTTAGCTTTTATAGCTGCTTTTGCCGCCGAAACAGCTGCTTGAGCAAGACCTATAGCTTTATCAATTAGTGCATTTGGCGATACAGTAACACTTGCAACACTAGGTCCACCTGTTAAATCAGCGGCAAATTCACTGACGGATTTTATAAAGAAGTAAAATATAAAGACATAAATCATCACGTATATCAAACTTAAAGCAATATTTAGATAATCGTTAATCTTAGGAATCTCAAAAAGAATTACTATTTTCTTTTCCCAACCTTGACCCAAATAGTATTTCATTAATTTATAACCAAGACTTTCTTGGCATTTTTCCACATCAACAACCGGCTCTCTTAGCTCAAATGTACTAAAATTAATTTCTCCAACTGTATAATCATATCTTTGGAACTCACAAGTTCCATAAATTGCTGAATCATATACTGTAAGCAATATTGCTATGAATCCACCTATCACAGCTGGTTGCAAGGTACATGACATGACGATCTTCAACCATGAATCAAAATAAGCCTTTGTCCTATCAAATAAAGCCATAGTAATAAAAATTGGTGAAATATATGCCATAACATAGAGAGTTATTGTACAAACTAAATATGCAGTCATAAAATACAAAAGCACTGAGACGAAAAATACAACAAATAAAAGTCCCATTAAAACAACAACTATTTGGCCAGCCATAAACAAACCAAACATGACAGGGAAAAATGTTAGAGTCCCAACAGCAAATAATGCTTCAATCCCCTCATCAGCAACATCCCCCAAATTAGCAGGAGTTCCAACCGTTGCACCATCTGCAACAGTACCTGAAACTGATCGCAACATCGTACCCATATTATATAACAACTGCATACCTAAATAATATCCAATACGACAATCTATCGCGTCCCAAACTTTATAAAACTCATATCCAGAATCATATTTAGAAGCATCAAAATCGCATAGACCTTGAGATCCACCTGCCATAAAAACCATTTCAGTAAAATCATTAGTCAATTGGACTAATACCGGCAAGGCAAATCCCGTCATCCCATTTTGACTTACTTCTTTTCCGGATACAAATTTAGTTTCTCCAAGTCCAACTGCAAAATATGTAACTAAGATAAATTTCATGATAAACATAGCTACTTTATCAAGATGCGCATATTCACCATTCATTGCAATTCTAAAACCATAAACCATCACATAAAGCATAAGCGCTGCTCTAACTGCCATTTTCATAGCATCCTGAAAAGCAGGAAATGGTTGTAATGCAGAATATACTAAATCATCTTGAAGCCTAGGACATTCATCACCTACATAAAACACTTTATCCAATGTATCTCTAAGACAATGAATTGTCAGACCTGAAAAACTTAATAATGATTGGCTTTTTGATCTTCCATCATAACAAGACTGTCCTAAATTTCTGCAAACTTCTGATTCACCTGGCTGAACTAATTCTTCTCCCTCACCATTTCTACACATTAATGGCAACATCCCTCTTGAAGTAGGCATTATTAAACATACTTCATTGTCAATTGCCTTAACTTCTAATGCAACGTTACTTAAAATAGGATTCCCACCAATATCAGGATTTGAACTGATTGCACCTAAAGTAGTAGTATCTCCTATGGCCATTGTCACTTCAGTACAAAAATCCGGTGAACTAGATTCATTCTTGATACAGAATTTAAATTCTGAGCCACCTTTTTTACACGCATCAGTAACATATGTCTTCATATCGATGTTTTTCTGGATAAAACCGTAAGCAGTATCATTAACTAAATATGCTGTATCATCAAAAACAGGAAGTGCTGAGCAGCTTTCTCCAAAAGTACTTGCATTAGCAAAGTGTGCGCTTAAAATAAGCACACTCTGCACAAATACTAATAAAATTTTACTCAATACTCTCATAATCTTTTAATACTAACTTAATCCTCATCTTTTGATTTTGATCCATCAATACCGGATGAATCATGAACTTGTTCTACGGTATCTTCTACTGTTTCTTTAACAGTATTAATTGCTTCCTTAGCTGCGTCCTTAATTGCCTGCTTAGCTGTTTCTTTTACTTGCTCTAAAGCTTGTTTTGCTACCTGTTTTCCAGCTTGCGATGCAGCACTTCCTGCTGCACCACCGGCTGCACTTCCTGCCGCGCCACCACCTGCACTACCCGCTGCTCCTCCAGCTGCACCGCCTGCTGCACCACCTGCTGCACCACCGGCTGCACCACCGGCAGCTCCACCGGCAGCACCGCCTGCTGCACCACCCGCTGCTCCACCAGCTGCCGCACCGCCTGCACTTCCCGCTGCTGCGCCCGCTGCTCCACCAGCTGCAGTTCCTGCACCTGGCACTACACTACCTGCTGTAGCACCCGCTGCACCTGCTGCAGTACCACCGGCTGCGCCGCCTGCAGCCGCGCCACCAGCACTTCCGGCTGCTGCACCGCCTGCACTTCCCGCCGCAGCACCACCACTTGCACCAGCTGCGCTACCACCTGCAGCACCTGCACCGCTACCAGCTGCGCCGCCAGCAGCTGAGCCAGCGCCACCACCAGCTGCGCCAGCACCAGAACCTGCCGCATCTGCACCAGTTGATACAGTATCAGTTGCGCCAGAACCAGCCGCGTCTGCACCAGTTGAAACTGAATCTACCGCATCTTCGCCACCTCCAGTAGATACCTTATCTTCAGCTCCTCCTCTACCACTTGAAATCTTATCTTTCAAGTCTCCAGCGCCTTGAGCAACCTTATCAACGGCTCCACCCGACATTCCTCCGGCAGCAGCAGTTGCGGCCATACCGGCTTTAAATAAAGTTTGAGGTTTTATTGACATGTTGGATAATGTTACACCTTCGGTCATATCCGCAGCAAATTCTGCTAAGCTTTCACTGAAATGATACATTAGATATAATACTAAACATGCAGTAAGCAGAGATATAGCCAGCTTTTTAATTTTCTCAAAAATAACCTCCAACATGCCAAAGAACATTCCCGCTGACGGTTCAATGGACCCTAAGAAGTCAAATCGCTTCTTATCCTCTTCTCCTGTAGTATCTTCAATCCATGGCATTGATTCATCAGTAAGAGCATCTTTACCAACATCAAACAAAAATTGGAATGGATTATTTAATATAAACCCAAGACTTTCTCTACAACCTTCTATTTCCTCCTCATCCACGTAGCTATCTTCCCAACGCTGATCTACAAAGAAATATCGAACCGTTCTAGGTCCACCTGCTACTGGAGATATAACATTGGCAAGATTTGAATCACCTACAGCAAAACCAGGCCCTGAATAGCTAAAATCTTTGTACCTATATTTACACGTCCCATAAAAACCGAAATCAAATACAGCAAGCATTGTTGTCATAAATGTAACTGCCACCATGGGCTGGAGCATAAATGACAATAGCAACTTTACCCATGATTCAAAATATCCTTTGGTATAATTAAATAAATACATCGGGACAAATAATGGTGCTAAAACTCCAAGAATCACAATAGAAATCATACATACTACTGTTGCATTAACTATGAATGCACCGACAGAAATTATTAATAATGGGTACATTATAGCAAGAGATATAAGTGTCCAGTTCCCAGAAATCACAGCAGGCACTAAAAGATATATATATGGAGGTATTGGGAAACTTAGAATATCTAGTCGTGAGAAATCATGATGTCTTGTAGCATTCTCTACCATCATGGTCTGCATAGCATCTAACCCTAAATAGTGACTTATTCTGCAATCTAATGAATCCCACAACTCTAAGTGTCTTAAAGTATCTGGATAATAAACATCACTAAATTTACATAATTGGCTTGGACTTGCATTAATAATCCAACCCGCTAGTTGATTCATTCCATCAAGCATAAATGGGAATACCCATTGTATCATCCCATCCATTCTATCTAGGTCATTACCAGAACCTGGATTAATATTAATCCCAACTGCAAAATACGTGACAAACAAGAATTTAACAGCAAAATTTACTAATTCTACCTTCTCCGGAACATTACCAGATAATACTATCCTAAACCCAAAAAATATAACGTAAAGTGTAAGCATTGCTGTAACAGCTCTATGCATACCTTGCTGAAATTGAAATAGCGCACTTGAAACCCTTGAATTACTTCCAAGGACATTTTTTACATCATCAAAGCTACACACTGCTGAGCTTATCATTAATTTAGCAATCATTTCTCGAACACACTCAATCAATGGTCCAGTCATTACAATTGAAGATCTAGAATATTCGTGCGCCCTTTTATAACACCCTCCCATGTTTCCGCATGTAGTCAGGGAGGTTAATTTTTCTAGCTCTCCACGGCCTTCTGGAGTAAGATCCAAGAAATCAGCATAAATTGATACTGGATAAGGTTCTTTAATATATTTACAACCAATTGGTATCCATCCAGCAAAACTTTGTGTGGCAACACACATCTTATCCTTTTCTTTTATTACCTTCCACGGCAGAACCGGTATTATACCAATATCGAACATGGTGCCACTATCACCTTCTCTCTTATCACGATAGATATTGTGATAATCAGCTTTAGGTATATCCCAAGCTTCAACAATATCATCCCATGGATCTTTTCCAGTAAATATGGCTTTTGCAATAACTATTGCAGATTTGGCAATTGCCCCTACTCTTGCAGCCGCAAGCTTTGTATTACTACACAGAGAAAAGCTTAGTTTCTGATCATAGTAATCAATACGATTACCCCTAGTACAAGTCCTAGGAAAAAGCTCTTTATCATTGATATATACTCTTAAAAAAGTATTCGCATATAAACCCGGAGAAATAATATTAGCCACTGCAAAAGTGAAAAAAGATGCAGGAATGCATGTGTGCGAAAATTCAGTACGCAGTAAATTTCCAACTCCTTGAGTCTCACATGTCAAATTTGTCAAAGTATCAAGTATTGTATCTAAAACGTTATTTTCAGCTTGATACTCATCAGCCGCAAAAGTTTGTGAAACACTCCCTAAGGAAATAACTAGGCATAAAAAAATCGCAACAATCCTTGCTCTTAAAAATGATAAAACTATAACTAGAGATCCTAAAAAATGACGAAAAAAACCTAAAGGCAATATGCCTTGTCCTATATGCTTTTCACTTATAGTCTCTCTATTATTCTGCATCAACCCAACGCCTTCACTTCTTCATAGAAAACTGGCAACCACTTCTTCGGATCACTTCCATGTTTTTCAATAATTTGATCGAGCAGAACAACTGTATCAGCTCTACCGGATAGGACGTTAATCACATTATCCATACCAGCAAGATTTACTTTTGCAATAACTGCATTTACCCCCTGCTTTACAAGAAAATATCTGGAACCTGGGTCAGTTGTTTTAATCAACAAATACTCTCTCTGGGATAGCATGAATGCTGTTTTATATACATCTGTTGCTTTCAGATTAGGCAAAAATATTTGCGTTGCTGTTTGCTGAATCAAAGTATCACTTATCTGACTTTTGGTAGCATCTTCAACACTTTGCGTTGCAAAAATCACGAAAGTATTTAGCTTTCTTAAAACTTTCAACCAATCTTTAATTTTAGGTGCAAATACTGGATTATCAATAAGCGCCCAAGCCTCATCAAGAACTATCATTGTTCTAGAACCATCTAGAGAAATATTAATTCTATGGAAAATATATAATAACACTGGAGAAAGTGACAATGGGTCTTTAAGAAGTTCAGCCATCTCAAAACCAAACACTCTTGATTGCCCGAGATCAATACTATCTTCATCATTATCAAAGATTTTTGCATGAGACCCCTTACTATGCCACATTGCAATCCTACTTGCTAAAGTACCAGGTCCATCCATTCCTAAGAATGGAGCAATATTGCTTAATTTCCTGTCTCTCTTATCTAATCTAAAATTACCATCAATAGATTGTGTTAAAACCTTAATATCTTCTGCATCTAAAGTTTCACCATGTGAAGTCACAAGAGTCTTCATCCATTCAAGAATAAATGCCCTATTCTCACCATTATCATCAAGCTGAAGTGGATTAAACCCACAATTAGATCCTGGATCGATTACTGTATATACACCATCCATAGCTCGAACAAATATCTCAGCCCCTCTATCTTTATCAAAGAAAAAGCTTCTTGGCCTAAATTTTTGAGCTTGAGCACATAGGAAATTCATCAATACTGTCTTACCAGCACCTGTAGGACCAATAATAAGAGTATGCCCTACATCTCGAACATGAAAATTAAAATAAAATGGCGTTCCAGAAGTAGTATCCAAAACAGTCACAGCCTCTCCCCAATGATTACCATCCATACGACCTGGAGGATAATTATGCATAGAAGCAAATCCAGCCAAATTTAATGTATTAATAGTTGATCTTCTAATGATATAACCCAAATTACCCGGAAGTTGCCCCCAATAGCTAGGCTCCATATTTATTCTTTCTCTAACTGGTTGCATACCACAATTTGATAGCTCTACAGCAGCCATTGACAAAGTATTTTCTAAAGCCTTCAAATCTCTATCCATACAAAGTAAGGACATATGATGCTCACCAAAACCAATATCACCACTCATAGCCATATCAAGTGCCTGTGAAATTTCAGCTATCTGAGATACCGCTTTATCTTCAGCTTGAATCATTCTATTTTGCTGAAGCTGCATCTTGTTAATTGCAATAGTTCTGTTTGAAAAACTAAAACTCTGAGTCATAATAAACTCAAATGGCATTTGCAAAAACCCATCAAACACACCTGCTGCCGTTGTCGGACCATACTCCCTAACACTCACTACTCCAGCAAACTTTTTCCCTTTTGGCCCTCTGGATTCAATTGATCTAGTACCGAAAAACAATCTATTTGTTGGCAAATACTCATCTAATGAATTTCTTGGAACCATCATCGGGCTTGAATCACCACAATTTACCAGTGTCCCTAAAAATTCACTTAATTCACAAAAAACTCCATCTTTTGTCTTTTTAACTCCCAATAATTTTGTATCATAATCACGAAGTGTATTTAAAACACGAGTAGTCATTTCGTTCATACTCTCATGCATCTCGCGCATATCATTTTCCCATGCGCCCTTATTACCCTTCTGCCTTAATTTAGTAAACATATATTCAATAACTGCAGCCCCTTCTTTATCAGGCTCATAAAGAATACTCACATATAGTTCGTTAAAATATGAATCAGATCCAGAGTTCTTTCTCTGCCACTCATCTTCAAGGTAAGAAATAAAATCTTTCGAAGTTTGAACTGTAGGATCAACACTATAATCAGCGTTTTTTTCCATTAGAGGCTTTCTTCGTCTTACCGTATGAAAATAAAGAGTCACATTACCGGAGGCCATATTCTTCAAAAGAGAGTTCCTTATCCCTTTCCTAATATCTAAATCCTCATCATCAGCTGTTTCAAATGAAAAACCACCTACTTTAATCACCTGAAGCAATCCATTAGTTTTGGTTAAAATAGTATTTTTATCCCAATGACCTTTATACGGAATAAAGTCTGCAACCGCCTTTTCTTTCTTTGAGTGCTGCTCTTTTGCTGCAGCCGTTTTTAATAGTTTAAACATTTACAAACCTATGCACTATATGAGTTAGCTCCCCAGTAAGATTTATTTGGACACTGATTACACTTACCAGCATAATTGAGATACAGCTCCATAAATCTAGGCTCCTTAAAACATAAAAGATAACCAATTAAATGCACGACAGCTGCAACAAAAATGATGTAAACACTTGATTTTTGAATAAAAATAGTAACAGCAACCATAAGGTTAAGCATTGCATATTGAATACTAACACCAAAAATCATTGATGGTCTTGTTAAACCTACGAAAAGTGGATCGGAAGAGAGTTGCCCGGCCATAGATAATCCTCCAAATAGCTAATTTATAAACTTACTGTTTACTAGTTTAATTGAAGTAACTCTATTAAATCAAACCTATAATATCAATAATTGAAAGATTTCTGTACCTTGAGGACATTGCAGCACCATAACGTTCAAAAACTTGTTATTTTTCTCCGACAAAGTCGCTCCGCTATACCAAGAAAGTTTTCTGACATTGTTGCCATCTCCTTAAGCTCTTCCTCAGTTACCGTATAATTTCTTTTATATCTTGCATCGATATAGGCCCTTCTAATCAAATCGAAGATATACTTATCACGCGGAGTTTCTTTAGGAAATGAATGTAGAAACTCTGGCTCATAAATAGCGGCTTCTTTTTGCAATTTCACAAGATCATGCTGCTTTCGCCTATCATCTTTTAATACTAAATTAGCTGCAACAAATGCATTTTCACAAACTTGATGCAACATAAAAGCTCTAATATTTTTTTGAAATTCATCAGCACTATTTATTGTACCTAGTCCCCTTGAACCTTCTAAAAATGCTTTAGCTCGACCAAAATACTCGTCAAATTTCTCAATCGCCTTTGCTCTCCTTTCTGCCGGAGTAAATTTCTTCGGACTTGCTAACTTATAATCTCCTGAATCATAGAGCATTACACCTTCTTTTTTAATATCCTTAAAAAAATACTCGTTATCAGTTAGCATATAATTTACATGCTCTATAGTGTGAGTAATCATTGATACAGGAGGAACTGGGTCAGGATGAGATGAGTCAAAGGGCCTAATCCTTGGAAGTCTATCATCAATTCTTTTGATGATACGTCCATATTCAGAGCATTCTTTTTCTGTTACTATTAGAATATCAAGATCACTTATATAAGAATATTTATGATCATTTTCTTCATCATACCCTTTGTAAAAAACATAATCTCCACGGGCATAGCTACCAAATAGTATCACATAAACCAAACCTTTATTTGAGTTTAGCAATTCAGATACAATAATATCTCTTACTTGCTTAATGTAATGAATTTTATGACTAGGCAAGTAACTTAAACTTTTCTTCATACTCTCAACTTAAACACTCATATCAAGAAAAAATAAACTTACTTACTTGTAAGAGAATACATTAACTTACCAATCAGATCCTCAATATTTAAAGCTGATTGAGTAAATTTGATTTTATCACCATTAACGAAATTATCATCGGACGCTCCAGGATTAATACGAATATATTTCCCACCAAGCAAGCCACTTGTAGATACTATCGCTCTTGAATCAACAGGAATACTTACTGAATCATCAATTAGTAATTTTACTGAAGCATAGTAGGTATCATCATGCAGAACTAGTTTTCCTACTTGCCCTATTTTTATTCCAGCAAGTTTAACATCTGATCCCTCTGTTATTCCATCAACATTTTGAAAATTTGCAATTAATGTATATCCACTACTACCCTTTGAAGCATTACTTACATTGTATGCAAATGCAAAAAAGCCGAATGCTATAATAAGCACTACAAATCCAACAATTGTTTCTAATTTTGCTTGTTTCATATTATTTAATTATTCACTCTTTGGTCGCCAACTAGAATAAGATTCTAATTTTATATGTTTTGATTTAGAAGGATCATACGCTGCTTTAGTACCAGTTAAATTCTGAACATGATCTACCTGCCACTCATAATTTTCTTGCGGGTTTTCTGAAGGAAGCTCATCACTTAAATAATGAAGCCATGCATGCCACATTGCAGGAACTTTTGATCCATCGTCAATACCATTATACAAAACGTACCTTTTTTTCTTACCCAAATAGTTTTTACTGTTTCCAACAAAATACTTGTTACCAAACTGATCAACACCTACTTGCTTACAAAAGAATTTGACCCACAAACTATTTACAAATGACATTTATTACTTACTCCTTGCCTTTTCACGAGCTTCAACCGCCAATCTGTCGGCAATATTATTACCTTCATTATCAGAATGGCCCTTCACCCAATTCCAGATAATATCGTGTTTTTCAATTTCTTGCTGTAATTTTTGCCATAATTCAACATTTTTCACAGGACTATTGTCTCTTTTTCGCCAATTATTTTTTTCCCAACTATGAATCCACTCCGTAATCCCCTTCTGCACATAGGTACTATCAGTATACAAATTCACCTTGCAAGATTTTTTTAATATTTTCAGAGCCTCAATTGCTGCCATAAGTTCCATCTGATTATTTGTGGTATCTTCTAAATAACCAGAAATTTCTTTCTTTTTTCCTTTAAAGATTAGCAGAGCACCCCAACCACCAAGCCCAGGATTACCAGAACAAGCACCATCCGTATATATTTCAACTAATGGCTTAGGATTATTCATATTATTATTTAGATTTATTACGAAATTGTTCTATAGATACTACTTCACCTGCTTCTTTTTTTGGATCCTCTTTTTGCTTAGGCTTCTTTTTAATTGATTTAGGCTGCATCTTCAATAGATCAGTTGCTTCATAGATATGACTATCATTATCCTTGTCCTGCGCAACTTGTCTAAATTGCAAACTAAAATTTACAGAAGGGTCTGCAAAACCGGTAAGCGCTGAAAATGGAACTTCTATAGTCTCACTAATTCCACTAAATGCTATATTAACTGAAAATCTATCTTCTAAAACTTGTAAATTCTTATATTGATACTGAAGAACAATGGTAATTTCCTTTGGATATCTAGCTTTGACATTTTTTGATAGAATAACCTCGGGATAATCCGTACGGAAACTTATATAAAAACATTGCTCATCTTTTAATCCTTCGTCTTGTGCATGCACTAATATTTTTTTTACAATATCTAGCATTGCTTGATCTATAAGAACTTGATAATCAATAGACATATAATAATTATCTCTCTTTGTACTTTAATAAAAAAAGACTAACTTTACAGACAGCCTCTTATACAAAACAATAGGGCTTTTCTGTTGCAAGGTAAGCCCCAAACCCCGCGGCATCACTTATCTCTAAGCTACAGCCTGCATACGTTGATTATCGTTTGCATTTACTTTTTTTGACCCACGATCAAAGATCACAGCGGAATCATACTGGGTAAAAATTATTTCTTTATTAAGCACGTCGATCCTATTTCGCCCCCATAAAACAATGCATGGTGGAGGCGCCGGGTACCGCCCCCGGGTCCGAAACTTCTATTCCAAATAACGTTTATTACCATAGCTAATAAGTAGCAAAAATAATTATATCTTAAGTTCGGCTTATATGCAAAGGGTAAGGCAAGTTTTTAAGCAATAAAATCATTTATTGAAACTATCAAATATTAGAATACCACAATCCTTATTTTCAAAATTATAATATACTAAGAATATAACTTCTTAGCCCAGCCAATCGAAACAAAATACCAGTAAGCTATTTTGAATATGAAATAAATAATATATAGTTCAGATTAGTAGGATAATAAATATTAGGGGAAGGTATTTTATGAAAAGTAGAAGAGATTTTACGCCTGTTATAATCACCTTTATAATAATAGTTGTTGAAATTGCAATTAGCTTCAATTCTGTACTATTACCAAACATAAAATTAGACTTAGCTATTAGTGACCAAATTGCTCAATCAACAATTAGTATTGGATTATTTGCGTTAGGAGGGGCTGGAATTATCTATGGAGGACTAGCTGATTCTGTTGGTAGAAGGCCAATGCTTATTTGCTCAATATCAATATTTTTTATCTCAACATTTGCCATCACTTTTGCAAAAAACATTGAAGTTTTTTTAATTGGAAAATTTGCACAAGGACTTGGCTCTGGTGCAGCATGGGTAGTTGGAAATGCGTGCTTAAAAGACATATATAGCGGCAAAGAATATACAAAAATTATGAATTATGTTCACGCAATCGCAGGAATCACTCCTGCTGTTGCTCCAGTGATTGGTTCATATCTTGGAACAATTATAGGCTGGAAGGGATGTTTTCAAATATTGCTATTTTGCTCATTCATAGCTCTTATAAAAATAATAGTATGGCAAAAAGAAACATTGTTAGAAAAAAAGCCCTTCTGCTCTAAAACCTTTATTTTAAACTATATAACCGTATTTAAAGAAAGAATATTTATTAAATTTCTTATAGTTAAAGTCCTATGCGTAATGCTCATATTTGTTGAATCAAGCAACCTACCCCTGATATTTATCGATTATATGAATGTAAAGCCAGAATATTATGGTTTATATGTATTACCTTTATTCTTAATATATGTGACGGGAACAGTTATTAGTGGAAAATATGCAGAAAAATATAGCGAAGAAAAAATTATTTTTTATGGCTTAGTAATTATGATTATTAGCAACTTATCTGTTCTTTGTGTATTTTATTTAAAAATTGCAACACCAGTAATTATCCAGATATGCAAAGTTCCATGTTATATGGGTTGGGGATTTATTTTTGGAAACGCAACTTCCAAAATTGTTTCTGCAGTTCCTGGAAAAGCTGGAGTTGCATCTTCGATAATGATAGCGCTAGAAATGATTTTTAGCTCTCTAGGAATTACACTCACTGGCATAATTTTTAATGGCACTATCATACCAATCACTTATTCTATTATAGCTACCTGCACTATATGCATTATTTCAATGATTTTAATTCGCGAAAGATAATACACTTATTTATAATTTATTATTTTTAATGTGTTTCTCCATCTTTTTCAGAAGCATTTTTCTTTTCATTGGCGAAACATAATCAAGAAAAACCTTACCATCAAGGTAATCTACTTCGTGCTGAATTACTGTTGCAAGCCAACCTTCTGCACTCATAGAGTTAGGCTTTCCATTGATATCTAAATATTTGACTTCTATTTCTTTTGGCCTTTCAACCATTGCTTTGATACCAGGATAGCTTAAAGATCCCTCTTCATAGGTTTGCAACTCTTGTGACTTTTTAGTAATAACAGGGTTAATCATTGTAATTGGATCTTTTTGCAACGATTCCTGAAGATCTACAACCACAACCCTTTTCAAGACTCCAACCATATTAGCACCAATTCCAACCGCCCCGTTTTCATACATAATATCATACATTGAGCTTACTATATGCTTAATTTCTGAATTTATCTCTTTAACGGGGAACGCCTTTTGCCGAAAAATAGGATTAGGAGCAATCTGCAATCTTACTTCAGGTAAAATCATGAATTAAAATACAAACTAGATTGAAAAGCTTTTAATTCGAATTCAGGCATTATACCAATCAGATGATCAAAAATATCCGCCTGCACTGACTCATGATTCGCCCATTTAGTATCTTTAGTAAAGATATAAACCTGCAAAGGAATACCATTCTCTGTGGGCTCAAGCTGCCTGACTAAAAAAGTAAAACCTTGCTGATGTATATGTTCATTTGCCTTCAAATATTGCTCGGCATATTTTCTAAACATAGTGATATTTGCTATAGAATTTTTTGCATCAAATAGCTCAGGTTTATCGTTAGCTAAATCATGCATACATGGCATTTTTTTAAACTTATTCAAATCCTCTTGAGAACAAATTTTCACTGTATCCATATCAAGACTAATCGCACGCTTAATCCTTCTACCACCAGCTTGAAACATTGCACGCCAATTTTTTACACCGGTAGTTAGGAATGCATATGTTGGAACGGTTGTATATGTTTTATCAAAATTTCTAATGACTACAACAGTAATAGTTATCTTTTCAATATCTCCATCTGCATTATAACTTGGGAGTGTAACCCAATCGCCTACTTTAATTATGTCTTGAAAAGTTAGCTGAATACTTGCCATAAGACCAAGAACCGTATCTTTAAATACAAATGTTAAAAGAGCGGCGGCTGCACCAATGCTTGTAAACAAAGACGAAACTGATATACCCATTACTGTCGACACCGTAGTTAACATCGCACAAATAACAATAAAAATTTTAATAATCTGCGTATGCAGACCAATAGGCACTCTGTTTGATATTGCTTTGGTTTTATACATATCCGAAGCTATATTAATCAAGGCTAACAAAAATGTAGCTATAGCAAAAATAAGATAAACTGCAATAATGAGATCTTTTGCTCTTATAGCTGCTTCGGACATTAATTCACTTTTATGAAATACATCGCCCCAGAACATTAAATATAATGCAATAAATAGATGAACCAACCTGTTAGTTAGTCTATGCTTAACTAAAATCTCTTCGTAGTTCTCCCCTTTAAGTTTTGCAATTTTGTTTACACTTGGAGAAACAACTCTCTTGGTAATAAATAATAATGGGTAAAACGCTATAATCATGACACCAATCATCACTAACAACTGATTGCCCTCAAATAGCGAGTATACATCTTTTATCGCAAATAACTCTTCCATCTTCTCTCTCTGACAAATTTCACGTCTAAATTAATTTATGACATTATAATATACAGCAAAGCTGCGTAAAAGAGTTTTTTCAATAAAATATAAGAATTTAGGATAGACAAATAAGTTTTTATTGAGTATAAGTTGCATCAATAAAAGTACATTAAACATGTGTAGTTTGATCAAGGCCAGGTAGCTCAGTTGGTAGAGCAAGGGACTGAAAATCCCTGTGTCGGCGGTTCGATCCCGTCCCTGGCCACCACTTATACACAGCTAATCCATAAATAACCCTAACTATTGACTCACAAATGCGTTTTTATTTTGAAAAGCTAGTGCATTATGTATAATGCACTATATAAACCTATTATAGCTTAAAATTATGCAACCAGTCGAAATAGAAAAAGTTCAAACTAAATCTGTGCCTTGCAAAGGAAAGGAAGCTCCTTATGATCACCCTCATGTATATCTTGAAATCGACCCAAAAATAGGATATGTGGCTTGCCCCTATTGTGGAAAAAAATTTGAACTTTAATTCTTTTCGCGCTATAAAATCTTTATAAACCCATAAAGCAAAGAGGATCTTTTGACTAAAAAAAGCTTTGCGATATCAGTTTTAACTGTATTCATACAATATTATGACTACCATTTATTTGGTTTTCTAGCTGCAAATATTGCATCTCATTTTTTTCCGGCGGATGAAGCTATAACCCAATTAATTAACACATATTTTGTTATGGCTATTGCAATGATTGCAAAACCAATTGGGGCTATTGTTTTTGGAAAAATTGGAGATTTGAAAGGAAGATCAAATAGTTTCAGAATAAGTTTAATTGGAACTGCATCAGCGTCGATGATATTGTTTGCAACACCCAGCTATGAATCTATAGGATTGTTATCATGCTTTCTTCTACTAATTTGTCGAATGGCAATCTGCGCACTTGTAACATCGGGTTCTGATGGGGTTAGAATATATATTTACGAACATATACCAAAATCAAAACAGTGTTTAGGAATTGGAATTACGACATTATTCACACTAGCAGGTTCATTAACAGCATCATTATCAGCTTGGTTTTTTACTCTGAATCATTTTCCAGAATATAGTTGGAGATTTGCGTTCCTCCTTGGAGGGATCATGGGAATTTTTGTTACTATCGCAATGAAAATCACAGGCTTCAAAGATACGACAGAAATCAAAGATGATATTAATTTCGAAGAATTCAAAAACGCATCAACAAAAAACATTGTGTATAAAAACTGGAAATTATTTCTACTATGCATTTTACTTGCAGGAGGAGTTGGAAGTACAAATCAATTTATTATTATCTTTTTTGGTACCTATAATTTTGAAATACTAGAAACAATTGATAGATCATCAATGCAATCATACATAACAATTGCAATCGTATTCTATATGATATTCGGTATTATAAGTGGTTACTTTGCCGATAAATTTAATAGATATCGTATTACTCTTTTGGGATCTATTTCTGTAATAATATGTTCAACAATATTAATGCTTAAGCTAAGTAACCTTGTACTCAGCCCGTTTACATATATAGCAATTACTGCATCACTGCCATTTATAACCATGCCAGCGGCTGCAATACTAAAACAGTCTATCCCCAAATCTATTCGTTATAGACTTTTTTCTTTAAGCCACGCGATCGGATCTGTTTTTATTTCAGCTCCAACAGCACTACTCAGCACTTTTATCTATAAGAAAACAAATCTTGCCTGGCTACCAATTTGCTATTTTATTACCACAATTTTAGTGATATCATTTGCTCTGTACTTCTTAAACAAAAGAGCTATAAGAGACTAATGACAATTAAAATACTTTCAAATAGCACCATCAACAAAATTGCAGCTGGCGAAGTCATAGAAAGACCAGCATCAGTAGTAAAGGAATTAGTAGAAAACTCAATAGATGCTGGATCAACTCAAATTGATATTATCCTTGAGTGCGCAGGCAAAAACTTGATTGTCATAAAGGATAATGGCAAGGGCATGTCCAAAGATGAGCTCGAACTAGCCATTCAAAGACATGCAACTTCAAAATTAGACGAAGATGACTTACTTAATATCAATAGTTTTGGATTCAGAGGAGAAGCTCTTCCATCAATAGGAGCAATTAGCAAATTTAAGATCACATCACAAAAATTAGACAGTGAAAACGCTTATACTTTATCGATAAATGGTGGGAGAATTGAACCTACAAAAATAGCAAATGGTAATGTAGGTACAATAATCGAGGTCAGAGATTTATTTTTCGCAACCCCCGCAAGACTCAAATTCCTCAGGACAGACAGAACAGAACTAACTGCCATCACTAATTGCGTAAAAAAAATTGCTTTAGCACACCCAGAAATATCTTTCACGCTGACACATGATGAAAGAGAATTATTGAAAGTAAGAAAGCAATCAGGACCAGATAGTATTAAAAATAGAATTTCAGAAATCATGGGGACGGAATTCATAGAAAATGCTACTGAAATATCTTTTGAGCGAGGCGGGGTTGTAATATATGGTTATACTTCACTACCAACTTATAACAAAGCAGCATCTGATGAGCAGCATTTATTTATCAATAACAGACCTGTAAAAGATAAAATATTAAATATTGCTCTCAAAGTTGCTTATCAAGATTATTTAGCGCGTGATAGACACCCAGTATCTGTACTATTTCTATCAGTAAACCCTGAACAAGTAGATGTTAATGTCCACCCAGCAAAAAGTGAGGTGCGTTTTCATGATCCAAATATGATTCGAGGAATGGTCATAAGTTCAATTAAAGATGCCTTAAATAATTCTAGCAACCGAGTATCTACAACACCTTCTGCTGCTGCGATCAATTATATGAGAAGCACTCAAGCTAATTCTGGCTTTCGTGAAAATTCTACAAACCAAGGAAGATTTAGCATTCCTTCATCGAGGCAAAATGCCTCTTCACCTACTGTTAGAACTGATTATGCTATGGCACAAGCACCACAAGTGACTCAACGACTTGTGGAAAGCACTCCACAATCAATTGTAGAGCAAGATTCACATAATGCACCGCAAGATTCAATTGACTTTCCTCTTGGCGCAGCAAAAGCACAACTCCACAGCACCTACATTATTTCTCAATCCAGTGACAGTATTATCATCACAGATCAACATGCAGCACATGAACGTATTGGTTATGAAAAAATAAAGGAACAAATAGATAAAAATGGCCTTATCAAGCAAAGATTATTAATACCTGAAATTGTAGAGTTATCAGACAAGTCAAAAGCTGAAATACTTGATGAAAACAAAGCAACATTAGCAAAACTAGGACTTACAATTGAAAAATTTGGTGAAAAATCGATTATAGTTTCAGAAATTCCTAGTCTTGTCGGAGATATTAATGTGACAAACTTAATTTCAGATCTAGCAGATCACTTTACCTCACTTGGAGAAAATATTGCGCTTACTGAATTAATTGAACACATAACCGAGACATACGCGTGTCATTATGCGATTAGGGCAGGCAGAAAACTCAATGCTAATGAAATGAATGAACTACTTCGCCAAATGGAAAGCACACCATTTTCAGGTCAGTGCAATCACGGAAGGCAAACTTATGTTGAACTTAAGCTAAAAGATATAGAAAAACTGTTTGGTAGAAAATAGTATGATTGATTGGATAAATCTCCCTGGCCTCGTTGAGTATTCCAAATCACTTAAGATAATGGAGGATAAACTTGAACAGATTATATTAAATCAAGCAAGCGAAACCATATACTTACTTGAACATCATGATGTTTATACTGCAGGAACAAGCTATAAAAAGGAAGAATTACTAGAAGACTCAAACATACAAGTAATTTATACTGGTAGAGGTGGAAAATACACCTATCATGGACCAGGTCAAGCTGTTATATATCCTTTAATTGACCTCAGAAAAACTAGTCGTAAAAAGGATGTAAAACTATACATTAAAAATCTTGAACTTGCCGCAATAAACACTTTAAGAGAATTTGGCATAGATGCATATACTATTGATGGAAAGGTTGGCATCTGGACAGATCATCAAAACACACCTGCAAAGCTTGGAGCTATTGGGGTGCGCATAAAAAAATGGGTTACTTACCATGGTATTGCTGTCAACATCAATACAGATCTTCAAAAGTACAAAGGAATAATACCTTGTGGTATATCAGATTTTCCAGTAACCTCATTATATGAACTGGGGATTGAAACATCTACAAAGAATTTCAATTCTATTTTTAAAAAGGAATTTGAAAAAATATTCTGATGAAAATATTTAAATTAACTCTGTCATTGATTGTTTTTACTTGGTGCACTGGTTTCTTCTACTTTATTAGTTATACAAAAAATATTACGAATACAAATAGAAATATCACTCAAGCAATAGTTGTATATGGAGGAAACAAAGAAAGACTGTATGTCGGAGCTCAACTTTTAAAGATGGGTTATGCACCTATTGTATATATAACTGGTGATAAACCAAAAGAGGAATATGATAACTTCATAAGAGTGAACAACTTAATTCCTGCGCAATTCATTTTTGATCATAGTTTAACAACAAACAATCTAGAAGCAGTCGAAGATTCTTTAGACTTCATGAAAAAATATGAGCTCCATACAGCAAGAGTAGTAATAAATTCAACACAATTGCCAAGAGCAAAAATAGACTTTGCATCTAAAGTTCCTCGTGAAATTAAATTTATACCTCATGTAGTATCAAGAAAAGGAGAAAAACATTTTAAAGTGTTTATAGAATATTTCAAATATAGCATTGCATTACTTGCATCTTTTGTGGGGATGGAAAATGAACTCAATTTATCATATTCTTGACAAAGTTCCACCGATTTACAAAGAAGATATGCAAGATGAATATGAACATCTTGCACAGGAACTTGTAAAATCTGGAAAGCTAAGAATTGATACTGATTATTACTGTAATTTTGTAAGGTTTTCTGACCCTAGTTTGGGTGTCAATATCTTCCTTAGTCACGAAGAGCTTACTAATCCTGAGCTACTTCAATCCACAAAAAATCATATAAGAAAAGTCTATAGCTCACGTAATAGACCAATATCAAATAAAAAACTATCATCTGTAATGATTGACCTAAATCGAAAGGTAGGAAAATTATTAATGGTTAGTGATGAGTTAAAAATACAATTAGCTCGAATATTTGTTCAATCTGCTCATCCAATAGTAATCAGATGGCTTCTGTTAGATCAGGTAGAAGTATTCATTACATACTCAAATAGTATAGGAGATGTAATGGATATTGCCACATGGAAGAGAGCTGGAAGTAATAGCGGCATGCAGAGCACAGATGGTACAAATGTATGTATATATGTTTCATGTGGAGGTGACCCTTTTGCTAAAAACAATGAAACAAACCCAATATACGGCAATGGTTGGGCAGCTCTTGCTCGTTTGCAAATTATTGCAGGCCAAGAAATAGGACACTTCGCTGATATTAAAAGAGATCCACAAGGAAGACAAATAACACGTCACTCAGCTAATTTCTCATGCACTCAAGCCACTCCTCATGTAAAAGCAGCAAGAAGAAACGATATAGAAAGATGCAATAACTTGATTAGAATCCTGCAAAAATGTGGAATAGAAAGATTAATTAAAACTGAAAATAAACTAAAATTCTATGATAAGCAAAAGATCTCAGGAACTAGAGTATGGTGGCTAAAATTATTCGCAAAATATTACAGGAATCAGCTACTAGCTGCAGCGCAAAAGAAAAAACTATTCTTTGTAAAGAGATTTGATCGAGAGAAATTTATAGGTTTATCACTTGCTGCAATGATTGAAGATATGCAATCACATCTCTCTCCCATAGCAGAAGTCTATAAAAGAGAAGATCCAGAAGCTGAAGAAGCTATAAGCTGCGTCGAAGCATTAGCAAGAGTACCACAGCAAGTTAATAAATGGGGTTACCTGACAACAAGAGCAACTATGCATGATTTATATAAAGTCTATTATAATGAAGTCATACCATCACTAATTGAAAATTATCAACATCTGACCAAAACCAGATATAAAAGAAATTACAATATTCATAAAACTAGTTTTATTAAAAAGCTCCTAACTAAACTCAGAATCATAGGAAGAAAAGGTAAATTTGAATTTACAGAAGTTCGAGATGTATAATCAACAGCTATTAAAATAAATATTTTTTAAACTACACAGCTCCTATTAAATTTTATAAAATAAATTATAGCTTTGCCCAAAAAGGAACCTGAAAACAGCCCTGTTGTAAACATCTATGGCGCCTCTAAACTAGCTGAAAAAGTTTTATATTTCACAAATGAAAGTACTAAGAAATAATAAGTAATTTAGGCAAGAAAAACTGTCCTTTCATTGTTAGATAGAAAACCTACCAACAATAGATAAATAAAAATACACCATGCCCATAAGAGCTTATTAACTATGATCTTTCTTAAAGACTAGTATATATTTTCCATTATTTCTCTAGCAAAAATTCTTAAATATATACTAGCAAATAATATTACAAATCATTCTCTACAACCCAACCATCTAATGCTTTTAAAGCTCTATCAGATAAGGCTGTATATCTTTCTTTTTTAGACTTAATTCGTATATCTAATTGTGGAACTAAACCAAAATTTATATTCATAGGCTGGAAAGTTGATGCGTCCGCTCCTTCGGTTAAGTGAGATAATAAACTACCCATTGCAGATTCAAACGGTATATTAGTCAACTGCTTATTGTTTATCTCATAAGCCGAAAAAATGCCGGCAAGCAAACCAATAGCAGCACTTTCAACATATCCTTCCACACCAGTAATTTGTCCAGCAAACTTAACATTGGACTGGTTCTTGAGTTCTAATTTAGATCCTAATAATTTGGGGCTATTTATAAACGTATTTCTGTGCAGTCCTCCAAGCCTAGCAAATTCTGCATTACCAAGACCAGGAATCATTGAAAAAACTTCCTTTTGCGCCCCATATTTAAGCTTTGTTTGAAAGCCAACTATATTATATAAACTTCCAAGTGCATTATCTTGCCTAAGCTGTATAACAGCATATGGCTTTTCATCTGGAGAATTTGGATTCGTAAGGCCTACTGGTTTCATCGGACCAAATCTTAGAGTATCTCTACCCCTCTCTGCCATTACTTCTATCGGCAAACAACCATTGAAATACGGTGTATCTTTTTCCCATTCTTTAAACTCAATTTTATCACCATCGAGCAGTGCATCGATAAAGTTATAATATTGCTCCTTATTCATTGGACAGTTAATATAATCCTTACCGTCTCCATCTGGACCAACTTTGTCATATCTTGATTGAAACCAAGCAATATCAAAATCAATAGATTCCTTATAAACTATTGGGGCAATTGCATCAAAAAACGCTAATTTATCTTCTCCTGTAAGATCCATTATCTTATTACTCAATGCATCAGAAGTAAGTGGCCCAGTAGCAATTATCCATGCCCCATCACTAGATAGTTCATTAATTTCTTCTCTAATAACATTTATATTTGGATGATTACTGATCTCTTTTGTTACCATATCAGCAAAAAGATCTCTATCCATTGCAAGTGCAGAGCCAGCCGGAACTTTTGTTCTATCTGCTGCTCTTATAATTAAAGAATTCATCTTGCGCATCTCAGCATGAAGTAAGCCTATAGCGCTTGAGATATCATCATTTCTAAAAGAATTCGAACAAACCAACTCGGCAAGTTTATCAGTATGATGCGCAGGTGTCTTCTTCTGCCCATTACGCATCTCATATAAATTAACTTTAATACCACGATTTGCCGCTTGCCATGCAGCTTCAGAACCTGCAAGACCTCCACCAATAATATTTAATTCTTTCATTATCTATATAATTTTAATTTCTTAAAGAGATATAGATAATAAAGCAATAAGCTGGTTAATACAAAACAAATTGAAATTAAAAATCCATTAGGTCCTAAAGTTTCCTCCGAAGTATCGCTAGTAATATAACCACAATAATACCCCATTGACGCAGCTAAAGCGTATATTGCAAGTGCACTTGTAAAGTTAATTCCTTCGAACTTTCTGCTTAATATAAAGATATTTCCTATAAAAAATAACATTATTGAAACACCAATAAACATCAAATTGATAATTAAAAACATTGAATTTTGGCCTAGTACTGATAACAGTAGGAATAATAAAATTAGACATACCAAACTAGTAATATTAGTTTTATGGATATTACGTTTAGAAAGAAAAAATTTAAATAAAATGACTGGAATTACAATTGCAGAAAAGCATATAAAGCTAATTGTTTCAGATGATACACTATGCATTTGATGAGAAAGTGAGAATACTTCATAACCATTTCTAATTGACATTAAAGTAAAAAATACAACAAATGCCATCAAAGATTCTAATTCCATATTCCTAATTACAATATTAAAATTGTAATCTTCATTATCGCGCTTGCTTCTAAACCCCTTAAAAGAAAAAACCATTAAACAAAACACGAAAAGAGGAATAATATTTGCCTTAAAAATATAAATCATGTCTAAATCTTCAAAAATTTTGTCAATATTATAAAGGTTAAAATAGACAATTATTATATAAGATATAAGCATCTCAGCAGGCAATAAAATTACCAGATTTAGTTTTTTACTCCTTCTAAGCTCAAACATTTTATCTATAAACAATAGAACCATCATCATGGAAGTTGCACCGTATACTATCAAGCTTAAAGTCATTATTGCATCATCTAACTCAAAGAGAATTATAAAAAAGCAGCAAAGAAAATTTAAGGGCATTGCAATCAATACCACCCTGTAAAATGATAAGATTGATGTAAATAGAACGATAATTGCAGATGCAAGGACATAACCTAACATCTTGAGAAATTCTATATGATCATAATCGTAAAAAGATAGGTGTTCGTATGCGAAAAAGTCTTCCAATATTTTAGCATTAATCAAAATACAGCAATAAAACGAAACTGCACATAAAGAGTAAACCCAAAAACCTAAAAAACTATTTTTCTTAAACATAAATATTGTTTGCTAAAAACCACCAGTTGGTATATAAATTTTTGTAGTAAAAAGGCGATAGGGCAAACTACATTTTGATTATCCCCAAATAGCCTAAAATAGTACCTTAAGAAAAGAGTATTATTAATAAAGTAATAAATAAAGAATTTGGGCATTAAAACATACTTTTTAATAGTTTTTGATGCATGTTTGCCGGTCCTTTTAAAAAATATTTAAATACATTTATGAGCATATATGAAAAAAAGAATAATAATCGATGGGAACTTCCCTACAGAAACAAGGGTTGTTCTACTTGATAAAAAAAATAATATAGAAAATATTGAATTTAGTTCGGCAAATAAAAAACAAATAAAAGGTAATATTTACCTAGCAAAAGTAACTAGAGTTGAACCTTCCCTTCAAGCAGCCTTCGTAGATTATGGCGAAGAAAAAAGCGGCTTTCTTCCATTTAGCGAAATACATCCTGACTACTACCAAACTCTTTCATCCGATTCAAAATCCAAAACGATTGCTGGAAATGAATTAATATCGCCAGAAATAACCTCTGAAGATCTGGAAGAAAAAGAATCAGGAAATAAATTTCACGAATTAATTGATAGTGATGATATTGATATTAGCGCGATTGAGAAAATGGTCGACGAGAAGCTACAATCAGATATAAATATTACCGCTGAAGAAGATGAAGTTGACGCAATTTCAAAAGATTCTGAATCCACTGAAAAACAGTTTAAAATCCAAGAAGTAATAAAAAAGGGTCAAATTCTTCTAGTACAAGCATCAAAAGAAGAAAGAGGAAACAAAGGAGCATCCCTTACAACATACATATCTCTTGCCGGAAAATATTGTGTATTAATGCCAAACAAGCCTTCGCAAAATGGCATTTCAAGAAAAATTTCAAATCACGATGAACGCAAAAGACTAAAGAAAATTATAAATGATCTTGCTGAAAAAGGTAATAGTTGCTCTAGCGTAATAGCCAGAACGGCTGGAGCTGGTCATACTACTCTTGAGATTAAAAAGGATTATGACTACTTAGCTAGATTGTGGAATAAAATCCGCGAAGCAACTATCAAATCTAAGGCACCGTGCTTTATCCATCAGGAAGATGGGGTCATTCTCAAAACAATTAGAGATATGTTCGACAGGAACGTTAAAGAGATAATTGTGCAGGGAAAAGAGGCTTATGCTTTATGTCAAAAATATATGAAAGATGTTCTACCTAGCCAAGCAAAAGTAGTAAAAGAGTATAAAAGCAAAGCACCAATATTTACAAAATTTGGTATCGAAGATCAATTAATAAAACTATATCAGCCAATCGTACACTTACCTTCTGGAGGGTATATTGTAATAAATCCAACTGAAGCACTTATTTCTATTGATGTCAATTCTGGTAAAGCTACAGGTGAGCGCAATATAGAAGAAATGGCTTTAAAAACAAATCTTGAAGCTGCAAGAGAAATTGCAAGACAATCAAGATTACGCGACTTATCAGGACTTTTAGTTCTTGATTTCATCGATCTAAGTGAAACAAAAAATCGTAAGATCTTAGAAAGATCTCTTTGGGAATATTTTAGTAAAGATAAAGCAAGAATACAAACAGCGCCTATAAGCACATTCGGACTTCTAGAAGTATCTAGACAAAGATTACGCCCATCTTTCCTAGAAATGAACTCTAATATTTGTTCACACTGTAGTGGTAAAGGAATTGTCCGTGCGGATGAATCAAATTCTATGCTTATACTTAGAACAATTGAAAATGAAATATTCAATGGAAAATATGACGTTGTAAATGTTTTTGGAATAGCATCTTCAATTATCTACTTACTAAATCATAAGAGAGAAGAAATTTCATTTATAGAGTCTAAATATTCTATAAAGCTTAATTTTTCTATAGATAGAGATGCAACATCTGATAGCTATTCTATAGAAAAAATAAAGCTCTCTGATAAAAATAGAACTAATACTGCTCAGCACTCACCTGCACTGCAAGACACTTCAGAAATTTACAATGAAACTGAAGAAAAATCTTACCCTAAAAACCGTAGAAGAATTGATAAGAGCAAAGGATCATCAAGTAAAAAATCGCAAGAAGAAATCGAAAACGTAGAAGAAAATTCAGAAAAAATAGATCAAAAATCTTCAAGCTCAGAAAAAACTAAACAAACTTCAAATGCAAAAAGAAAAAGAACTAGTAAGCACAAGAAAAAAATAACAAAAAAAGATACTGGAAAAACCGACAATTCAAAAGAAAAAACTACTTCTGATGAAAATACAGTAGAACCTGAAGCTTCATAAAGTATAACGAAATATAATCTATTGGTATGAATAAGGGAGAAAAGCATTATTTAAAAGTAGCAATTCTACTAGTGTATATTTTTTCCCTTACATCGTGTGGGTTTAAACCAATCTATAAAAAACAATTAAACCCTACGAATAATTTCTTGCAAAGCATTGAAATTATTCCTATTTCCTCTCCAGATGGAGCCGACTATTACAATCATTTAAATAATATATTACCACCTAGTAGTAGCCCTAAATATCATTTAGAAACTACATTATCATATGGAAAAGACTATAGTATTATCCAAAGAAACTCTGACGTTTTACGAGAAGTAGTTACAATTAAAGTTTCATACAAATTAATTGAATCTAAAACTCAAACATTAGTTACTTCTGGATACTTTACTAGATTAGCATCATATAGCACTAATTTTTCTCCTTATAGTAATCAAACCAACCAACAAGAAACACAAAAATTATTAGCAATCATGTCTGCAGAAGAAGTAAGAAATAGAGTAATATTATTTTTTGAGAATAGTAAAAAATGAAATATTTTGCATCATCACTGTCTGAATTATTGCAAAAAATAAAATCAGGAAGTATAAAATCTCTTCTAATCCATGGAATAAACCACGGTTTTGCTAAAACTGTTATTGAACAAATTGCTAATAAGAATAACTTAATTATTTCAGAGTTTGATATAAAAGAAATCACAGCCGGCAAATTGCAGCTAATCGCCAATAGCACAAATTTCTTCAAGCAAAAAGAATTAATCAAGATAAACGGCGTTAAAGGAACACTCTCCAAAGAAATTCAAAAATGTATTACAGAAAATAATTTTGAGCATTTTATTTGTTTTTACAGTGAAGAATCTTTACCAACCAGTGGAATACGTCATTTTTTTGAAAAAGGTCAGGATATTGCTTCTATTGGCTGTTACTATGAAAACGAAGATACCATAGCAAAAATCATTCTTAGGCAATGTAAAAAGTATAATAAAAATATAGAAGAAGAAGCTCTATTTTATCTAAAATCGCATCTAAAAGGCGATAATCAAATCATTAAATCTGAACTAGAGAAAATATTTAGCTTCACCCACGATAAATCTCATATCAATAAGGAAGATGTGTTATCGACATTAAGTGCAGATCTTCTTGCAAGTGGAGATGAAATGTGCATTTATTTTGCAAAGAAGGAGGCAGAAAATTTTTTAAAGGAGATAGAAAAACTGAAAGACCAGAATAAAAATGAAGTACTGATGATTAGAGCTCTCATCAGATATTACTTAAATATTTATATTGTTGCATCTAAGATTGAAGATGGAGAAAATGTAGATATAGCTATCAAATCATTATACCCACCTATTTTCTTCAAGTATCTTGCTGATTTTAAGCAGATTATAAGAACGCATACTTCAAAAGATGCTATTAGATGTCTTAAACATCTTCAGCAAGCGGAAATTAATTATAAAAACAATCCAAAAACCTTTGATCTTTTTTCTCTATACTCAAATATGTGGTCACTTTAGCAGCACCAGTTTAGGACATAGGCGCGCTAAGTTATTGATTTTTACTGTTCTTTACTACTCAGCGTCATCGCGAAGGAGCTTTAGCGACTGCGGCGATCTATTTGTGGATTACTGCGCCCGCCTTCTGCTCTTCGTAATGACGCAGGTCAAGCCTCATTTTCCTATGGTCTTAAACTAACTCATACAATAGA
>sequence06
TCTCTCATCAGACATTATCTTGCTAGGTCCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCTAAAACTTGGTTATAAAAATATTGTTAAATGCTTCATTTTGAGGTACAATGTTCTACATATTTTAACCTTATGAAATTTGCAGTATTATTGTGAGATTAGTTTTGACATTGTTAGTTGCATTTTTTGCTGTTTCTGCTTCTGCAAAACAGTCAGATAGGCATATTGCTTTGTACAAACCAGATGTTCGTGAAGCGAAAAAACATCGCACAAATGATCTGTTTAAGTCTTATCTTGAACTTAGTTCCTTTCGTCATAAAACTTTGGCACAAAATGTTGCAAATGTGAATACACCTGGTTACAAAGCAAATGAAGTAGAAATGCCAGAAGATTTTGATGATTTAATTGGTAAAGGTAGAACTTCAAGAAAAATCTCTATGGCTAGAACGTCTTCTAGGCATATAGGAGGAAGTAAAGATTCAAGTGGAAAGTTTGTTGCTCAAAAGCTTAAGGATCCTTATGAGGTGAAAAAGAACGGCAATAATGTTTCGATGGCGCAGCAAATTTCAAAAGTTTCATCAAATAAAAAAGACTATGAAGTTGCAGTTAAAGGTTACGCTACGTTAAATTCATTGTATGGAACGGTGGTTGGTAAGTAAAATGAAAAGGTTATTTTGTATTATGGTTGCAGTTTTGATAGGAGGGAGTATTCCTTTTTCTGCTTTTGCTGATAATCTAAAGAAAGCATCTGCAATTGCAAGACATGGGGCGCGTTTTCAGTCGGAAAGATTAAAGATTGCAGCCGAAAATATAGCAAATGAGGATTCAACTGGAGCAACACCAGGTGCAGATGCATATCGTAGAAAAGTTATTTTTGCTGAGAATAGATATGATAAAAAGCTTGGTACGAATATAATTAAGACAAAGAAAGTTGATGTGGATAATTCTGAATTTATTATGAAGTTTGATCCGCATCATCCTGCAGCGAATGCAGAAGGATATGTAAAATATCCAAATATTGTAAGAGAAATAGAGCGTGCTGATGCTGCTGAAGCTCAGCGTGGATATGAAGCGAATTTAAGTATTATGGAAGTTACAGGTTCTCTAACGCAGAAGACAATCGAGGCAATAGGTAGGTAATTATGTCAGTAGATAGTGTTGGATTATTAGCTCAGCAAAGCTATACACAAATTCAGGATAGGCCGAAATTGGATGTTGCGGAAACGCCAATGTCAAGAGCTGTCTCTTTCCAAGATACAGTTGAAAGACAATTTAACAGCTTTGCTAATATGTCCCCTGACCAAATTTTGAGTCGTATTCAAGGTGCGAAACAAGCAGGTAGTGCAGGAGGTGCTGCTTCGGTAACAGCTGCAAGTAATGGATTATCTAGCGGAATTGTTGGTAATACAGTAAAGGCTATTAGAAGTTCTGTATCAAATCACGAACAAACTGCAAGAAAATCTCTTATTGGTGAAGCTTCGCTTATTGAATTACTGACAGCTACTACAGAAGCTAAAAACACCATGGAAGCAACTGTTAAAGTTCGTGATAAATTCCTTGAAGCGTTTGATAAAGTTATGAATATGAGCATGTAGCCAATAATAGCTTAGTAATTATTGTGTGGATTTGATTTAACATATTATTCTTATATTTCAATCTGTTTCTTTAATAAGTCGGTCATTTATAAGTAACAAATCTAGCTATATTTTATTTCTGTTGTAAGAAAATAATTATTTTTTATACAGTTAATTATAGAGATAATTTAGAAATTTTTTGAAAACCTGAACTCATTTTTTTGCTTTCTTTTTTCTACTCTTTTTTCAATTATATTGTGAATAAATAGTACAAAATAGGATGGAAACATCATTATCAGTATACCAGGAAAGTAATATTCTTCTCCTGTATTGTAAAAAAAGTTATCTATATAACTGATAGATAAATTAATATATTTTGATACAAATGAAAATGATATCAAGATTAGTAATAGTCGTATAGGGAAATATAAGTAATCAAGTTTAGCACGAATAAAGTAGCAAAAACCAATAAATGGATTCTTGCAAACATCAATAGTAGCTAGAATTTCATTAGTCATCTCGCTATTTGGGTCTATATTAGTCATAGCATCGGCATGCCAGTTTGCCATTTTTATATCTCTGTTTATCAAACTTATACGAGCTGCAAGGTAATGATTTTTTAAATTAACTGGGTCGATTTTAAAGATTTTATCAACAAATGTTTGAGCTAACTTATACTTGTTATTATTAAAATTATTACATGCTAAAGTCATTAAGCCTTCTACGTACTTTGGATCAAGTTCAAGTGCTTGATATAGTTCTTTCTCTGCTTGTTTTTTTTGACCGTTTGTATCAAGTATTAAAGAATAAGTATGATGATATTCTGGATTTTTAGGGTTTATCTCTAATGCCTTTTCAATATATTCTATTGTGGCATTGCGTACTATATTGTTGTCATATCTCAAGGCGTTATTATAGCGATAGTAGCCAATTATTGCATAAAAATGATACGAATCACCATAATTCGGATTGAGTGTGATAGCTTTATTTAAGTATTCTTCTGCCATATAAAGATAAGTCATATTATCATTTTGGTTACAAGCATTGATATAGCACGATGCCACATCACAATGAAGATTACAATATTCTGGGTAAATGGAAATTAGGCTATTATATATGTTTGCAGCCTCTAAGTAATCTCCTGCATCGATCAACCTTTTTGCATGCAACAATTGCTTAGTATAATTATCTTCTTCCATATTTATCGATAAATTTTAATATGTCATTATATTGACCAGAATCATTGGCATATCTTGCGTAGTTGCTTGCCGTGGACAACCATTCAGCAGTAGTTGGCTGTAGTTCATGTAAAGCATCCATAATTATTTCTTCATCAATATCAACTTCTACTCCTTTATCCAGAGATGCGTCAATAGCCAAATCACAGGCTATTTCCATCAAATTTGCAAGATCAGCTCCTGAGAAGCCTCGAGTTTTTTTGGCAATTATTTCAACGTTAATATCATCTGTACAAGGTCTTTCGCTTATAAGCATATTGAGTATTTTAATTCGCGCTATTTGATCTGGAGGTGGGATAAACTGCACACGGTCAAATCTACCTGGTCTTCTAAAAGCGGGATCAATTGACCACGGTACATTGGTTGCACCAATGATTAATACTGCTTCATTATTATTTGAGAACCCATCCATTTCAGATAAAAATTGACTAACTAAATTAGCAGCTGAAGCGTGATTATCGTGTTTCCTTGTTGCTGCAATTGCTTCTAATTCATCAAAAAAGATAACAGATGGAGAGTTTTGCCGAGCAGTTTCAAATATAGCACTTAATCTTTTTTCAGACTCTCCAATATACATATCCAGAACATCGGAGATAGCAATAGGGAAGAAAGTAGCATCACATTCGCCGGCAGTTGCCTTCGCAAGCATAGTCTTTCCACACCCCGGAGGTCCATAGAGTAGCATTCCTCCGCCTGCTTTTTTACGAAATTTCTGGAATAAAGAGGGTTTTTTGAAAGGCAAGATTATCCTTCTCTTTATTTGGTTCTTTACTTCATCAAGACCACCAATATCAGAAAAAGTAATTGCTTTATCGTCAACATCCCAGACTTTATTTGCTATACTCCTATCATTTTCTTGAACTGGTTCATAACTATTAAATGCAAACTCCTTGTTGCTATACTCATTTTCATCATAGCTTCCTTCTTCTTCATTTTGTTTATTCTTATCAAGCATAGCGTGTGTTTTAAGTTCTAGCTCAAGAACTTTATCTTCAAGGACAGGGTTTAGTTCAATCGCCTTCTGGTAAAGTTTATATGCCTTACCATATTTTTCCTGTTTTGCATAACCTTTAGCTTTTAATATAAGTTCAAAAGGTTCATTACCATCTAATAAATTTAAAAGGTCAATTATCTTATTATCAGCAAGTAGAGTATTTGCTGCTAGTTGCTTTGTAGTTGATTCAGAAATTATTTCTATATGCTTTTTAATTAAGCTGGAAGCTTTAGTATGTTCTTCAATTTCTTGATATTCTTCAAGTATGAGTCGGAATAGCGTCTCGTTCTCAGGGCTTTGTTCAAAAGCTGTAAGAAGCAATTATAGTTTCTCTGACATAAGTATATTTGTGTTAACTAAAAATAGATTTTTTTTAAAGTATATTTATACATAAATTGTAAGAGTGAGTCAATAATAGTAATCACCTAAACGGTTACCTATAATCTGCTTCCAATTGTACTAGACCACCTATCATTTCATTTAATCATTCTAACTAAAGTATCATCCTTACGGATAAAGTGATGGTATAGAGCAGCGAGAATGTGTACCGTGATTAGAATTACAAATCCCCAAGCTGCATATCCATGTGTTGCATGGAAGAGTTTTGCTAGTTCAGGGCTTTTTTCACTTGCAGCTGGTATTGTAAATATTTCAAATACAGAAATAGGATAGCCGCCGAAACGGGACATTAAAACTCCGCTTATCGGCATTACTAACATGAATATATAGAGAAGCAAATGTCCAGCTTTTGCAGCCAGCTGTAATATTGGCGGAACTCCTTCAGTTGCTTGTACTGTAGCATTAGTAATGCGCCAGAGGATACGAATAGCGACAAGACAAAGAACTATTACACCAAATGCTTTATGCATTCCGTATAGTTCAAATTTTTCAGGAGCAGGGTCCATAGAGGACATTATAAATCCTACAGCTATAAGGCAAATTATAAAAAGACCAATAACCCAATGTAATATTTTGGCAATTGAGCCATATGAATTTTCAGTGTTTTTAAGCATATTTTTCCCCATTTTAATTATTTTTTATGACCATTCCTTGCCCTGTAGGTAATTCTAGGATTTTATGATTATGGTTTTTTAACCATTCAATTTCAGCAATTGTTTGTTTATCGTATCCCATCCAGCCAAAATCGTCAAAAACTATAATACCTCCTTTTGTAACCTTATCAAAAAGATGTTCTAGTGCTGCAATTTCTGACCTAGAAGAATTCATATCAATGTGTAGAAATGATATTTTTCTAGGGCATTTAGTTTTAAAACTATCTGGAACTATTCCTTTGACTGGAATTACATTCTTATATTTTGCAAATTTTTGTATTACCTGTTCGTATATTTTAGGATTGCTTTTATATACTTTATTGGATCGCTGCTCTGAATTATATTCATCGGGTATTCCTTCATATGTATCGTAAAGATACATTTTTTTCCGTACTTTAGAGAAATCTAGATATTCTGCAACAACTGACATAGAGAATCCAAGATACACTCCACACTCAACAAAATCACCAGGTATATTGACGCAGTGAGATGCTGTCCAGCATAAAGTATGCACTCTCCACTTTAGTGAGTCTTCTTGCTTGTTGCTAACATTTTCCTGAAAAGATTTGCTAAAATCAGAATCTTGCATAAATGTTAGATTCCGATTGAAAGTTATCAAATTATCTGCTGCATAGACTTTTTTAAAACAATGCTTAAACGCAGCTATTGAATTATTGAAATTATTTTTATTTTCCCCTGAGAAATTGCCGTAGAACATAAAAAATGCTTTTACTTGTGTTTCTAAAGGCTAATTAGAGTTCATTTTTCTTGAGTAGGCAATAGATTTAAGGCGATTACAAATTTTTTCAAAAATAGGACGTGGTAAAATTTCCTTACTTACAATTTCTAAGAAGTGATTTTGGATTTTGATAGAAAATGATGGCTTACTAAATACTGGTCCATCTATTTCTTCTGCAATACACAAAAAATTTCCAATAATTTGACAATTATTATGTTCTTGCTTACTTATTATTTTCTTAGAGATTTTAATTAACTCTTGGCTAGGCTTAAAGTTTGAGCTATACGCAAGAACTAACGCTAGTTTCACTCGGTTTTTATGAGTAAATGGTATTTCTGAACCCAAAATAAATTCAGATATTGCCGTCGGATGCAATGTTTTATCAAATTTATGTTTTAGCTTGAGCAACATAATTGACAATTGCATAATTTCAGATATTTCTGCTTCATTTGAAATGAGAGTAGATATTATCGAAACATAACTATCAAAATCTGTTTTTTCATTATGGTAGTTACACGTATATTTTACTTTTTCAATTACTATATCCTGTTCTTTTGGATAGTTGCTTATCGATTCAAGGCGAACTCCTTCCTTTAGGCCGTAGGTTGAGACAATAATATTTTTAGGCTTAAAAACAGAAATCATGGATTTAGCAACTAATATAGCGTTATTATTGATTTTACGCTTTCCAATTTTATTTTTAGTACTTTCAGAAGATGATTTAATCTTGTCTAAATAATATATGAAGTCTTCAGTTGATATTTCCAAGTTATGCAAGTTCTTCATAGGGTAATTCATAAAATCAATATAGAGTCTACCAATGAATCTTAGCGCACCACCAATTAGATATAGATTATCATAATTATATTCTCCATATTCATTTTTTATAATTTCCGTGATAGTTTGTTGATTACTTATATTTTTACTAGAAATTACCTTTGTTCCAAGTTCAAGTGATTGAAGTTTACCAATTTCCGTATTTGAAACTTCGACTAATTCTAGGCTTCCACCACCAAGATCAGCTGCTATTCCATTGCTATGTCTTATACCTGCAACCAAACCCAAGGCTGTAAGGCGCGCTTCTTCTGCGCCGGAGATAACTTCAATATCAAAATTATACTTATTTTTTATAAATTTGATAAAGTCCTTAGCTTTTGGATGTTCTCTTAGAACAGCAGTGGCAACGCACTTAATATTTGTAACATCAAGCTGTTTAAAAATATGTAGTAAATATTGAATTGATAAGTATGTTTGATGTTTAATATCAAAATCTTCTTGAGTTAGAAGGCTTAAAATATCATTTTTAAATTTACTATTAAAAATTTCAGGTGCACCTATATTATCATTTTCATAGATTACAGCCCTAATGGCATTATAGCCAATATCCATTATTGCAGAGCGCATTTTTCTTTTTTTTTAATTACTTTGCAGAATGAGATCTAAAGTCTATATTTATATTTGATGCTTTTTCTTTTATTAATTTACTATATTTTTAAGCATCAAACAGTTGAATTGTGACTTACTAATGCCTCTAACTGCCTATACCTTACGCCTGTTCTTCATCATTACTACTATCCTGTGCATCAGGATCAAATGGCGTTTGGGTTGGTACAAATGTAGGCGGTAACAGCCTACTTGTAAAGAACTTATCTTCGTAATACTTAATTTTCTTTGAACGAATAGGTGGAAATGATTCGATTAGAACGATTTGATCATCTCTTGGAAGAGTGATAACTTCTTGTGGAAGAAGCAAAGCTCTTTGTACTTTTGAAACGTTTTGAGTCCTTGTTGAAACATTCAAATCAAAGAATAGAGGTTTGTTATAAGATGTCTGTTCTACTGTTTTATTACCACAGAGCTGAGAAATTAGATTAGCTGTTTCATAGTTGTTCGCTGCAAAAGTTATTCTGAATGTAGAGTTTGATAAGAACGAGTTCATACCAGCTTCTTCATAAGTACCTTTTAGCTGCTGCGTATCCTGGATAATTAAGAATAATCTTACTCTATATCCCCTGAAATAAGCAATACCAGCTTTAAAAGCTTCCATTTTACCAAGAGTTGGAAACTCATCGAGCAAGAACATTACACCATAAGGCTCTTCTTTTTCATCAGGCATTTTTCTACTCAAGAATTCCGAAGCTTGCTGATAGAAAACCTGCATCAATTTTTGTAAACGCTGAATATTATCAGGCGTTAATCCTACGAATACTGTTGTTCTTTTTTTCTTAAATTCCATAATATTAAAATCTGAAGATGCGGTTGCAGCATCAATCAGTGGATTCGCCCATAATTCAAGTGATGAGTTCATAGTTGAAACCACACCTGAGCGCTCCTTGTCTGCTTTTTGTAGGAATGCTGCTATATTCATATACGCAACTGGGTGTATTGCATCGCCGAGAGTATCAAGAACAACAGCAAGATTATATACAACATCATCACTTCTCATTGTACGCACAACTTCACCAAATGATTTTGTTTTAGTATCATCGGCAATTAAGTATAGTACAACACCAAGAAATAAACTCCTCGCTTCGTTATTCCAGAAGTCTTTTTCAGGCATGATAAGATTTGATATTTTTTGTACATCATCAACCATTTGCCCCGGCTTAGAGCTTACCCAATCAATAGGATTATAGCAGTGTGTTACACCATCTGGATTCGAAGGCTCCCAAACGTAAATTTCTTGTCCCTTTTTAGCACGCCATCCACTAGTGAGCTGATGGTTTTCGAGCTTAATATCGTGCACAACAACTGAGTGATCCCAGAAGAGTAAGTTTGGTATTACAAACCCCACACCTTTACCTGAACCAGTTGGTGCAAAAAGCAGAGAGTGCTGAAATCCATCGGCAACAAAATAACCAACGGAATCTTTACCAAGAAGCATTCCATGTTTTGAACGTAAATTTGCTCGTTCAATTTCTGATTGGTTTGCCCAGGATGCTGAGCCATATACATCTTCTTTAGGTTTGAAGAACTCTAGTGTTTTAATTCTATTAAAATTACGCACATAATATATTGTAACTATTGCTAGTGGCGTAATAAGGGCGAGTATAAGTTTTATTTTTAGATAATCATATGCTTTAAAACTTAATTGTGACCAAGATGATAAAAGCCATGATGCCCATTTGTAAGCAATCGCAATGGCAGTTAAGTCTAGTCCAAGAGAATTATATTCATTCGTAACAAATGCAACAAAAACTCCGCTTACCCACAATGTACAAAGTAGTACAAAAGGGTGTACTATCATATGGCCAAATATTGTTCTTGCTGTTTTAAGAATGCTACTAAATCCCATCTTCTTCGCCTCTTACTCCTTTAAAATATATTTCTGATACATATCTTCTGCCGCCGCCGCCTCTTTTAAGTTGAACTACAATATCAACTACATTTAAAATATATTTTTTAATTTCTTCCGGTGGCATTCCAAGCCCAGCTTGCATTACCATCAATTTTAGTTGTTCAAGTGCCATTGATGGAGCATCTGCGTGCAATGTTGAAATAGAACCAGGGTGACCAGTATTAATTGCTCTTAAAAAACTAAAGGCTTCAGCTCCACGAAGCTCACCCACAATAATTCTATCCGGTCTAAGACGTAAGCACGCTTCAATCAGATCTTGAGTAGTAACCTTTGCTCTACCTTGGCCACCTTTTGATGCAAGCAAATGCACTCTATTGGGATGCTGCGGTAATAATACTTCTCTAGCATCTTCTACTGTTATTAAACGCTCATCTTGAGGTATTTCACCAAGCGCAGCGTTGGTAAAAGTTGTTTTACCTGTTGATGTACCACCGCTAATTATAATATTCTTTTTACATTGCACGGCATGGCGAATAAATTCTTTTATATTTCCTTTTTTTATGTAATTAGCTAGAATTGCATCATTTTCATCTACAATTTCTTCAGTTGAAGTATCGTCGAATGCACCCATTTCAGCATATTTATCTAGAGTTAGATGCATCGTTGAGCCTTTTCTGATTGCAAAGGCTGCCATATTCGGCTCTACAGCAGGAGGAAATACAACCTGTATACGATACCCATTAGGAAGAGTTGCTGAGAGAAGCGGAAATTCTTCTGAAATCTTTTGATCAGTCGATTGTGCAACAAGCCTACCTAGACCAAGAAGGTGATCAATATCGATCTCAGGAACTTCTTCAACTCTTAAATCACCTTTTTTTTCAACCCAGACTTCACCTGGCTTGTTAATCATTAGTTCGTTAACGCCATCTTCTGCAAAAATCTCTTTAAAAGGTAAGAGATAAGTTTCTAATGCCGCATAGCTCATCTTTTTCTCCTTGACTTACTTATTGCTGCTTTTGGGAACTTGTAATCTTTATTTACATAAATTTTAACAGGAGTTCCTTGATCAATTGTAATTGTTGGTTTGAATTCTTGCTCCTCGACGATTGTTTTAACGGTATCAGAGATATCAGTGAAAGCTTCTTTTGAAGCGTTTTGTGCCTGAGTCTCTTGAACGTTTGTAGTAGAGTTTGACAGTAGAGAATTCGAAGCTGTCGTTATCGCTGCCATAAGAGATGTTAACTTATCTGCATCAGTTGTACCAGTTGGGGTTGTACAAGCAGTATTAATTTGCGTAAATGCTGTCGAAGTTTTATCTGTGATTGCTGCAAGAACATTTGCACAGATCTGAGCTCTCTTTTGCTGATCGGTCAAACCTGCCTGAGTAAATGTTGCATTAGCTGTATTTTGGATATTTGTGGCTTGAACATTCTGATTTGCAACCGCTTGTGAGCTAGCTTGTGGTTTGACAATAGTATCAAGCGCATTTGCAAGTGCTATGTTAAGCATTGATCTCATAATTGAATTTGATAGACGTTCTCTAAATTTATTGTCAACTCGGCCTTGGTTACCTTTTCTACCTAGAGCATCAGCACCTGTGCCACTTAGATTTAAAGTATATCCATTAGCAAGATCAACTCTTGTCCATTCAATTGCAATACGACCATATGCACCATCAATACCTGTTGCATAATTTCCAAAGACTCTAGATCCTTTTGGAATTAAGATATTTCTACCCCATTCAGAATAGACATCTCTTTTAATTATTGCACGAATTTCACCACCAAAATCTGTATTAATTGCCGTTTCTATTATAGCATCAAGCATTTTACCACGGCCAAGTATAAGATTCATGTCTCCTCTGTATGAAAAGTCAGCTTCCTGCTGAATTTGTTCAGGAGTTTTTTCCGGCGGAGTGCCAGCAACTAAAAATATGGCTGATTTTCTTTTTTGCTCAAGCTTTTTATCATCTTCTTCGGTTTGAACTTTTCCAAAAGGTAAACTAGGTTGTGTACTTGCCGCAGTGCTTGGATCTGGTGTTGGTAGAATCTCAGAATCTGTTGGCAGAGTTGGAAGAGAAGAATCTGCTGTAGGCAAAGCTTCTGTATCAGTTGGAGGAGGAGGCGGAGGCGTCGGATCCTCTAACTTTGGCGGTGATGGAAGTGTTGGAATAGTCGGAATATCACTATCAACAGATACTTGAACTGGCTTTGCAACTTCTGTTGGAGTAGGTGTATCATCCTTAGGTTTATCTGAATTATCCGAACTAATAAAAAAGTTATAGAATATATAAATAAACACACAGACAATACCAACAAGTATCATCATGCTCTGTTTAGGGTTAGTTGCAACCTGAGAAAGTTCCTGTTCAACTTCAGGTAATTCTCCTTGTTCTGGATTTTCTTCCTGTGCCATAATTAGTGTTACCTAGATTTTTTTGGATATTGGAATCTAACTACATATACTAAGTCTTTCTCATCACCACTTTCAAGCTCTTTTGAAACAAGATCGAACTGATATGTTTTCTTATTAGTTATTATAGTCATATTAGTACGAATATTACGTTCCATCGGCTTAATAAATAATCTATTATCCAGCGGAGTAATTTTCCATGCAAACGAATCCCCAAGAGTAATAGTTTCTATTGTTTCATTTTTTCCGAACTCAATATGCGATTGAAATCCGTAATGTAGAACCAAAAGAAAAACTTCGTTTGGACTATATACATAAGTCTTAATTCGACTATCTGTTGTTAATGACTCTTCGCCAGAATAGGCATTACCTACCGTTGAAGAACATATTAGTAATAATGCTAAAAAGATTCTAACTACTATCATCGTCTACCCTGTATCCTGTTACTTGAAAACCTAATGGATTAATGTCTTTGTCTTTTTCTGTTAACTCCATTGGGATGTATTTAAACTCAACTACGGCAATTTTATTGTATATTCTGCGCGCTTGAGCGGTTTCATTAATTGAAAATCTTAGAATATATTTATTGTCGTTTAATTTTGACCAAGATTTTACAACTAAGAATGTTGTATTTTTTTGTCCATATTTAATAGCGGGATTTACTTCTTCATTTCTTAAATATCCTCTATATTCCCAATATATTGAGTTTGCTGAAAGAAGTCTTACTGTTTTTTTTGCTAAAGTTGTGAAGTCAACTGGATTATATGTCTCACGAGCTACAACATATTTCTTAATAAAGTATTGTGCTAGAGCTTCATTGCCATTTAAAATTTGTGAATTAATTGGATTAACAATTTTTGCCATACCGGTTGTATCATCAATCTGAATAACAAACGGATCAAAACGTTTTGTATTAATAACATACGCTACGACGCCGATCGAAACAATTGACAAACATAATAGTACAAGGAGTAGTATGAATAGTAAGTTTCTTTGTACTGTAATATTATCAAATCTTTCTTCGTACCAATTTCTTATTTCTTTTACAGACTGAGCTTGATCATTTTCTTTATTTTCAGCAGGATTTTTATCTTCGCCATCCGGATTTTTGAACTTATTTATTAATTCTTTAATTTTGAGCATAGTTACTACTTTAAAAAATTTGCGTATACTTAAATTTAATTACACAGCTTTATTATGTAGCAGCTATTAAGATTAAATAAACAAAAACATCCAGTTAAGCGCAATTGTGAATATTTTTTTTATTTGCAGTTGCTTTTAGATTCTATTTTTGAAATTTTCATTCAATATATATATGGTTTTGTAAACGTTCTCATTTCATTAGATAGAAAATTATGCTTGCGGCATTTGAGGCGTTTAGACTTTCTACATCTTGAGATATTGGTATTTTGACTAAAAAGTCGCAGGATTTGGTGGTTAATCTTCGCATGCCTTTGCCTTCGGAGCCAATAATAAAAGCTATTTTATCTATATTCTTTAAAGTATCAGTGTTTGTATCTCCTGATGCATCGAGTCCAGCGATCCAAAATCCAAGATCTTTTAATTTATCTATAGTGTTTTTTAGATTTGTCACTTTTATAATATCAACTAGCTCAAGGCAACCACATGCAGTTTTAGCAATTGTTGCATTTTCTTCTGGAGTATTATCGTTTGGAAGAATGATAGTTTTTATGCCAAATGCTGCGGCGCTTCTTATTATTGCTCCAATATTCTGAGGGTCGGATATTTGGTCTAGTATTGCAATTTTTGCCTTAGGTTGTTGAAGATCAGCTGATTCTAGGCCGTTTTTAAAAATAGTATTGACTAGCGCTATTACTCCTTGATGCGTTTGATCTTTTCCGATTTTTTTTATAATAAAATCATTTTGTACTATTTCTATAGGTACATTTAGTATTTTTTTCTTCAATTCATCGGCGTGTTTGGATAGGCAGTAAATTTGCTTTATATTTCTTGATTTATTCTTAGCAGCTGCAAGTACTGCATGAGTTCCATACATATAGTATTGCCCTTTGTTTGTAGCAGCTGGTTTTTTGTTGTTTTTCATGCTTTGTATAGATTTTTGATCAAAAATGTGCTTGACATAAATTACTATTTATTATAAAAACTTACAACCAAACATTTAGATATGTCACCCTTTTAGGCATAAATAACTTAAACTTAACGTTCGCTTGCGAATTAGTTCTTGCGTTTATTGTCAAGGTGGTCTATTTTGCTGTGAGTTCTACTGGAGGGGTGGCCGAGCGGTCAAAGGCAGCAGACTGTAAATCTGCCCGCGTATGCGTACGAAGGTTCGAATCCTTCTCCCTCCACCATTCACTTTAGAGATAAAGTGCCTGGGTAGGTGAGAAATTGCGGGTGTAGCTCAATGGTAGAGCCCCAGCCTTCCAAGCTGGTCGTGTGGGTTCGATTCCCATCACCCGCTCCATCGCTTTAGAGCTTTGGTGTTAAGTGATGGTAATATAGTTACTGGTTATTAAATTTATATATAGTTATTTCAGGAGTTGAAATTATGGCAAAAGAAAAATTTGAAAGGAATAAGCCGCACTGTAATATTGGTACTATTGGTCACGTTGACCATGGTAAAACTTCTCTTACGGCTGCGATCACAAAAGTTTTAGCAGAAAAAGGTCAAGCAGAAGCTGCTAAATATGATGAAATTGATGGTGCTCCGGAAGAGAGAGAAAGAGGTATTACTATTTCTACTGCTCACGTTGAGTATGAAACAGAAAAAAGACACTATGCTCACGTTGACTGCCCAGGTCACGCTGACTATGTTAAAAACATGATCACAGGTGCTGCGCAGATGGATGGTGCTATTCTTGTTGTATCAGCTGCTGATGGTCCTATGCCGCAAACTAGAGAGCACATTCTTTTAGCTCGTCAGGTTGGTGTTCCAGCTATCACTGTTTTCTTAAACAAAGTTGACCAAGTGGATGACGAAGAGCTTCTAGAGTTGGTTGAAATGGAAGTTAGAGAGCTTCTATCTGAATATGAATTCCCTGGTGATGAAATTCCAGTTATAAAAGGTTCTGCTCTTCAGGTTCTTGAAGGTGGTGATACTAAATGTATTGATGAGCTAATGGATGCTGTTGATTCATATATTCCTCAGCCTGAGCGTGATACTGATAAGCCATTTATTATGCCAATCGAAGATGTATTCTCTATTTCTGGTCGTGGTACTGTTGTAACAGGTAGAATTGAGAAAGGTGTGGTTAATGTTGGTGATGAGATAGAAATCGTTGGTATTAAAGATACTGAAAAAACTACATGTACTGGTGTTGAGATGTTCAGAAAGCTTCTTGATTCAGGTGAAGCTGGTGATAATGTTGGTGTTCTTCTTCGTGGTACAAAGAGAGAAGATGTAGTTAGAGGTCAAGTTCTAGCTAAGCCAGGTACTATTACTCCGCACACTGAGTTTGAAGCAGAGATTTATGTATTAACAAAAGATGAGGGTGGTCGTCACACTCCATTCTTTAAGAATTATCGTCCACAGTTCTATTTCAGAACTACTGATGTTACTGGTGAGGTTGAATTGCCAGCAGGTAAAGAGATGGTAATGCCAGGAGATAATACAAAAATTATTGTTAAAATGATTTCTCCAGTTGCTATGGATGAAGGTTTACGTTTTGCTATTCGTGAAGGTGGTAGAACTGTTGGTGCAGGTGTTGTGTCAAAAATTATTAAGTAAGTTGTTTACAGGGCTTGGGGGTTTTTCTCAAGCCCTGTAAAATGAAATCAAGTTGATACCATTTTGTTTGGTATTAGACTAGGCTGTTTAAAATAAAGGTTGATAATGAATAATCAAAAGATAAAGATCAAGCTAAAATCGTTCGATCATCGTTCACTTGAGCATGCTACAGGTGAAATCGTTAGTGCAGTTAAGCGTACTGGTGCTGATGTTAATGGTCCAATCCCTCTACCAAGACATATAGAGAGATTTACAGTTATTAGGGGGCCGCACGTTGATAAAAAGTCGAGAGAGCAATTCGAGATTAGGACTCAAAAAAGGCTGGTGATTATTAATTATCCTACTCCGCAAACCGTAGAAGCTTTAAGAAAAGTAGATTTGCCAGCCGGTGTTGATGTTGAAATTAAATTGGTAGGTGCTTAAAGATGAGAACGGGTTTAATCGCAAAAAAATTGGGCATGAGCTCAATGTTTACAGAGCAAGGTGATAGAATAACTCTTACATTCTTGCAGTTAGAAGATCTTCAAGTTGTTGGCCAAAAAACTATGGAAAGAGATGGCTATAATGCTGTTGTTTTGGGTTCAACGCTTAAGAAGGCTTCGAGAGTTTCAAAATCAATGAAGAAAGTTTTTGCTAACGCAAAAGTTGAACCAAGGCAAATTCTAAAAGAGTTTAGAGTTTCTGAGGGTAATATGCTAGAAATTGGTGCTGAAGTTAAGGCTACTCATTTTGAGCCGGGTCAGTATGTAGATGTTTCTGGTAGATCAATCGGTAAAGGTTTTGCTGGCGTTATGAAGAGGCATAATTTTGGTGGATTGGAAGCAACTCATGGTGTTTCGATTTCTCACCGTTCGCATGGTTCTACTGGTCAGTGTCAAGATCCTGGTAAGGTTTTTAAAGGTAAGAAGATGGCTGGTCACTTAGGTGATGCAAACGTTACTATTCAAAATTTACAGATTGTTGAGGTTGACGCTGAAAAAGGAATAGTTATAGTAAGCGGTAATGTTCCTGGGTCAAAAGGAAAATATGTGTTTATCAAAGATGCGGTTAAGAAAGCGATAAATGCTTAAAATATTAGGATTTGAGAGAATTTAGGTAAGAAATATGAAAGCTGAATTAGTAAGTCTAGAGAAAAAAGTCGTTGGCGAAATTGCGCTAAATGATTCTATTTTTGGACTAGAGCCAAGAGTGGATATCATCAAAAGAGTGATAGATTGGCAAAGAGCAAAAGCTAGAAGCGGCACGCACAGTGTAAAAACTGTTGGTGAAGTTTCTGGTACTACAAAAAAGCCATTTAAGCAAAAAGGCACTGGTAATGCAAGACAAGGTAATGCAAGAGGTGTTCAGCGTCGTGGTGGTGGTATTGCACATGGTCCGCAAGTTAGATCTCATGATATTAAGTTGCAGAAAAAAGTTAGAAAGTTAGGTTTGAGGCATGCGCTCTCTGTTAAGAAATCTGAAGGTGCGTTGCATGTTGTTGATTCAGTTAGCATGAAGCAGGCAAAGACTTCGGATTTAATTAAATCTTTGGCTAATTTTGGCTCGGGTAAGTTTTTTGTTATTGATGGTGATGTTATAGATAATAATTTAAAATTATCAGCAGCATCTGCGGTAAACACAAATGTAGTTCCTGCTATTGGTGCGAATGTGTATGACATTATTAGTAGTGACCATGTTTTAATATCTAAAAATGCATTGGCGCTTTTAGAAGAGAGGTTGAAGTGATGATAGCTAAAAATAAATATGATTTAATTAAAACTCCAATTATTACTGAGAAATCTACTATTCTTGGTGAATTTGGTAAGTATGTTTTTGAAGTTTCTCCTAGAGCTAATAAATCTTCAGTCAAGAAAGCAATTGAAGAAATTTTTGGTGTGAAAGTTGTAAGTGTAAATATTTCAAATCAAAAAGGTAAAGTGAAGAAATTTAGAGGTTTTTTAGGGCGCAGAGCTGATACTAAAAAAGCTGTTGTTACTTTAGAAAAAGATCAAACAATTGATTTAGCTGGAGGTATTAAATAATGGCCTTAAAGAAATATAATCCAACTACTCCTTCGCAAAGAGGTTTAGTGCGTGTTGATAAGAGTGACCTATGGAAAGGTAAGCCTCATAAATCTCTTACAAAAGGTCTTACTAAATCAGGTGGTAGAAATAATTTAGGAAGAATGACTTCTCGTCACAGAGGTGGTGGTCATAAAAGACTATATAGAATGGTCGATTTTAAGAGAAGTAAACTAAACTGCCCAGCGACAATTGAGCGTATTGAATATGATCCAAATAGATCAGCTTATATTGCGCTTATTAAGTATGATGATGGTGTTTACTCGTATATTCTTGCCCCAGCGAAAATGAAAGCTGGTGATAAGGTTATGTCTGGGCCAGATGCTGATATTAGAGCTGGTAATTGTTTGCCACTGAAAAATATCCCAGTTGGTACTATTGTACATAATGTTGAGATGAAACCTGGTAAGGGTGGTCAGCTTGCAAGATCAGCTGGTACATCAGTAAGTTTGGTTGGTAAAGATTCTGGCTATGCACAGATTAAACTGGCTTCAGGTGAAGTTAGGTTGGTTCCATTAGAATGCATGGCTACAATTGGTACATTATCTAATGCTGATAGAAAAAATACAATAATTGGTAAAGCTGGTAGAAGTAGATGGCTTGGTAAGCGTCCTCATGTAAGAGGTGTTGCGATGAACCCGGTAGATCACCCACATGGTGGTGGTGAAGGTAAAACTTCAGGTGGTCGTCATCCGGTTTCTCCATGGGGTAAGCCAACTAAAGGTAAGAAAACTCGTAAGAATAAACTTACAAGTAAATTTATTATAAGAAGAAGAACTAAATAGTAGGAAAAAATTATGTCACGCTCGGTATGGAAAGGCCCATTTGTAGATGGCCACTTGCTAAAGAAAGTGCAAAATGCTATGGAAACTGGCAAGAAGGAAGTGATCAAGACTTGGTCAAGAAGATCAACAATACTTCCTATATTTGTTGGTTATACTTTTGCTGTACATAATGGTAATAAGTTTATTCCAGTTGCGGTTTCAGAAGAGATGGTAGGTCGTAAACTAGGTGAATTTGCTCCAACCCGTACCTACTATGGTCATGGCGCAGATAAAAAAGCGAAAAGAAAATAAGGTATAGGATAAAATGAGTAATTTATTAGCAAAAGCTTCAATTATACGCCTTAGAACGAGTGCACAAAAGTTAAACTTAGTTGCAGCATCGATTCGAAATATGAAGGCATCAGATGCACTAGTGCAGTTAACTTTTTCTCCTAAGCGTATAGCTGTCGATGTTAAGAAATGTCTGCAGTCAGCTATAGCGAATGCTGAGAATAATATGGGGCTTGATATTGATAATCTAGTTGTTACTTCAGCTACTGTTGGTAATTCTATTACAATGAAAAGAGTAAGAGCGAGAGCTAGAGGTAGAAGCGCTAGAATCAATAAGCCATTTAGTAATTTGTATATAACAGTATCCGAAAGAGAGGAGAAGTAATATGGGACAAAAAGTAAACCCACATGGTTTCAGAGTAGGGCCAACATTATTCAAAGGTTGGGAATCTGTTTTATATGCAGAGAAGAAGGACTATGCCCAAAAACTACAGCAAGATCTTAAGATTAGATCTTTGATTATGAAAAAATATAAGCTTGCTCAAGTGAGTCGTGTTGTGATTCAAAGACCAAGTAATAGTATTGTAGTAAACATTCATGCTAAAAAGCCTGGGATGATTATTGGTAAGAGTGGTTCTGATATCGAGAAACTCAAGAAAGATGTACAAAAAATTGCTTCTACTGAAGTATTCATCAATATTCATGAAGTTAAGAAGCCTGGAGTTGATGGAAATATTATTGCACAAACGATTGCACAGCAATTGGAAAACCGTGTTTCTTTTAGAAAAGCCATGAAAACAGCGATTCAAAATAGCTTTAAGCAAGGTGCTAAAGGAATCAAGGTAGCTTGTTCTGGTCGTTTAGGTGGTGCTGAAATAGCAAGAACTGAGTGGTATAGAGAAGGCAGAGTGCCGCTTCATACACTTCGTGCTGATATTGATTATGGTACTGCTGAAGCAAACACTACTTATGGTGTAATTGGTATTAAAGTTTGGGTTTATAAAGGCGATTTTGGCCAGAAAAACAGAAGATAATTTGTAATTTAATTTAGTGGATATAGAAAATGCTAGCTCCAAAAAAGCAAAAATTTAGAAAGGCTCATAAAGGAAGAGTTGCTTCAAAGTCTAAAGCTGGAACAATGCTTAGCTTTGGTTCTTTCGGTTTGAAATCAATTGATGGTCTTCGCGTTACAGCAAGACAAATTGAAGCAGCTCGTCGTGCGGCTGTAAGGCATATGAAAAGACAAGGAAGATTCTTTATCAGAATATTTCCTGATTTACCAGTTTCTAAAAAGCCTAATGAAGTGCGTATGGGTAAAGGTAAAGGTTCTCCAGAATATTTCGCTGTGAGAGTTTCGCCTGGAAGAATTATGTTTGAGATTGAAGGTGTAAGCGAGGCGGTGGCAAGAACTGCTCTTGAGCTTGCGGCTGCTAAATTACCGGTAAGAACTAAAATAGTACAGAGATATGAGTAAGAAAAGTAAGTCAGAATTTACATCAGAGGCGTTAGCAGGTCTTAGCGTTGAAAAATTAGTTGAAAAGTCTGCTTTTTTAAAGAAAGAGCTTTTTAATTTGAGATTTCAGAAAACTTTAGGCGAGCTTACTAACACAAGCAGATTTGCTAAAGTTAGAAAGGATATCGCAAGAGTAAATACTGAATTAAATAAAAGAAAAGCTGGAGTATAAGTCAAATGCCTAAAAGAATTTTACAAGGCACTGTGACAAGTGCAAAAAATGATAAAACTGTTTCTGTAAAGGTTGAAAGAACATTCAGACATCCTTTATATAAAAAGACAGTAAGAAAGTCTGCAAAATATGCAGCGCACGATGCTAAAGGCAGGTGTAAAGTAGGTGATAAGGTAAGAATTCAGGAATGTAGACCGATGTCCAAGACTAAATCTTGGATGGTGATCGAAGATTAAGTCATTGACTTTTTGATTAATTTCTGTATGTTATCCTTTGTTTAATATTGTATATATTTGGAAGATATAAATTATGATTCAGATGCAGACCGTCCTTAAGGTAGCAGATAATTCAGGTGCTAAAAAAGTGATGTGTATAAAGGTGCTTGGCGGCTCTGGTCGCATGATTTCTGGTTGTGGCGATGTAATAGTTGTTTCAATAAAATCTGCAATTCCTGGCGGTAAAGTTAAGAAAGGTGAGGTCCATAGAGCTCTTATCGTTCGTACTAAAAAAGAGATAAAAAGACCTGATGGGAGTACAATTCAGTTTGATTCAAACTCAGTTGTATTAGTAAACAAACAAAATGAACCAATTGGTTCTAGAGTGTTCGGTCCTGTTCCAAGGGAACTCCGTGGAAAAGGATTTATGAAAATAATTTCTCTTGCTGAAGAGGTGATTTAAATGCATAAGCTAAAAATAAAAAAAGGTGATAAGGTTCAAGTTGTAACTGGTAAAAACAAAGGTAAAGTTGGTGATGTTATTAAGGTACTTCCAGCTGAAAACAGAGTTGTTGTATCAGGAGTGAATTTAGCTAAAAAGCACACAAAACCAAGTCAAACGAGTGAAGGTGGTATTATTCAGAAGGAGCTACCGATTCATGTATCGAATGTGAGTCATATAGATCCAAAAACTAATGAGATCACTAAGGTTGGTTATAAGACGCTTGAAGATGGTAAGAAAGTTAGAATTGCCAAAAAATCAGGTGAAATAATTTCTAAAGAAGGTAAGAAGTAATGTTGTCACGATTTAAAGATCTTTATAATAAGCAGATTACAAAAAGCTTACAAGATCAGTTTAAGTATTCAAATAAGCACCAGATGCCGAAATTAGTAAAGGTTGTCGTTAATATGGGTGTAGGTGATGCTGTTTCCGATTCAAAAGTGATCAATCATGCGATTAATGATATGACAGCAATCACAGGTCAGAAGCCTTATACAACTTACGCTAAGAAATCTATTGCGACATTTAAACTACGTGAAGGTATGAAGCTTGGTTGCAAAGTGACTCTTAGAAGAGATAGAATGTATGAATTTCTTGAAAGGCTTGTTATAGTTGCTCTTCCAAGGGTGAAAGAATTCAGAGGTCTGTCGGTTAAGAGTTTTGATGGTAGAGGTAATATTACTTTTGGTATTAAAGAACAAATAGTATTCCCTGAAATCAACTACGATAAGATTGATAAAGTGCGCGGTATGGACATTACTATTGTTACTACTGCAAAGACGGATGAAGAAGCGAAAGCCTTACTTTCAGGTTTTGATCTTCCATTCTATAATTAATTTTTAAAAAGAAAGCTAAGATATGGCAAAAATTGGATCTAGACAAAGAAATGAAAAAAGAAAAAGATTAGTAAAATCTTTTTCTAATAAGAGAAAGGCGCTGAAGTCTGCGGTTATGAAGAAAGATCTACCTTTAGAAGAAAGATTTGATCTTGTTGTTAAATTGGCGAAGTTGCCAAGAAATTCTGCTCAAAATAGAGTAAGAAATAGATGTGCATTAACAGGTCGCCCTAGAGGGTATCACCGCAAAATGGGTATATCTCGTAATATGCTTAGAGAACTGGCTGCACAAGGTTTGCTTCCAGGTGTTATTAAAGCTAGTTGGTAAGATAAAAGAATAGATTTAGGTACATTAAAATGACGATGTCAGATAATATAGCAGATATGCTAACAAGAATTAGAAATGGGCAGAAAAGTAGATTACTTTCAGTAGTTATGCCTGCTTCAAAATTGAAATGTGCGGTCCTTGATGTTTTAGTGAAGGAAGGTTACATTGCTGGTTATACTAAAGATGATGCGAAAGGGGTCATTGATGTTTCTCTAAAATATTCACGTATAGGAGATCCAGCTATTAGTGAAATTCATAGAGTTTCAAAGCCTGGTAAGAGAATGTATTCTGCAATAGCAGATCTGCCTGGGTATTATAATAATATGGGAATCCACATTCTATCTACACCGCGTGGTGTTATGTCTGATAGAGAAGCTAAAAAGCTTAATGTTGGTGGCGAAGTAATTTGTAAAGTATTTTAGAGTATAAGGATGTCAAGAGTAGGTAAATTACCAGTACAAGTTGCTGATGATATAAAAGTTGAGGTTTCTGGTCTTCTTGTAAAAGTTCAAGGACCAAAAGGATCGCTTGAAAAAGAATTTTCTGGTTTCATTGCGATTGAGTATAAAGATTCACAAATAACAGTGAAGCCATTGAATGATTCTGCAGAGGCAAAAGCAATGTGGGGTACTGCTAGAAGCATTATTAACGGAATGGTTGTTGGTGTTAAAGACGGCTTTAAAGAAGAGTTAGAAGTTAATGGTGTTGGTTACAGAGCAGCCGTTAAAGGTAAGTATTTAAATCTTACTCTAGGTAAAAGTCACAACACAAAAATAGAAATTCCTGAAGGAATTAAAGTAGAAACTCCAAAGCAAACGGTAATTCTGCTTGAATCACATGATAAGCATAAGCTTGGTCAGTATGTTGCAACAATCCGTAGTCAAAGACCACCAGAGCCTTATAAAGGTAAAGGTATAAGACGTAAAGGTGAGTACGTACAGAGAAAAGAAGGTAAAAAAGGTTAGTTTTAGGTAGAATATGAGTGCAAATAATCCAGTTTTTAGAAAAAGAAGAGATAGAGTACGTACTAAGTTAAGAAGGATTTCTGATAGGAATAGGCTTTCTGTATTTAAATCTGGTCGTCATATCTATGCTCAAATTATTGATGATTCAACTTCTAAAACTTTAGTGGCCGCATCAACACTTGATAAGTCAATCAGGAGCTCAGCAAAATCTAATTGTAACATTGAGTTTGCAGTAAAAGTTGGTAAGCTTTTGGCTGATCGTGCTGAAGAGAAGTCAATAAAGCTTGTGGCTTTTGATAAAGGTGGTCACAAATATCATGGTGTTATTAAAGCGCTTGCTGATGAAGCAAGAAAAAAACTACAATTTTAATAGAGAAAGCAAATGTCTAAAAATTCCAAAAGCAATGATTTAATAGTTGAAGATTTAGTGCACGTTAACCGAGTAACGAAGGTTGTAAAAGGTGGGCGTAACTTTTCTTTTGCAGCAATTGTAGTTGTCGGTGATGAAAATGGAAAAGTTGGTTATGGTAACGGAAAAGCTAAAGAGGTTACTGAGGCACGTGCTAAAGCAACAAAAGATGCAAGAGGAAACATGATTTCTGTTCCTTTATATCAAGGTAGAACAATTCACCACGATATTATAGGTAAAAGTGGAGCAGCTAAGGTAATTTTAAGAAGAGCAGCTCCAGGTACAGGAGTTATTGCAGGTGGCCCATTAAGATCTATTTTTGGTCGCCTAGGAGTTGAAGATATTGTTGCTAAGTCTTTAGGCTCTTCTAATCCTAATGCAATGATTGCAGCAACTTTTGATGCTTTAAGAAATCTTAGATCGCCAAAAAATATTGCTGATAGAAGAGGAAAAAATTTAACTGAACTATCTGTGAATTCAGAAAAATCTGAGTAAAAATAATAAGTAAAAATAAATACTGATATGACTAAAGAAAAAGCAAAAGCTAAAACTAAAGCAAAGGCAAGCAATCAAATCAAAGTTACTCAAATAAGTAGCCCAATTGGTCGCTGTTCTGATCAAAAAAAGACTTTAGTTGGTCTTGGTTTGAATAAGATTAGTGCAACAAGAGTGCTTGAAGATACTGCATCTATCAGAGGAATGGTAAAAAAGGTTAAGCACTTAGTTAGTGTCGAGGCTGTATAAATAGAGGAATGAAGGATATGAAATTAAATACATTATTTAACGTCCCAGGTTCAAAAAAGCCAAGGAAAAGAGTTGGTAGAGGTATCGGTAGTGGTACAGGCAAAACTTGTGGTAGAGGCGTGAAAGGTCAGAAGTCAAGATCAGGCGTTGCAATCAAGACTGAAGGTGGGCAAATGCCACTTATTAAGAGATTACCTAAAAGAGGTTTTAATTGCTCTAAATCTGTAGATTATACAGCAATAAGTGTTGCAGATATTGAAGTTTTGATTGGTATGAAGCGTATTGATGCTACAAAGAATATTAATAAAGACACTTTAGTATCTATTGGATATATCAAAAGCACTAAAACTCCAGTGAAACTACTTGGTGGTGTAGAAAAAATTGAACATAAACTTACAATTGAATTGGATGCTTGTTCAGATAGTGCAAAATCCGTTATAGAAAAAGCTGGTGGAAAAATACTTTAATAAAAGAATATCATAATGCAAAAATCAAAAGGCGAACTTAGTAGTAGAATTTTATTCACCCTGGGTGTTTTGGTTGTTTGTAGAGTTGGTTCCTTTATTCCTATTCCTGGCATAGACTCTGTTGCTCTTGCAAGTTTAGCTGAGAGAAGCCAAGGCGGAATACTAGGAATGTTTAACATGCTTTCTGGTGGTTCGCTAGAGAGAATGTCTATATTTGCTTTGGCAATCATGCCGTATATTACAGCTTCGATTGTAATTCAATTAATGACAATTGCCTATAAACCTCTTGAAGAGATGAAGAAAGATGGTGAAGTTGGTCGTCGCAAGATCAATCAACTTTCCAGATATTTAACAGTTCTTTTTGCTTCATTCCAGGCTTACGGTGTTACGGTTGGTCTTGAGGCAACAGTAACTCCTCATGGTCCAGTAGTTATTATTGCGCCTTTAATATTTAAAATTTCGACAATTACTACGCTTGTAGTAGGCACTATGTTTTTAATGTGGCTCGGTGAACAAATTTCAGCCCGAGGTATTGGTAATGGTACATCACTGATTATATTCATTGGTATTGTTTCTGGCTTGCCTAGTGCCATTATTAGTATGTTTGAATTATCTCGTAAAGGAGCAATGTCACCAGTAATTGTGATGGCTATTTGTGCTGGTGTAGTTGCAATGATTATTACGATTATTTATTTTGAGCGTGCGCAGCGTAAAGTATTAGTACAATATCCAAAACGTCAGGTTGGTAATAAAATTTATGGTGGTGATTCGACTCACATGCCATTAAAATTAAACACTTCAGGTGTGATTCCGCCTATTTTTGCAAGTTCCGTGCTTTTGTTTCCAACAACTATTTCAGGGTTTTCTGGTAATGATTCAGAACTTATGGGAACAATTTCGCGATATTTAGGTCATGGCAAACCGCTATTTATACTTTCATATGTAGCCTTAATTGTGTTTTTTAGTTTTTTCTATACTGCAGTAGTGTTTAATTCAGAAGACACTGCTAATAATTTGAGAAAAAACGGTGCATATGTTCCTGGTAGAAGACCTGGTAAGAATACAGCTGAGTATTTTGATTATCTACTAACGCGTTTGACAGTTGTAGGTAGCATGTATTTATCATTTGTTTGTATAGTTCCTGAGCTTTTGATGAATAAATATTCAATGGCTTTTGCTCTTGGTGGAACTAGTTTTTTGATTGTTGTTAACGTTGTCCTTGATACCTTCACACAGATCCAGACGCATTTATTTAGCTCTAGATATGAGGGACTAGTTAAGAAAATGAGGTTAAAAGACAAATGATAAAAAATATAATAATTTTATTAGGGCTACCAGGATCAGGTAAAGGTACGCAAGGAGCTGTTCTTTCAGAAGAGTTGGCAATTCCACATATTTCAACAGGGGACATCTTAAGAAAAATGGTTCTTGAGGATAATAAAGATTCAAAGTTGCTTGCTAAATATATGAGTGAAGGTAAATTAGTCCCGAGTAATTTGGTAAATCAGCTTGTTAAAAGATTTATTCTTTCTGATGCATGTAAAGGTGGATGTATTTTGGATGGATATCCAAGAAATCTTGAGCAGGCCGAATATTTTATAGAAAATATTGATGCAAATATTAGTACTATATTTTTTGATGTTTCTGATGAAATTGTAACTAAAAGAATTTTAGGAAGAATTTCATGTGCTTCTTGCAATAAATTATATAATAAATATTTTGACAAACCAAAAAAAGAAGGTGTTTGTGATGTATGTGGCTCTACAGAATTTGTTGAGCGTTCAGATGATGATGAAGATACAATAGCGTCAAGGCTTGAAGAGTATAGAAAAAATACTTTGCCTATGATTGAATATTATAAAGAAAAAGGAAGATTCTTTACCGTTCACGGTGGAGAATCTAAAGAAAAGGTCGCCGAACAAGTGGCCTCAATTGTAAAAAAGATTTGACTTTGTCAAATATTTTTATATTATGCTGTTCTAATATTTTAAAAAGTTGGAGAAATTTTTGTGGCAAGGATTGCGGGTGTTAATATTCCACCAAATAAGAGATTAGTAATTAGTTTAACATACATTTTCGGTATTGGACTGACTGCTGCTCAAAAAATTTGTAAAAATACAAAACTGTCAGAAGATAAAAGAGTGAAAGATCTTGATGATCAGGAACTTGTTAAGCTTAGAACTGAAATCGAAAAGAACTTTCAAGTAGAAGGTGATTTGAGACGTGAAGTGAGTCTTAACATTAAAAAGAAAAAAGACCTGCGTACTTATGAAGGTCTAAGACATATTAGAAGATTACCTGTTCGTGGTCAAAATACACATTCTAATGCTAGAACAAGAAAAGGTAAGGCAGTAGCAATTGCTGGTAAGAAGAAATAATATTAGAGATTAAATAATGAGTCCGACAAATAAAGCTAAAAAGAAAAAGAAAAATATTACTCTTGGAGTTGTACATATTAAAGCAACTTTTAACAATACAATAATTACAGTTACTGATGTTCAGGGTAATGTGATAGCTGGTTCTACTGCTGGTGCACATGGTTTTAAAGGTGCAAAGAAAGCTACTCCTTACGCAGCACAAGTTACTATGGATAAAGCATCAGAAGATGCAAAAGAGCATGGATTAAAGACAGTTTCTATTAAAGTTAAAGGAGCTGGATCACAAAGAGAAGCTGCAATGAGAGCTGTTTTTAGTCAGAATTTTGTCGTTACTTCAATAACAGATGTATCTGGTGTTGCTCATAATGGTTGTAGAGCACCAAAAAGAAGAAGATGCTAGTTTTTTTTCTTGCTTAGTCGAGATATTTAAGAGATTTAGGGAACAAATATATGTCATTACTTAATAAGAATTGGAATTCATTAATCAAGCCATCAAAAATCATATATGATGGTGCAAATGATGAAAGCAATGTAGCTAATATCAAGATTGAACCGCTTGAGCGTGGTTATGGTTTAACATTAGGTAACGCCTTAAGAAGAATTTTATTATCTTCTCTTCAAGGTGCTGCAATTACTGCAGTTAAGATCCCTGGAGTTGAGCATGAATTTTCTGCAAAAGCTGGTGTTAAGGAAGATGTTGTTGATATCATTCTTAATCTGAAAAAAGTTGCAGTTAAGATGCATACAGCTGAGAAAAAGACGGTTAGAATTAACGCAAAGGGTCCTTGCGTAGTTACTGCTGGAATGATTGAAACAGGAACAGATGTTGAAATTATGAATCCTGATCAACATATCTGCACATTATCAAAAGATGCTGATTTAGAAATGGAACTTTATTGTGAAGTTGGTAGAGGTTATGTTCCAGCTGGAAGTAATAAGCAAGATTATCCAATTGGTGTAATAGCAATTGACGCTTTATATAGTCCTGTTAAAAAAGTTTCTTATAAGGTCGAAGATACGCGTGTTGGACAAGTTACAGATTATGATAAATTGATCATGAATATTGAAACTGATGCTTCAATTACTCCAGAAATGGCTATAGCACTATCTGCTAGAATTATGCAAGATCAACTGCAATTATTTGTAACATTTGAAGAAGAAGAGGAAGAGAAGCAAGAGGCAAAAGAAGAGCTGGAATATAATCCAATTCTACTTAAGAAAGTTGATGAGCTTGAGCTTTCTGTGAGATCTAGAAACTGTCTGCAAAATGATAATATAGTTTATATTGGCGATCTTGTTAATAAAACTGAAGCAGAAATGCTTAGAACACAGAATTTTGGTAGAAAGTCTCTAAATGAGATTAAAGATGTTCTTTCAAAATTCAATTTAAAATTCGGTATGGAAATTACTGGTTGGCCTCCTGAAAATATTGAGGAGCTAGCTAAAAAATATGAAGATCCATATTGATAAGTTTTAGCTTTGGTTAGCTTTAAAAATAAAATTTAAGAAAACTTTGTGGGTAAATGAGAAATTACTCTTTTGCGGACAAAATAGTTTGAATATTTAGGTATAATAAAATGCGTCATAAGATAAAAGGAAAAAAATTAAATAGGACTTCGTCACATAGAAAAGCAATGTTTGCTAATATGGCTGTTGCTTTGGTGATGAATGAGCAGATTAAAACTACTGTTGCTAAAGCAAAGGCGCTTCGTCCTTATATTGAGCAACTAGTTACAAAAGCAAGAAAAGGGACTTTATCTGCAAGAAGAGATATTATCTCACGCATTAAAGATAAAGTAGCTGCAGAAAAATTAATGTCAGTGTTAGCTACTAGATATAAATCACGTCCAGGTGGATACACAAGAGTTGTTAAGGCTGGTTTTAGATATGGTGATAGAGCTCCTATTGCATATATTGAGTTTGTTGAGAGAGATGTTGCTGCTAAAGGTTGCATGACTCCAAAAACAGAGAATTTAACTGAACAAGAAATACAAGAATAAGGTTTAACGTATGGCTAATCATTCAGCTACAAAAAAAGCAATTAGAAAAACAGTTAGAAAGACTGCTATTAATAAAAATAGAAAAAGTCGTATAAAGACTTTTATTAAGAGAGTAGTTGCTGCTGTTGCTGCAGGTTCTTCAGAAGAAGCTAATAAAGCATTAGTTGAAGCTCAATCTGAAATTATGAAAGGTGTATCTGCAAAGCTTATCAAGAAAAATACTGCTGCAAGAAAAGTGAGTAGATTAGCTAAAAGTGTGAAAAGTATTTCGGGTGGAGCTAAGAAAGAAGCCGCTCCGAAGAAGGCAGTAGCTCCTAAGGCAGCTCCTGCTAAGGCCGCTGCAAAGAAATCTACGGCCACAGCTACTAAAGCTAAAACAGAAGCTACAAAATCAGCACCTAAGAAAGCTGCTGCTAAAACAGAAGAAAAGTAATTCTAAACTTTTAGTTTGAAACTGAAGAAAGACATTCCCAGTGTGGAGTGTCTTTTTTTTAGCTTTCTGAAGCTCAAATGTAATATTGTTTATTAGATATATTATTAGCTAGCTAGTTTTATGTTTTTGTAATTAGGCTAGAACTAAAAATTATACTAATTAGCTTGTTCATCCAAAATAAAATGTCTTGGGGTTTTATCTCAGAAGAATAGCTGGAAGATAGGTGAAAAAACCTAGTATATGAGGCTTGTTTTTGTTTCAGCAGCATTTTGTAACTCTGCACTAACATCCAGCTAGTATAGGAAAAGCATATAAATAACGATAAATAATGACAGCTACATACTACTTAGTATTAGAAAAATATAATCTGTGAAGATCATTAAAAAAGGATGCATATATTAGCAAATGGCATCCTTTTTCATAAATCCATTAAATATTGTGCGGACAATAAGCTTAAAACTTATATTTTGCGCCAATACTTAAAGTTTTTGTTAGTATTTTAAGATCTTTTAGCTTTCCTGAATGCGATTCACCATCACTAAAAAATGTTGTTTTTGTTCCATTAATTAGCGCAAGTCTCTTTATTCCTACATTTGCAAAAATATCTAGGTTATTTGTTGCTTTGTAGAGTAGCTTTGCATCAAGACTTAGACCGGCTCCAAATACTTTATGTTTAAAGCTAGGATCATGTGCAAAATCATCACGTAAAATCCAATCTGCTTCAGCTCTATATCCAAAGATATATGCTTTGATAAAAGGTGCAAAACTTAGTTTATCATTTAATTTATAGTGAAGATTTATACCATACCATGGAGCAAAATTATGATACTTGTAGGTTGATATAAGTTTTGATTTTGGAACAATTTGTCCAGTAGGTTGAGTTATAGAAGTAAATGGTATGCGATCAATTGTACTAAACACACCGTGTTGTCTGTTGTTATTATAGTTGTAATCAAAACCGAAATAATGTGTAATTAAAGCATATGGAAATTTAGCAAATCTATCTTGGCTTATTCCAACTGCGCCTGAGATATCAAAGGTATTTCCTTTAACCTTTGAAAAGGTTCTAGAAAACTCACCCATTTGATCCCAGTCTGAATCTTGATTTTCACTATCATCTAGTATTTTTCCATATTTTACTAACCCCATGAAATTAAATTGACCATGTGTTGGTTCAGTTAGTATCTCAACCCCAATTTCAGAAATTTTATTTTTCCAAGTTAGTTCTGATAACTTAGGAATATCATTGTCACCAAAAGACCATTGGAGAAAATCATGCCTTATTCCAGCATATGGTAAGATAGATATTTGATTTATAGAATTATTTGAGAATGTTTTTGTCTTTTTGGTTTTGCTTTGAAGCATATTACTTTCTGTAGATTTAGCTGCAGCAATTACATTAAAACAAAACATAACAACAACAATAGACAATATTTGCGATATTTTATTTGCCATAACTTTACCTTAGTTAAGATTGGTTAAGGAGTTGTTTCTAAACCTTTGACTTAGTCTTGTCAATTCCAAAGTTGATAGGGGGCAAAAATATATTATAATAGTACTGCAACATAAGTTATATGTTGCAGTATATACAGATATTAAACTTTTCTAGAAACGTGGCCGGTGTATAATTGGCGAGGTCTTGTTATTTTGAATTCAGGATCTTCCCACAGCTCTTTCCATTGAGAAACCCAGCCAGCTGTTCTTGCTACAGCAAATAATACAGTAAACATTTGCGGCGGAATTCCAAGAGCTTTGTAGATAATACCAGAATAGAAATCAACATTAGGGTATAATTTACGATCTATAAAATACTGATCATTTAATGCTATCTTTTCAAGCTCCATAGCAATGGCAAGCATAGGATTATTTTTAAGCTGCCCTAATTCTTCAAGAACTTCTCTACATGTATCTTTTAATGCAGCAGCACGTGGGTCATAGTTTTTATATACTCTATGACCAAATCCCATAAGTCTGAAAGGATCATTCTTATCTTTTGCTCTTTCAATGAATTTCGGAATATTTTCAACAGATCCAATTTCCGCTAGCATTCGAATTACCGCTTCATTTGCGCCTCCATGCGCTGGTCCCCAAAGTGATGCAATACCTGCACTAACGCATGCAAAAGGGTTAGGGCCGGATGAGCCAGTAGTTCTGACAGTAGAGGTTGAAGCGTTTTGTTCGTGGTCAGCATGTAAGATAAATATTTTATCAAGCGCTTTTGAAATTAGGTTATTTTGTTTGAATTTTTTGTTTGGTGCTCCAAACATCATATATAAGAAGTTCTCGGTAAAAGATAGATCTTCATCTGGATAAACAAATGCTTGACCCATTGAATATTTATAAGTCATAGCTGCGATTGTAGGCATTTTCGCTATCATTCTAATTGCACAAAGCTCTCTTCCTTCCGGAGTATTCATATCTATTGTATCATGGTAAAAAGCTGATAGTGAGCCAACAACTGAAAGAATGACTGCCATTGGATGAGCCGAATGCCTGAATGCTCCAAAGATATTGCGTGTTTGTTCGTTAACCATCGAGTGATGTGATATTTTTTTTCTAAAATCCGCATATTCAGTTTTATTAGGAAGTTCTCCGTTGAATAGTAAGTAAGATACTTCAAGAAAATCTTTGTTATCAGCTAAGTCCTTAATTTCATATCCTCTATGCCTAAGTATTCCCTCACCTCCTTCAATGAATGTAATAGAGGATGTACATGACGCGGTGGACATAAATCCAGGATCGTAAGTAAAGTAGCCTGTTTCACCATATAGTTTTGTAACATCAAGTACATTTGGTCCAATTGAAGCTTTCCTTATTGGAAGTTTTACAGTTTTATCTTTTATTTTAAGTTCAGCAAATTCATCATTCATATTTATCTTTCCGTAATATTTGGTTGAAAATTGGAATTATTCCATCAACTATTAATCCTATTTGATTTCGTATTAGCATTGCAACTAAAACAATTGGGTTAAGTCTTTTCTTGATATTTGTGTTGTATACAAGATGGGAGGTTACGTCTGGTAATTGTAGAGTTTTCTGTATAATTAATTAGCAGTGTCTAAGATTTCGGAGGGAAATTATGAAATGTAGAATTAGTGAGGATCAAGCAAGGAGTCTGAATTATGATATAATTGACTCTACAGTCGAGATGCCATTCTTGATGAGATTAAACAGCGTAATGCAGGATTTTATTTTGAAAACTAAAATTGGCTTTTTCCTATATCATTACGATGAAAATATATCCTGTTTTATAGGAAGAGATGGTCAATATCTAATATATGATAGTGCACATGAGGTAGAAAATATTGGAGCAATTTACTTTACCTACGGGGTGTAGAAGATTTCTTAAAAAGGTTATTTTTATTATGTGTGCTAATTAAATAATCCCTTCTTTTTCGATATAGTCGCGGATTTTAAGAAGATCATACCAAGTATCTTTTTTTTTGTATGGAGACCTAAGAAGAAAAGCTGGGTGAAACAACGCTGCTGTAAAGATCGGCTTTTTAAGATATTGATTCGTATAGGAATAGTAATTTTTACGAATATATGAGATGCTCTCCTTCTTACTAAGAAGTGCAGTAGTTGCTGTTCCTCCAATCAGTATAATCATTTTTGGAGAGAGTAATTCAATATGCTTTTCAACAAAAGGTTTGCATATTTTGATTTCTTCAGGTGTTGGTCTTCTGTTTGCCGGTGGCCTCCAAAAGATAGTGTTAGTGATATAGACATTTTTTTCACGATCTAGGCCAATAGTATTCAACATTTTATCAAGTAGTTTTCCACTTTCTCCACAAAACGGAATACCTTTCTCATCTTCAGTTGCTCCAGGTGCTTCGCCAATAAGAAGTATTTTTGCGTCTGACTGACCATCACAAAAAACAGTATTTGTTGCAAAGTTTTTCAAAGCACATCCATCAAAATTCTCAACAATAGTTTTTAGCTCCTGCAAACTAGTAGCACTTTCGGCAAGTTTTCTTGCTTTAGCAATATTGATTGTCAGATCTCCATTTTCTTTGATTTTAGAAGGTTGCTCTTTCGTTTCTGATTTTTCTTTATTAATAGTAAAATTTGTCATTTTATCCTGAGAATTATCTTTGGATGTTTCTTTTAGTCTGTTCATTAGAGAATTTTTACTATCTTTTTTCTCAGAACAATAATATTCTATTCCAGCATGCTGAAGCCATTTTAATTGATTTAATTTTTCTTGTAATTTATCCATACAAATAATTTTAAGATGACAACTTATAAATATAAAATTCCTGAGCATTTAACCGGTCAAAGACTAGATAAAGCTCTAAGCCTATTGTGCCAGGAATCTACTCGTAGTCAAATTCAAAAAGCAATTAAAAATAACCAAGCCGTTCTGAATAACAAGATTATTTCGAATTTATCTTTAAGGGTCAAGGAGAATGATGTTGTTGAGATAAATATCATTGAAGAGATGCCAGAGAATATAGAGCCATCTGATATTCCTCTTGATATTGTGTATGAAGATTCGGATCTAATTGTCATAAATAAGAATTCTAATATGACGGTGCATCCTGGAGCTGGGAGCTATAATGATACTCTGGTTAATGCACTTCTATATCATAGCAAGAATTTATCAGATATTGGTGGTGAAATTAGACCTGGTATAGTTCATCGATTAGATAAAACGACGTCTGGATTGATGGTAGTAGCAAAAAATAATAAATCTCATGTGGATCTTGCTGCACAAATAGAATCAAGAAATCTTGTTCGCAAGTATAAAGCACTGGTTTGGGGAATGATCAAGCAAACAGAAGGTACAATAGATATACCAGTTGGACGCAGTAATAGTGATCGAAAGAAAATGACAACTTTAAAGAATGGTGGCGGTAAGTCTGCTATTACTCATTACAAAGTTATAGAAATAATGCATGGAGGTTTATTTAGTTTGGTTGAATGTAAATTAGAAACTGGGCGTACACATCAAATTAGAGTTCATATGAGCCACGTAGGTCATTCAATAGTTGGTGATCAAACATATGGAAATAATTCTCGTAAAATTCATGGTTGCCCGGAATATTTAAAAGAAGAATTGTTGAAGATTGATCACCAAGCTTTGCACTCATTTTATATAAGTTTTGATCATCCAACAACCAAAGAAAGAATGGAATTTCTACAAGATATTCCAAAAGATTATCAGCATTTGTTGAACTTTATTAGGAAGGTTAGTTGACAGCATGGCTATATAGTTCTAACATCTCTAGTTGTATCTCATAAATGTAAGTGTAAGAAATGAATAAATTCAAAATTTTATTATCAATAATTTTATCAACAATTCTTGTGTCTTGTGGAGATTCCAAGGATGACGATACATGGGTTGTTGGGACAAGTGCAGATAATCCTCCTTATGAGTTCATGCAGGATGGTGAAATTGTTGGTTTTGATGTTGATTTAATGGTAGCAATAGGTCAGCATCTAGGCAAGAATATAGAATTCAGAAACATGGAGTTCCACGGTCTTCTTGCAGCTTTGGCTAGTAATAATGTGGATATGGTTATTGCTGGAATGTCAGTGACACCCGAGCGTCAAAAACGCGTTACGTTTTCTGTTCCATATACTGATGCTAGGATTGCTGTTCTGTTCCGTCGAGAAGACAAGTTTAAGAGGTCTGAAGATTTAAAAGGTAAATCTGCAGGTGCGCAATTAGGCACTATTTGGACATTAATAGCGCATGATATGTCTGTAAAATATGATTTCCGCACAAAAGCGCTCGCTAATAATCTAATGCTTGTAGAAGAGCTTAAAAATAAAAGACTAGATGCTTTAGTTTTAGAAGAGTCGCAAGCTGAAAAATTTGTGGCAAAATATCCAGAGCTTTCGAGTTTTTCTGTAAAACAATATGGATCATCTTTTGCAATTGCAATGCCTAAAAAGACTGAACTAAAAAAGAATATTGATCATACAATTAAACAATTAAAAGGTAATGGAACTATTAGCGCTTTAGCTAAAAAATGGGGAATTGTTAGTGAAGAGTGAAGAATTTAAGGCAGCTGTTGGCAAGTTCCCCACTGGAGTAACCATTATTTCTACATCCTATGATGATAAATTATGGGGGTTTACAGCAAACTCTTTTAATTCAGTTTCACTTGAGCCACGACTAATCTCTTTTTGTTTAAATAAAGAAGCTGGTAGTTTTGATGTTTTTAAAGAAACTTCACATTTTGCAGTAAGTATTTTATCAAGTGATCAAGCTAGCTTGTCTGCGCATTTTGCTAGTCGAATTTCGGATAAATTTGATTCTGTAGAATATAGAATCGGAGAATACTCTAATGCTCCTTTATTAAATGGCGCTGTATCTTTTATTGAATGCAAAAAATATAATCAGTTTGAGTGTGGTGATCATTTTATTTTCATAGGTGAAGTTGGTAAAATTTCTATAGATGAAATAAAATCTCCATTACTATATTTTGCAAAATCATATACGGAGGTGAAATGAGCCTTATTAAAGTCGGTATCAGCGGTGCAAATGGTCGTATGGGCAAAGCTATAGAATTCGTTATTAGTTTAAAGAATAATAAGTTTGAGCTTATTGCAAAACTCACTAGTTCTAGTGCAGAGGATGAGGTTGAAAAATCCTGTCGGGCTTGCGATGTTATAATTGATTTTTCTGAACCAGGAAGCTTAAAACATCTTATGCATTATGCTTCTATATTTTCAACAAAGATTGTAATAGGAACTACTTCGCTTGAGAGTGAGCATTTTCAGTATATTGAAGAGGCGGCAAAGAATATTGCTGTTGTTTATGCGCCAAATACAAGTTTAGGAGCAAATCTTCTTGAAGATTTATCTATCCGGGCGGCGAATATGTTGAATGGTTATGATGCAGAGATTATAGAAGCTCATCATAAGTATAAAAAAGACTCTCCATCTGGAACAGCACTGGCAATTGGGAAATCTATAGCAAAAACAAGGCAGATTGATTTTGATGCTAGTGCAGTGTTTGATCGTTGTAGCAGAGGCTTGCGGCAAAAAGATGATATTACATTTTCTTCCATTAGGGGAGGTGGTATTTTTGGTGAGCATGAGATATTATTTGCAGGTGATAATGAATTAATCTCTATTAGCCATAAAGCTCTTTCGCGCGATGCTTTTGCTGAAGGGGCTGTATACGCTGCATCTTGGATTGCTGATAGAAAAGCAGGTTTGTACTCAATGCGTGATGTTCTAGGTTTGGATAAATAAGGCCAAACTATATTGTATAAGCGAATGAAATACGCATCCTACTCATATTTATATAGTATGATATATATAATAGTCACTAGTTTACTATATTGACGCGTCAATTCGTTCCTCGCAGGTTATAGCGCTACTGTCGTGGCAATTAGCTAAACTAGCACCTTGCAAGTATCATCTCAGAGATCCGTTATTTATGATATTAATAGATAGTTAGTCATTAGATTACTGCGTCACTTTGTTCCTCGTGGGTGACAGTACATAAGTCATAGTGATTACAGAGAGAATTTTCATTGTTATTAAAGTATTGTATATAGAGTGCCTAATATGTTGCCGCGTTATTTCGCTTTTCTCTGGTGTCAAGATTGCTGTTATAGCGTACGCAGCACTTCTATTCATTGGTTTTTAATGTACTATGTAGATTGAGTTATAGATTGTTATAGCCTGATATTAGTTGTCATCATTTTTAAATAGACCCATCCTTTTGATGTATATAATATTAAAGTGTTAAAAGGGCATTATTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGAAGAATTGTAAAGGTTGCGGGAGAAAAGAGTTAATAAAGAATGGCATTTCGCCAGAGGGGGCGCAGAAGTACAAATGTAAGAGTTGTGGAAGCACGTATAGATCTGGTGATAAAAGGTTAAA
>sequence07
ATCAATAGGTAAGTTTAAAAGTTGTTTAAAAGATGTAAATCCTGATCCAAAATCATCTAAAGCAATTTTACATCCATAACCATGTAAAGTATCAATAAATTTCTTGGTTGTGGCAAAGTCATGATTAAGTGAAGTTTCTGTAATTTCTATAATTAGTCTCTTAGCAACATCAAATTTTTTCAGGAGGCTTTCAATTCTTTTTAATAATCTTTTATTTAACACTCCAATATTTGATACATTAACTGATAATTTTATCTTCTTATCATTTGCAAGTTCATTAATTGCCATTTCTACAACTGTATAATCAACTATGCTAATCAATCCTTTTGTTTCTGCATCTTCAATCATTGGACCAACCGAAACAAAATTATTATCTTCATCCTTAACTCTAAGCAAACATTCATAATATTCAATATTACCAGACTTTCTGTCAACTACTGGCTGGTACATAAATTTGGCTTTCTTTTTAAATAAAGAAGTTCGCAATAAATTCAAATTGATATTATCTTCTCTAAGCTTTTCAACATCTAATGGATTGTCATCATAATTGCAATAGTAGCTTCTATCTTTCGACATATACATACCATACATCATCATCGAAACTAAACGATCAACTTTTATTCCTCTGTCTTTTGAGAATTTTATGCTACCTACTGCACATTTTAAGTAGCTTTCTGGAAAGTCAGAATCAACATATAATTGAACTTGTGAATATACAGAATATGCTAATTTCTCGGCAACTTTTGTATCGCCTTTAACAACTATAAAAAGCTTTGTTAGATCAGGAGTTTTTACAATTGCATACTCATTTGCTTTTGCACAAGCCTTTTCTACCATTAGATAAAATTTATCAGTAATGGAGCTAATATCATCTATTAAAATATTTAATTCATCTCTATTTAATAGCTTCACAACAAGTAAAACACCTTGCCCCGCTTTAACCAGCTCTTTTTCTAGGCCATCCATAATTTTTACCTTGTTAGTCATGTTACCCTATACATTAGACTTATCTGTGTAGTATAATATCAGAAGCAACAAACTTTAAACACTAATAAATTAATGAATAGAAAAGAAATTATAGAGACCAAACTAAGTGTGTTAAATCCACATTTTCTTGAAGTCGTTGACCAAAGCTCTCTTCATGCAGGTCATGCTGGCAATCCAAATGGAGATGGGGAATCACACTTTGCAATAAAAATTGCTGCAAAAGAACTTGATGACTTATCGATGATTAAACAACACCGCATTATTAATAACATATTAAAAGATGAATTTGATAACGGTTTACATGCTTTATCAATTAATATCAAACCTTAAAACTAAATACTAACGTTAAAAATGACCCAGGAAAATATAATTAAATTACTCGCAGGTGCAAATAAAATTGCCAGAGAATCAAGTAATATCATAAAAGAATCTGGTGCAAACTTTGTCGAAAAAACAGTTATAAAAGGCAATTACGTTTCCAGAGAAGAACACGAACAGCTCAAGCAACTTGTATTAAAAATGCAAAACGAAATAAATTCACTGAAAAAAAAGAAATAATTCTACTGCTTCCCAACTAAATACGAAGCAGATTCAAATAGCTCCTTTGGAATTTTTATACCTACTTTCTCAGCTGCATTTGGATTCAAGTATAGCTCTATTTTCTTTGGAAATTCCACTGGCGCAGTATTAATGTCTTTACCTTCTAGAATACTAACAATCATATTTGCAGTTTGCAAACCTAGATCATATTGATTTGGACCAAGTGCTGCTACTGCTCCATCTTTTACAATATCCGTATCGCTAACAAATACTGGAATAGATACGTTATTTGCTGCCTTAACTATAGTTTTAAAAGCACTCAATGCCGTATTGTCATTACTTACAAATATAGCATCAACTAGTGAACTTAACTTAGCTGCACTCTGCGCAACCTCAGAAGTTTTGCTTGCAGAAACTGTAATTAGTTCAATACCATATGTTGGACAAATTACCTTGAGCTTTTCTATAAGACTAATAGAATTCAATTCACCAGGATTATATAAAAATCCTAATTTTTTTATATCTGGTTTTATTTTAAGAAACATTTCTATTTGCGGCTCTAAAGATATAAAATTTGAAACACCGCTTGTATTATTCCCTGGTTTGATAACACTATTTACAAGACCTGCATCAACTGGATCAGTAACCGAAGAAAAAATGAGTTTTGTCTTACCGGTTCTTGCATATTTTGAAAATGACTGTGCTGTAACTGTTGCAACCCCAACTACTATATCTGGATTCTTACTTATTAATTTATTGGCAATTTGGTTTGCCAGCGAAACATTACCTTGAGCAGACTCCACAATTAATTCTAGATTTTCATCTTTATATCCTTTGTCAGATAACCCTTGAATTATTCCTTTCGTTGTGGCATCAAGCGCTGGGTGTTCTACTAATTGACTTATATATACCTTAACTTTTTTACTATTCCCAACTGCATTATATTGCCATGCAAAAACAGCTGCTATTATAGCTATTAAACTTATTATTTTTCTAAACATATTTATTATTCTCTTCTAATATTTCTTAAAGTATCTCTATAACCTCCGTGAGGCTCATCTCTTAAGAATCTAGCAACCCTACCTATTGTTGTTAAACTAGCATTTGTCAGCTTATGAATTTCTCGATAAGACAATTTGTCATCACTTAACAACTGACAAACTTTCCACCTCTCTTTCATCGCTTTAAGCTCAGCTCTTGTACACAAATCTGTTAAAAATTTCTCCATTTCAGAAATAGAGTCAATTCCTGCAAGCACCTCAGCTAAATTCACTGTATTATCATGATGATGGTCATCCCCCATAGATACCTCGCATTGATGTAATAATGTATTATTATAGTAGTACATTATTACTATGTCAAATAAAAACTGTGAAGTTTAAGATCACAATGTTATCTATATATCCTTATATTGATTTTGATCACTAACAGGCTATTTCTATCTTCTAATTATTGCTTTTCTCTTAAAAGTTTGTCGTATTATGATATCCTTACATTTAAACGTTTTAATATATTAAAAATAAGCATGATATATACAAAAACTATAAGGAGTATTTTTTTCTTACTAATTGTTTCGTTATCTTTTACTTCTAGAGCTGAGATCTACTCAGCTGAATCTATTGAAGAGGTAAACAACACAATTTTGGAGTTGCTATCAAAAAGAAATCCCAAAAAAACTCTTTTATTAATGCCTTTGGAAAAGTTTTTAATAAAACCTGTTGATGAAGAGTTTTATATTAAAGATAAAAAATATGTTCCAGTTTTGCAAAAAGCAGAGAAAAAAGCTAGATTATCTAGAAGAGCATATCTAGAAGAATTAATACTAACGGAATATGAACATGAACTTTCTGATCCTTATGTAGTAGAATTTATACAAAATATTCAAAAACTTGATGTACCTATGATAGTTTTCACTACTAACTGCTCGGGAAGTTTTAACAAAATACCCTATTTAGAGGTCTGGACCTGGACATATTTATTCAATAAAAATATTGACTTATCCAAGAGTCCAATAGGATCGAATCAAATTATTTTTAACAAATACGGTAAAAAAGTCAAAGGTACATATCCAACATATTACAAAGGCTTGTTATCTGCAAATTCATGGGATGGGAAAAACTCGATTCAGTCAATGCTTGCAACACTATTTGTTCAAAAACTAAAATATCTTCCTGATGTTGTTTATATCGTACACGAGGAGGAGAGTTTTATAAAATCTATTGAAGAACAATTTAAAACCGTTAAAAGAGATGTACAAGTAGAAGGATTTATATTTTCTTCACAAAAAAAGGTCAACAATGACCTATCTATGAAAAAAGTCCAGAATTTTTGGAATAAGTTAATTGATAAATTAAATAAAGTTTCTAGAAAAGAACGAAATATTGATGAAGAGGATCCATATGAGCAATAAGTTAAAACTATTTGTTTGTTTATTTGTTGTTTTTATTAATACAGTATCTAAAGCAGAAGTTATAACAACATACTCTGTTAATTCTTCCACTGTGCAAAAAATAGAAGAATGGATAGATAAAGACACTATCATTCTTATTGAATTAGATGATACATTAATAATGCCAAAATCTAAAATGTTCTCATTTGATTCAAATCCTTATCGCATGTTTCTAAATAATCTTATAACGCTGGGAGAAAGATCTCCAGCTTATACTAAAGCAGTGGCTAATTGGTATGGTCAGAGAAAAGTACGCCTAGTTGAAGAAGGATGGATTGATTTTATCAGTAGAGCTCGCGCCAAAGGAGCAAAAATATACGGCATATGCTCAATGCCTTTATACCTTCTAAACATTGAAGAAAAAAGGTTAAAAGAAATAAAAGATCTTGGTATTATATTTGATAGTAAATTAAATAATTCTGAAGAGTTTGAAATTAAAAAAGAATTTCCATGGTCTGCTCGGTTTCATAAAGGCATAATATATAATGGCCCGCACTCCAAACATGAAGCTATTTTAGAATTATTCAAAATTGCTAATCTTTCTCCTAAAAAATTCCTTACATTTGCTAATGTTAAATACGAGATTAAGCTAGTTGACAAAGCACTTAGAAAATTTAACATGTATTTTAAAAGTGTTTTATATTTAGGCAGTAGAGAAGTTACGGGACGTCCTAATGAAGAAATAGTAAAATTTCAACAACGCCAGCTAATTGAAAACGGAAAATGGCACGAAGATGATGAGGCTAGTAAATTACTAGACTTTCGGCGGCAACAAGAAAATTCAGGAAGCGCTGAGTTTCAATAATATGTTGAAAATATATTTACGTAAGGTATTTACTCGTGGATTCTATCCAACGAAGTCTTCTAATTGGTATAAAAACAAAGGCTATATTGGAGAAAACTTACAACAACAATTTGCAGATTTTCTCAGCAAGCAATCAAAAGAAGGATCAAGATATTTTAAGGAGTTTCAATCCCTTAGCTTAACTCGTCAATTCATACCATCTGGAGAACATGAATTAGACTCGGTATTGATTATTCCTGATTCTAAAATTGCAAAAGGAAAACCTGGCCTAGGAGTTTACTTTATACTATTCCAAGGCAGGGGAGAATATTATGAAAGTCGTTTTCGTGATATGGCAAAACAAGCCCTTGCAACTGGAGCAAATATAATTGGATTTAATCCAAAAGGCTTTCATAATAGCAGTGGTCACACAAGAAAGCTATCAGATCTTGTCGATGATGGAATTGCTGTAGTTACATATTTATTAGAAAAAGGCATTGATCATAAAAACATAGTGCTACAAGGAAATTCTCTAGGATCTGGAGTACAGGAGATGGTCTCTGAACATTTCAGGTTAAACCATGGTATAAGCTTTAGACAAATTAATGGTAATTCATTTAAAAATCTTGCCGCGGTAGTAGCTAATCACTATAACGCTCCTTTTTTAGAGAAATTTTTCAAAATATTCTTAAAACATTCAGGTTGGGAGATTAATCCTGGTTTAGACTTCTACAAAACTGGTCCATACAAAATGTACTTGCGTAGAAAAGGGGATAGAACAATAACAGGAAGCGCCGAATTTCACTCTATGGTAGATCATAAAGCTGATTATGAATCATCTCCTGACGGATACAAAGAAACTAACAAATGGCTCAATGAAAGAAATCAGATTATCTATACCGGCAAACAACAGAAAGATCCACATGAAATAGGTCTATCTTTATTTAAAATCGACGAAAAAGAAAAGCGCTCAGTTTTTTATATGATAAATAAATTCTTAGAAGATTCTAAAGATTACCTATAGTTCACAGTTATCTATAGCACAAATCTAAACTGCGCTCCCACACCATCTTTACTCTCTGCACTAATACTGCCGCCATGTGCTTCTACAGCTGCTTTGCATAATGCTAAGCCTACTCCCCTTCCTTCTGCTTTTGACTCAGAATTTGAACCCATCTTAAATGGCGTAAATATATCATATAAATCTTCCTTTGGTATCCCAATCCCATTATCTGATATGACAAACTCAACAACACTACCCTTTCTTAAGACACTTATTCTGATAATCCCTTCAGTGCTGAAATTTATTGCATTTATTACTAAATTATCTACTGTTTGTCGCATATAGTTTGGGTCTACGCTAATAAATATATTCTCTTCTATCCGCATCTCAAAATCTACCTTCTTATCTTCTAGATATATCTTGCGACACGATAGAACTCTATCTCTTACAAGCTCACCAAAATTAATCATAATTTTGTTTAGCTCTATCTTTTTGGCGTCTAATGTTGCTAGATCAAGCATATTTAATATCATGGATGAAAGACGATTTGAGTTCTTATACACCTCATCTGACAGATCTTTCAACTGCTCTTCACTAAACTTACCTAAACCATCATTAAGCATCTCTGCAAAATTCATTACATTACCAACCGGCAAACGCAGCTCATGATTCACATTATTAAGTATTCTCTGTGCCGTAGCACCCAAACGCTCAATTTCCCTGCTCTGATCTTCAACCCTCTCTGTGTAATGCACTACTTTTTCATTTAGGTCAGCTACTTCTGTTTCTAAATGGATTACTTCTTCTTCCAATATATCTACTTTAGCTTCCGTAGCTTCCTGATACTCTTGTTTAGGCTTTAGAAAGATTATTAATATAGTACTCATAAACAACAGCAAATATGCTATAGTAAATTGCAAATCACTAAAATCACCCGAGAAAATTTCATCACCAGTATAGAACTTAAAAAACTGAATGCTAGAAAATGTACCAATTACCATCATAAGTAAAGCTATAGGCCAGCGTACTAAAACGGCTAAAACGATAAAATTAAGCATAAAAGTCATAAGCTGAAATTTACTAAAATCACTTGTTAAAACGTGCATAGAACCAATACAGATTAATATATAAAATAAAGAAAAGGTCCAGATAATATTGATTAGGCTTGATTGCCTTAAAGACTTAAACCAAATGGGATAACTTATCAAAGCAGTTGCTAAAAAGAAAACTGATGGATATATAAAATCAATTATTCCTTTATAATTCGCTTGTGCAACCTCTGGCATTGTATATATTGCAAAATATGTAGAAAAAATCGAAAATATTCCAAAGTGTAAGTATACTACATCTTCTTTAGGAGAGCTCTCTTTACATAGATCAATTAAATTAAATTCTTTTACTAAATCTACGTATCTCCTAAATTGCTCTTTACGCTTTCTACGAAGTTGTATAACAGTTGAATAGTCTTTAATTCCAACCCAACCTCCTGATTGTTTCAAAATGTAATGACTAGAAAATAAAAATATTATATTTACCGCCATACCAGGTATAACACTATCTACAGTACTCTCTCTTAAGAAAATTTCCCATAAAACAACAGTAATAAAACCAGCTACCATTCCTATCAAAACGGACTTGGTACTACTTCTGAAACCAATTATTGAAAATATAAATGGTACAGATACTACCGGCATATAGAATGATTTTGTAGTAATAATCAGTTTTAACAAATTATCACTATATATTGCTAAAATAAGAGAAAATACTCCTAATATTAAAGCAATCATACGAGATACTATTAACTCGTTCTTTATTTTAATACCCGCAGCACTACAAAAATCATGAGTAAATAGAACGGACGTTGAATTAATGTATGAATCAGCTGTTGACATCATCATTGCTAATATTCCAGCTATAGTAAGGCCTTTAAGCCCACTATAAGAGTAATCTAAAATAATATGTTTTGCTATTTCATCTGCAGCAACATCAGGATATATTGCTAATGCAATCACTCCTATCCAAGACATTATCAAACTTAATGCAAAGAAAACAAAAGCAGAAATGATAAAAGATTTTCTAGCTTGCATAGTATCTTTAGCCATTGATATTCTCTGGAAAATCGCTGGATCAAATGATGGAACAGCAACCCACAAAAATATAAATAAATAATATAATGACTTGCTACTGGTAAAATCAAATACTTGCTTAAGATCAAAATTATTGTTCACAGATATTGTATCAATTACAATATTTGAGCTATCTAATGTACCTAAAATAAATAAAACTAAAGTCGGTAATATCGCACCAAACATGAAAAACTGTATTACATCAGTGAAGCTCACAGATTTAATTCCACCAAAAGCAGAATACATTGTAACAATAGAAGCACCTATTGCAATTCCATACACACTTGAAATACCAAGTGTGTATTCAAATAACATTCCAGAAATTTTAAATTGTGCTGCAATCATTCCAGCTGTTGCAATTGACCCAGCTACAGCTGTAATTAGCTTTACGTTATTACCGTACATCCTACCCATAGCAGAAGCTATAGATAAATCACCTAAGAATTCTCCCATCCTCGGGGCAAAAAATAATCCTATCAGCAATATAACGGCTAAAATACCAAATGAATATGCAAGAATAAAATACAAGCCATCTGTATAAGATTCTGAAATAAGAATAAAAAAGTCTTCACCACCAATCCAAGTTGCAACTATTGTACAGACCAAAGTCACGGTCGTAAAATTCCTGTTTCCAAGAGCAAACTCTTTTATATTTTGAATGTTTTGCCCTTTATACATTCCTACAACTAAAGTAACTAATAAAAACCCAATTACAATAGCTATATCAATATTAAAATTCATGTTAAGTTTATCTTGTTATTTATACTAAATATTTGAACCAAATACCTACCAGATAATATTTAATAAACCATAATTTTACCATAATAAAAAAACAACCAGAAGCACACTAATATACACCTCTGGTTGTTTTTTATGATATAAAATTAAAATTTATTGTTCTGATGCAACGGCTCTATCTCTTTCAGAAGCCTGTTTTCTAGCCATCCCCATATAGAAACCTGTACCTGCAGGTATTAACCTACCTACAATTACATTCTCTTTTAGGCCTTGCAAGTAGTCAACTTTACCTGCAACAGAAGCTTCAGTTAGAACCTTTGTGGTTTGCTGGAAAGATGCAGCAGAAATAAATGAATTAGTCTGCAACGACGCTTTAGTAATCCCCTGTAGAACAGGATCAAAGCGAGCAGTTTCACCACCTTCTTTCACAATCTTCTCATTAATCTCTTCAAGTTGTTTTGCATCTACTAACTCACCTGCTAAGAATGTCGAGCTTCCAGGATGAGTAATTTCAACTTTCTGTAGCATCTGGCGAATGATAACTTCAATATGCTTATCATCAATCTTCACACCTTGTAGTCTATAAACAGCTTGAATTTCAGATACCATATAGCTAGCTAAAGCTTCAACACCCATAACTTTCAGAATATCCTGAAGAACTGGATTTCCATCAATAATCATGTCACCGCGCTTAACAAAATCACCTTCATTAATCACAACATGTTTACCTTTAGGTAACATATACTCAATCGGCTCAGATCCATCAGTAGGATGAAGAATAACTCTTCTTTTTGACTTATAATCCTTACCAAATTCAATTCTACCGTCAACTGATGCAATCACTGCATGATCCTTTGGACGTCTTGCTTCAACAAGTTCAGCTACTCTTGGAAGACCCCCTGTAATATCTCTTGTCTTAGTAGACTCACGCGGTATACGTGCTAAAATATCACCTGCAGAAACCTCTACACCATCTTCAACACTCAAAACAGCTCCAACTGGTAAATAGTGCTTTGCTTCTAAACCAGTAGATAACTCAACTGTTTTACCTTTCGCATCATTCAATTGGATACGCGGACGTAAATCTGCTCCTTTTGAATATTGTTTTGATTCAATGACAATCTTATTCGAAATACCAGTTGCATCATCCATAGTAGTTCTGATAGACAGACCTTCAAGCATATCCGTAAATACTACTTTACCTGACTTTTCAGTAATAATTGGGATTGTATATGGATCCCACTCAGCTAATTTCTGGCCTTTTTCAACTTTATAACCATCGTCAACCATCAATCTTGCACCATAAGGAACCTTATATCTTGCACGCTCCGTACCTTTATCATCAACTAAAAGAACTTCACACGCGCGACTCATAACGATCTGCAAACCTTCTGAGTTAATAACTAAGTTTCTACCTAGAATCTTAACTTTTGCATCATATGAAGCTTCAAGTGATGATACTTCTGTACTCTTTGTCGCCGCACCGCCAATGTGGAAAGTTCTCATTGTAAGCTGCGTTCCCGGCTCACCAATAGATTGTGCTGCAATAACACCAACTGCCTCACCTTTTGATACTAAAGAACCAGTAGCAAGATCACGGCCATAACAACGAGCACAAATACCCTGCTTGGTCTTACATGTAAGTACAGATCTAATTTTAATTAGATCTAGTCCTGAAGATTCTATTTTATCTAGTTTTTCTTCATCTATTAAATCACCCGCAGAAACAAGCAACTCATTTGTCACTGGATGGAAAGTATCAATTGCAACTGTTCTACCAAGTATTTGATCAGATAGAGAAACTACAACTTCACCGCCATCTATAATAGTTTTAACTTCAAGACCATCTGTTGTACCGCAATCTTCATCTGTAATGATACAATCTTGCGCTACGTCAACTAACCTTCTTGTTAAATATCCAGAATTCGCAGTCTTAAGCGCAGTATCAGCAAGACCTTTACGTGCACCGTGTGTAGAGTTAAAGTATTCACGAACAGTCAAACCTTCCTTAAAGTTAGATTTAATCGGTGTTTCAATAATTTCGCCAGAAGGCTTAGTCATCAAACCACGCATACCTGCAAGCTGCTTAATCTGAGCTGCTGAACCCCTTGCTCCAGATACTGCCATCATATGGATTGAGTTTAGCTTCTCATTATTATCAGTAGCGCTATCAACTACTGCTATTTCTTCCATCATTTTATTCGCGACTTTATCTGTACATGCAGTCCAAGCATCAACTACTTTGTTAAATTTCTCACCATATGTAATTAGACCTTCAAGATATTGCTGCTCAAACTCATTAACTAGCGAAGAAGTCTCATCTAAGAACTTCGCTTTTGCATCTGGAATAACCATATCATCCATACCGAATGATATACCAGATTGACAAGCATGCTTAAATCCAAGCTCCATCAACTTATCAGCAAAAATAACCGTCGCCTTCTGACCACAGTAACGGTATACAGAGTCAATTGCCGCTGAGATATTTTTCTTATTCATCTCTCTGTTGAGCAATTTGAAATCTAAATTTTCAGTTTTTGGTAATAATTTTCCAAGCAGAACTCTTCCTGGAGAAGTGTCAACAAGAGCCTCAACAAATTCCCCTTCAGAATTAAGTATTTTTGTACGATACTTAATTTTTGTATGTAGAGTAATCACTTTCTCATGTAGAGCAAACTCTAATTCCTTAATGTCACAGAATATCATACCTTCACCCGGCTCATTATCAAGGATAGAAGTTAGATAATATAGACCAAGTACAATATCTTTATCTGCAGATATAATTGGCTTACCATTCGCAGGGCTTAAAATATTATTTGTCGACATCATCAAGACTCGCGCTTCAAGTTGAGCCTCAATTGATAATGGAACATGAACAGACATAGTATCACCATCAAAGTCAGCGTTAAATGCCGCACAAACAAGAGGATGCAACTGAATTGCTTTACCTTCAATTAGAAGTGGTTCAAATGCTTGAATACCTAGCCTGTGAAGTGTTGGAGCTCTGTTCAATAGAACTGGATGCTCTCTTATTACTTCTTCCAAAATATCCCAAACTTCTACTTTTTCTGCTTCAACAATCTTTTTTGCAGCTTTAATAGTTGTTGCAATACCATACATTTCAAGTTTCGAATAGATAAATGGCTTAAATAACTCTAGCGCCATTTTCTTAGGAAGGCCACACTGGTGTAGTTTCATTTCTGGCCCTACCACAATCACTGAACGACCTGAATAATCTACCCTTTTACCCAATAGATTCTGACGGAATCTACCTTGCTTACCTTTAAGCATATCACTCAAAGATTTAAATGGTCTCTTATTTGCATTCTTAACAACTTTACCTCTGCTACCATTATCGAATAATGCATCAACAGATTCTTGTAGCATTCTTTTCTCATTACGAATAATAATATCAGGCGCTTTTAACTCTAGAAGTCTTCTTAATCTATTATTTCTGTTGATTACCCTTCTATATAATTCATTTAAGTCTGAAGTTGCGAATCTCCCTCCATCAAGCATAACAAGAGGTCTAATTTCAGGTGGAATCACAGGTAGTACATTCATCACCATCCATTCTGGCTTGTTGCCAGAACTACGAAAATCTTCTACTAATTTTAGTCTTTTAATGATCTTCTTCTTTTTTGTCTCAGAAGCCGTTTCAGCAAGTTCTGTTTTCAACTGAACACTTAGCTCATCAAGATCTAACTCTGAAAGTAGTTTTTGAACTACCTCTGCTCCGATCATTGCAATAAAACTATCTTCACCATACTCGTCTTGTGCTTTAATAAAAGCATCCTCAGATAGGAGCTCTCCTTTTTGGAGAGGAGACATACCTGGTTCAATAACAACATAATTTTCAAAATACAAAACCTTTTCAAGATCTTTCATTGTTATGTCAAGCAATGTACTAATTCTTGAAGGAAGTGATTTTAAGAACCAAATATGAGCAACAGGAGCAGCAAGCTCGATATGGCCCATACGCTCACGACGTACTCTAGAAGAAGTAACTTCAACGCCACATTTCTCACAAGTAACGCCTCTGTACTTCATTCTCTTATATTTACCACACAAACATTCAAAATCCTTTACTGGACCAAAAATCCTAGCACAGAAAAGCCCTTCTTTCTCTGGTTTAAATGTACGATAGTTAATCGTCTCAGGTTTTGTAACCTCACCGAAAGACCAAGAACGTACTTGCTCTGGACTAGCTATATTAATTTTGATTTGATCAAATTGTTGTGTACTGCTTAATTGGCCGTAAAAATTGATCTGTGACATAATGAATTTATCCTCAAACTAAACTCTTAAGAAGCGCATTTAGCGCTTTATTTATAATATTTCTTTCTGTTTCAAACTATTAATAAGCGTCAAAAATATTTTGAACGCTTATTAAATTTATTTAAGCAGAACCTTCTTCAAGCTGAACATTCAAACATAATGATCTAAATTCTTTAATCATCACATTAAATGACTCTGGTATACCTGAACTAAAGTTAGTATCGCCTTTGACAATATTTTCGTAAACTTTAATTCTACCCGCAACATCATCAGATTTTACTGTCAGTAATTCTTGAAGTGTAAATGCAGCACCATAAGCTTCCAGTGCCCACACCTCCATCTCACCAAATCTTTGTCCACCAAAGTGTGACTTACCACCTAGTGGCTGTTGCGTCACAAGACTATATGGACCTATTGAACGAGCGTGAATCTTATTATCAACAAGGTGATGCAGCTTCAGAATATATTTATAACCAACAGTAATACTGCGATCAAAGTACTCACCAGTTCTTCCATCAATTACTCTTGATTGACCTGATGGATTCTGACCTGCAAGTTCTAGCATTGATTTAACGCCTTCAACTCTTGCCCCGTCAAAAACCGGAGTAGCAAAGTGTACACCATCTTTTAGTGTTCCACAAAACTCTATTAAATCCTCTTTATTTAAGTCTTTAACTTGTTTTGCAACTTCACTGCCAGCATATATTTTACCGACAAAATCTTTAATAGAATCAGTATCAATATCATTGTTGCTGTATTTATCAAGCATATCACCAACTTTATTACCAAGTTGCTTTGCTGCCCAACCTAAATGCGTCTCTAATATCTGCCCTACATTCATACGCGACGGCAAACCTAGAGGATTCAGAACAACATCAATAACTGTACCATCTTCCAAGAAAGGCATATCTTCTTCTGGCATAATACGTGAAATAACACCCTTATTACCGTGACGACCAGCCATCTTATCACCAGGCTGAAGCTTGTGCTTAGTAGCAATAAACACCTTCACAACTTTCAAAGCGCCTTGAGGTAAATCATCACCACTCTGCAACTTATCAACCTTACTAGTAAAGCGCTTATTTAGCTCGTCTTTTTTTTCATCATATTGCTGCTTGATTTGCTCAATCTCGCTCATCACAGCGTTATCTTCAACAGTTAACTGCCAATATTGACCTTTCGAAAGAGTCTCAAGAAGCTTTTGATCAATTTTCTGACCAGCTTTTACTGATTTTGGTCCACTAATAATTGTCTGGCCATCAAGAATTTTCTGCAAGCGCATAAATACGAAACGATCAATGATTTCAATTTCATCATCTCTATCTTTTGCCATCTTCTCGATTTGCTGCTTCTCAATTGTGATTGCACGCTCATCTTTCTCAACGCCGCGGCGAGATAGAACACGCACTTCAACAACAGTACCTGCAGCACCAGGTGGAACATATAGTGACGTATCTCTAACATCAGAAGCCTTCTCACCGAAAATTGCGCGAAGTAATTTTTCCTCAGGTGTCATTGGAGATTCACTCTTAGGAGTTACTTTTCCAACTAAGATATCACCAGGCTTAACTTCAGCACCAATGTGTACGATACCAACTTCATCCAAATTACGCAAAGCCTCTTCACCAACATTTGGCATATCACGGGTAATTTCTTCAGGACCCAATCTTGTATCTCTTGCAACGACTTCGAACTCCTCAATATGGATAGATGTAAAGACATCGTCTTTTACAATTCTTTCAGAAATCAAAATTGAATCCTCAAAATTATACCCTCTCCAAGGAATGAATGAAACAAGCATATTACGTCCAAGAGCAATCTCTCCTTGATCTATAGCCGGACCATCAGCAATGATCTCATTTTGCTTAACATTTTGACCAACTTTTACCAAAGGCTTTTGGTTGATACACGTATTATGGTTAGACTTTTGATATTTCATCAAACTATAAATATCAACTTCTGGAGAACCATTTTTCTTACGCTCTAAAGTCTGAACTACTATTCTCTCAGCATCAACTTCAACTATTACTCCATCATTTTGTGCGACAATTGCAGCACCAGAATCTCTAGCAACAACTGATTCAATACCTGTTCCTACTAGCGGAGCATCGCTTGTTATAAGCGGCACAGCTTGACGTTGCATATTTGAACCCATCAAAGCACGGTTCGCATCATCATTCTCTAGGAATGGAATTAGTGAAGCAGCAACAGAAACCACCTGCATTGGAGTGACGTCGATATACTCAACTTCTTCAGGAGGAACTGATATAAAGTTTCCAGTTTCAAAACGGCAACTAACCATTTCAGCTTTAATTTTACCATCAGCTGCTATTTCCATATCAGCTTGAGCAATTTTATATTTACCTTCATCAGTTGCAGAAAGATATACTACTTCATCAGTTACATAACCGTCTTTAACTTTACGATAAGGACTTTCAATAAAACCATATTTATTCACTCTAGCAAATGTAGACATAGAATTAATAAGACCAATATTCTGACCTTCTGGAGTTTCAATCGGACAAATTCTTCCATAGTGGGTTGGGTGCACATCACGCACTTCAAATCCAACTCTATCACGACTCACACCACCAGGGCCAAGGGCTGACAACCTTCTTTTATGCGTAATTTCTGACAATGGATTTGTTTGATCCATAAATTGTGAAAGTTGAGATGTGCTAAAGAATTCTTTAACTACCGAAATAAGAACTTTTGAATTAACCAAATCATTCGGCATTACCGCATCAATATCTACAACACTCATACGCTCTAGAATTGACTTCTCCATGCGAACAAGACCAACTCTAAACTGATTTTCAATCAACTCACCAACTGATCTAACTCTTCTGTTACCTAAGTGATCAATATCATCAACTGAACCTTTACCATCTTTCAAATCGACTAAAACTTTTACAATTGCCTTAATATCATCTTTTGTAAGACATGTATTCTCAGGATCAATGTCCAAATCCAAACGAGAGTTTAGCTTAATCCTACCGACTTCAGACAAATCATATCTGCTACTATCAAAGAACAAACTTTCAAATAGCATTTGACCAGCTTCAACTGTCGCAGGCTCACCTGGACGCAGTACCCTAAAAATATCAATCAATGCTGAATCTTGATCTTGATTCTTATCAGCAAACAATGTGTTTCTTATATAAGCATCGCTTTGAGAAGGAATTTTCAAAAGTGAAATTGATTTTTCTCCCGCAGTCACTAAACCCTTAAGAGTTTCTTCTGTAATTTGCTCACCTAGTTTTGCAAAGACTTCTCCACTCTTAGAATCAACTACTTCCGTGCCAATATAGCTACCTATTAGTTGATCATTTTGCACTAGAATCTTTTTGAGACCATTTTCTGCAAATTTTTTCGCTAATCTCGGAGTGATTTTTTGCCCAACTTCGAGTAATTTTTCATCAGTCTCAGCATTTACTAAATCTGAATCTAATCTTTGAACAATAACTGCACTTGGATCAAAATCCTTAACCCAACCTTTCTTTGTATGGTTAAAGCTTTCAATCTCATAATATTCTTCTAAAATTTCGGAAGAACTCATGCCAATTGCCATCAACAATGTAGTAACTGGCAGTTTTCTTTTACGATCAATCCTTATGTATACTATATCTTTTGCGTCAAACTCAACATCAAGCCAAGAACCTCTGTAAGGAATAATTCTTGCCGAATACAGGAATTTACCTGAAGAATGAGTTTTTCCATCATCATGATAAAAGAAACCACCAGGTGATCTGTGCATCTGTGAAACAATAACTCTTTCAGTACCATTAATGATAAATGTACCATTTTTGGTCATAAATGGGATATCACCCATATAAACTTCTTGTTCTTTGATACCTTTAATTTCTTTGGCACCAGTAGCTTCATCCACCTCCCATACGCTGAGTCTTAGAGTTACTTTCAGACCGGCAACAAAACTTAAGCCTCTTTGTATACACTCTTCAACGTCATATTTTGGATTATCAAAACTATATTTCACGAACTCCAAAGTAGCGCTGCCAGATGGATCTTGAATAGGAAAAATAGAAGATAGAACTGATTGTAGCCCTTTACTCTTCCTTTCACTATCCGACAAGCCAAGCTGCATAAAGCTATCTTCGTAGGATTTTTTTTGAATTTCAATCAAATTTGGAATTGATGCTACCAAATCGATTTTACCGAAGTTTTTTCTAACTCTCTTACTAGTTTGTAAGGATTGCGGCATAAGATCTCCAGATGTTTCTATTTCAATTAACACATAAATTGCATTATTGAATAAGTTTGACTATATTATTGCAACTTCTAGTTACGTTTTTTGATCTGTATTAAATTAATAAAGAACAAAAATCAATATTAAGAAAAGCACAAAAAGTCGCACCCCCAATTTAAACTCTATTTTCTAGAATTTATATTGGAGAGTGCAACTAATATCATTTTTAAAGCATAAAGTCAATATACTTAAGAATGAAAGACAAAATGCTTTTATTCTTAATTACTTAACTTCAACAGTAGCGCCTGCTGCTTCAAGATCTGCTTTAGCTTTATCAGCTTCGTCTTTTGAAGCACCTTCTTTAACAGGTGATGGTGCACCATCAACAAGAGCTTTAGCTTCTTTTAGGCCAAGACCTGTAATAGCTCTAACAGCTTTAATTACATCAATTTTCTTTTCTCCTGCACTAGCTAGGATAACATCAAATTCTGTTTTTTCAGCTGCTGCTTCTCCACCAGCTGCAGCTGGTGCTACTGCCACTGCTGCAGGAGCTGCAGCAGAAACGCCCCACTTTTCTTCAAGAAGCTTAGATAGATCAGCTGCTTCCATTACTGTAAGAGAAGATAGATCTTCTACAATTTTTGTTATATCCGCCATATTATTTTTCCTCTTTGACAATTATTTATTATTAGTTTTTTTCTGCATAAGCTTGTATGACTCTCGCCAATGCACCAGCCGGAGCCTGAGTAACTCTAGCAAGATTTGAAGCTGGAGCTTGTAATATCCCAACAATTTTACCTCTAAGCTGATCAAGTGATGGCAACTTAGCCAATTGCTGAATAGAACTTACATCCAGAATTTTATCATTCACTATACCACCAACGATTTTTAAATTATCATTAGCTTTAGCAAATTCCACAACTCCCTTCGCAGCAGCAACTGGATCCTCTGAGTAAGCTATTGCAGTTGGCCCTGAAAACATCTCAGGATCATGCTCAACTTTAACATTAGATGCCGCTATTTTAGAAAGCGTATTTTTTACTACCTTAAAAGACGCGCCATTCTCTTTCAAAGAACGACGAAGAGTCGTAAGCTCTGAAACAGTCAGCCCGTGATAGTGTGTTATTATTACAGAATTAGAAGCTTGATAAATTTCTTCTAAATCTGATACAAAAGTTTTTTTCTCTGATCTTAACACTGTTATATCTCCAAATACTTATCTCTATTGTGAAATTGTTGAAATATCAACTTTAAGAGATGGCCCCATTGTTGAAGACACATGTATCTTCTTTAGGTATGCACCCTTTACACCAGATGGCTTTGCTTTCAACACCGAATCTATTAACGTTTGAGCATTTTTTTGCAAGTCGCTTTCGGAAAAAGAAATCTTTCCTACTCCCACATGCACAATACCCGCTTTTTCTACTCTATATTCTACCTGACCGCTCTTAGCATTCTTAACAGCTGTTGCGATATCTGCCGTAACTGTTCCTAGCTTAGGATTAGGCATCAAACCTTTAGGACCAAGCACTCTTGCAATTTGACCAACCATACCCATCATATCAGGTGTTGCAATGCAAACATCAAAGTCAATCTTACCAGCTTTAATATCATCGATGATAATAACTGAACCAGCTAAATCTGCACCAGCTGCAGTTGCTTCTGCAACCTTATCATCTTTACAAATAACCGCCACTCTTACATCTTTACCTGTACCAGCTGGAAGAGAAACCATCCCTCTAACCATCTGATCTGAATGTCTTGGATCAACACCAAGATTAATTGCAACGTCTAATGTTTCATCAAACTTAGTGAAACTATTTTTCTTAAGCAAAGAAATCGCTTCTTCAAGAGAATATTCTTTATTCTGATCAAGATCTTTTTTTATTGCTGTTAACTTTTTACCCATAATCTTTCTATTTATATTTGCTTATATTTAATTCGATTATTTTACAACTTCAATACCCATTGACTCGGCAGAACCTGCAATAATCTTAGCTGCTGCATCAATATCATTTGCATTTAGATCTTGCATTTTAATTTTTGCGATCTCTTTGCAATCATCAAAAGTTACCTTACCAACATAAGGCTCTTTTTTTGTAGCACCAGCTCCCTTTGGAATTTTTGCAAATTTCTTCAAGTAGAAAGATGCAGGCGGAGTTTTTGTTACAAATTCAAAGCTCTTATCAACATATACTGTAATAACCACAGGAACAGGAGTGCCCGGCTCTAAAGAACTTGTTGCAGCATTAAATGCCTTACAAAATTCCATGATGTTAACACCTTTTTGACCCAAAGCAGGGCCAACAGGAGGAGCAGGATTTGCTTTCCCCGAAGGAATCGTCAACTTAATATAACCATCAATTTTTTTTGCCATGAGCTTTTTCTTCCTTAAACTATTTCTTTATCTTTTAATTTTTTTTCACTTGAGTAAAACTAAGCTCGATCGGAGTAGCTTTACCAAAAATTGAAACAGAAACTTTTAATTTCTGCCCCTCAATATCAACCTCTTCAACAACACCTGAGAAACTATCAAATGGCCCGTCAATTACTTGAACTTTATCACCTACATTATATAAGCTTGACACACTTGCTGTTTTAGACGCAGCTTCCAGCTGACTAAACACTCTCTCTACTTCAGCATTGCTTAGTGACTGTGGAGTTGTCTTACTCCCCAAAAATCCTGTGATTTTTGGTACAGATTTCACCAAATGCCATGACTCATCAGTCATTTTCATCTTTATAAGCACATAGCCGGGCATAAACTTCTTTTCTGCAAGAACTTTCTTACCTCTTTTTATCTCAGGCACTTCCACAACAGGCACTACTATCTCTTCGAAGAAATCAGACATCTTTTTTTTCGCCACCTGATCTTCAATCATTCTTTTAACCCCTTTCTCAGAGCCAGAAACCGTATGTAGAATATACCATTTAGACATATTTTTAAGCTACTTTCCAATATTTAACAAAAAGCGCACTAAATTATGAATACCATAATCCAGCACTAAACACGCCAAACTAAATAACAAAACCGCGACTACCACTATTGAGGCAGAAGCTATTAATTCTTTTTTTTCAGGCCAAACAACTTTTTTTGCTTCTTGCTTAACTTGATCAAAAAATTTAAACGGCTTTAATTTATTCAACATATTACCCATCTAGTTTTAAACATAAGTGGCAGGAGCGACAGGCATCGAACCCGCAACCTCCGGTTTTGGAGACCGGCGCTCTACCAATTGAGCTACACTCCTATCATATCTTAAGCAGATAATCAACAAAATTTTAAATTTTTAATTTTGCGAAATAGCTCAAAATAAACTTATTTACTATAAACTAACCACCTTGCTTACTTAAAATTGTATCAACAACTTGCTGTGGCACTTGCGCATAATTCTGGAATTCCATACTATACTGCGCTCTTCCTTGAGACATTGATCTTAATGTATTCACATAACCAAACATCTCAGCAAGTGGAACACTAGCAGTTACAATCTGAGCATTACCTCTTGGCTCCATTCCTTGAACAGAACCTCTTCTGCTGTTCAAATCACCAATAATATCACCCATATATTCTTCAGGCGTAATCACCTCTACCTTCATTAATGGCTCAAGAAGCTTCGCACCAGCTTGTGGCATACCTTCTCTAAATGCCGCTTTCGCTGCAATTTCAAAAGCAAGTACAGATGAATCAACATCGTGGAAAGCACCATCAATCAGAGTTGCTTTAAAGTCAATCATTGGATATCCAGCTACAACACCAGTTTCCATGATTTGTTTAATACCTTTTTCAACACCAGGAATAAATTCTTTTGGAACGTTACCTCCAACAATTTTACTATCAAAAGTAAATCCAGATCCAATTTCACCTGGCTCAAATACAATCTTAACTCTAGCAAACTGACCAGCACCACCAGACTGTTTCTTGTGAGTATAATCAACTTCATGTGAAGCAGTAATTGTCTCACGATACGCAACCTCAGGCGCACCAACATTTGCCTCTACTTTAAACTCTCTTTTCATTCTATCTACGAGAATTTCTAGGTGAAGCTCACCCATACCAGCAATATTAGTTTGTCCATTTTCACTACTTGAAACTCTAAATGATGGATCTTCTGAAGCTAGTTTTGACAAAGCAAGGCTCATTTTCTCCTGATCAGCTGTAGATTTTGGCTCAACAGCAAGCTGAATAACAGGCTCAGGGAATTCCATTCTCTCTAGAATAACATTAGCATCAGGCCCACACAGCGTATCACCTGTTGTTGTATTTTTTAATCCAGCAATAGCAACAATATCACCAGCTACAGCTTCTTTTATATCCTCACGGTCATTAGCATGCATAAGTAACATACGCCCTACACGCTCTTTTTGACCTTTTACAGTATTTACAATAGTAGAACCAGCCGTAACTTTACCTGAATAGATCCTTGCAAAAGTTAAAGAACCAACAAATGGATCTGTCATGACTTTAAACGCAAGAGCCGCAAAAGGACCATCAACTGAGTTTGGAACAGATTTTTCTTCATCAGTTTTTGCATCAACAGCTTTTATCGCAGGAACATCAATCGGTGATGGTAAGTAATCAATAACAGCATCAAGCAATGGCTGAACACCCTTATTTTTAAATGCAGTACCACATAGAACCGGAACAAATTGACCAGCAATAGTACCTTTTCTAATGCATTTCTTGATTTCATCTTCAGTAAGCTCTTCACCACCAAGATATTTCTCCATCATCTCATCATCAGCTTCAACAACTGTATCAAGAAGAGTTGATCTGTATTCTTCAGCTTTATCTTTCAAATCCGCAGGAATTTCACCATATGTATACTCAGCACCTAAATCACCACCTTTCCACACTACAGATTGCATTTTAACCAGATCCACAACTCCTTGGAACTCATCCTCAGCACCGATAGGCAACTGTACAACAAGAGGAGTAGCGCCAAGACGGTCAACTATCATATCAACGCATCTGTAGAAATTTGCACCAGCTCTATCTAGCTTGTTTACAAAACACATTCTTGGAACGCCGTATTTATCAGCCTGACGCCATACTGTTTCAGATTGAGGCTCAACACCAGCAACACCATCAAAGACAGTCACTGCGCCATCAAGAACACGAAGCGATCTTTCAACTTCAATTGTAAAATCCACGTGCCCCGGAGTATCAATAATATTGATTCTCTTTCCATTCCAGAAACAAGTAGTAGCAGCAGAAGTAATTGTTATACCTCTTTCTTGCTCTTGTTCCATCCAGTCCATTGTAGCACCACCATCGTGCACTTCACCAATATTGTGAGATTTACCAGTATAATATAAAATACGCTCAGTAGTAGTTGTCTTACCCGCATCAATGTGCGCGCAAATACCAATATTACGTACATCAGATAATTTTAGTTTCTTAGACATATGTTATTACCTCGAAGATCTTTGTGCAAAGTGAGAAAATGCTTTATTAGCTTCAGCCATCTTATGAGTATCTTCTCTCTTCTTAATGGCAACACCGCGACTATTTGCTGCATCAAATAGTTCTTCTGCAAGCTTCTCGATCATGCTACGACCTGATCGCTTCTGAGCAGCATCAATAACCCAACGAATAGCTAGCGCAAAACCTCTTCTTTCGTCAACCGGAGCAGGCACCTGGTAGTTAGCACCGCCAACCCTTACAGAAGTAACCTCTAAATAAGGCTTCACGTTGTTCATAGCTTCAGTAAAAGTTTTAAAAGCTTCAGCACCATGCTTTTTTTCGATTCTTTCAAAAGCATTGTAAACAATTTTTTCAGCAAGTGATTTTTTACCATCTCTCATCAGATGATTAATAAACTTAGCGACCAAAACACTATTATATTTCGTATCAGGACTGATCACCCTTTTTACGGCTGCATGACGACGTGACATTGATTATACCTTTATATATTACTATTATTTATATATTTGCAAACTAACCCTTAGAAGAAGTACCGTAGCGAGAACGACCTTGCTTACGATCTTTAACACCTTGAGTATCAAGAGCACCACGGACTATGTGATACTTAACACCTGGAAGATCTGGAACTCTACCACCTCTAACAAGAACAGCCGAGTGCTCCTGAAGATTATGCCCCTCACCAGGAATATAAGCGTTAACATACTCCCCATTACTAAGACGCACTCTCGCAATCTTACGAAGCGCAGAGTTTGGCTTTTTAGGAGTTACAGTTTTAACGATTACACAAACACCTTTTAAAAAAGGATTGTTATGAAGCGCCGGTGATTTACTCTTCTTGATTTTAGATTTTCTACCAAATCTAACCAATTGACTATTTGTTGGCATTTGATTTCTACTTGCTTTTTAAAATTACAAAACTAAGCACATACTTGAGACAACCCCTCATATGTACTTACACATTCGCACTATTTAACACGAAAATTTTCAGAACTATACCCAACTTTTTAGCGTTTGGCAAGAATTTTATGCAAAGAAAAAGCACTAACTAATCAAAAGACATTTTTGAAGATATCAGATATTGCATATATATATTGATTCATGTAACTTAATTTTCACGAAAATAGCAAAAGTTGATCAATGTTAGATATATTTTATAATTTCTTTGGACTAAATGAAATAATATTTATCAAACTTAATTATATAACTAATAAGGGAATATTACCTTATATATTGCATGCTATATCAAGCATATTTTTTATAGCTAATTTTGCCGCTTGCTATATTCTGACCTGCATATATTTTTACTTTAAGGCAAGAAAAGCTCAAAACATCGAAAGCTACTTTACTCCAATATATAATGAACTCGTTAGAATTGGCACTTGCTATGCAATATTTGGCTTTACATTTGCCGGCTTAAAATTCTCATTCAATATGCCAAGACCTTTCTGCTCTCTATCACCAGACCAATTCCTCACAATTGCAAACACAGAGATTGAACGCTGCCTATCATCTTTCCCTAGCGCACATACAGGTCTTAGTATTTTAGTTACATACGTATTATGGCCACATATTAATCGATCCACAAAACTTATTTGCTGCCTTGTCATTGCTTCTGTAGCAATTTCCAGAATCACTCTAGCTATGCACTATCCTGCAGATATTATATATAGCGCTTTAGTAACTTTAGCAGTCATTACAGTTGGTAATATTATTTACAAAATGCTAAAATCCTCAATTGTAGATCCTATAAAAAAAATCATCATCAGGTTGATTTTCCAATAAATCACCAATAATATTAAATTATTGCAATCGTAATTAAATTGGGAAGGTAATTATGGCAAAAGGCGGGAGAACTTACATAGTCGGATCACCAAGTAAACACACAATATACTTAGTAGATGATGGAGCGGTAGTTCAACACATACTACCAGCTGATCTAGAAAAAGAAACATCGGCACCTGAAGAAAAAATAGCACCAGAAGGCTCAACACCACCAATTGATATACCAATACCAAACGGATTTACACCTCTCACTGGAGAATACCTAGATTGCCCAACAGCTGCACCCAGTAATGACCAGGAAACACAAACAGATAGTGGACTTTTAATTTTTGATTTTGAATTGTAAGCTTCTACATAGTTATCAATATTTGTATGCAACAAATATGTTTACCAGTTATATGCTAATGCTTTTTAGTCTCAAGTTATATTATAAAAAACGCAGAATCAATCTTTCGGTTTGTCGCGTGAACAAATTAAAATATTACCTTTAACTTCGATCACATAAAGCTCTTCATCCTTTTTGATAGGAGTATCTTTATCTATAAATCTTGCATTCATCGTAGTACCAGACCAATATACCAGACCAAGACCGGATGGCTTTATCTCTTCGCTTGCAACTTTTACTCGCATACCAACCATATCGAAATAATCAGAACCGGCCTTACCCTTTTTACCGTAAATAAAAATCTTTAATGGCCACCACAGTAGCAAAAACCAGGCTAATGACGTGAGCCCAACAGAAGCAATTTGGAATGCAGCAATTTCAGGGAAATAGTAAATAGCAATTGCAGTTGATAAGCTACCAAGCCCTAAAAACAGAAAGCCAATACCTGGAATAGCAGTAAATTCAACCAAAATAAATATTAATCCAACTGCAATCCATATTTCTATAGGAGTAATATCCATAATACCTACTAATATAAATAAAATATCCGACTAAACTAACCTGCCTTCTCTTTCAAGTAAGCAATAACATTAGCTATATCTTCAGGCTTTCTAATACCAGCAAAAGACATTTTCGTTCCTGGCATATATTTACCCGGTCTTTTTAGGAAGTGAAATAAACTTTCATTATCCCAACTCCCGCCAGCGGCCAGCATCGCTTTTGAATAAGCATAACCAGGCTTCTTGCCTTTTTGAGCATTAACAATTTTCCAAAGATTCGGCCCAACTTTACTTGCACCACCCTGATCAAAACTATGACATGCAACACATTTCTTAATGGTTTTTGCACCCGCCTCAGCATTTGCATTTGCCATTAACTCTTCAATATTTAATGGCTCTTCAGGTTGCCCTGGTATATCAGAGGCAGAATCTTCTGCAACCTCAATCTGATATCCACGCTGTGCTACTTCCAGCTTTGGTTTATATAAAATATTTGATACAACACCAACTACCATTGCGATTAAACTTGCTAGTAAAATGGCAGCTGCAATCTTATTAAGTTCTAAACCCGACATAAAATATTACTTAAAAATCAATATTATAGGCAATCACACTAATTCACCTCTTCCAGATTCCAGCGCGCTCGCGGCTTAAAATCTACTCTATTAATTTTACCAGATTTTAACCTCTCTAGTCCAGCAAAAGCTATCATAGCAGCATTATCCGTGCATAATTTTATTGGCGGTGCAACAAAATTATATCCATTTTTGACTGCTAATTCTTTTAAAACTGAACAAATTTCTTGGTTTGCTGCAACACCGCCAGCAACAACTATTCTCCTACCATCATGATAGGACTCATATTCATCCATAGCAAATTTACTTTTTCTCTTAATCACTTCACATACAGTTTTTTGAAAACTTGCTGCTATATCACTCTCATCTTGATTGTTCAAGTTCTCAAACTCATTTATCTTTAGTTTTACAGCTGTTTTCAAGCCGGAGAATGACATATCACAGTTCTTCTGGTTATATAATGGTTTTGGAAAATCAAATCTATCCGAATTTCCAGATTTTGCTAACTTTTCAATGATTGGACCACCTGGAAAGCCAAGATTCATCATTTTTGCTACTTTATCAAAAGCTTCACCAATTGCATCATCTAATGTTTGACCTAAAATTCTATATTTACCAAGCCCTTCTACTGCAACAAACTGGCAGTGACCACCACTTGCAAGTAATAGCAAATAAGGAAAAGGAACATCATCAGTAAGTCTAGGAGTTAAAGCATGTCCTTCAAGATGATTTATCGCAATAAATGGCTTTTTTAATGTACTCGATAGAGCTTTTCCAAACATCGAACCAACTATAACTCCACCAATCAAACCTGGACCTGAAGTCGCAGCAATTGCATCAATATCTCTCAAGCATAATTTAGACTCATCTAAACATCGATCAAGAGCAGTTTGAATATTATGTAAATGAGATCTTGCAGCAATTTCAGGAACAACACCTTTATAAATCATGTGCTCCTGATTTTGTCCAATTACTATATTAGATAAAATACTTGGCCCAGATTCAACTATTGCAGCTGATGTATCATCACAACTAGATTCTAAACCAAGTATTCGTAAAGTCAAAATATCCGCCTATAGTGATTTTAAAACATGTTTCGTATAATAAATGATATCAAGCTGGTTTTCTTCCTTTGTCATATCAATCTTATCTTGCATTTCTTTTGGAACGTAATTCATCACATTACTTAGAACAGCAAAACACAGATTCTTATTTGGCACACAACCTGATTCACTTCTGATTGCTAAAGCATTACCTGCATGATGATACAATTTATCACCACTTTCAAGCTCAGTAATATACATTCCATAACCTATTTTACTTTTACCCTGATTACACGGAACATCGTAGTAACCAGTAGTCATTTGCTTATAGGAAGCTTTAGATAAAACCTTACCTGAATGCAAAGCTTTATGCCAAGTAATTAGGTCCGCCGTAGTCGATGCAACACCACCATCAGTAAATGGGGTCATAGTAAATGGATGTTTTGCAAGATTAAACTGCGGCTCTCCACCAGTTGGAGTTACGAAATATCTAGAAGGGATATCCATAGATTCTGGATCTTTTTGATGTTGTAATGTCTCAGCTAAACCTAATAATTTAGTATTTTTCATACCAAGTGGTTTAAAAAATTCCTTTGCAAAAAATTCACCTGCTTTTTCACCGCTAGCGGTTTCGATAATCAAGCCAAGAAGCACGTAATTAGTATTATTATAATCATGCTTTTCACCGGGCTTAAATGATAATTCTTGACCTGCTGCAAAATTAGCTATTTGCTTATTTATACTACGCAAAGGAACATTAACATCAATTTCTGCACCCATAAAATATTCTGCAAGACCACTTCTATGAGTCAACATATCATGGATTGTTATTTTATCCGCCCAAGATGGCACTTTATTATCAGTCCATATCCCGCTTTTTGCATTTAAATGCTTTGCAACGGTATCTTTTACACTAAGCTTACCTCGCTCTTGTAGTTTTAAAATAGCAGCTGCGGTCATAGTCTTAGTAGCAGATGCAATCGGCATTTGCTGATCAGCATCTAAAGATTTTTTACTAACAACCGAATGAATGCCTTTTGCACCTTTTTCGATTACTCCATTTTCATCGACAAACATGTAAGAACCATTCATAAAATGATTTGAAAGATAGTTAGAACTAGCTTCTTTAACTTTTCCTCGTACTACTGAATCAGCAAACGACAATGATGAATTAAAGATCACAGCCAAAATTAATAGATAATATTTTTTCATAATTAAACTCCTGCGTTTTTCTTTATAATAATATCTAGCTATAGGAATTTAAATGAATGCAGGGCATTTATATTATATCTCAAGTATATACGCCCTGATTCACAGTTAATTCACTATATCAGTTTGATAGCTGGATATTATTTCTATGTCAATAAAAAGCGACCCTAAATGATTTTTTCTAAAATACTATTTAATCTCTTTGAAAACGCTCCGGCATCAGAGACTGGCTCACCTTCAATAATACAAGCTTGATCATAAAGTAAATGCACAAGTGCAGCATTTTCATCGTGATTAGACTCTTTCCCAAGACCTTCTCCAATCTTAAGCACAATTTTATGATTTGGATTGATTTCAAGAATTTTAGCGCTAGCTCCAGCTAGTTGCTTTTGCTCAATTAAATATCTTTCCATACGAATATCCATTGCACCATCTCCCACCGCCAAACAAGCAGGGCTAGTTGTCAATTTTTTTGATATTTTTACGTCTTTGACAAGTGATCCTAAAGTATCTCTAAAATAATCTGCAATTGCATCATTCTTTGAATCATCTTTCTTTTTAGAAGCTTTATCTTCTTTAGTATCATCTTGATTATCTAAATCAATATCACTTCTAGTTACAGATTTTAATTCTATCTCTTTATAGCGGCCATTAACGTTAACCCAGAAATCATCAACTGTATCAGTAAATAATAATACGTCTATACCTTTGCTAATAAACCCTTCAATCTGTGGATTGTTACGAAGTTTTTCTGGATCATCACCACTTAAGTAATAGATTGTTTTATCTTCTTCTTTGCAGTTTGCGATATATTCATCCAAACTAATCATTTTATCATGTATTGCGCTTCTAAACACACAAACTTCAAGCAATTTCTCATGATCACTAGTAACTTCGCATAGCCCCTCTTTAAGCACGCCTCCAAAATTACTCCAAAATAGTAAGTAATCATCTCTATCACTTTCTTTTTTCTTAGAAAGCTCCGACAATACACGCTTAGTGATAGATTTCTTAATTTTTTCTAATGTTGCATTATGTTGCAAAGTCTCTCTACTAATGTTTAAAGGCAAATCTTCAGAATCAACAACTCCTCGCAAGAAACGCAAATATTGCGGAATAATATCTACATTCTCATCAGCTATAAATACTCTTTTAATATAAAGTTTCACACGACACTTACGATCTGGATGAAATAAATCAAAAGTCTTACTAGTTGGAACAAAAAGTAAATTTGTAAACTCAACAATACCTTCATTCCTATTATGCATAGTAAGCCAAGGATCGTCAGTAGCATGACTTACACTCTTATAAAACTCTTTATATTGCTCCTCATCTATTTCATTTTTAGATCTAGTCCACAGAGCAGATGCTGAATTAACCTGAGTTTCATTATTATTCTCATCAGTAAAAAAGATTGGAACAGCAATATGATCAGAATAGCTTTTGATAATATGTTTGACCCTAAAATGATCAACAAATGATTCTTCTTCGCCTTTTATATGAAGAATCATCTCTGTTCCTCTGGCAAAATCTTTGTCTGAATCAGCTATTGTATACTCACCTTTTCCATCTGATTCCCATATATAAACTTTATCCTCTCCAGCTTTTCTAGAAGTAACCGTAATTTTATCAGCTACCATAAAACATGAATAAAACCCTACACCAAATTGCCCAATTAACTGACTATCTTTTTTGCTATCACCAGATAATTGATCTAGAAAACCTTGAGTTCCCGACTTTGCAATTGTACCTAAATTTTCTAGCAAATCCTCACGATTCATACCAATACCATTATCTCTTATGGTAATAGTCTTCTCATCTTTATCGATAGAAATATTAATCTTAAGCTCTGAATCACCTTGAACAAGGCTACTATCAGTCTGACTCAAATATCGCAACTTATCACATGCATCAGAACTATTTGAAATCAGCTCTCTCAAAAATATCTCTTTATTCGCATAAAGAGAATTAATCATTAAATGTAGTACTTTGCCTACTTCGGCATCAAACTTCTTTTTCTCTTGTGTCATACAACTCCCATTTGTATTATAATTATTTTTGGTTTATATAATTATGAATCAAAAATTTTAAATAGTAAAAATTGATTTTTTAGGAAAAAAATATGAAAAATGTAATAGTTGTAATAATAACAAGCGTACTTTTCGCTATATCTGTTCAAGCTAATCCTGCTCATAAAGCCAAAGATACAATAATAAAACCACAACATGGAATTAAAAATACAATTGAACATAAAAAGAATAAAACAAAAAAATCTCAGAAGAAGAAGGTTGACATAACCGTCAAAAAGCATCGTAAGTCTAACGCTAAATCTACAGATTGGACTGGCAAAAAAAAGGCTAGAGACTTAGTAAAAGATAAAAAGAGTGTAAGCAGAGGCGCAAAAAAGAAACATGAAAAGGCTACTAAAGATTTTCATAAATGGTCAAATAAGACCCAAGACTCAATTGAATCAGGAATGAAAAGAAAAGATTCGAAATATCAACCAGCAGATCCGTTTTATAACGAAAGACAAGGTCAATCTGGTGCTTTCTAGATAGAAAATCTTAGTATTTTGTGTGAGCTAGCCTTACCAGCTTTTATATCTATAGTAGATTTTGGTAAGTCTAGCTCTTTTGACATAAGTTCAATAGTCGCTTTATTAGCTTTACCTCCAATAGGCTGAGCTTTAAGTGAAACCTTAATATATTCCTTCTGATCAATTGTAATTAAACCATCAATTGAATTTTGTTTTGCGCAAGCTTTTACTTTTACCAGTAGATTTTTTTGCTTTTTTGCTTTAATATCTCTAAAAATCTCTTCTGCTCTATACATATAGCTTGCGTAACTGTGTTTTTTGTACTATCATAATTAACGATTATTAATAAATTCATGGATTTCATTATTATATGAGCAAAGTTTTATTGCTAACATTTTTATTAGTTTCAGTAAACAGTTTTACAAGTTATGCAAAAACTGATCCTGAAATATTGGAATCGCAGAAATGCTCTAATGTATTTTCGTATTTCGAAAAAAGACATAAAATACCAAAAGATACATTATACTCTATATCTTTAAGAGAAACACAAAAAGCACATACAAAACATAGAATTGGTATAACATGGCCTTGGACAATTACTGTTAACCCTAGCGGCAAAGGTTATCATTTCAAAAATAAGACAGAAGCAGTAAAATTTGCAAAAGCCCAACTAGCATCAGGCAAAGGTAGTATTGATGTAGGATGCATGCAGATTAATTTAAAATATCATCCAGACGCCTTTACTTCAATCGAACAAGCCTTTTCTCCAAGAAGAAATATTGCATACGGAGCAAAATTCCTAAAAGAAAAATACGATCAACACGGAGATTGGCAAAAAGCAATAGGCGCCTATCATTCTGGTTCATCTGATAAGGCCTCTGCATATCATGCAGGAGTCAAACAGATTAATGATTCAATGCGTATGTATAAAAAGAAACTTGCAGACTTATCTAGCTATAGGTACAAAACTACTAAAATTGCTACTACAACAAAAAACTCCGAACAAAAAGAAAAATTTCTAGGAATAGGAAAAGTTCAGGTCAGAGTTGGTACCCTAAAAGATAATAATTGGTTTCGTAAAGTACAATAACTATGTTTGATTTAGAAAAGCTTGAAAAAAATCGCGAAAAATCAATTAACGTAATTCAAGCCTCAAGTTTTTACAAATTTATTCATGAAGACATAATTGACAGACTAGATCCACTTGATAAGACATTTGACGAAATCTTAATCATAAAACCAGCTATTGAAGAAATAATTACTGAGCATCTAGAAGTAGTTTCAAAAAACTCAAATATTCAATATATCACTAATCTAGATGTAGCTCTGCCTAAAAAGAAATTTGATTTAATTATATTCCCACTTGGATTTCATTGGATTAATGACACAAAAAGCTTTCTAGATCAGATCAAACTAACACTAAAAGATAATGGAATATTTATTTGTAGCTTTCCAGGAGGCGGCAGCCTTCGAAACTTACGAAGGAAATTAATAGAACTTGAAATATCTAACAAAGTCGCTCACACGGCTCACATATCACCATTCATTCAATTAGAACACATCACTCCCCTTCTTGGGCAATCAGGATTTGTAGAAACCATTATAGACATGGAACCACTTGAGCTTGAACATAACTCTGCTTTAGACCTGATGAAAGCTATTAAAAATCATGGTGAAGCAAACATCTTAAAAGCAAGTGCCGGTCATTCTATTACTAAAAAAATGTATCAAGATCTAAAAAACACAGAAGAAGAAACTTTCTCAGATTATATTAACTTAATCACATTTATAGCAGCTCCAAAGAAAAATACGATTAAGCTAAAACCAGGGTACTAAGCACTCCTAGAATACTATCACGGGTAGCAAAATTACATTCCAATTTCACTCTTTATACTTGTAATATTACTGAGCCTCGTGATATTATCTCTGTGGGACTGGAAAGCAGTCCATAGTAATCTTAAAATAATTTTTATTTAGCAGAGATAAACCTATGCAAGAATTTGATTTAGTCGTAATTGGCGGTGGCCCAGGTGGATATACTGGTGCAATTAGAGCATCACAACTTGGAATGAAAGTAGCATGTGTTGAGCAGCAAAAAACACTTGGAGGAACATGTTTAAATGTTGGCTGCATACCATCAAAGGCTTTACTAAACTTCTCTGAAAAATACGAAGAAGCTAGAGAGCATTTTTCTGAAATAGGAATAAAGACAAATACAAAGCTTGACCTAAAAAAAATGATGTCAAAAAAAGATGGTATTGTTTCAGATCTTTGTAAAGGTATTGAAGGATTATTTGCAAAAAATAAAATTACTAAAATAACAGGAACCGGGAAAATTCTTGATAATAATACTGTGGAAGTTAAGAACGGATCTAAAACAGAGAAAATCAAAGCAAAAAATATCCTTATAGCCACAGGATCAGATATAATTAATATTCCTGGAGTAGAAGTTGATGAAAAATCAATTGTGTCTTCAACTGGAGCTCTGTCTCTTCCAAAAGTACCAAAACACTTAGTTGTTATTGGCGGTGGGGTTATTGGACTTGAGCTTGGATCTGTATGGAATAGACTAGGCAGCAAAGTCACTGTGGTAGAATTTGCAGATCGAATTGTGCCTTCACTTGATAAAGAAATAGGGAAAAACTTCCATAAAATCTTAGACAAACAAGGTTTTGAATTTATGCTTAGCACAAAAGTTGTCAAGGCAGATAAAAAACTAGGAGGAATATCTCTTACTATAAGTGATGTAGCAGGATCAAAAGAATCAAAACTATCATGTGATGCTGTTTTAGTCGCAGTTGGCAGAAAGCCAAATACTGAAGGTCTTGGATTAGATGATGCAGGTATTATCCTTGATGACAGAGGTAGAATTAATATTAATGACCACTTCCAAACAAATATACCTAATATATACGCTATTGGTGATGTTGTACGTGGTTCAATGCTTGCGCATAAAGCTGAGGAAGAGGCAGTAGCTGCTGTTGAAATGATGAATGGACAAGCCGGACACGTTAACTACAATCTAATACCAAGTGTAATCTATACTTGGCCCGAAGTTGCATCAGTTGGAGCAACTGAGGATGATTTAAAGAAAACCGGAGTTGAATATAAAGTTGGTAAATTCCCATTCCTTGCAAATAGCCGTGCTAGAAGTGTTGGCAATACTGATGGAATGGTAAAACTAATTGCATGCGCCAAAACAGATAGAGTGCTTGGAGCACATATTATCGGGGCAGATGCTGGAACATTAATTGCAGAAGTAGTTGCATATATGGAATTTGGCGGAGCAGCAGAAGATATTGCAAGAACCTGCCACGCACATCCTACACTAAACGAAGCAATTAAGGAAGCAGCACTAGCAGTAGAAAAAAGAACAATAAACATTTAAGGCATTGTTAAATAACAAATGAAGAAAGTCTGTCATAGAATTTGTGTAAGTTACAAAAAAATATAGTAGTAAATACTATAAAAAGTAACTTAAACCCAAGAGGCACAAGATGGCAAAAAAAGCATCTAAAAAAGTTGATGATGTAAATAACAAAATCGTAGAAGAAT
>sequence08
AGACGCACTAAACAAGCATGACACTTACCGCATGATCTTCCTTCCTCATCAGGGTCATAACAGGAAATGGTTGATGAATAATCAACGCCTAACTTTAAACCAGTAGCAACTATGTCAGTCTTTGACATCTCAATTAACGGAGCATGTATATTTATTTTATTACCTTCAACCCCAGCTTTCGTAGCAAGATTTGCCATATTCTCAAAACTCTTTAAATATTCTGGCCTGCAATCTGGATAATTTGCTGAGTCTGTAATATGTGCTCCAATATAGATATCTGATGCACCAACTACTTCCGCATAGCCTAAAGCATAACTCAAAAATATTGTATTTCTAGCCGGTACGTATGTAACTGGAATCTTATCTCCAAGATCATCTGAACTTTCATATTTTGGAACTTCCATATCATCATTAACAAGTGCCGTACTACTGAATGCTGACAGATCTATATTAATTACCCTATGATCAGATACATTATAGTTTTTAATAAAATCTTTGATTTTATTAATTTCTATAGAATGATTTTGAGCATAATAAAAACTAACCGCATATATTTCAACATTCTCTTTTTGCAACATTGCAAGAACTGTTGAAGAATCCAAACCACCACTGACTAAAACTACAACTTTTTTTTTCATATATCTTTACTCTATTCCTAAATCTTTATGAACTTGATACGATAGACGATAACCATTATTTATCGCTATTTCAACAGCCAATTTTTTATTAGCAATATTCAAATCGTGATTTAATTCATCCATCGCTTGAACAAAAACTGGTATATTATGTTTTGCTTGTTCTAAATCTGGAACTGATGAATATTCAGATTTTTGTGATGAGATCAAAAACTTAAATGCCGTAATTCTTTCTAATAAGTCTGGTCTTATCTTTGAATATTTACCATTTATAACCTTAGGAGAGCAAATAATATCAACTTCTTCTGGTATATCTCTATAAATTGTACCATTTGTTTCTATTTGAATAGCAAAATCTTGTTCAATTAACTTCTCACATAATAGTCTAATTGGCTGACGAAAAGGTTCTCCTCCAGTTATAATAACCAGCCCTACTGATCTGATATTCTTGTCATTTAAACTAAAGTTTTTAACCTTATCAATAATAGACTCTATTGCTAATTTTTCAAAGTTCTCAAACTCTGTATCACAAAAGTCGCAAGCTAGATTACAACCGCCTAATCTTATAAAAATTGACGGCACACCAACATGTAGCCCCTCACCTTGCAATGTTTTAAATATATGCTTTACCATTAAGTGTGTACCGTCTCCTTTTTCCGGAGACCTAATAGGATTATCACCTAACATTTTCTACCTTAGTTTTAGTGAAGATAAACCTATAAGAGCAAAAATAATTGCCAATATCCAAAACCTAATTACAACTTTAGATTCTGGCCAACCTTTTTTTTCAAAATGATGGTGAAGCGGAGCCATTAAAAAGATTCTTTTTCCGCCAGTTTTTTTATAGTAACCAACTTGTATAATCACAGATAAAGTTTCTAAAACAAAAACGCCTCCAATAATACATAGAACCAATTCGTGTTTTGTAATTACACTAATTGTACCAAGAACCCCGCCAAGCGCTAGACTCCCTGTATCGCCCATAAAAATCTCAGCAGGCTTTGCATTATACCATAAAAACCCAAGGCTACTTCCAATGATTGCAGAACATAAAACTGTTAGCTCCCCAACTTTAGGAACATGAATCACCTGCAGATAATTTGCATAAATACTATTTCCAACTAAATATGATATAAGCCCAAATGATGCTATAGCAATGGCTATTGTTCCAATTGCAAGACCATCTAGACCATCCGTCAAGTTAACCGCATTTGATGAACCGATAATTACACACATAGTAAATGGAATATAAAAATATCCTATATCAAGAAGTGTATTTTTGAAAAAAGGAAATGCAATCTGAGTAGCAAACTCAGGTTTGGAATATTTTTGTATAACAATAAATGCTACAATACTTACTAAAAACTGTATTATAAGTTTTGTTTTGCCGCTAATCCCTCGATAATTATTTTTACTCACCTTAGTATAATCATCAATAAAACCTAACACGCCAAACATCAACAAAACAAATAATGAAACCCAGATATATGGATTAGATAGATTTGCAAAACATAATGTAGAAATGGTTGTAGATAATATAATCATTAAGCCACCCATTGTTGGAGTCCCAGCCTTATCAAAATGGCTTTCTGGTCCATCTTCTCTAATCGGCTGGCCTTGTTTTTGTATAGATCTTAGATAAACTATTAGCCTGGGACCCATAAAAAAACAAATCAGCATACTCATTAAAATAGCCAAACCACTTCTAAAACTTATATATGTAAAAAGATTTGCTATGTGAAATTTAGCTGCATATGGGGCTAGTAAATTATAAAACATTTTTGACTCCCAAACTCTTTGCTAAATTCTCTAGCTTTACGCTTCTTGATCCTTTTATCAAAAGAAGTTCTCCATCTTCAAAATTACTGCTATTATCGGCTATAAGCTCATCAACATTTTTATAAAGCTTGACCTCTACATTGCCAGAGAAACTATCTTTTATTTGACTTATTACGCTCCCAACTAAAAACAATTTTGATACACCTGCTTCTATAATAGAAGGAACTATAGACATATGCATATCGTCCTGTATGTCACCGAGCTCACCCATATCACCTAAAACAGCGACTTTCTTGTTACTAACAAATTGTTGTAAGTATTGCAAGGACGCCTTTAGTGATTGCGGGTTTGAATTATAGTAATCACAAATAATGCCTAAATTTTTGTTTTCGTGCTTTATTTCAATAAATTTGCCACGACCCATTAAAGGCTGAAAAGACCTTATTGCACTCGCTGCTTTTTCTATATCAAGTCCAAGAGATTTTACCACAGAAAATCCTGCTGCAAAATTTGATGCTAAATGCATTGAAATATTAGGCATAAAAATTTCACATTCTTCTGAATTAACATCAAAATTAAGCCTTACTGAATGATCTTCTAATAATTCATACGAAAGGAATCTTACATTTGCATCTACTCTTTTACCAAATGTCTGAACATTACGAAGACCTGCTCTATCAATATTCTGAATACATCTTTCATATGTTGAAATATCCCTATTAATAATTGCTATGCCTGTATTTATGTCCACACCTTCAAAAATTTCACATTTTGCATCAGCAATTGCTTCAATTGAATCAAAAAATTCTATATGCCCTTCAGATACAGTTGTTATTACAGCAATATCAGGAGTTACTATATTTGTTAGATTACTTATTTCACCTGCAGCATTCATACCAAGTTCAATTACGGCATACTCAGTATCATTAGGCATGGAAGCAAGAGTCAAAGGCACTCCAAGATAATTATTAAAACTCTTAACGCTGGAATAGGTATTACCATATTCAGAAAGCATAGTTTTTATTATCTCTCTTGTAGTTGTCTTACCAACAGTACCAGTAACTGCTATAAATTTTGCTTTCGAAGTTCTTCTCTTATATTCCGCTAAATGGTTCAAAGCCAGAATCGTATCATCAACTTTGATTAGTTTATTTTTATCTAAATTAGGAATATCGCTAGAAACTATTGCGCATCTAGCCCCTCTTGATAAAGCATCATCAACAAATTCGTGCCCATCGCGATTTCCAGGAAGTGCAATAAAAATATCATCTTCATTAACATCCCTAGAGTTAAATTTAACCTGACCAGCTTCTATATTAGCTGCTACTTTTACGCCTAAGGCCTTTTCTAAACTCTTTGAATCCCATATCATAATCTTAAAACTCTATTTTATACTTTTTGTACGGCTTTTCTTGCAATTTCAATATCGCTAAACTTAAACCTTTCTTTGCCAATAATTTGATAATCTTCATGCCCTTTACCAGCAATAAGGAGAATATCGTCTTTTCTCAGTTTTGCAATCGTATCAATAATCGCGCTTTTTCTGTCAGCTATCTCTTCAGCTTCAACGGCAGCTTCAGCAATTTGCCCCCTAATTTTTCTTGGATCTTCTGTTCTTGGATTGTCATCAGTTATAATTACTTTGTCGGCAATCTCAGAAGCAATCTTACCCATTATAGGCCTCTTTAATTCGTCTCTATCACCTCCACAGCCAAAAACCACATATAAATTTCCTGGTTTTTTCTGCAGCTTTTTTAATTCTTGAAGTGATTTTTCTAAGGCATCTGGAGTATGCGCGTAATCAACAAAAACCTGATACTCATTTTCTACACTAGTTATTCTCTGTAATCGTCCAGGAACAGCTTCTATTTCAGGTAATTTCTTAATAATTTGGTCAAATTCTACTCCCAAATTACTTACTAGTTTTGAAGCAATTAATAAATTTATAGCTTGAAAAGAACCAATTATATTAGTTTCAAACTCATGTTTTTTGCCTTTATATTCAAGACAGATACTCTGACCTTCTAGTGACTGCTTATTTCTTTTAATTTTTACATCACCATTATTTCCTACTGTGCAAAAGGGTATATTCTTTTCTAATAGAAAACTTCTAATAAAGTCAAAAAACATTATTTCTGAATTTATAACAGCCTCTCCACCATCAATAAGATTCTCAGTAAATAAAATAAGTTTTGCTTGTAAATACCCATCCATTGTTTGATGATATTCAAGATGATCCTGCGAAAAACTCGTAAAAGCTGCAGATTTCACTTTCACATCCCCCAATCTTCGCTGGAATAAACCATGGCTTGAAGCCTCAAATGCAACATTCTCTATGCCCGCATTACTAAGTGAATTAAGAGTTTTTCTAAATGTTATTGGGTCAGCAGTTGTTAAAACAGAATTTTTATTATCTAAGGATGTAGTTGGTATTTCCTCTGTTGATTCAATGCCTAGGGTCCCAATACAAGCACTAGATTTTTCAAGTTTTGCAAGTATTTGATGAACATATGAAACGACTGAACTTTTTCCATTTGTTCCTGTAACTGCAACTAAGTTTTTGGGCATTTTTTGAAATACAATGCCAGCAGCTATTGCAAGACCCATTCTTATATCGGCAAAATATTCTATATTCTTTCCTTTCTTTGAAGGGTTATCTGTAAAAACAAAAGAAGCTCCATTCTTAAATGCATCATCAATATATTCATTACCATCAAAACTATCTCCTGTAATGGCAAAAAAAGCATCTCCAGCCTTAACCTTTCTAGAATCAAACGAAACACCAGTAACAGTACCTTCCCTAAATAATTCTTCTATCTTAAGTCTCATTATTTATCTCGTATTCAATATTGCTTATTTCCTGTACATCAGGACTATTATCATCCAACTTTTCAATACCATATAAAGCTGTAAGTTTCTTAATCACTGCACCCACTGAAGGAGCAGCAACCCATCCGCCACCAGCAAAGCCAAATGTCTCTTTAATACCCTTTGGTTCATTATATATGATATATACCATATATTTTGGATTCGTGGCAGGAATTACTCCAAAAAAGGAAGATACTCTTCTTGTCTTGTCATATTTACCAGCATGAGCAACATTTGCCGTCCCGGTTTTACCACCAACATAATAACCTTTCACTTCTGCTTTTGACCCAGTACCTTTTGTTACAACTAGTCGCATTAATTTTCGCATATCTGCTGATGTTTTTTCCTTAAAAACCCGTTCAGCTACAAGCGGTTTTGTTGGATCTCTTTTAATTAGTGTAAGAGGATATAACAATCCACCATTCATAATTGGAACCATTGCTTGCATAAAATGCGCAGGACTTTCCGACATCCCATATCCGTATGACATTGTAATCATCCTTAGATCAGTCCATCTTGAATAGTTTGGAAATAGAGGACGCGCTCTTTCTGGTAATTCAATTTTTAAACGCTCAAGTAGCCCTAACTTCTTTAAGTATTCCGCCAAACTACTTTTTCCTATTTCAAGCATTATCTGACCAATACCAATATTACTTGATTTCAAAAATATGTATGGCACTGAATGCCACCCTTTTAAGGGGCGTGGATAATCTTTTAATTGAAAACCACTAACTTTCATATATGTTAGATCATACGCATCAGTAAGTGATGTTGCACCTGTATCAAGACCAATTGCCATAGTTAAAGCTTTCATACCAGAACCCATCTCATACGCCCCTTGCGTAGCCATATTAAATAATTGTTCTGGCTCTGCTTTTCCCGGATGATGTGGATCAAAATCTGGTTTACTGACTAATGCTAAAACCTCTCCATTATTTGGATCAACAACAATTCCCGCTGCGCCTTTTGCGCTAAACTTTTTAATTGTTCTTTCTAGCTCTTCGCTTAATATATTTTGAATTCTCACATCTATAGATAGTTGCAAACAATTTTCTTGATTTCCATTTTCTATTAATGGTTCATAACCAGTTAAAAATTTATCAAAATATTTTTCAATCCCAGCAAGACCACCAAGATCACGACCAACATATCCAAGAACATGAGATAACAGTTTACCATAGGTATATATTCTCTTTTGCTCTCTCTCAAAACCAAAACCCGGCATACCTAAATTATAAATTTTTTCGTGTTCTTGAGGAGTTACATCCCTTTTAATCCACTCAAAACTTCTATTACCATTAAGTTTCTTAAGTAAATTTTTTCTATCTAGTTCAGGAAAAATGGATAATAACTTTTCAACCGACTGCTCAGAATCTATTACCCTTCTTGGATTTGCATATAGTGAAGCACCAGGCAGATTTACAGCAAGTAAATTACCATTTCTATCAATAATATCATATCTATTTATATATGATCTCTTGTTGGACTTTCTGTAATTTACGTAATCGCTACTAGCTACTATTACTAAGCGTATTGATATTATAAGAAATACTAAAACAAAACCAATAAATACTATATTAACTCTCGTATAAGTAGCTGAATCTCTTAAATCCCAAATAAAAAGAGACTTATAGTATTTACTATAATTTATATCCTTTAGTTTTACAGATAATTTATTTGGTAGACGTTTTAGCTTACTAAATAAAAAATGCTTGATCTTTATTATAAACAACCGAATGCGAAGTGCGTTATATAATAGATTTTTTAAAATCCTCACCCCAATTTTCTTAAGGTAAAAAATAAAAATCGCTAGAATATTTTTATTTCTATTAGCCATTTCACAAAAGAATAAGTTCTAACAATATTAGTTTAGGTAATATTAGCAAAGTTAAAAAGTTTACTTAGATTCCTTTGCTACAAATCAAGTGCAAATCATCTTAAATATATTTTACAACTTTGCTAACGGTAACTAGTCATTTGACCCGATTTAAATTGCCTTTTATATATAACAAATTTATTAAAAACTCCAGAAAAAAAGCTAAACTTATAAACTAACAAATTACTTCTTTCCAGATGCAAGAGTCAGATATTTTGTTGGCCCTTTCTTATAGCGCCAATTAGTATTGCCTTTAGAAGATTTTGAACCAGCAAATCTATGAGACTTAAAAATCACTTTTTCTTTTCTTGGATCGCTAATCATTTGAGCAACTTTTGTATCTTCTAGCTTTAAGTACTCGTTATTCAATCTTTTTAATCGAGAAGGAGAAGTCAAATACGCTAGCTCAGCTTTTAGAACATGAATAGTATCAGCTTCATAACGCATTTGTTTTTTTACTTCAGTAAGCTCCGCTCTGATAGCCATAACATTATTTTTAATATTAAATAAAGTATAGATTGTTCCCAAACATACAATTATTACGACAAACATTGGTGTTCTACTAAACAACATTTTCGCCTCCAATTTTTTCAGCTACCCTAAGTCTTGCTGACCTTGAGCGTGGATTTGATATAACTTCTTCTCTAGAAGGCACGATTGGCTTTTTTGTAATCATTTTAAGCCACTTACCCTCTTCAATTTCGATCGGTTTTTTTGAGTATTTAGAGCGTGCAACCTTTTTCATCGAGTTCTCTTTAAAAAAAGCTTTCACGATACTATCTTCAAGTGAATGAAACGATACAACTAATATTCTACCACCTGGCTTTAATAACTCATCAGAGTCACTTAGTATCTGTTCAATTGATTCCAACTCTTTATTTACATAAATTCTTATAGCTTGAAAGGTTTTTGTTGCAGGATCTATCTTACTCTTCCTGTAGTGCATTGCATTTCTAACAATATCTGCTAATTGCAGAGTTGTTTCAATTGGCTCTATTGCGCGCATTTTTACTATACTACTTGCAATTTGCCTTGATTGAACTTCCTCGCCATACTTATATATTACATTAGCAATTTCTTCTTCAGATGCTGATGCAATAAACTCTTTTGCGCTAATCCCATCATTTCCCATACGCATATCAAGCGGGCCATCATGCATAAAAGAAAAACCTCTTTCTGCTGAGTCAACTTGCATTGATGAAATACCAAGATCAAGTACTATCCCATCAAACTTCTTACCATCCAATTTACTTTTTGCTTCAGCAAAATTAGTTTGTATAAAATCAAACTTATCGCGAAATTCATCCTTTACCGTACTTACAAACTTTTCAACTGTAGGATCTTGATCAAGGGCTGTTACAAAACAATCTGCATTTTGTAAGATTGCTTTTGTATATCCACCAGCTCCAAAGGTACAATCCAAATATCTTCCGTTATCCTTTAAGGAAATATGCTCAAGCACTTCATCAAGCAATACCGAACAATGCGGCGCTGATGATGTTATATGTGCTGTATTTTTTTCTAACATATTTACTTAACTTATATCTTTATTTGAATTTTGATTATTTTTTAAGATTGATCTATTACCTTGAGCTATTTCCTTAGCACCTTTGCGATAATCTTCAAAATTGTCTGGGTTCCAAATCTCAAAAACCAATCCTTTACCAACAAAACAACCCTGCGACGAAATACCCACCTGCTCCATTAAGTAGCTTGGAAGAATCACCCTTCCTTCACTATCAAACTGTAATTGCACCGCTTCACCCAACACAATAGTTTCAAAGGCATCTCTTTCGTCTGAATATGGGTCTAGATTTTGAATAATCTTACTAAGCTCTTCCAAGCGCGACATGCTGCAGCACTCAATACAATTATTTTTAAATGAAGGATAAACTATGATTCCATTAAAATTTTCCTTTGCAAGCGCACCTCGATATCCAGCAGGGATCGAAACTCTTCCCTTTTTGTCTATCTTATTTATGTACTTCGAAAGAAAAATATTCATTTCAATATATGTTTCAAAAACTTATACGCATAACCACTTGACTATTAGATTAACACAAAATTTGGTGAATGTTGGGTTAATATGGGATTTTATGGTCTTAAATGGAAAATATTGGTATTTTTTATGTTAGTCAAGTGATATTTCAGTAACATATAGATTGTTTGCATAATTTATCAAATAATTCTGACACCTGTTTTCTCCTACTATTTCCTTTGCTCACAGTTCATGATAGAATTTGTATTCATACAAACAACTAAAAGGTGAAATATGGACGCACTACTCTTTATACTTAGCGCATTAGCTATAATAGCATTATTATTTATGATCAAAATTGTACCTCAACAACAAGCTTGGGTACTTGAAAGACTTGGCAAATTTGATCGAGTTCTACAACCTGGGCTTAATATACTAATACCAATTATTGAACGCGTTGCTTACAAGCACACTCTAAAAGAACAAGCAATGGACGTACATGCACAAACAGCAATTTCAAATGATAACGTAACTCTACAAATTGATGGAGTATTATATGTTAAAATAATAGATGCAACGGCTGCATCTTATGGTGTTGATAATCCATATTATGCTATATCTCAATTAGCTCAAACAACTATGCGTTCTGAAATTGGTAAACTAAAATTAGACAAAACATTTGAAGAAAGAGACGCACTAAATACAGCAATTGTAGCTTCAATTAATCATGCAGCTGTCAACTGGGGCATTCAATGCATGAGATACGAGATAAAAGATATTCAGCCACCTGCATCAATTCTTGAAGCAATGGAACTTCAAGTAGCAGCAGAAAGACAAAAAAGAGCTAGAATTCTTGAGTCTGAAGGTCACAGACAAGCTCAAATCAATGTCGCAGAAGGTGAGAAAGCGCAAGTGGTTCTAAATTCTGAAGCAGCTTATACCGACCAAGTTAACCGCGCAAAAGGTGAAGCTGAAGCAATCTTATTCGTAGCAGACGCTACTGCAAAAGGAATTGACATAGTTGCAGAATCTATTAAAAATGAAGGTGGACCAGATGCTGTATCATTGCGCGTTGCTGAACAATATGTTGATGCATTTGGTAAATTAGCTCAGAAAAATAATACTCTGATCTTACCGGCAAATGTATCTTCTCCAAGCAGCTTCATTGCACAGGCAATGACAATCTACGACAAACTACAAACAGTAAAGAAAAAGTAAAAAAAGACAAAGCCTCTTATATTCTAAAAATGTATAAGAGGCCTATTCCTCATTCTATATTATATTGAACTATCTACCCACCAAGAGTAAAAATTTCTAACTCTTCAACAGAACCAATAGTAGTTAATTCATAAATGTCATTGCGGGTTCCACAAACCTCAAGCGCAGCACCTGGATACAATACAGTCCGAGAAGCACCAAACTTCAGATCAAGCTCAGGAATAACTGCTTTATCACCCTTCTTTACCTCTAAAATTGGAGTATAAAAAATTCTTCCATTAGAACCTCCCAGCTTAACATAACCTATATTCTTTCCATCCGAACCACCAATATCTATTGATGAATATCTATCATTCGAATATTCAGCATATATCATCTTGGGCATCTTATTATTATGTTGCTCTTTACTCATAATTACTATGCTTAATATATAATTCTAATATAGACTATCTAATCAAATATATTGAAATACTATTGGATATCTTCAAAATGTTCATTGTCACCAGCAGTATCAACACTATTGTTTGCGGATGAATTTATCCCCCACTGTAGATTAGCCATCGCATTGTAAGCTGCAATATTGTCTTTTTCTTCCTGTTCTCGCACTCTTTCTTCATAAACATCACTGTCATTTCCCATTTTATTACTCCATCAAACTTATATAAATTAATTATATCTTTATCAGATATTCTGAAAACTAATTATGCAGGCTTTCTGACTTTCCATAAAATCAGAAGCTCTTGGCTAGATCCAATAATAGACAGCTCATTAATATTCCTCATTACTCCTAATGAAGTTATTTCAAGTATTGTACCAAGCCTGAGTATAAGAGCATTTTCTTCACACAAATTCATTAATTCTATATTATTATACCTAATAACATTTGGCTCTATCCTCTTACCAGGATCATAACCTGCCCAACATTGCTTCTTAAAAAACGCCCCCATTCTGAATTTAAATCTAAACCAGAAATCAAATTTTCTTCATCAGTCGTTCTCTCCGAGTTCTTTTCACTTATCTTCTTACTCATTATAATCTCCATTTATCCTGAAAGTGTGTTAGGGATATAAGAAAACGATATAACAGTCCATAATAAAAACGTAAAACCAATTACGCTCCTATATTCCAGAACCTCAGCAATAAAAAAGGACTCAGAAACAATTCCTGAGTCCTTTTATCATCTAAAATGTAGTACGAAAAAAACTAACCTTCTAGTCTTCTTCTACGATTGTTTTTTCTGATTCTTCTTTCAGCTTCTTGCTTTTCACGCACTCTTTTTGCTGAAGGTGGTTCATAAAAACGAGACATCTTCATTTGACGGAATACTAGCTCTCTTTGCATCTTTCTCTTAAGATCTCTGATCGCTTTTTCACCGTTTCCACCATGAACACTGATATGTACTGCCACTAGACATTACCTCCTTAAAAGGCATTTAGTTGAATTAAGCGTTTATTATCTATATAGTTGTCATGTAAGTCAAGAAAAAAGGTTAAAACTCTATGAATAATCAAGAGACTAAAAAAATAGCTTTGTTTAAAAAGCTCTGTAATTTACTTGATTCGATGCAGTGGTCCATTGAAACGATCAACGAAGCCGAGAGGCAAAGCAAGCTGGATGCTAACTACCATAAGCTTTTATTTCCAAATGGACAAACTCAGCTAGTTCAAGAATTCGAAAACTGGCTAGATACTGAAATGCTTAATGCTCTTGAAAAAATCGAGAAACCTAAAAAAATTAGAGAACAAATTGCTTTAGCTTTAGAAACAAGAATTATAAATCTTGTTTCCAAGAACGTTATATTGAAAAATAGTAGTTTTTTTATGGTTCCAACAAATATCTTGGCAGGCAATGAAAGCGCTTGCCAGACCTGTGACCTTATATGGAAATATGCAGGTGATAAATCAACTGACTTTAATTACTATACAAAAAGAGGCTTGTTACTGCCTGTATATTTATCTGCAAAAACATTTTATGTTGCAGATAATTCTAAGGATCACGAAAAAACTAATGAATTCATTAAAAATGCACTTGATAATATTATCAATATTGCTAGTTTTAAGAACCGTGTAAATTTGCCTAAAATGGAAGATATACCAATATTGAGACTTTTCTCATAATTTCGCCAGCAACGCTAAATATAAATTTATATAAAATTTAAAAACAAACCATGACAGATCAAAAATATTACCCTGAAGTGAAATCCAACGTTGAATTTCCAGAGATTGAAAATGAAATTCTAAAATATTGGGAAGAAAATCAGATTTTTCAAAAATCTGTAGATGCAAGAGATGCGACTAAAGACTCAAAAAATAATGAGTTCATTTTTTATGATGGTCCTCCGTTTGCTAATGGTCTGCCGCACTATGGTCACTTACTAACGGGTTTTGTTAAAGATGCCTATGCAAGATATCAAACCACAAAAGGCAAGCGAGTTGAAAGAAGATTCGGTTGGGACTGTCACGGACTACCGGCAGAAATGGGGGCTGAAAAAGAACTTGGTTTCTCAGGAAGAATAGCTATCACAGAATATGGGATTGATAAATTCAATGATCATTGTCGCAGTTCTGTAATGAAATATTCACATAACTGGGAAGAATATGTTAAGAGACAAGCGCGCTGGGTAGATTTTAAAAATTCATATAAAACTATGGATAAGAGTTTTATGGAATCTGTCCTATGGGCATTTAAGGAGCTTTACAACAAAGGACTAATCTACGAATCAATGCGAGTTATGCCCTACTCTTGGGCATGTGAAACCCCTTTATCAAACTTTGAAACAAGATTAGACAACTCATACAGAGAAAGAGCCGATAAAGCTGTTACCGTCTCCTTTAAAATGGATAGCTCTCCAGCTGGAGCTCCAGAAAATTGCAGCGAATATAGAATCATGGCGTGGACTACTACCCCATGGACATTACCATCAAACTTAGCTCTAGCTGTTGGCTCAGATATAGATTATGCATGCATAGTTAAAGATGATATATGCTATATAGTTGGAAAATTTGCTCTAAAATCATATTCAAAAGAACTAGGCATTACAGAAGATACAAAAATCACAACAATCAAAGGTCATGCATTAGCAAAACATTCTTATACCCCGCTATTTGATTACTTCAAAGACCATCCAAACGCTTTTAAAATTTTTACTGCTGATTTTGTTGTCGAAGGTGACGGTACAGGTATCGTACATATGGCACCTGGCTTTGGTGAAGATGACCAGGTTGTTTGCCAGGAAGAAGGAATAGAAATTGTATGTCCGGTTGATAATGCAGGTAAATTTACGAGTGAAGTGCCAGATTTTGAAGGTTTGCAAGTTTTTGATGCAAATGATCCAATAATTATCAAACTGAAAGAAAAAGGCAGTTGGATCAAAACCGAGCAATATATTCACAACTATCCGCATTGCTGGAGAACTGATACGCCTCTTATATATAAAGCTGTACCATCCTGGTATGTCAAAGTTACTGCTTTTAAAGATCGTATGGTTGAACTAAACCAAAAAATCAACTGGATACCAGGGAATGTTAAAGATGGCTTGTTTGGCAAATGGCTAGAAAATGCTAGAGATTGGTCGATAAGTCGCAATAGATTCTGGGGCACACCGATTCCAGTTTGGCAGTCCGATGATCCAAAATATCCACGCATAGATGTTTATGGATCAATTGCTGAACTTGAAGCAGATTTTGGCGTAAAAGTTGATGATTTGCATAAGCCATATATTGATGACTTAGTACGTCCAAATCCAGATGATCCAACGGGCAAATCGATGATGCGAAGAGTTTCTGATGTATTTGACTGTTGGTTTGAAAGTGGCTCTATGCCATATGGTCAAGCACACTACCCGTTTGAAAATAAAGAATGGTTCGAAAACCACTTCCCTGCTGATTTCATTGTTGAATATTCTGCACAAACTCGTGGATGGTTCTATACATTAATGGTGCTCTCTACTGCCCTATTTGATCGTCCGCCATTCTTAAATTGCATCTGTCATGGAGTAATTTTAGATGCAACTGGTCAAAAACTATCTAAACGATTGAATAACTATGCTGACCCTCTTGAAACATTCGAGAAATATGGCTCAGATGCTCTGCGAGTAACTATGCTCTCTTCAACAGTAGTTAAAGGACAAGAACTACTAATTGATAAAGAAGGCAAGATGGTCTTTGATTCTTTACGCTTGTTTATTAAGCCAATCTGGAATGCTTATAATTTCTTTTGTCTTTATGCAAATAGCGACTCAATTAAAGCAAAAATTTCATACAAATCAGATAATATGCTAGATCAATATATTCTATCTAAACTAAAACTAGCGGTAGAATCTATTGAGACAAATATGGATGCATTTGATAGCCAGTCTGCGTATAGCGCAGTATCAGATTTCTTTGAAATATTAAATAATTGGTATATCAGAAGAAGCCGCAATCGTTTCTGGAAGTCAGAAAAAGACCAAGATAAAGCGGCCGCATATAATACTTTATATACTTGTCTTGAAGTTATGAGTAGAGCTATATCTTCGCTTCTACCTTTAATTTCTGAGCATATATATCTAGGACTAACTGGTGGTATAAAAGATAATGCAAGTGTTCATTTAACAAACTTCCCTGTATTAGATGAAATTAAAGTTGATAAAAAATTAGTCAGCACTATGGATCAAGTACAAGATATTTGCAGCACAGCTCTATTTATTAGAAGCGCTGAAAATATCAGAGTACGTCTGCCATTATCAACACTTAAAATCATTACAGAACAAAGTGATGATTTCAAAAAATTTGATGATCTTATAAAAGACGAAATCAACATAAAATCAATAGTTTATGATAATGACTTAGCAAACAACGCTGATCAAAAACTATCCATTAACTTTCCTATTCTTGGTAAGCGTCTTCCTCAAAAAATGAAAGATATAATCAAACTATCTAAGCAAGGAGAGTGGAAATTTGATGGAAACAATCTAACAATTGCTGGTGAGAAATTATTACCTGAAGAATATTCATTAGTGCTAGTTCCAAGAGCTAAGCAAGGTGCAAAACCATTATCAAGTAATCAAGGAATGATTTGGCTTGATCTAAATATTACAAAGGAATTAGAGAATGAAGGAATCGCTAGGGATATTATAAGGTTAGTTCAACAAGCTCGAAAAGATGCCGAGTTTGATGTGTCTGATAGAATTGAGCTTGAACTAAAATCCGGACTAGATCTAAAAGATGTCTTAGCAGATCATTCAGAATTAATCTGCTCACAAACATTAAGTATGATATCTACTATTGGAAAAGCTGATTTTAGCACTCAAGCTCCACTACTTGATAATATGCTTGAGATTTCTGTAAGGAGGATATAAATATTATTTGCTTATAAAAGGACAATGGATCGCCACACTGTCGCTCGCGATGGCGATTTGGTCATTTGCACGGAGCAAAGTAGCATTGCCGTCATTGCGAGGAACGAAGCGACGCGGCAGTCCAGCAGCTAATAACTCACGGATGTAGTATTTTGAGTCAGTGGATCGCCACACTGTCGCTCGCGATGACGATTTGGTCATTTGCACGGAGCAAAGTAGCATTGCCGTCATTGCGAGGAACGAAGCGACGCGGCAATCCAGTGACTAATACTCCAAGAATATACTTTTTGAAATGGATCACCACACTAACGTTCGCGATGAAGGATTAATGCACCTCTAGCACAAAACTTAAAACCAATAAAAAAGGCTTAGCAGATTTTTCTACTAAGCCTTAATTAAACTAAAACTAGATATTACACTTACTGATTCAACTCGTTAAGTACTGTTGAAATATTCTTAAATTCAGTAGCAGCAACTCTTGCATTTGCACGAATGGTGTTACTTAGCTCTTGAACTTTCAGTAGCTCTTCAGTTGTATCTACGTTTGAAGCTTCAAGAACACCACCAAGAGTTCTACCAGCTCCACCAACACCAGCTTGCTTTAATAGAAGCTCACCAGATTCACGGCTTATTTCAAATGTACCATTAGCACCAGCAACAAGACCATTTACGTTTGCAAATATAGCAATAGGGACTTGGTATAGCTTACGAGTCTCACCACTATCAAATGTACCAATAATGAATCCTTGTGGATCAACTTCAAGCTTTAGCAGAGTACCAGCAGCTTGTCCATCACTCTGAACAATCTCAACATTGTTCGGGTTCTTCACCTGGCTAACATTCCCTGTCTTGATTTCACTAAGCTCATTTGGAAAATCAATAGTAATTGAACTTGGCTCACTACCATCAGTCCAGTTAATTGTAACAGCTTCATTGAAACCTTCTATACTTCCCACATTAAGTGTTCCATCTTGGTTAAACGAAATAGTACCATACTTAACAAGACCATTCGGTGCTGCAAGGCCATCAATATTGAATATACCATTTTCATCCGCCTGAGCTGCAAGCTCAACCGCCCACTTATTATTTTCTAACTTTGCAAAATGTAAAATCAGTGTTGAAGTAGAACCTTTACTGTTATACACAGTCACCGGATGAGAAAATGTTTCAGTTGAAACAAAATTTCCACCCGTTAAGTTTTTATCAATATTCGTTGGATTATAGGTTACATCGAAAAGAGGGTTAGCATTAGCTAGATTACTAGAATCTTTTTCTGGATCTAATCCAAAATATTCAAATAATCTTGCATGATTATTTATTCTAGCATTATGAGCAGATAAAAGCGCTGCCTGACCACCAGCTAGAGTAGCCCCTGCACCAGTACCAGCTACGTCAAAAGTAATAACACCTGCATTAATGGCAGTAATAGTATAATCAGTATTATTCGCAAGGGTAATACCATCAAAAATACCACCTACATCTTGGAATCTTATACTACCTCCAACTGCGTATCCGTGATTATCACTTCCAATATGGTAATTGACTAATGTAGAACCCACGCCAGCTCCAGTTGTAAATACAGTAGTATCAAAATCTCCAGCTACACCACCAGCATTGTCACCAATTTTTCTAAAACTTAGTCCAGGAGCTCCAGCACCACCGCCACCTGCAGTCACATCAGTTGCTTGAATTGTAAAATCACCTGCATTACTATTCGCTACAGTATAATATCCTGCAGGCAACGTAATAGTCTTAGCCACAGCACCAGCGCCAGCAACCGTCTGGATATTAAGCTCAAATACACCTCCATCAGTGTAAATCACATCACCATTGTTATAACCATGAGCAGCTGCGGCGATTCTAATCGTCTGAACACCGCCACCAACGTCTGCACGATCAATAGTTGCAGCAATAGGCGCTGCCTTAGTACCAGCTGCAATTTGCCAAGTAGCATTAGCTGGAACAACTAAATCTGCATTAGCCATAGTATAAGCTGCAGCACCACCGGTAATACTAATTGTAAATCCATTTTCATTAGCAGTTCCAACTGAATAAACTGCATCTGGAATTCTAGGATCATTCATATTTGTAATTCTAACTATATCACCAGCTTGCAAGCCACTACCTCTAGCTTCAATAAAGACTGAGCCTCCTCCTGCAGGATTATTAGTTGGATTAGTAATTGCTCTTGAAATTCTATTTCCATCAACCTGCCTACTTTCAATTCTAAGTGATGAAGTAGAAAGCAGTGAAGTTATTTTTATATTATCTCCAGGCTCAATTGTTGCAAGCAACGAATCTGTTGACTGATTAGTATTTACTGCATCTCTGAGTGAACGAATACTATTAAATCTGTTTTCATCTGGTCCTGCTGGTGCTAAATTTCTTAAACCTAATTGATTAATAATATCAGTACCTCCACCAACATTTTGGTATGTTAGGCCTTTACTTGCATCTTTAGGAGCAATATATAGTCTATCATCTACTACCCTTGCACTTAAAACACTAATTTTGTCAATTGCATTTGCAAGACTTTGTATAGAATTAAAATTAGTTCCAGTTGGTTGACCTGACATTGCTGTAAAAGTATACGAAGCACCACCTTGGATACTAATTCTAAGCTGCTGACCATCAACTAGAACACCTGGACCTGCAACAGCTCCAAATGCAAAAGTTGCACTTGCAGATGACGCCCCAAATACTTGCGTAGCATTTGAAGCTTTATTAGCTGAAGTAATCCCGCCATAGGTAACAGTTTTAGGACCATCACCACCACTTGAAGTGAATCTAAATGCATCACCGAATCTAAGCGCCCTAGTACCAACTTGGTCAGGTAGTAATATATCAGCCGCCTTAGTAGCTTTGTTATTTGCCGAACGTTGCATCACAAAACCATTTTCAGGTCCAGGACCTCTTAATGCTTTTTGATCAGAATTGAGGTTCATCGCTATTGAAATCACGCTTGTCTTTACTGGAAGCCCTTTAGTATTAGCAAAGTTTACAGCTTCTAGACTTGAAAGCAGTGAAGAATTTTGTGGACGATTACCTTGGCCGTCAAGCTTCCAAGCTTTTAGAAGTTGGTCAGCACCATTTTTCCAGTACCCAAGTTCATCTTGCCTAAAATCACCACGTCTAGTATATTTTACAACACCTGTTGGTGAATCCGAAACTGCAAGTAGACCTGCGCCGTCTATACCAATATCAGATACTACACCTGTGTTTACGATTGTACCTTGCTGGTCATTTGTAGCTCTTGTTCTACTATTTACATAAGAAACACCGCCTGTACTTGTTCCAACAAACGAATTAATAAATAAATTCTCACGCTTTTTGTGTCCCCAAGATTCTTTCGCTGCAATATTATTTGCAGGAGTATCGTTGGCTTTACTATACATTGTTACCGTGGTCTTAGACATAATTTTAAACTCCAAAAATAAATAAAATATTTAGCAATAAATTGCTGTAATGAGGCTATAGGTGCATAAAGCGTGCCAAAAATTATTTTTTACGAAAAAAAATTTTAACAAACAAGTTTTTTCGCCTAGCTCTTGCTGGATTCAAAGATATATGATATTATGTGTTTTTTCAATAAATAAGGCCAAAAATTGGTTCTAAATCAAAATTTTATTGTTTAGGTTATAATATGACAAAAATAATTACAAGATTTGCACCCTCGCCTACTGGCAAACTCCATATAGGAAATGTTAGAACTGCATTAATTAATTGGCTATATACAAAAAAGCATGGCGGCGAATTTATTTTAAGAATGGATGATACAGATTTAGCCCGAAGCCGCGATGAATATAAAGACGCAATTATTGAAGACCTAAAATGGCTAGGACTGGAATGGGACACTAGCTTCAATCAGCTTAGTAGACTTGAAAAATATGAACAAGCAAAACAAGAACTGATTGCAAAAGGACGCCTGTATCCTTGTTACGAAACTCCTGAAGAACTTGACATCAAGAGAAAACTACAATTATCACGTGGACTCCCGCCAATATACGATAGAGCAGCGCTAAAACTTACTGATCAGCAGATCAAACAATATCAAGATCAAGGAAGGAAACCACATTATAGATTCTTAATCAATGATGCGGAAATTCATTGGGAAGATATGATCAAAGGCGAAATTAAATATCAAGGAGCAAAATTAAGTGACCCTGTTATCGTCCGAGCAGATGGTACTATGACCTATATGCTCTGCTCTACTATTGACGATATTGAATATGAAATCTCACACGTAATTAGAGGCGAAGACCACGTTAGCAACACGGCAATTCAAATTCAAATGTTTGAAGCAATGAACGCTGCTGCACCAGTTTTTGGTCATTTAAGTTTGGTAAAATCAAAAGATGATAAGATATCAAAGCGTATTGGTGGATTTGATATCTCACAATTGCGTGATGTTGAAAATATAGAACCAATGACAATTAACAGCTTTCTTGGACTAATTGGTTCATCAAATACAGTTCATGCATGCAAAACAATGCAGGATCTTATTAACGATTTTGATATAAGTACTTACTCAAAAAGCCCTACTACATATATGCCAGAAGAGCTTGAGCTATTAAATCATAAAATTGTTATCACATATGATTATTCAGATATTACTGAATACCTAAAAGCAAATGACCTAGAAAAGGTTGACGAAAAATTTTGGCTTGCAATAAGACCAAATCTCTCGAAAATATCAGATATTAAAGAGTGGTGGCAGATCTGTCATAAACCAGAGAAAGCAACTGGCCTCGATGGAGAACTGCTTTCTATTGCAGCAGAGCATCTTCCCGAAGAAATAACAGATACAACTTGGAAAGAATGGACAAAAGCAATCGCTTCGCACAGCGGAAAAAAAGGCAAGGAATTATTTATGCCACTTCGCCTAGCATTGACCGGAAAAAGCAGCGGGCCCGAGCTAAAAAACTTACTCCCACTCCTTTCGCGCGAAGAGATTATAGCTAGATTAAGTCAATAGATTTTTCTATACCTTGAATCAAAAAGCAGAACTCTTACTGAGAAATTAATTCGTTGAATAATTCAAACGCTTCCTCCATCGGAAGAGGATCTTCAATGCAAATATTTTTCGACTTAACATAACTATTAAATCTATCAGCCGCAGACTGTCTTAACCCCTTTTCATCAACCTCTTTCTTAAAAGCCGTCCAGTGGGACCCGTGATCTTTGTTTATCAATCCTAGTTTTTGAGCTCTAATATTTGCTTTAGCTCCATTCCAATATTTCTTTTCAACTTGGAAAACTGATCGCATTTGAAAATGACGCATATCTAGCCCTATTTCATTTCCAGCCGCATATTCCAAACCCCTTTCATGCATTATAGTCCTTGCTGAATGATTTCCTTGAGAAATAACAACATCAACACCAGGTCTGACAGCAATCTTCCCAAATCCATCAGATAAATCTTTTAATCTATAATTTAAATTTTTATAAAACACTCCTAGTTTCTTATTATCTTTAAACTCTTCAACCGGTACATGATTATGCTGGAGCGTAAAAATAACTTCCTGATTATCTGGAATTTTAGATAGAATATCCTTTAGCTGAATATTAGGGTACCAAAACTCATCTGCATCAACAGGAAAAACCCAATCCAAATCTGACCAGACACTGTGAGCAAATCTCATAGCTCCAGTCATAATTTTACTTTGAATATATTCTACTATTGGATCATCAATAATTACTACTACCGCTTTATTTTCAACTTGTTTCTTGAATTTTTCTATCAACGCTCTTGTACCATCCGTTGAATTGTTATCAACAATGACAAATTTACGAAATCCAATACAGAAATGCCAAACTAAATTTTTATAAATAATATCATCTTCGTCTTTAACCATTGTCACATAAGCAATATTATCTATTCCATCCCTTGCAAATTTTACAGATTTTTGTGCTGCTAAATCGTTATTATTCTTCTGACTTTGCAAATTCTTTTCTTCAACTCTTACAAGCTCAGATTTGAATTGAATTTTATTGAATTTGCGCTCTATAGGTTTCGTCATACCAGATATAACCGCTATAGATACAAGCAATATAATAATAAAAAGAACTTTTGGAAAAACTTTAGATTTTCTCATCTATGCCTACATGCCTACAGAAAAATTGGGTGAATATATGGAATAACAATAGTAAAAACTTTAGAATGGTGGGCTTGAGAAGACTTGAACTTCCGACCTCACGCTTATCAGGCGTGCGCTCTAACCAGCTGAGCTACAAGCCCATTCTTGGATGCGGATTCTATTTCAACAAATCAAAATAGTCAAGCCAAAATAGCTTATAAAACTAGATTTATAGAAATTTTATTATATAGACTACAGTACCTTTTTTATATTTTAGCAATGGCTTGAATACTTATAGAGATTTGCAAACATTTGTCTATAAATCTCATTCGCATTACACTATATCTATATATAATTCGTCTCCTACCGGGCTTACATATGTATCTTTACAAATTGTAGAACTTTCATGTTTAGTCAAAGCTTTACCGGATAATTCTACCTCAACTTTGGTACTAGAAATAATATCAAGCAATTCTTTCAAAGCTCCAGTTTGCTCTTGTAAAGATGGGCCTGGACTTTTTAGCCTTGTTGGAACTTCTACTTGCTCTTCCAACGACGTTTCAGGACCAGGGGATTTAGAACATTCTGGTTCTTCAAAAGACACTATAAATCTCTTTCCTTTACTAGAAAAAATGTTAAGCAAATCCCTTGAAGCAGACTCACTATCTTTCATAGATAGCCCAGGAGTTTCAGCGCTTGCCGGAGCTTCTAATGAAGCATCAACAGCTTCTGTTTCTTTAGTGGCCTCTGCCTCTTCATCTTCATTCAATACTTGAATTTCAAATCTACCATGTTTTTCTATTGTAGAATCTTTTAAAATGCCAGCATCTCTTAAAAAATCATCAGAAGTAAAAAATGCATTTCTCATTCCGTGGACTAAATGACCAGTTTTAAGTATTAAGCTCCTTGGTGTAATACCAGATTCAAATTTATGAAAATCTGGATTTAATCCTAAATGCCTATATAAAGCTACAAGATATGGATTATGAGAAAAGATAGCAAGATGCAGCAATGATAATCCATCTGTCTCCCTGACATATCCTAACTCTTCATGTGTTGGATTCATTTCATATATTTTCTGCGCATTCTGTTTGGCTAAACTTAAATTAATGGAATCCGTAAAACGATCATACATACTTTGCTTAGTAAGTTTAAGAATTTTTCTTGATCTTTCTGCACTATCAACTATTTCCTCACGTTTCATAAACCTCCCCCAAGTAAATTATGAATTAAGTAAGATATTACTGCTAAATATATTATAACACATATATTCTAACGAACCCAACTAGTTATCAATACTATCTCCCAAAGAACCAACATCTTCTATAACATCATCAATTTTAGGAACTGGTGAACTGGGACGTAGCGGTATATCTTTTGCTTCTGACTTCAGAATTTCAAGAGCTTTTGCAAGATCTGAATCAAAATCATAATCATCAACATAATCGCTATTGTCAACATCACTTGTAGTGTCAACAATTTCATATTGTTTTAAAAAATCTTCTGTATTATAAAATGCCTCTTGCATATTAGAACCTAAATGGCCAATTTTTGTCATTAATTTTTCAGGAGTAATTCCAGACTTTTTTGCTATAATTTTAGTATTTGCTCCAAGATATATAAGCACAGCTACCATAAATGGATTAAGCTTATTTATTGCAACATGTAGCAAAGAAAAACCATCTGCCGATCTGGTAACATTTAACTCTTCTTGAGTTGGATTCATTTCAAAAACATCATGCGCAAAACTCTTACACATTTTTAAATCTATTGAATTCTTAGAACGAACATAAGTTTCTTTTTCAACCAACTTAAAAAGCTTTTCAATTCTATTTAAGTCTAGCTTTTTAGACTCTTTTACCATAACTCCTCTCCCAAAAAAAACAATGTTATGAATCCAGCCATCTTATCCATGCAAGCCAATCTCTCATTCCTAAATCTTGTTCAAAAGATAAAAGATCTGCATTTGCTTTTTTGCATATTACATCAGAGGGAGTAGCAAGTTCTACTCCGGAAGATAGAGATGCGATCTGCGCCCTACACGCATGCTCAAGATGATGGCAATAAAACATTGCTTCCCATGGTGTTTTCCCGCATGCTATATAGCCATGATTTCTTAAAAAAATAACTTTCTTATTTCCTAGATCATTAACCAAATCATTTCCATGAGTATCATTATCAAGTGCAAGAGAATTATATTCATGATATGCAAGCTGCCCGTAAAAATGCAGTGCCCATTGATTAATTGGCATCAGGCCTTCTTTCATAGCAGATACTGCAACTGTTGGCACAGTATGAAGGTGGTAGACTGCGTTTAAATCATGTCTTGACCTATAAATACTTCCATGAATTATATAACCAGTTTTATTATATTGATATTCTTTTCCTTCGAGAATCTCTCCACTCAATGCAACTTTAAGCAAGCATTCTGGAGTAACCTCTTCAAATCTCAAACCGAACGGATAAATATAATAATAATCAGCTCCATCAGGCCTTGCTGAAAGGTGAGTATATGTATGATCTGCCAATCCAAGCTTACCCAATATGCGGTATGCATAGGACAAATTTTGTCTTACTTCTTTGGTCATCTACGCTACCTCTTCTTTTGCAAAATCCATCTGTCTATAGCTTAATGCTTCAGATATATGCATTTTATTTACGTATTTTGAACCAGCTAAATCTGCTATTGTCCTTGCAACTCTGAGCACCCTATTGTAAGCCCTCATAGATAGACCAAATTTTTTTGCAGCTTCATTCAAAATATCGCGCCCCTCATCTCCTGGAATTGCATAATCTATAAGCAACTGCCCATCAAGCGCATTATTTAAGCGAATATTATATCCTTCATATCTTTCTGCTTGGATTTGACGTGCATTTTTCACTCGAACAGCTACATCAGCGCTAGACTCTTCATTACTCGGATTTAAAATACGATCATAGGTAAAATGTTCGTCAGAATTCCCTACCTCAATATGTAAATCAAACCTATCTAATATTGGACCAGATATTTTTGACTGATAGTTTCTAGAGCATATCGGTGCCTTACTACATGCTTTTGATGGATCATTTAAATATCCACACTTACAAGGATTCATTGCTGCAATGAGTTGAAAATTAGCTGGGAATTTTATATGAGCACCAGATCTAGATATCATAACTTCCTTAGTTTCTAGCGGCTGTCTTAATGCTTCTATTACACCTGAACTAAACTCAGGTAATTCATCGAGAAATAATACGCCATTATGAGCAAGTGAAATCTCACCTGGCTTAACTCTTTTGCCAATTCCACCACCAACCATTGCAGCTGACGTACAAGAATGGTGTGGCGACCTATATGGCCTTTCAGTTTTCAAACTTCCATCATTAATTAATCCGGCAATACTTGCAATAGTGCTGCACTCTAAAATTTCAGTAGGAACTAACTCGGGTAATATTCCAGGTAATCTTGAAGCAAGCATTGATTTTCCAGCTCCGGGAGGTCCAAACATTAGTAAATTATGACCACCTGCAGCTGCAATTTCTAAAGCTCTTTTTGCCAATTTTTGCCCCTTGATATCACTGAGATCAGGGTATTTTTTTGTTTCAGCTGCTGCTTTTGCTTCTGGAGAAACTAAACTCTGAGTACCTTTAAAATGATTTATTAGCTCAAGTAAATTGTCAGGTGCTAATATTCTATCATTACCAGACCATGCAGCTTCGGATCCATTTCTCTTTGAGCAAATAACGCCTTTGCTTCTAGCTGTTGCTCCCATTGCTGCAGGTAGCACACCACTAACTGGTAAGATACTTCCGTCCAGGGAAAGCTCTCCAAGAACTAGATATTCTTTTACTTCCTCGTAAGGAATTGCACCCATTGCTGCAAGTATACCGACACTAATGGCTAAGTCAAAATGGCTACCTTCTTTTATCAGGTCAGCTGGAGCTAAATTAATCAATATTTTTTTGGCAGGAAAGCTCAGGCCAATAGACGAAAGCGCCGCTCGAACGCGTTCTTTTGATTCGGCGATAGTTTTATCAGCTAGCCCAACTATCACAAATTTAGGGATACCTGGCTCTATCTGAACCTGAACATCAACATCAACAATGTCAATACCAGAAAACGTTAAGCTAGGTACTTTAATGATCATAATTTCTTTCCCAAAAAAATTTATAAAATAAACTTCGCTAAATCTCTGTTTTTAATAAATCCATCAAGCTGATTTTTTACGAATTTATCATCAATTTTGATTGTCTTTTCTTTCTGCTCGCTTACTCCAAAACTTACATCTTCAAGGATGTTCTCAAGAATTGTATGGAGCCTTCTTGCGCCAATATCTTCAATTTCAGTATTAAAGCTTGCGGCTTGAGTTGCAATCTCATCAATAGCTTTCTCTGTGAATTCTAGCTTCACTCCTTCTGTTTCAATCAAAGCAACATATTGCTTAATTAAACTTGATTCAGGCTCAGTAAGAATTTTCACCATATCATCTTTTGTAAGTGAGCTCATCTCGACTCTAATAGGAAGCCGGCCTTGAAGTTCTGGTAATAAATCTGATGGTTTCGATAAGTGAAAAGCGCCAGATGCAATAAACAAAATGTGATCCGTTTTTATCGTGCCATATTTTGTTACAACACTTGTACCCTCGATAAGTGGTAGTAAATCTCTCTGAACACCCTCACGACTAACTTCACCGCCCTTTCCTTCCGATCTTGAAGTAATTTTATCAATCTCATCCAAAAATACAATTCCATCATTTTCTACAGCCTTAACTGCGTTTAGAACCATTTTTTCTTCATCAATCATTTTTTCAGATTCTTCTGAAGTTATGATTTCAAGAGCATCCTCAACAGTCAGCTTCTTTTGTTTCATTTTATCTCCACCCATGGCTTTACCTAATATGTCACTAATATTAAGTACTCCCATAGATGCTCCTGGCATACCTGGTATTTCAAAACCTCCACCGCCTACAGGACCTGTGTCTTTTACACTAATTTCGATTTCAGTATTGCTAATTTCACCATCTAATATCTTTACTCTAAATTTATCTCTTGTTTCTGATGACGCGGATTTACCAACTACCGAATCTAAAATTCTTTCAATTGCTCGAAGCTTTGCTTTTTCTTCTACTTCTTTCTTGGCCTTCTCTTTTTGATATGCGATAGCAATTTCAACTAAATCTCTTACTATTGACTCTACATCTCTACCAACATAGCCAACTTCTGTAAATTTTGTAGCTTCTATCTTAATGAATGGTGATTCTGCTAGTTTTGCCAATCTTCTAGCGATTTCAGTTTTACCAACACCTGTTGTTCCAATCATAAGAATATTTTTTGGTACAATTTCACTACGCATTGGCTCTGTTACTTGCGCCCTACGATATCTATTTCTCAGGGCAACAGCTACTGCCTTTTTTGCATCTTTTTGACCAACAATAAATCTATCCAGCTCCGAAACTATTTCTGCTGGCGTCAGTCCCATCTTATCTTTTGAACTCATACAACCTTCTCTATAATAATATTATGATTTGAAAATACGCATATATCTGCCGCAATAGTCATTGATTTACGCGCGATTTCTTCTGCAGATAGTTTTGTTGCTACAGATTTCAAAGCCCTTGCTGCTGATAATGCAAACAAGCCACCAGATCCAATTGCAGCTACATCATCCTCTGGCTCAATAACATCACCGTTACCTGTAACTATCAAAATATTATCTTTGTCAGCTACAATCAGCATTGCTTCAAGTTTTCTTAAATATTTATCAGTTCTCCAATCTTTTGCAAGTTCCACTGCACTTCTAACCAACTGATTTGAATGTTTATCCAACTTTGCTTCTAATCTTTCAAATAAAGTAAAAGCATCTGCAGTTGATCCTGCAAAGCCTGCGATAATTTTATTATCAGATAGTGTACGAAGCTTTCTAGCAGTTGCTTTCATAATACTGTTGCCGAGCGACACTTGTCCATCAGCAGCAATTACTACGTCCTTTCCTTTTTTAAGACATAGAATTGTAGTACCTCTAAGACCCGGGGCATTTGACGAATTATTTGTCATAAAATCTATTTACTCTCTTTTTTCTTATTTGAACTTGTGTAAATCATATAAATGTTAGATAATCACTTACAACAAAAATTACAAGTATTTAGCTAAAATGAATATATACTCTGTATACGCTGATTCAAGCAAAAAGGATAAAGAACTTATTTTAATTAAACAAGGCTTCTCTTTTATAGCTGGATTTTTTAATTTCTTCTGGGCTATTTATCATAGGATGTGGAGCATTGCTATTTTCTTGCTGGTTATAAGCTTTTTCTTCAGCTCATCTACTTCGTATATTGCATATTGCTTTAATATTGCTATATTATTCATATTCGGTTTTTTCGCTAGCGAAATACAAGAATACTACGCAATGAAAAAAGGCTATAATATATCCGATATAATTTTAGCAACATCAGAAGAAGAAGCAGAAGTAAAATATTTTGAAAGAACTGAGAACTTAAAAAATTTGTAAATAATCATGTACGACAAAAATAACATTTTTGCCAAAATAATTAACGGCGATCTCCCTGCTGAAAAACTATATGAAGATGAAAAAGTTGTAGCCATAAAAGATATTAATCCCGCTGCACCGATTCATATTCTTGTAATTCCCAAAGGATCTTTTATTGATTTTGCTGATTTTGTTACAAACTCTTCTCCTGAGGATGTTGCATATTATTTCAAAATAATTGAAAAAATTGCGAAAGAAAATGGAGCTAAAGATTACAGATTAGTTAGCAATAAAGGAGCATCCGCCGGGCAATCTGTATTTCATTTCCATACCCACATTCTTAGTGGTTCAAACAATAGTAATCTAATAGACAAAAATTTATGAGCAAAAAATATGTAGTCGCGGTAATTGGTGCGACTGGCAATGTCGGAAGAGAAGTTTTAAACAGCCTATCTTCTAGAAATTTTCCGGCAAAAGAAGTAATTGCCGCTGCATCTTCAAACTCCGTTGGGAAAGAAGTCAGTTTTGGTGATAGCACACTTAAAGTAATGCAAATGAGTGAGCTTGATTTTAATAAAATTGACATTGCATTTTTCTGTGCGGGATCTGCAGTATCTGAAAAATATGCACAAGAAGCTGTGAAAAATGGATGTACTGTTATTGATAAATCTTCCTTCTATAGATTAGATAAGAAAGTACCGCTAGTTGTACCTGAAGCAAACATAAATTCTCTAAAAGATTTTAAATCTGGGATTATCTCTAATCCAAATTGCTGCACTATTCCTCTTGCTGTAGCATTAAAACCTCTGGATAATGCCGCAAAAATAAAAAGAGTGGTTATCTCGACATATCAATCAGTTTCTGGAGCTGGTAAAGCAGCTATGGATGAACTATATAATCAAACCAAGGCAAAATTTATCTTTGAGCACCTAAACCCTGAAGTTTTTCCGGAACAAATTGCTTTTAATCTATTTCCACATGTTGGAGATTTTAGAGAAGATGGCTATTCCGAAGAAGAATATAAGATTGAAGAAGAACTTAAAAAAATCATTGGAGAACAAGTAAATCCAACTGTAACATGCGTTAGAGTACCTGTTTTTGTATCTCACTCAATGTCAGTGAACGTAGAATTCGAAAAAAATATTAATGCACGAGAAGCAGAAGAAATTCTTGAAGATGCAGATGGCGTCATCACATATAACATCGAAAATGAGATGAAATATGCAACGCCAATAGATGCAGTTGAAAATGACGAGGTTTTTATCTCAAGAATTAGAGACGATAAATCAAGAAAAAATTCTTTAAATCTTTGGATATGCTCTGATAATTTACGCAAAGGAGCTGCGCTTAATGCTGTACAAATTGCTGAAGAAATTATCGCCTAATCACAACAAATATATAGTCAATATACTATATTTAGATTCTTATTGAATTATTACATATAAAATTCCTAGCAGAAATGATATTATTATATTAAGTGATGTTGGTAATTAGTTTCATTGCAACAAACCTATTAACATAAGTTAATTTTTCTTGCAATAGTGGAGAAATAAATATATAGTAAAACCCACAATAACAAGTTTTTACTGGCGATTACAATCGACAAAAAACATAAGGTATTAATTTATCAATTTTTAAAGTACATACATATATACTGATATGCAAAAGAAATTTAACCAAGTAGAAGATGAACTAAATCCACTAAAATTAGCACTAGAAAAATGTAAAACAGCCTTCAAAATCGTTTTTGTATTTGCGTTTGTAATCAACTTATTGATGCTAGTTACCCCACTCTACTCATTGCAAGTTCTTGATAGAGTTATCGGCAGTGGTAATTTAAATACATTATTACTACTTTCTCTTATAATTGCTTTTGTATACTTCGTTCATATGTTAATGCAGATCGCTAGATCATTTACACTAATTAAAGTTGGTGAATGGCTTGATAACACATTATCTCCTATAATCTTTGGTCATTCAATATCAGCATCTGCAACAAAGGTAAATCCCGCTTCAAGTCAGATGCTGCGCGACTTTCAGACATTAAAAACGTTCCTAACAAGCACAGGAATTAACACTGTATTTGATGCTCCATGGAGTATTGTTTATATAATAGTTTTATTCCTTATACATCCGTATATAGGTTTCATTACAATCGCAGGTGCTGTAATTATTGTATCTATTGCATTTTTCAATGCAATTGCCACTAACAAAACTCTAGGTGAAGCTACAGAGTTTTCTATTAAGGGTATGGGGCAGGCAGATATTGCAAATAGAAATGCTGAAGCTGTTGAAGCAATGGGTATGATTCGCAATGTTAAGAAAAACTGGGCAAAATTCAATGAAGCTTCTCTTGCCAAACAATCAATAGCTAGTTATAGAAATGGTATATTGTCAAATATCTCTGGTTTTGTAAGAAATATAATGCAAATGGCAGTAACTGGAACTGGTGCATATGTCGTTGTTACAACAAGCGGTCAAGATATGACAACTGGTGGAATGATCGCAAGTTCAATTATCGTAGGACGTGCACTTGCACCTTTTGGTAATGCAATTGGTATGTGGAAAAGTATCAGCGGCGCGATGAAAGCATACAAAACCATTAATGAGTCATTTGATAAGCATCACGAAAGAGACCAGGCAATGCCTATTCCACATGTTGATGGTCATTTAACAGTGGAAAATGTATATTATGCTGCGCCAACTCCGCAAGGAATGCCGCAACCACCTATGCCAAATCATATTCTTAAAGGCGTTTCATTTGCTCTACAACCTGGAGAAGTTTTAGCAGTAATTGGTCCAAGTGCCGCAGGTAAATCAACTCTGGCTAAATTGATTGTCGGTGTATGGGAAGCATCATCAGGAGCTCTTAGATTAGATGGAGGTGATGTATTTACCTGGAATAGAGAAAATTTCGGTGAGCATGTTGGGTACTTACCTCAAGGAATTGAGCTATTCAGCGGAACCATCAAACAAAATATCGCAAGAATGCAAGATAAAGTAGATCCAGAATTAGTAATTGAAACTGCAAAAATGTGTGGTGCACATGAAATGATTCTAAGATTACCTGATGGATACGATACAGATATCGGTCAAGGAGGAGCTAATCTATCTGGTGGACAAAGACAAAGAGTTGGTCTTGCGCGAGCATTTTATGGAACCCCTAAATTAGTAGTATTAGATGAACCTAATGCAAATCTTGATGAAGCCGGTGAAGAAGCACTAGCAAATGCTCTAAAAGAAGCTAGAAAAAAGAATATATCTGTAATTGTTATATCTCATAGACCATCAGTACTTTCAGCCGTTGATAAAGTCATGGTTATACAAGATGGAGCAGTCGCAAGTTTTGGTACAAGAAAAGAAATTGAAGGACGTATCAAAATGCTAAAAAATGGCACAATTCACATTAACGAATAAATATAGAAAATAAAATGCCTACTAATAAAAAAGATAAAGATAAACTGTCATTAGAAAAATTAAAGCAGCTTGAAGAGTTGCAAAAAATGATGATTAAACAGACAGATAGTAAAAAAAGCGCTCCTGGTAAGCTACCTAAGGGAATGCCTGCAGGACTACCAGGCATGGCAAAAAAACCTAGTATTTTTACTCCCAAAGGACTTTTAATTGCAATCTTACAAGGAATGCAAAATAGCGTTAAGTTTATCGACTACTTTATTGATTTTGTTATAAGAAAAGATAGCTCAAAAACTAACGATGTTGTAAAAGCTTCCAGATCTCCTGTTATGTTTGGAACATTTGTTATAATATTCTTTGTAATCTTTGGACTTCTATGGGCATCAACTGCACCACTTGACAGCGCCGCATATGCTCTTGGTACTGTAGTTAGCAATACAAAAAAGAAGAGTATAAATCACCCAGAAGGAGGCATAATAAAACATATTTACGTTAAACTAGGTGACAAAGTTCATGAAGGAGATAAACTACTAGAATTTGATGAAACACGCATAAAAGCTGAGTACGAAAGCACACTAAATCAATACAGAAATCTTCTAGCATCAGAAAAAAGATTAATTGCAGAAGTAAATGGTGATGATGAAATCATATATCCAGAATTTTTAATAAAAGATAGATCTGTTCCATATGTTGCAAAAATTATTGAAACACAAAATAGTCTTTTTAGATCAAAAAATGAACTAAAAACCACTGAACAGCAATCTTCCAAGGAAAAAATCAAGCAGCTACGTAAACAAATAGAAGGACAAACAGCGAAAATTGAAGCAGTTCAAAAAACAATTGAAGTGACTGAAGACCGCCTTGAAGCGAAGAGAAAGCTTTATGAAAAAGGTTACGCACAAAAAGCAGATGTATTAGAACTTGAAGCAAAATTAGCGAATGCCAAAGGAGATACAGCAATATCGGAAACTGAAATTGCAAGGTTGGAACAGGAAATAACGCGTACAGAGATTGAACTAATTAATCTTGATAGTAAATATTCTGCAAACGCATTAAATGAGTTAAAAGATGCTCAGGTAAATCTTTCTCAAGTTAAAGAAAAACTTTTTGCGTATGAAGACTCATTGAATAGAGTTGTTATAAGATCACCTGTTGAAGGTATAATCAATAATTTAAATTACTTTACTATTGGAAGCTCAATACCACAGCAGCAACCTATTCTAGAAATTTCACCCGTTGATGATAAGCTAATTATTGAGGCAAAAATCGAACCAAAGAATATTGATTCAATCCGAATTGGTCTTGAATCAAAAATTCGCTTTAGTGCATTTAAATCTCGCACCACACCTCTATTTACAGGTAAAGTAATTTCACTGTCACCAGATATTATTATACCTACTCAAGCACATCCGCAAGATCCAACAGCTGGAGGTTATTATCTAGCACAAATTGAACTTAACATGCAAGAATTCAATGAAATTGCCGAAACTAGAGCTCTAACTCTTCATCCTGGCATGCAAGCTGAAGTTCAAATAATTACTGGAACTAGAACATTGTTGAGATATCTACTAGATCCTGTTATTGATGCAATGTTTAAAGGATTCAAAGAAAAATAACTACACATAACACTGTGCCGTTTAGTTGAAAAAACACTATAATAAAGCTAATATTTACCTTATATTGAAGTTAGCTTAGAGTTAATTCAATAAAAGGCACATTATGTTTCAACAATTATTTAACCTAACCGGAAAACTGCTCTAGTTACAGGTGCATCAAGCGGATTAGGTCGTGCAATAGCAACTGCATATGATCAATCCGGTGCAAGAGTCATTGCACTTGGAAGATCTCATCAAAAACTTAATGAACTTTCTAAAGAGTCAGATCAGTTTATTCTTAAAAACTCACAACTCATTGCGAGTTTTAAAAATCCTGCCAAATAATCATTAATCACTAGTATTTAAAGGGTTTGCAATTATATTGATTACTTATCAATATAATTTGAGGCAATCAAATAGAATGAGGAGAACAAGGCAGTACAACAAGA
>sequence09
CTTTTATCACCAGATCTATACGTGCTTCCACAACTCTTACATTTGTACTTCTGCGCCCCCTATGGCGAAATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACTTCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTTGTTATTTAACAATGCCATAATACTACTAGTGACATTGATATAGAAGAAATAGATAAAATTAAAGTTTGGCACCTGGGCAACCGTTTCTCGTCTATTGTGGTTTGCCGGAATAGGCAAAACAGATCGTAAATTCAAGACAGAAAAACTAAGAGCAAAAGATTGTGCCGAAATTTTATACCAAAAATCTTTAGAAAATGACTCAGTAGCACTAGTTGCTCATGGTATGATAAACTATTTTATAGAAAAAAGACTACGATATAGAGGATATAAAAGAATAAGCAAAGTCACAACGGCTTCTGTTCTATAACAATACTGCATTGCTGAGCAAATTTCTCGCAATTATTAATCAAAGACTAATTCTATACTACTCAAAATTATTATCAGGCCTCAAAGGAATTGCCGAACTTATAGTATTAATATAATACTCATCTTCATATCTATTCCAACCTATAATTTGTATAATAAAACTATGTCCTGACACGCCATAGTTAGCATAGCCAATCATTGCTCCTATATATCTATTCGGTGATTTCGGATTCAGCTTTTGCCAATAATAATCAAACTTACATTTTGATTTATCACATGAAATATTACCTTTTATTTCTTTAAATGTCATTATATGCCATTTAGAATTAACCATAGCTGCAACTGCTATAAAATTCTTTATGCCCCAAGCTGAATTGCGTGCAGTATCTCCAACTAAGATCGCCTCCTTAGTTCTTCCATCACCTTTAATATTTACAGGAATAATACGAATTTTGTTATATAAAGAATCAAGATTAGGACTAACTTGATTCTTGTAATATTCTTTGAATTCGTTGCCAAATAAAGTAAAATCATTCACTTCAACTAATGAAGAAAGTGGCTTCCTTAAATCAGCAATAATACTAGTTTCTAGATCAGAAGCAAAAACACAATTTATAGTAGCTAAAAATTGTATAAAACATCCGAATAAAAATCTACGAGACATATAACTGAGGACAGTTAATCCCTAATCACCATAACAGAAATAGATGAGTGGCGCACTATTTTAGAAGCGTTTGGACCTAACATGTAATCTTTAAATTGTGGCCTCACTGCTGATAACATTATCAAATCTGCATTAACTTTCTCAGAATAGTTGATAACCTCATCATAAATTGCTCCACGACCAACGCTAAATTCAACTTCAACACCTTCTGGGACATATTTTGCGATTAACTCATCGAAAAGAGCTTTATACTTCTCTTTTTGATCTTTCATCCAATTACGAGGAAGATAATCTTCAAGGACTTTCATACCAAAATCTGGCATAATATGTACTAAATGAATTTTAGAGTCAAAAGCATTGACAAAATTAAGTGCTGGGGGAAAAACAACTTTTATAGATTGTTTATCTGATAAATCAACTGGGATTACTATATTTTTGAACATGATAAATGCTTTCTCTACTCCTCTTTATTATCTACATTTTCTGCTAAAAAAGCAGGTAAAACAAAATTCTTCCTAAAATCTTCAGCATCTATATCATATAGTGCTGGATGAGAAGACTTAAAACGATCAACTACACTAGGAAACAAATCTAAAAAATTTTGTGTAATTTTTTTATCAACATGATCCGCTGTCACTAAAATAGCATTGACCCCTATTGTATCTTGGTCTTTAGTAATGCCAGGATATCCACCTTCTGGTAGTATAGCCTTATGAAAACCAGGATTACTTTTTAATAACTGGTTTACTTTACTACTATCAATTGTAACAAAGTCTGACTCACACGCATGAGTAATAAAATTAACCAATGCACTTGGATGTCCAGCCATTATCATAATAGCATCAACATTCCCAACACAAAATTCATGCGCATAGTCTTCATAAGCTAGCTCAATATCAGTTGGTGGTTTTTTGAAATCATAATATGCTTCCAGAGCATTATATATAACTGAACTATCTGATTTAGGTGAACCATTAGAAATTTTCTTACCATCTAGATCACTAAACACCAAAATATTATCATCATCCTTAACTATAACAGTAAAAATTTCGCTGTGAAGCTTTAGTACTTGAGACATATTTTTAAATGGTTCAGTAGTAGCAAAATATCCTTTACCTTCATAAGAATCTATTGCTAAATTTGAGAGAGTAAATGCAAAATCAATTTTACCTCTTTGTAGTAGCCATAAATTTTCTAGAGACCCTTTAGTCGGTACCACTTCGCACGGAATGCCATTATTAGCCTTTGAGATATAACGACACAACTTCAAGCCAATAGAGTAATATCCTTCTAAAAGACTTCCTGAACCAACTCTAATCTTCCTTCCTTCCTGTGCAAATGCACTTTGCAGCGCAAAGAACATGAATGAAAATATAAAAACGTAAAGGCGCAATCTCTGCATAATCAATATCATTTAATTAGTCACGAGTTATACATATCTTTATCGAGGGTACCCTCACTACTATCGATTACCAAGGTAATTGTCGCATCGCCGGTAATATTAATTGTGGTACTAAGCAAATCCAACACTCTATCAATTCCAACTAACAATGCAACGCCTTCAATTGGCAGGCCAACCGAAGTGAGCATAATGGGTAGCATAATAATAAATGCACCGGGAATACCAGCTCCACCGATTGAACCAAGTGTACCAGTTAAAATAATTACAATATAATCGCCAAAGGCAAGATCAATACCAAGCACTTGAGCAAAAAATAAGGCTGACATACCTAACTTTATTGATAAACCATTCATATTAATGGATGCACCAAGCGGAAGTACAAAAGACGTACTTGACTCAGAAACACCCAATTTTTGCCTACAAACTTGCATAGTTGTTGCTAAACTTGCCTTACTACTTCCTGTTGAAAGAGCAATCATTTGATATTCTATACTTTTTTTGTAAAAAGGAATTGGCGATACTTTACAAAATACCATAATTATCAAACCAAAAATTATGTACTGCAATGCGAATGCTAAAAGTAAGGCACCAAATAATTTACCCAGTGTAAATATAATCTCAATCCCTTGAGTTCCTATTACCCATGCTGTAAGAGCAAATGCAGCATAAGGTGATAATTGTACAATTACTGAAATCATTTTTAAAACAAGCTTTGCTGCAGAGTGAATAAAATCCCTCACAGGGTCTACAGCATGCCCCAGACTATTAATTATCATTCCAGTAAATATCGAAAAGAATACAACTTGAAGTACATTTGACTCAGAAAATGCTACAAACACATTATTTGGAACAATTTCGATTAAATAATCAACTAAATCAAAGCTACTTTCTGTAAAGTGCTTTTCAGAATTCTGACCAAAATCTAGAATCACACCTTCACCCGGTTGTAATATGTGTGCTACACCTAAGCCAAAAACAACTGCAAAGCATGTTGTGCCAAGATAAGCTAAAACAGATTTTCTAGCAACACGACCAATCGAATTCGGATCTCGCATACCAGTAATACCTGATACTAAACTAAAGAATAATAATGGTACGATAACCATTTTGATTAAGCGTAAAAATACAGTTCCAACAGGTTTTACAGTTTCAACATGTTGTGGCAAATAAATTCCAAAGAACACGCCGAGAACTAATCCAAGAAATACTTTATGCCATAATTTCATACATCAACTCCACAAAAATAGTTGCGCTTGCAATATTGCGTAATGTCTAATCGCCACATACCCATTTCAGATAGTCTGGCAGACCTTCTACAATATCAAGCTTGATAATTTGAGGCAATCGATAACTATGATTGAATTTTATTGATTTTTCAATCGCTTTATAATTATCAGATGGGGCTTTTATCATTAAGCGAAATTCATTCGCTTGCCTATAGCTTGCCTCATAGTAAAAAAAACTTTCTACCTTATCAATTTGAACACAAGCAACTAACTTGTCTTCTAATAAGGTTCTAGCAATTAAATTTGCATTTTTCTTACTATCGGTTGTCGTTAATACGATACAACAATCTTTACTTTCCATTCACCTCTACATATGCATTAGGCGTTTCATATAACCTAAGTTTAATTATATCAAATGAATTTTTAGTAAACAACATTGGTATAATATCGTATTTTATGTGTAATGCAATATTTTCTGCAGTCGGGTTTGATTGCAAATAATAGATTTTCTGCCCTGTCCCTTTTTCAATAAGGTCTCCGAGAGGTTTATCTTTCTGATGCAAAATTACATTATGATCAAGATTTTCATCAACCCATTCTTTTATTACGGATTTTAAAACACCAAAATCTACGACCCTTCCTAAAGAATCTAGCTCGTCTGCTCTTGCAGTTACTTCAAGAACATATCTATGCCCATGCAAATACTTACATTTATTCTCATGACCCATCACCCTATGACCGGCATCAAATTCTATTCGCCTCGTACATTCAACCAAAATATCACCTATAAAAACTTAATTAATGATTTATGTTTTTCTATTTTGTCTAAAATAATATCGGCTTCAATTGATCCTTCTTCCTCAGAAGATAATTCTTCTTGAAGATCGGTAATTTCATTTGTAATCGTAGTTTTATTAGACTCAGGGATACTTGCAGCATATTCAGTGACTATATTTACTTCATCACCAGTAATCTGAACGACTCCTCCATGAATATAGTACCTAGTCTCTAATTCATTATTAAATATACTTGCAATTCCAATTTCAATTGCAGAAGTTAGTTTTACATGTCCTGGAAGCACGCCAAACACTCCTTCAGTACCGGGAATATTAACTTGACTCGTTTCGACTTCTAAAAACGTCTCCGAGGGTAAAATAATTCGAACTAGCAATTTATTACTCATAATGATTTATACTAAGCAGTTTCTTTTGATTGCAATTTATCAGCCTTTTCTACAGCCTCTTCAATTGTCCCAACCATATAAAAAGCAGCTTCAGGAAGATGATCATATTTTCCTTCTACCAACCCTTTAAAGCCCGCTATAGTATCAGCTAAATCAACAAATTTACCTGATACACCAGTAAATACTTCGGCTACATGGAATGGTTGTGATAAAAATCTTTGTATTTTACGAGCACGGCTAACTATCAATTTATCTTCTTCAGATAGCTCATCCATACCTAAAATAGCAATAATATCTTGTAAAGATTTATATGTTTGCAAAACTTTTTGTACTTCTCTTGCTACATTATAATGCTCATCACCAACAATCTTGGGATCAAGCATTTGAGAACTACTATCCAATGGATCAACTGCCGGATAAATACCTAGTTCTGCAATTTGGCGACTCAAAACAGTCGTTGCATCAAGGTGAGTAAAAGAAGTAGCAGGAGCTGGATCTGTCAAATCATCAGCTGGAACATAAATCGCCTGTACTGATGTGATAGAACCATTTTTAGTAGAAGTAATACGCTCTTGCAAACCACCCATATCAGTAGCAAGCGTCGGTTGATAACCTACCGCTGAAGGAATACGCCCTAATGTCGCTGATATTTCAGAACCAGCTTGGGTAAACCTAAATATATTATCAACAAAGAATAAAACATCTTGTCCACCATCAAGATCCCTGAAATACTCAGCTATTGTAAGACCTGTTAAAGCAACCCTAGCACGAGCACCTGGAGGCTCATTCATTTGTCCATATACCAGCGCCACTTTTGACTCATCGAGCTTATCTGGATTAATAACACCTGAATCTATCATTTCGTGATAAAGATCATTTCCTTCACGCGTACGCTCACCAACACCCGCAAACGCTGTATATCCACCATGCGCTTTTGCAACATTATTAATAAGCTCCATGATGATTACTGTTTTACCCACACCAGCGCCACCGAAAAGACCGATCTTTCCGCCTTTTGCATATGGAGCAAGCAGATCAACAACTTTAATACCAGTCACTAATATACTGCTATCTGTGGATTGCTCTTCAAATGAAGGAGCATCACGGTAAATTGATGAAGTATCTTTTGCTTTTATTGGACCTTGTTCATCAACAGGATCGCCCACAACATTCATTATTCTTCCAAGGGTTTCTTCACCAACTGGTACTCTTATAGAATCACCAGTATCAACTACCACCTGACCTCTGGTCAAACCATCTGTTGAATCCATCGCAATACAACGAACAGTGCTATCACCAATATGTTGAGCAACTTCCAAAACTAACTTTTGACCATTATTTTCACATTCAAGAGCGTTCAAAATGTTGGGAAGCTGAGCACCACCATCAAATTTTACATCAACTACAGCTGAAATAATTTGCGTTATTTTTCCTTCATTCTTTTTCATTTTAAAAAACCTATTTCTTATAGTTTCTTCTTACCAAAAGGATCCTCTTGATCCGCTATTAACTTGCCTGAAATTGCATAATTCTCAGGCTCCACATCATTTAATTTTATTTTTACACGTTCTGGCTTAGTTCCAATTGATTCACAAACAGCCTTTGTTACAGATTTAACCAGGTTTCTCTTCTGATCTAATGTCCGACCTGCAATCATATCAATATTTATTATTGGCATATTATTCTCCTACTAATTCTAGACCGCCTCAGCACCAGATATAATCTCTGTAAGCTCAGTCGTAATAATTGCTTGTCTTGATCTGTTTAACTTTAGTGTTAACTTTTCAATAAGCTCACCGGCATTTCTAGTAGCATTATCCATTGCTGTCATTCTCGCCCCCTCTTCACTAGCTTTATTCTGGAGTAGCCCGTAATTAATCTGACCACTCATATATAAATTAATCACCTCGTGAACTAGATTTTCTCCTTCATACTCATATTCAGAAACAGTGCTTTCCTTTGCATTTGCAGTATTACTAGCAGGCAAAATTTTCCGTCTAGTCATAACTTGAGTCATAGCATTCTTGAACTTGTTGTAATACATATAACAAGCCCCAGCTTCTTCGTTTTCTATCATCTCAATCATTTTATTTTTAACTTGGCGTGACATGCATGCAGCATTACCCTTCGGATTCGGATAATATTCTTCTATCAATTTTGCATATTTCCCGCGCAGACCATCCCTACCTTTCTTTCCAACAACAAGCAACTTTACTTCTTTTCCTTCTTTTTGGAAGGCACGAACATCTTTTTTCACTTTTCTGATAATGCTAGAGTTGAATCCTCCACAAAGCCCACGCTCAGAAGTCATAACAACTAGTAAGTATGGCATTTCTTTTAGTTTTTTACTAAAGAACATACGGTCCTTGGCCGGCAAATCCATTAAATTACCACCTGTAGAAATATCATACATAATATTTCCAAGAACTTCAGAATATAAATTTAAATTCTCAGCCTGCTCTTTTACCTTTTTAAGCTTTGCCGCAGATACTACGTGCATAGCTTTCGTGATTTTCTGAGTAGACTTAATACTTTTTACTCTATTTCTAAGTTGCTTTAGACCAGACATTATATTCTATTCTTAATTACCCAAAAATTCTTCAACAAACTTTCTAAGATAAGTTTTCAACTTCTCTTCATTCTCTTCGCTCAATTGCTTTTCTTCTCGAATCGATGTCAATATACTTTCTCCTTTAAGCCTAATATCATCTATTAACTTATCTTCAAAATCACGAACTTTTGTAGCATCAATCTTTTCTAAATAGCCATTCACACCGGCATATAGAGACACAACTTGCTCCTCAACAACAAATGGAGAATATTGTGGCTGTTTTAAAAGCTCTGTTAATTTTTGACCATGCCTAATCAACTGCTGCGTCGATACATCTAAATCAGATCCAAACTGAGCAAATGCCTCCATCTCTCTAAATTGAGCTAATTCCAATTTCATTGAACCAGAAACTTTTTTAATTGCCTTAATCTGAGCAGCTGAACCAACACGACTAACAGATATACCAACATTAACCGCAGGTCTTATACCTTTATAAAACAGCTCACTCTCTAGGAAAATTTGTCCATCAGTAATAGATATTACATTTGTTGGAATATAAGCAGATACATCACCAGCTTGCGTCTCAACAATAGGCAACGCAGTCAATGATCCTCCACCTTTTTCATCTGATAATTTAGCAGCACGTTCAAGCAATCTTGAATGTAAATAAAACACATCACCTGGATAAGCTTCACGCCCCGGTGGACGTCTAAGCAACAATGAAATCTGACGATATGCAACAGCATGCTTACTCAAATCATCATAAATTACCAATGAATGTTTTGCATTATCTCTGAAATATTCACCAATTGCACAACCTGTATATGGCGCCAAGAATTGTAGTGGCGCAGGATCAGATGCAGTTGCAGATACTACTACTGTATATTCCATAGCACCAGCTTCCTCAAGCTTCTTTACTATTTGAGCAACTGTTGACCTCTTCTGACCAATCGCAACATATACACAAAATATCTTTTCTGCATCATTATCTACTAAGTGAGCTGGTTTTTGATTAATAATCGTGTCAATAGCAATAGCAGTTTTTCCAGTTTGCCTATCGCCAATAATTAGCTCTCTTTGCCCTCTACCAATTGGTATCAATGCATCAATTGCTTTAATACCAGTTTGAACCGGTTCATGAACACTTTTTCTAGCGATAATCCCAGGAGCCTTAACTTCCACACGACTATAGTCTTTAGTAACAATATCTCCTTTACCATCGATCGGACGTCCAAGAGCATCTACTACGCGCCCAACCATCGCGGGTCCAACTGGAGTTTGCAAAATATCACCAGTTCTTTTAACTTTATCTCCTTGGCGAACAGATCTATCATCGCCCATAATAACTACGCCAACCATGTCACTTTCAAGGTTTAAAGCTAGCCCTTTGACACCTGAATCAAATTCAACCATCTCACCAGCTTGAACATTATCAATTCCATAAACTTTAGCAATACCATCACCAACCGTAATCACATAGCCGACTTCCTGAAGCTCACCTAACTGCTCAATGCCGCCTATTTCACGTTCTAAAATTTCTGATATTTCTGAAGGATTTAATGCCATTTTCTAAAACTCCTTTTAAAAAGACAAATTTATTACTAAACTAATACTCTACTATCTATGTAAATACACATAAACATAAGCACAAAACTACATTTTTGAATCAACTGCAATCTTTTTTATTCTATCCAGTGCTCCACTAACTGAACAATCAATTAAATTGCAATCATATTCTATAACAGCTCCACCAATCAGCGAAGAGTCTATATTTGTTTCAAGATCTATTTTTTTACCAAGCTCTGACTCTAAAAACCCACTAATTAAATCTAATTCTTTCTTTCCTAGATTGTATGCCGATGAAATCCTGGCATATTTAATACCCTTACTCTCTGCGATAATTTTAGAAAAATTTTCCATTATTTCAAGAATTAATGAAAATCTAGAATTTTTAACTAGGATATGTAAAAAATTAATGGTTGTTTTTTCAAATTTAAGTTTTGATGCAACCAAATCTAAAATTTTCTTTTTTATTTGACTATCTACTATCGGTGAACACAACGCTTGCATTACTCTCGAAGAATTTGAAACAACTTGCCCTAAAACCGTAATTTGCTCTAACACTTTGTCTTCTACTTTGCTCTTTTTGGCATCAGAATATAGCGCTTGAGAATAATTTTTTACAATCTTTAGATCTAACGACATTTAAAGTTTAAAAGTTATATATATTTGTAACTGAGATTGAAGATAGCAGTAAAATATCTAAGAGTCACTATTTTTACTTGTCAAATTTAAAATTTTCTCCTACTAAACCCTTTTATGTTTCAAAAAAATTAGAATATTCCTTTCTACTAGTGTAAATCAATACAAAGAACAACAAACCTAATTGCAACAAAAAATACCCTAGTACCATTGAAAACATACCTGTCCAACGCCAAATTAACATACAAACAAAAGGGGTTGTTGAAGAAAAAACCATGCTACCAATCGAATGTGACAAACTATACATTCTCATCCTTATACCAGTCGGAAAAAGAGACTGAATTTTTATTGCACAAGGAACCGAATAGAATGGAACCACAAAAGCTAAAGCTCTGTGTAATGCAAAGGAGAATACACCAGCACCGATCATGAATTCCATAATTAAAACACAAATAATACTCAAACTAAGCGCAAAAGAAATCTGCTTTAAAGGATTTATATGATCTGCTAAATACCCTGAAATAAAGCAACCCATACCGTAAAGCGCTATCAATGTAATATTGCTCGAAGATGCTTGATTTATACTTATAACATCAGCAACATTTGCCGCAAATGTTCCCAAGAAAATAATTAAGAAATGATACCCACCACCAAGCATACCATTAACCATCATTGATAAGAAAAATTTCAATCTATTATTAACGACTAAAGTTCCTATTCCAGAATTAACCTCTTGGCTCATACGAGATTTACTATTTAAAAATGTTTGACTTTCTCTTAAATACCCTCGCAACATGATAACGATTATTCCTAGAAATCCTCCAAGCACAAAATTCAAACGCCATGCAGACTCAAGCTCTTCAATACTAATTGCAATATGATACATAACAGAAGCTAAAATCACACCTAGCTGAGAAGAAAAAGAAACCACACCAATAGCAAAATTTCGTCTTTTTTTGCCAATTTTCTCAGCAACGAATATTTTAATAGCATCTATTTCACCCGCTAAACTCATTAAAAACATCATGCGGCACAGAGCAAGCAACATAACAGAAACCCATCCCCATGAATTAAAACCTGGTATTAAAGCTATTGCACTTGTAGATATAGCTGCAATAATTGTAGCAATTTTTACACTCGCAACTCGGCTTACTCTATCACCTATCTTACCAAATAAGACCGAACCTAATGGCCTAGCTACTACAGCTAAACTAAACACAGCAAAAAATAGTAACATTTGATCACTATCATCTGATCCAGGCATAAATGTCTTTGAGATAACAGAAGCTGATAGCCCAAATAACGCATAGTCATAATATCTAACTATGGTTGCTAAGATAGCAATAATATAAGAGCTATATTCCCGATACATTATAATTTTTTAGATTTAATTGCGTAATGTTTGTCTGGCTGATAGTATAACTATGAATTTCGAAGCGCAACCAGAAATATTTATGATCGGCAAACTTAAAGGTAAAATTGAATTAAACAACGAAAATGGGCAAGTAATAGTTGACGTTAGTGGAGTCGGTTACCTTGCTTTCTGCTCCGCAAAAACCCTAAGCAAGTTAACTCCTGAAGAATATGCTGAGCTCCTAATCGAAACACACGTACGTGAAGATCATATTCATCTTTATGGGTTTTATAATGTAGAAGAAAAAAACACTTTTAACATCCTGCAATCCGTAAAAGGAGTAGGAACCCGCATGGCTCTTGCAATCCTTAGCGAATTAACGCCTGAGGAAATAGGACTTGCCCTATCCGCACAAGATAAGGTTGTATTTAATAATGTTTCTGGTGTTGGAAAGAAGCTAGCAGAAAGAATAATAACCGAACTCAAAGATAAGTTTATAACTAACATATCAGGAGTAGCACCTATAAAAACTGGCACAGCTTTATCAAACAGTACAAACGATAATATGAATGATGCAGTAGCAGCTTTAGTTAGTCTTGGCATTGGTAAATCTGATGCTCAGATACGTATAAACTCTATACTAAACGAATCACCGGATATTTCTATTAATGACCTAATTAAACTTGGTTTAAAAAACTCAAACTAATATATTTTTATGGCAAAAGAACTCTTAGATGGAAATGAACTTGAAACGGATATAGATTTTTCCTTACGTCCTAATTACCTATTAGATTTTGTGGGTCAAGAGCACATCAAATCAAATTTAAATGTCTTTATTCAAGCAGCAAGCAAAAGGAATGAAGCACTAGATCACACTCTATTTTACGGACCGCCAGGGCTCGGAAAAACATCTCTTGCACATATCGTCGCTAAAGAAATGGGGGTGAATTTCAAAGCTACCTCTGGCCCAACATTATCAAAAGCAGCTGATCTTGCAGCAATACTTACAAATCTTCAAGAAAATGACGTACTCTTTATTGATGAGATTCATAGGCTGAATACTAATATTGAAGAGGTGCTATACCCCGCAATGGAAGATTTTTATCTAGATATAATAATTGGCGAGGGACCAGCGGCACGCTCAGTTAGAATTGACATACCTAAATTTACTTTAATAGGCGCAACTACTCGACTTGGCTTGCTAAGCAACCCACTAAGAGATAGATTCGGTATTCCACTAAGATTAAATTTCTATAATACAGAAGAACTAGTCAAAGTGTTAAACCGCGCAGCCGAACTCCTAAACACTCAAATTTCGCAAAAAGGCGCTGAAGAGATAGCAAAGCGCTCAAGAGGAACTCCTAGAATTGCCTTGCGTCTCTTGAAAAGAGTTCGCGATTTTGCATCCGTTGAAAACAAAAATGAAATTGATGAGAAAATAGCAGATAGCGCTCTAAACCGTTTAGAAGTGGATAAAGCCGGCCTTGATAGTAATGATTATAGATATTTAAAATTTATTTCAGATAATTATAATGGTGGACCAGTTGGAGTCGAGACAATTGCAGCAGCACTATCCGAACAAAGAGATGCAATCGAAGAAGCTATTGAACCATACTTAATACAAATAGGTCTTCTGCAAAGAACTCCTAGAGGCAGAGTTATAACAGATAATGCATTCTCACATCTTGGTTTGCAACCACCAAATAGAGAGACCAGCAAACAAACAAATCTTTTTACTGAAATTGAGAATTAATATAGTTAGCGCTGTTAGTTGTGCTTCGAGAAATCCAACTTGCCACAAGCATACCAAAATGATTTTGTAGCTTCTTGCAAGAGTTTATCAGCATCTAAGATCAATTCTCTTTTTACTTTCTGATATTCACCATCTTTATCAAACAAATGAAATGCCTCATCTTGAATCATTCCAAATTTTATACCCTCTTTAAAAATTGAAATACGACCATCCTTATCTTTCATAACTATTACATCAGACATTGGCAATAATATCTCAGCTATCAACTCCTCTAGCGCACTGCCTTCTTGCCTTGCTCCTATATCTTTTTTCATATACTCATATCTCAAACATAAAACTCAAACTAACTCATTTAAGGAGTTGATATAAAACTACAGAAATTACTTCAAAATCTTTAGTATCAGATAAATTAAAAACAAAGTATTAACTAATATAAAGCATTAACTTAACCTATGGTTGATTTTATTGGCATTGAGTTGCAAATATGTCTATAAAAAATAGAGGATTGAATATATGCTACAGATGAGTTACCTTATTACATAATTATATAATAAAAACTAAGCGCAGACATGACATTTAACTCAAACAGCAATATGCAAAATTTTCATACTATAGACAGACTTCCACCTTATGTTTTTGCAGAGGTTAATAAGCTAAAAGCCGAAGCAAGAAAACGGGGAAAAGATATTATCGATTTTGGTATGGGGAATCCTGATGCTCCAACTCCACCTCATATCGTAGAAAAGCTGATAGAATCGATTAACAATCCAAAAACTCACGGATACTCTGTCTCAAGAGGAATTCTTGGACTCCGCAAAGCGCAGAGCGAATATTATAATAGAAGGTTTAATGTTGATTTAGATCCTGAATCAGAAATAGTTGCAACACTTGGGTCAAAAGAAGGATTTGCAAGCACCGTAAAAGCTATTACAAAGCCTGGGGACACAATACTTGTTCCAAGCCCTAGCTACCCTATACATACTTTTGGATTTATTATTGCTGAAGCATCAGTCAGAACAGTGCCAAATAATGCAAGCCAAACAACATTAGTGCAGCAAATAAAAGAAGAAATTGAAAATTGTTCACCAAGGCCTACATCTGTTGTAATAAATTACCCATGTAACCCAACTGCTGAAACAGTTTCACTTGATTTTTACGAAGAAATAGTCAGCTTATGTAAACATTATGGGGTGTATATTCTATCAGATTTGGCATATTGTGAAATATATTTTAACGACTCCCCTCCTCCTTCAATACTACAAGCAAAAGGAGCAAAAGATATAGCGATAGAATTCACATCCGTTAGTAAAACATACTCTATGGCTGGCTGGAGAATCGGATTTGCCTGTGGGAACAAAAAGCTAATACACGCTCTTACTAGAATTAAATCATACCTTGATTACGGGGCTTTCACGCCAATTCAAATTGCAGCAACTGCCGCACTAAATGGACCTGATGATTGTATAATAGAAGCAAGGCAAAGATATAAAGATAGAAGAGATATATTAGTCAATGGCCTGAAAGATGCAGGATGGGAAATAACCTCGCCTGAAGCTACAATGTTTGCTTGGGCGCAAATCCCAGAAAAATACAGACATCTTGGATCTCTTGAATTTAGTAAATTACTCTTAGAACATGCAAATGTAGCTGTAGCTCCAGGCATTGGATTTGGCAAGGAAGGTGATGAATTTGTAAGAATTGGTCTAGTAGAAAACAAGAAGAGAATTAGGCAGGCAACAAAAAATATTCGCCAATTTTTACAAAAACATTAGAACTGATTACTCACAATGTCTGAAACACTTATATTAGTTGACGAAAATGACAAGCCTATTGGAACTGAAGAAAAAATGAAAGTGCATATAGAAGGCTTGTTACACCGCGCTTTTTCTGTAATGATCTTTAATAGCAAAGGACAACTGTTAGTACAAAAGCGCGCTAAAAGCAAATATCATTCGGCAAAATTATGGGCAAACTCGTGTTGTGGACACCCAAGTCTTGATGAGGACAATATGAAAGCTGCCCAAAGACGCCTGCAAGAAGAACTAGGTTTTACTTGCAATTTAATAAAAATTACTGAATTAAGCTACTCTTTAAAGCTGCAAGACGGCTTATACGAAAGAGAGTATACTCATGTTTTTGCTGGCATATATGATGGAAGCTTAGAACTCAACCCCGATGAAGTATCAGAAATTAAGTGGCAAACACCTCATAATTTGCGCAGAGAATCAATCTCAAAACCCGAGCAATATTCACGCTGGTTTAATTTGTATCTAACAGAATATTATAGAGAAATTTTTGAAAATAACGCTCTATTATCTCTCTAACAAACAATACTTATAACAAATCTGCATTATCGGAGCTTTGCTCATTAGCACCGATCTCGTCAACATCATCGGGTTTGTTTTGCATATATTCGTTGATATTACTAAAATTAATTTTAAATTTAGCAAAACTAGAGCTTTTAGTAATTTTTTTATCTCTCTCAATTGACCCCATCAGAGATTTCAAATTAACCTCCCCACCTTTTTTAGATTTATTTAAAGTTGCACTTTTAATATTTGTATTTAATGGTGTTAGTATTTTCTTTTTTCTCATTGGTTGTTTTGGTTTTAGTTAATATTATGAATAGTTTAGAACTTATATCTTCAAAAACGATATTATTTCTTCTCTAAGTAATACTTATTAGGATCCCTAAGATCTAACATTTTATAGTTTTGGTCAAATAGTTTTTTATCTTTATTCAGCAAGTGCAAGTATTCGTACGCTTCGCTAAAACTATTTTCAGGCATTTTAACAATAATATTTTGTTCCAAATGCAGATTCCATCTTCGATTGCCATATCTAACTGCAGATTTTACCTTTGATGCTAGATTAGGATAAACATTTATGTCGGCAAGCAAGCTACTAGCATAAATATTTGCATCTTGGCCAACTACATGCAGCAGCTCAGCAAAACCTTCGCCGCTATGTTTAGTTATACGATTTCCTTCAGAATCAATAATATATAATTTTTTCTTAAATTGCCATATAGCAATAGGCTGCCTTTCAACTATCGCTATATATATAGTTGACGGCAACCTTCTTTCTACCATCGCTTTTTTTATCCAAGTTGTATCTTCCAAGCGCCCTTTAACTTCTTCCATATCAACAGAAAAGATCGGAGCACCCTTATCTACTCTAAGTGCCTGCACAATATCTTTATAGGATGTATGTTCTTCACCTTCTATTTTAATATTTTCTAGAACAAAACCATAGCTCGCAGTAAACTCATTAAATTTATTCTTTGCTTTCTCCTTATATGAATCAAAGTAGTCAGTAAATACAAACAAACCGATAAATAATAATATCCATAATTTTATAAAGAAAATAATTCTATGTAGCAAAACCTGCCATCTCCTTTTTAAGGAAATCGCTGCACTATTTGATCTCTTTGAGGCTCTTTTCTTTTTCATGATTCAAACCTTGCACCCTGCAATATCTTATCTACCAGGTCAGTATAACTCACTCCATTTTCAGCAACAATCTCAGGGCATATTGATAGTGGTGTCATGCCAGGATGAGTATTTAATTCTAGCATATAAAACTCATCTTCTTGTTCGTTATAGATAAACTCAACTCTTATAATTCCATGCATACAATCAAAAATTTCACATGCATGCTCAGATATTTTCATGACCTTTTCACTCGCATTATCAGTAATTGGAGCAGGTAATAAATGATTTGCAAAACCTTCTGTATATTTCACTTCATAATCATAGAAACGTTTTCCTTGAAGCAATTCAATTTCTAAAACCCCCATAGCTTTTCCATTTAAAACAGCTACCTGAATTTCCCTTCCTTGTATATATTGCTCTACAATAATTTCATCACCATATTTAAACTCATAATCTGCAAAAGAAAAATCATCATCATCAAAAACAATTTCTATTCCAACACTCGAGCCTTGTGACAAAGGTTTGATTACATAGGGTCTTGGCATTGGATCATTTTTTATAGCATCGCTTTTGCTAACCACGATCGCTTGTGCTATCTTAATTCCATTTGCTTTAAAAATTTCATGCGATTTTTTCTTATTAAATGCAAGTGACGAAGACAAAACTCCAGGACCTGTATAAGGTATTCTTAGTATATTTAATACACCAGGAACACACCCATCTTCACCATAAGTGCCATGTAATGCATTAAATACAGCATCTGGTCTGAGATTAGTAATTACGCCTGAAATATCTGCTCCCATATCGATAAACACAACGTAATGCCCAAGCTCTATCAGTGAATCTACTATACCATTTGATGACATAAAAGATACTTCTCTCTCAGCGGACATACCTGCCCCAACAACCGCTATAAACTTCTTATCACCAGAATTTGCAATATTACATTCCTCAAGCACATATCCATCTGTTTTTATAAAGTCTTTTAGCTCTACCTTACCTTTGTTGCTACAATCAACTATAATAGATTTTTCTTTAAAGATTGTATTAAATTCTTGCATTTCTCCCTACGCGTTTTATTTCCCAATTTAATTCGATTCCAGAGTTCTCTTTCACTCTTTTTCTTACAAGCTCTCCTAAATCTTCCATATCAGATGCATTTGCAGTGCCATCATTTATCATGAAATTACAATGCTTTTGAGACATTGAAGCTCCACCAACTGCATAACCTCTAAGACCAGCCTCATCAATCAATTTCCAAGCTTTATGCCCATCAGGATTTGCAAACGTACTACCTCCCGTTTTTTCAGTAATTGGCTGAGTCTCTGAGCGCTTTTGATTAATCTCGTCCATTTTTGATTGAATCTGATCTGAATTACCCGATTTGCTCTTAAAAATTACTTTTGTAAATATTAAATCCTTAGGTAAAGTATTTTTTCTATAAGAGAAACCTATTTCTTCACACGAAAAATTTTTATAATTACCCTCTATATCAATAGCCTCTACCGATATAACTAAATCTTTAAATTCAGAACCATATGCACCCGCATTCATAACAACACCACCACCAATGGTCCCTGGAATTCCAACAAGGAATTCAAAACCTTCTATAAACTTTGTAGCAGCAAATTTTGCTAAATTATAGTTTAAACAACCAGCGCCTACAGCTAAACTACCATCTGGCTGCTCTTCGATTTCTGTAAAAGCGCGGCCAAGCTTTACTACAACCCCTTCTATTCCACCATCTCTAATAATAATATTTGAACCAGCACCTAGTACCATTACTTCAAGATTTGAATCTTTTTCCTTTAAAAAACTGGCAAGGTCTTCTGAGTCTTCAGGCTTAAATAAAATATCTGCATTACCACCAACTTTAAACCAAGTAAGGTGAGCTATATTATAATCAAATTTATATTTACCCCTTACTTTTGGTAAATTCATATTATTTCTATATTCTCGTATTAATTTACTGTTACAGTGCTTGTATCTATTTTTTCTAGCTTTTCAGGCAACTGATTTGCCCAAGTTGTTATACTTCCTGCACCCATCATAAGAATTATATCCCCTTCTCTTGCTTCAGTTGCAACAACAGGTGTTATATCTTCATGATTGGCAAGATATTCTGCATCCACAGAATTTTTATTAATAGCTTTAACCAGGGTTTTACTATTAATGCCCTCAATTGGTGAGTCACCAGCTGAAAATACATCCAAGATATATACTTTATCAGACTTAGCAAAACAACTAGCAAAGTCAGAAAATAAATTTTCCAACCTTGTATATCTATGTGGCTGAAATATTGAAATAACTCTACCTTTTCTTTTAGATACCACATCTTTTGCTGTAGAGAGAGTTGCTTCAATTTCCACCGGATGGTGAGCATAATCATCTATTATTTCTGCGCCATTATACTTTCCAACTAAGGTAAAACGTCTTTTTACACCTTGAAAGTTTTTAAAACCATTTTTAATCACCTTTAAGCCAAAATCCAGCTCTATTCCAATAGCAATTGCAGATAAAGCATTTAAAACATTATGCTTTCCAGGTGTTGGAATTGTAATGTGCTCTATAATTGTATCACCGCTTGCGTTTTGTTGTTTTATTCTAATATCAAATGTAGAAGAATATGTGTCAGAAGTAATATTATAAGCAACTATTTGAGCGTCCTCACTTTCAATACCATAAGTAATCACACGCCTTTCGGTTATATTGTCAACTAGCTCTCTTACAACTGGATGATCTATACAAGCAACACCAAAGCCATAAAATGGCAAATTACGTATAAAGCTTTTAAACGCAGCTTTTAATGTATCAAAATCTTTGTAGTAATCCATATGCTCTGGGTCAATATTTGTAATTACCCCAATAGTAGATGGAATTTTTATAAATGTAGCATCAGACTCGTCTGCTTCTACTACGAGATAATCTCCATGCCCTAAATATGCATTTGTTGACTTATTATTAATCACTCCACCATTAATTACTGTTGGATCTAAACCAGCTGCTTCAAATAAACAAGCAACTAAAGATGTTGTAGTAGTTTTTCCGTGTGACCCTGAAATGGCTACCGAACATTTAAGACGCATCAATTCGGCAAGCATCTCAGCCCGTCTGATTACTGGGATCATTAACTTTCTTGCCGCAACAACTTCAGGATTATCATTTTTAACTGCTGTAGAAATCACTACATATGAAACATTTTTTAGGTTAGAGGCGTCATGTCCTTCAAACACTTTTATTCCATGCGCTTCTAATCTTCTAGTATTATTATTTATAGCTAAATCTGAACCTTGAACACTATAGCCCAAATTATTCATTATTTCTGCTATCCCACTCATTCCAATACCACCTATACCAACAAAATGAATAGTATTTAAAGTTCCTTTTTTTCTTTTCATTTCAAGTAGCAGCATGTGTAGCAATCCCTTATTAATATTTTATTGAAATTTATATAAAATAAACGAATATAATTTTTGATATATTTAGAGGAAATATTTTGAATTTTATAAAGCTACTGTAAAACCCCTAGAACCCTATCAAATTTAAGGAACAATAAGCAGATCAATAAAATTAAATATACTAAATTATAATTGTTTAGGCTATATTACTGACTTATGATTGCAAATGCAATAGCAATTGGGTAATCATCTGATAAAGAAATATGGATTTTTTTATCTATAAACCCCTCAACATTATCACTAAAGATTTCTGCATATGGAGCACCTAATTTATCATTTAAAATTGCTATATCTTTAAAGGCCAAATTATTACCTATTCCTGAACCAAAAGCTTTAGCTATCGCTTCTTTTCCTGCAAATCTTTTTGCCAAATACGAAATAGACTTTGATTTCTCAAGCGTATAAAAATATTCACATTCCTGCGGATGAAAATTTTTTTCTAAAAAAGCATTCTTGTACTTATTATATATTCTTTCAATCCTATCAATCTGAACTACATCAGTCCCAATTCCAACTATCATAAATATTTATTCAACTAAAATCAGTTATTTATTTTCTGATCAACTATAACATAAACAATATACTTATAAAAAGCCATTAAATTACTAATGGTAATGGATGTAGATCACTCTTCACTTTAATTCTATCTGATTTATGTAAAAAACGTTTTTGATTAGAGATTTTCTGAGACGCAAAATATAAATTAGCCGAATAATTATCCGAATTTATATTATCGATTAATTTCATTAGATTATCATTTTTTGCAAGATCTTCCGAAGAAGAAAAAAAGCTTCTCTGTTCATTTTTTTTAGATCGAATATCAAAAAGCATTACCCCGGTTTTCTTATATTTAACCCCTTGTTTAAATATATTTTTTATACATTCCCTAGATTTTACTAATAAAATATTAGTTACATCAGTTGGCGCATCTAGCATCATAGTATATTCATTTTTATATTGCTTACTATTACTAAAACGATTTGTACGCATTGAAACCATTAATCCACCAGCTAGGCATTTTTGCTTCCTAAGCCTTATAGCGGCTTTTGCAATATGATTAGCAACAGATTCCTCAATTAAATTCAAATCTTGAATTGTTTTTTCAAAACTTCTCGATGATATTATTGTTTTTCTATGTGAAGTATCCCTAAATTCTATACAAGGAATACCACGTAATTCTAAAGCCGTTTTTTCTCCCATAACACCTAGAGATCTTCTAATCATTTTAAGATCAGCCAAACTTAAATCAAGCGCAGTATTAATACCCATGCGCCGAATACGCTTACCTAAATTATAAGATATCCCCCAAACTTCTTCTACAGCAACAGAGGCCAAAACACATTCTCGCATTTCTTTATCTCTAATATCAAAAACACCATTCCTAGAATATTTTTTAGCCATATGATTAGCTATTTTTGCTAAAGTTCTAGTTGGAGCCAAACCCAATGAAACTGGAATACCCGTCCACCTTCTTACTTTCTGACATAAATCAACACTATAGGATTGAAGGTCACAACCAACCAAACTTTCTAAATGTAAAAACGCTTCATCAACCGAATATTTTTCAACATCTGGCGCAAGCTCTTTTAATATTTTCATTACACGCCTTGACATATCACCATATAATTGAAAATTTGATGAAAAAGCTTTACCTCCATTTTTTTCAAATAAGCTCCGCCATTTAAAATACGGAGCACCCATTGGAACACCAATTTTCTTTGCTTCATTGGAACGAGCAACAATACATCCATCATTACCAGACAAAACTATAACAGGTTTATTGTTTAATTCAGGTTTAAAAACTCTTTCACATGATGCAAAAAAATTATTACAATCAACAAGAGCAAACACTTTTCCCATAATTTATACCTTATGTATTACGTAATTCACTACACCCCAGATTACTGATTCTATATCATGATTTATTTCCATTGGTTCATATTCTTTATTTTCTGGCATTAGTAAAACCTTATTACGCAGATTATATAAGCGCCTAATTAGCAAATCTTCACCAATTGCTACGATTACAATCCTTCCATGCTTAGCGGACAAACTGCGATCAACTACTAATATATCTCCAGACCATATTCCTGCATCTTTCATAGCATCACTTTTGACTTGCATAAAAAACGTTGCAGCTTCATGCTTTACTAATAGCTTATTTAAATCTAAATTACCTGTAATATTATCATCTGCTGGAAATGGGAAGCCCGCAGAAATTTTACTAGAATAATAAGGAATAGCCGGGAAATTTACATCTGTTTTTTCTAACATAATAACCTCTTTTTTTCTGTGTAAAACCTAGAATATTAGATTTTTGTACGGTTTTCAAGATGTAAATTTACAACTACAGAAAAACTATAAGTCATTATGAGCCTCAGCATAGAACTCTTTTGATATTTTGAAGATAAAATAGCTATATCCAAAGCCTTCAATTACAATAATATATCACTAAATCTAAATTAATATTTAGTTCTTTCTACGTGCTGAATCACTTTTTTTGTACGCAAGGAATTAATTATTTTTTCAATATGTTCCAAAGATTCTACCTCTATATCAAATATCATTTCAAAATAGTCAGGATTACGACTTGTAATTTTAAAATTAATTATATTACCACCATCTCGTGCTATTTCTGTAGATATTACAGAAAGACCCGAAACTTCATTAAGTAATACAATACTAACCCGACATACGAATGGAATATTTGAAGTATTGCTATCCCAGGTAAGGTCAATAATACGCTCTGGCATTCCCGCAAAATTATTTAACATTTCACAATCAGAAGTATGAATAGTAACACCACTTCCTGTATGAATAACACCAACAATTTTATCCCCAGGCAAAGGATGGCAGCATTTGGCATAATGCATTGCCATTCCTGAAATCAAACCCTTAATAGGAACAGAGTTTTCCTGAGATTCAGCAGGAGTTTTCTTTCTTTTAAACTTAAGCAAAGATAATGTAGAACTAAATTTACTCTTTTTCGGCTGAACTTGTTTTACCACTTCCTCTCTAGTAATAGTCCCCTCGCCTATAGCAAATAACAAATCATTAAGTGATTTATTAAAAAACTTACTAGCTTTTTCTAAAGCCTTTGTTTCATCTGATATCTCGGCAACCTTCAAGGCTTTACTAATAATATTTCGACCAAGCTTTACATATTGATCATATTGCTGGCTACGTATTACTTTACGAATTTCTGACCTTGCTTTACCAGTAACAACGAACTTCTCCCAAGACGGCGAAGCAGTTTGGTTTTTTGAAGTTATAATCTCAACTTGATCACCATTTACTAGCTGAGTACGAAGAGGCACAATACGCCCATTAACCTTTGCACCGACACATGAATTACCAACATCAGAATGTACCATATAAGCAAAATCTACAGTGGTTGCACCTTTCGGCAGAGCAATCAGGTTTCCTTTTGGAGTAAAGCAAAACACCTGATCATAATACATTGCTAATTTTGTGTTTTGTAAAAATTCATCTGGTGCAGCAGTCTGCTCTAAAATGGATAAAAGCTCTCTAATCCATGTATATTTACTGCCATCAGAACTATCATCATGCCCCTGCTTATATCGCCAGTGCGCTGCTACTCCGAGCTCTGCAATATCATGCATCTCTTGAGTACGAATCTGCACCTCAATCTTTTGCATTAATGGCCCCATAACCACAGTATGTAACGATTGGTAACCATTTCCTTTCGGTGTACTTATAAAATCCTGAAAATTATCTGGAACCATTTTATAAGCGCTATGGATAATACCAAGCACCTTGTAACAATCCTCTACATCCTTAACAATAACTCTAAATGCGATAATATCGTATAATTGATCAAGCCCTACATCCTTCTGCTTCATTTTCATCCAAGTTGAATACGGAGTCTTTCTTCTGCCATATACTTCAGCTTTTATTCCTCCATTTTCAACCGTTTTCTTGATCTCTTTAATAATTTGATCAACATAATTTCCTTTATCACTCTCAATACTATCAAATCTGTTAATGATGGACTCTCTAACTTCAGGATTCAAAACTCTAAAGCAAATATCCTGCAATTCAATTTTAATCTGCTGAATCCCAATTCTTTCAGCTAAAGGAGCGTATATCTCCATAGTCTCAAGGGCGATTCTCTTTCTCTTTTCAGGCTTTGATATGTAATCAATAGTACGCATATTATGCAAGCGATCAGCAAGCTTAATTAAAAGCACTCTAATATCATCACTCATTGCAAGTAATAGTTTGCGAAAATTTTCAGCTTGTCTTGTCGTATCAGCCTTAAACTCTATCTTATTTAGCTTTGTTACACCATCAACAAGCTTAGCTACATCAGGACTAAAATGCTTCTCAATATCTTCAAAAGTAAGGTCAGTATCTTCTATAGTATCATGCAATATAGCTGTTACTATAGAATCAGAATCAAGTCGCATTTGTGCAATAATTTCTGCAACCTGCAATGGATGGTAATAATAAGGATCACCAGAAGCTCTCTTTTGCGAACCATGATATTTTATTGCAAATTCAATTGCTTTCTTTACAACCGGCTCATCAATAGAAGTTCCATATGATTTATAATTATTGATAACTTCCTGAATCTCCACAACTACCCCTTCTAAAATAGCGCTAATATTTTACAAATAAATTAACTCTAAAATGATAACTCAGCTCACAATATCATTCAACAAAAAGCTACTCATTGCGGGTATATAAATAAGAGAAAATAACATTGCTAATAACACGGACGCTGCCATTTCTTCAGGATAAAGCTTAAATAAAGATGATAAAAGAATTGTACTGGTCGCAAGAGGCATTAAGCACAACAGCTGCAGAGCATTATGATAATTAACACCATACCAACCAAGAAAAAATCTATCAGCAACTATAAACGCATTAAAAACCAAAGGATAAATTATAAATTTGCTAAAAAAAGTCGCTCCAGCGAATTTATAATTAAACTTCATATTTTCAGCATTCGCAAGAGCAAGCCCTATCAAAACCATCCCAAGTAATGCAAATGTACTACGCATATCGCTGATAAATTCATCAAGAAAATCTGGAAAAGAAAAATTACTCAAACCAATAGCGCAACCAACAATAAAAGCATTTAAAATCGGTAATTTTATAATCTTAATAATACTATCATAGACATTTGCATTGCTTCTCGAACAAAAATAGAAACCAACTACAGCTTCATATATAGCAACACCAATTGTAGCTAACACAAAAATACTTAAGGTATGTTCATCAAAAATCATTGCGGCTATTGGTATGCCTAAATAACCACCATTGCATGTCCCAGCAGAAAAAGCCAAGATATTTACTCTATTATCTTTCCATAGCTTACCATAACTCCAAAAAGCAAAGCACGATAAACAAGAAGTTATTATAAAAGAAACTAAAGTTATCCCCAAATCACTTACTTCTAACGAGGCACTAGCAGGAATTGCGAAATATACGATTGGTGCAACAAAATAGAATAGTAGAGACGCAATTCCGTCTTTTTTTACGTTGCCCCATTTTCCAGCCATAAATCCAAGCAAAACCGTTAGCAATGCTCCGAATATTTTAAAAAAAATGGTTGTAAATATCACCACAATAATTACCCAAACTAACTCTTCACTACTTTGTTTTAGTATATGGCACTACAGACAAGGTTACAATATTAAGATTATGCACATCCAACATGATATACAAATCAAGATAATGCTTTATAATACACATTGACTTCTCGCAGATAAGAACCATCACTTGTAAGGTGTAATATGACAATCTATAGCCTTCAAGCTACTTGCAAAGAATTTATACCAATTCCCATTTTAAATTAGAGATTCGTATTTCAAGGTGAAGCTGCGGAGCGTACGTGCGTACGTGAGCACAGATGAATCCTGCAAAATGCGGATATATAATTTAAAATGGGAATTGGTATTAGGTGGCATAGCAACCTATTAGCTTGGCCTTGCAAAAATACTGAAACAATAGATTACCACGCTAATGCTCGCTAGGTGACGCATGCCTTGTCATTGCGAGGAACAAAGTGACGCAGCAATCTACCAGCTTAACACACCATAGACATATAACTTGAAACAGTGAATCGCCGCACATTCGCTCGAGAAGGTAACAATTATATTATAATTTATTTATTGCCTACAAGAAGCTAAAGTCGACATGACAATTTTCTGACTTAATACTCCGTAACATAACGTGATGTTAAACTGGATAGCCGCGCTTCGCTCGCTATGACAACTAAGCATGATTCGTTTGTCATGGCCAATGCTAAATTAAAATTATTTTTGATTAATCTTTCAACATAGTCGATAGATCATCACTGCACATCAGCATGGATGTGTAGCAAATCACCCAACCAGTTTGACAAAAATTGCTTAATCTTCTTCAGAAAAACTACTACCAAAATCTGGCTCTGTTTCTGGAGAAACATCAATTTCTTGAGAAAAGATATCTTCATTCGCAGAAGAATAGTCAACTTCTTCAGGAGCGGACTCTTGAGCTTCAGCATAAAGATTTTCTTCTGGAGCTTCATCAACTTTATTGTTCTTTTGCAAACCAACAATTTGTGATTCTCTAAGCACTTCAGGATCAATATTTTTAGTTGCTATCTCACGCAGAGCTATAACAGGATTTTTATCATTATCACGGTCAACAGTAAGAGGAGCACCAGAACTAATACTCTTAGCTCTTTCAGATGCCAAAATTACTAATTCAAATCTATTTGGAATTTCTTCGACGCAGTCTTCAACTGTTACTCTAGCCATACTTTAAAACCGTGCTAATTTAATTATTTATAGAGCAAAATTATATGTCACTTACACAAATTTTGCAAGCAACAAATTTCCCAGTGATTTTTACCATACAAAAACATATAAAAAACCCTGTAAACAAAGGCGGCTACGGGCGTGACTTTTATGCAACTCGCAAAAAAAAGCCGAAGTTAACATCAGTTAATTCTTGCTAAACTTATATGTATAGTGTTAGGATCGCATGCGTAATTGGTTAACTTATTTTCAATAGCAGCCCCCAACTTTTTATCTGCTTTTGAGTCATAGATAAAGAACCATTGGATAATTTAATAAACAAAAACTAAATAGGAAAAATCATGACGAATTCAAACTTTCTTAAAAAGTTACTAGCAACCGCTTCAGTTGTAGCAGTTTCTGCAAGTGCAAGCAGTTCTTTTGCTAATCTAAAACAAATAAATGCTGGCGCTACTATTACAAATGGTGGTGGTGTAGGTATTGTCGATACTGCTACTCCTCCGGCAGGTGCAGTTTTTAATGATGGTGACTCTCTAAGCTATCTTGGAAATCACACTTTAAACACAGGTGGTGTTGTAACTATTCACACTATTGATCTTAACAATAAAAATGCTGGAGCGTTTACTGTTGGTAATAATGCATCTTTGTCATCGGTTATAAACTCAGGAGGAAATCAAAAACTAGCTACTACTGTCGGGAACAACAGAACTCTAACCTTAGATAAAAACGCAGGTTTGAATGCAAGTGGAGCCGTGGCTACAGGTGGTGTATTCACACACTTAGGACCTGTTACTCTAGGCGGTGGTGCTGGTGGTGCAAAATTAGTAGTTAATGCTGATACAACATTAAGCGAAGCTATAATTGATGATAGCACTAATAATTCAACAATTGAGGTAAACGGTAATGTTAAGTTTGATAACACAATTGGTACAGGCGCTCAAGCTGTTGGCACTTTAGATGTTAAAGATAATAAAAATGCTACTTTAACAAAAAATTCAAATATTAAAGTAATACAAATCGGCTCTGGCGCATCTACTATTGTTGCTGATGATGCAAACATCACTTCTGATAATATTAAAGGTTCTGGTGTTGATAATGGCTCTTTGAAATTTAAAGGAAAATCAACTGTTAATGCACAAAAAATTGGTGATGTTGCAAAATTAAATTCTGTTGAACTTGAAGGAGCTGGAACTGTTGATTTAGCAAATACAACAGACTTCACTGCAACAAAAACAACATTAACTCATAATGATGCTGTATTAAAGTTCAGCAATGCCGTTAATGTTAAAACTAATATTGTTACGGGAACAGATAAAAAAGGTAAAGTTATTGTTGCTGAAGACACTAATTACGAAGGCAGCTTTGGTGAAAATGGCAAGTCTTTAGCAGAAGTTAATTTCAGCTCTGATAAGACTCTTACAATCAAAGAAGATGATTCAAAATTGTATGTAGAAAATGTAACAACTAGTGGCAACAATGGTACTGGTAAATTAGATATTAAATCTGCTAACTTTGAAATTCACTCAAATATTGGTGCTCAAGGAAAGGCTCTTAATTCTGTTAAAATCTCTTCAAATGCAGCTGGAACTGCAGCAACAACTGTAAAATTAATGGATAACAAGAGCATCCACGCATCAAACGTAGACCTTTCAGCGACAGGTCAAGCAAATGTTCTTGAACTATATCAAAACTCTTCCATTACAGGTAATGTAATCACATCTACACCTAATACAGGGTCACTGTCTGTTAAAGGCGATTCAAAAATTGATGGTAACATTGGTAGCAATGGTGGTAGTGCAATCAATCAAATTAAGTTTGATGCAGCAAAAACTTTAGAAGTTACTAAAAATGATATTAATACAAATAACGGTATTGATTTTGCAGAAGATGGTATTCTTAAGCTTACTGAAGACAAAGATATTAATATTAATAAATTAGTAAAAACAAAAAAGTCTGCAACTGGAACAGGTAGTATTATTGCCAATTCAGCTACAAGCGGTAAAACAATTGAAGTGACAGCTCAAATTGGTAATGTTGCAGCAGCAAATAATGATGATGCACTGAAATTATTACAAGCTAGAGGCGGTGCTGACATTAAACTTTCTACTGCAAATGCAGCTATTAAAAAGATTGATATTGAATCACAAGATTCAAGTTTGATTTTAAACGTAGCTGGTGGTGATTTCGTAATTAATAATTTCTCACACTCTGATGGTCAAGGTACTCTGAAGCTAGATGAGAATGCGACTCTTAAAGCTGGAACAAATCTTTCTTCAGGAACAAAAAACACTTTGAAATCTGTTGATCTTGGTAATAACAAAACTCTAACCGTTGAAGATGGTGTAAATATATACACTAGTAGTGCTGCTGACAACGGAATTAAATCTAATACTGCAGGTTCAGGTAAGTTAATCGTTCAAGGAGATTCAATAATCGCAGGTCCTGTTGGAGCAAGTAATGGAATTGGTGGTATCGATGTTACTGGTGCAAATAAAACTGCAACTTTCCATGATAAAGTAAACCTTGTTGCTGATGTTGGCTTAGGTACTGATGGTAAACTTACTATCTCTAAAGATGCTACAGCGGTACTAGGAGGTGAGTTTATTGGAACTGAAATTACGGGTACAGGTGTTGGCGAAGGTACTGTTAAATTTGCTAACAATGTTGCTCTTGCAGGTGATACAAAAATCCAATCAAAAATTGGTACTACACAACTAGAAACTGTTGAAATTGCTGGTAAAGATATTACTTTCTCTGACGCTAAGTTTGATACTCAAAACTTAAAGTTCTCAAGCAATGGTAATACAACAGCTACTTTTGATGGTTTTGCTGCAGGGGATGAACTCAGAAATACGACAATTACTACAACTTCAACAACTAGACAACACCATATAGCTCTAACTGAAGGGAAAAATCAGACTTTCGATCAAAAGGTTGGTACTGAGCAGAATAAATTTGGTAATTTTGTATTAGCTGGTGATGATACTATTACTGTAAATGAAGAATTTTATGCGGGTGTTATCAACTCAAAGGCTCAAGAAGGTACTGTAACAATTGCTAAGGATGGAGGAGTTGCATTAAATCTTGGTGCTAAAGATTCTGAATTAAAAGCTGTTAATGTTAATGAAAGTGCTACTATATATGAAGACGTTTGGTCAAAAGACGTTGTAGTGGCCGCAGGTAAAACTGCAACTTTCAAAGGTTCAATTTCAGGAACAAATGCTTTGAACCTAGGAAATAACTCCGTTGCAGACTTTACAGGAAAAAATGTTACTCTAGATATCTCAGTAACTTCTACAAACGCAAGTGAAGGTGCTTTAAAATTTTCTGACGGTGCAAATATCAATAAAGAAATTGGTAGTTCAGGAAAGCGTATAGATAAAGTAGATTTTGTAGGTACAAACAGTGCTGCTATTACTAACATTAATGCTAACATCAATGCAGATAATATTACTGTAAGCAATCAGACTCTTAGAGCTACACAAAATATTGAACTAAATGGGACAACAGCATTTAATGATGGTTCTTTTATTGATCTTGGTACAAACAAACTTACTCTTAAAAATGGTAATGCAATAGTAACTGGTACTTCAGGAGTAAATGTAACGTTAAATAATGACAAAGTTATAGGTTCTATTGTGGTTGACGCAACAGGTGGTGCTACAAATCTAGATACTTCAGGTGCAACTAAATTACTTATTAGTGTCGATGATTCAGTAGCTATGCTTCCTGCAAGTGACGAAGAATATACACTTATTGCAACTGCAAATGGAGGGACTGCAACTCCTATTGGTACTAATATTGAAGTTAATAGTACAGGTAACAATTTCGTAGACTGGTCTCTAACTAGTGGTGGAAAGTTAGTACGTAAAAACGTGGCATCTACAGCTTTAACTAGTGTTATTGGTACTGGTGATAAAGAATTACTACAAGATGCATTACAGTTTGTAAATGCAGACAACAAAGGTAAAGCAGCAGAATATGCAAGCGAGCTAGCGAGAATGGATAATAACAGACTAAAAGAATCTTTAGAAAGATCTTCTGAGCAAAATTCTGTTCATGCCGTTGAAATAGCAAGTAGCTTACTTGAATCTACAAATGCTGCTATTAACAACAGAATGGGTGCTTTCTCGAACCATCCACAACCTGGTATTCAAGTATCTTCACAAGGTGTATCTGGTGTTGCAGCTGGTGAAGGTGATCACACTATGTATGGTGCATGGGTAAGCCCGTTCTATAATCAAACTACACAAAAATCACGTGGTAGCAGAGCTGGATTTAAATCAAGCACATATGGTGCGACTCTAGGTTTTGATACGCAAGCTAATGCTGATCTAACTGTTGGTGTTGCAGGTACTTATGCTAAGTCTGATGTAAAGCATAAAAACTTCAAATCAGGTGATAAAACTAAAGGTGATACATTTGCATTTAGTATCTATGGTGTCCAGCAATTAAGTAATAACTGGTTCTTACAAGGTCATGCTGCTTATGCAACAACAAAAATGAAGAATTCAGAGAAGCGTATTACTGCTACAACATCTGAAACAGCAAGAGGCGAATTTGATGTAACATCATACAATGCTGAATTACTTGCAGGTTTCAACTATAGTATGGGCCAAGCTATTTTTACTCCATTAGTTGGTGCTAGCTATACTAGAATCAACAATAGTGGTTACACAGAAACTGGTACTACTAACCAGAACTTAACTGTAAGCAGTAAAGCTACAAATAAGTTTGATGCAGTTGCTGGTCTTAGAGGTCAAATGACAACTGAAGTGAATGGAATCAATGTGACTCCTGAAATTCATGGATTTGTTAGACATGATCTAATAGGTAAAGATGCTAGAACAACAGCTAAAATGTCTGGTATGGTTAACGCCCTGACTCCTAAATCTGCTAAAGCAATCAAAACTACATTTAATGTTGGTCTTGGTGTAAATGCAGTTTCAGGAATGTACGAGTACGGAGCTGGATATGATCTATTCGCAGCTAACAAAACTATAGGTCACCAAGGTACTTTAAAAGTTCGTGTGAACTTCTAATAACCTCTAAAATATTAGGCGCTACTTTTAAAGCGCCTTTTATTGGTATAAAAAAGACCTCCAGGCTTGTTCTGGGGGTCTTTTTTATTTTTGGAAACATATAGTTAATTGAAATTGTTTTATTTAGACATAAAGATCAAAAATTATTTAATTTGAATTTTATATAAGACACGCTGAAGTTAACTTTCAATAAATGCATAAATAGTACAAGTATCTTAAATTCAAATTATATTGCTATATTTGCTAGTTAAATCTGAGCTATGGATAAAAAAGAATTTTAGATTTTTGGAATATTTTTAGTGAAAACTAGAGTTTTTACGAAGGAATAGAAATACTATTTGTAGCAAAAATAGACAAAAGTATAATGCTTTGCTTATCTATAATTCAAGTTACTTAATTAGAAGATGAGTATCTTGAATTCAGACTAAATCTTTTATGTGAAATACATATAAAATTAGTTTGAATAAGAAAAAAACTGTTGATTTCAATTTATTGATATACGCAAGCAAAAAAAATAGTTATAAATAATCGCTAAAAATGATAATAGATTAAGTTTTAAATAAACGACTATTGAATATAAAAAATAAATAAAGGTAAAATTATGAGCATAACAGTAGCAGAGTATATTTGGCTTGACGGAAGCAAACCGACAGGACAAATTCGTTCAAAAACACGTGTAATTTCCGCTCCTGACGAAGTTTCACTTGAAGACTTCCCAGAATGGAGTTTTGATGGTTCTTCAACACAACAAGCTCACGGAGAAGATTCAGATTGTATCTTAAAACCTGTAAATTTTGTTTTAGATCCACTAGAAAATGGTGGAGATTTCCTAGTATTATGTGAAGTAATGAATCCTGATGGCACTATCCACGAATCTAATAAACGTGCAGTCTTAAGAAGAGTCATGGAAGACGGAGGCGAAACTCAAGACCCATGGATGGGTTTTGAACAAGAATATACAATGTTTAAGAAGAATATCCCTTTAGGATGGCCAGAACACGGATTTCCAGGAATGCAAGGTCCATATTATTGTGGTGTGGGAAGTGAACAAATTTTTGGTAGAGAATTGGCTGTAAAGCATAGAGATGCGTGCATAGATGCTGGCATCATGTATTACGGTATGAATGCAGAAGTTATGCCAGGACAATGGGAATATCAAATTGGCTATAGAGGTGTTCCTGACGAAGATGCAGGAGCTTTAAATATTGCAGACCATACATGGCTAGCACGCTGGCTAATGCACAGACTCAGTGAAGAATATAACATCCATATATCTCATGAAAATAAACCTGTAAAAGGTGACTGGAATGGCGCTGGAATGCATACCAATTTTTCGACTAGCGATATCAGAGATCCAAAAGAAGGACGCAAAGCAATTGCTGATGCTATAGAAAAACTTGAGAAAAAACATACAGACCATATAGAACACTATGGAGATAAACTTGAAGAAAGACTTACAGGAGATCATGAAACCTCAACAATTCATGAATTCTCGTCTGGCGATGCAAATAGAAGTAGTTCTATTAGAATTCCAAAACCTGTTGCTCTTAAAGGCTATGGCTATCTAGAAGATAGAAGACCAGGTGCAAATGCAGATCCATATATGGTTGCAGCGCTTTTAGTTTCAACTATTTGCGGAATTAAGATATAATTTACCTAACTATTATAAGTTCATTTATTCGTTTTAAATATAGGCGGATAAATGGGCTTCTTACTACATAAATCCAAAAATTACTTTACACAGTCAGAGTTTATCTTAGAGTTTATAAGAAAATTTATCAAGGCGTATTTCTATTGGTGCTCGGCATTGTTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGAAGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCAGAGGGGCGCAGAAGTACAAATGTAAGAGTTGTGGAAGCACGTATAGATCTGGTGATAAAAGGTTAAAATACAGCATGGAAA
>sequence10
CTCTCTCATCAGACATTATCTTGCTAGGTCCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCAATTTATTGGATTACTGCTTCGGTGAAGATAAAATAAGTACAGGAATTCTTCTCTTCGCTCCTTTTTCGATAATGCATACTTCGTCACCAGCGAGGAACAAAGTGACGTGGTAATCCATAAAGTTTCGAAATAAGTGAAATTTTTATATTTTGTAAAGCTTGGATTGCCACGCTCCGCTTGCAATGACGTGGTATATAGGTTCTCATTATGGCTAGGAAGAGAAATTTAGGCTCTGTCCACAAAATTATACAGATCTTATATTTTGCCATAAAGGTAATGATTCGATTGAGAGTTTGGGCAAGCGTAGTTTGAATGAAGAAGATAGCGATTCTTAGGAAAGGCATTCAAATGTATATAAGGCAACGCTTTTCACTCCGCAATTCAAGTGAATTAGTTGTAGCCAAGAGTATAAATTCAACACAGCCTGAAAGATAGTCGATTCAATCTGAAGATATGGTTATTGTACAACGGCCTGAATTGTTTTATAAAAACTCAAACAAATATATTTAGTGTATTAGATATGGCGATGAGTATCAATGAGTTAATAGATTACCTTAATAAATGTAAGAATAAAACGCAGATTAGCTTGAGTAATCAATATATCGACAATGAAGGGTTGAAAGTAATTGCGAAGTTTATGAAAGAGAATTCGTATGTACGGAAACTAGTACTTGAACTTAATCAAATCACAGACATAGCTCCATTATTTAAAGCATTAAAAGATAATGATACATTGGAATATTTGCAGCTCTCATATAATGAAATAGCAGATATTTCTGAAATAAAATATTTAAAGAATACGAAGCTGAAAGAACTTGAACTTGACTATAACAATATAAAAGACGTCACACCACTTTTGGAATTATTAAAGGTGAATATTGGAATTAAAAAAATTAACTACATAAAAAATAATATGAACGGTATTAGTGGTTTAAAAGAAGTCTTAAAAATAAATAATACATTAGAAGAGTTTTATTACGGAGTAAGCAGAGCTAAATTTCTAGAAAGTATGCTTGAAGTATTTACACCCGAGAGAATTAAAGACGAAATGGCGCGTGCTAAAAAATCTAGTTTTCACGAAATGGACGAAGTTCTGGTAGCAGAAATAGATAATATGCTCAATGAAAATGAAATTGCGCCGAAAAAGGCTTTAGCAAGGGTTGTCGGTAACTATTTGCTTTCTAAACTAGTTAAGGGGGAAAAGTTTAGCTATGAAGTGGAGTCAAGGCTTTTGAAATGTAGAAAAGATGTTGATAAGACTTTGTTGGATGGCTATTTAAAAACACATTTTAGTTCGTTAAAAGCGGTGAATGATTTAGAATTATTGAATAATTATAATTCGAAGCTCTGTCATTTTACCGATCTTGTATTTAACTTTGATCCTGAAGATAAAGATACGATTGATGTTATGGGTGATTTAGGTGGCTCTGTCCACAAGATTGTGTAAATTTTGATAAGTTATAATACCATAATTATATCTAGTTTAATTTAGCTTCTTCAAGTTTTTTAAACTCTTCTTCAGCCTCAACTTCGATTAATTCAGAATTTGAGGCAATCACTTGAAAACGCTGCAAAGATGCTTGAGTTTTTTTCAAACCACCTTCTATACCCATCTTACTAATATTACGTGCTTTGGATAAAAAATTCCTATTAAAAGACGCAGCAAACTTATCGTAATGATTAGCAACACTTGAAATACTGCTACCAAGTCTTGTTGAATGCTCTGCCATTGATCCAATAGATGCCATAAGTTTTTGTACTTCTTCAATAATTTTTTGATGGTTATGCATCATCATCTGCTCAGAAATTTGGAATTTTGCAAATGATAGCATATTCATAAGTCCCGCAGGCCCCACAGGAAAAATATTATATTTCCAAGCCTTATTCATAAATTCATTATCAGCATCTAGTAATTTTTCAATTGCATGCTCTGTTGGAAGAAACATAAGAGTTACGATATTACTAATATTATTTCCTTTAACTGCTAAATTCTTTCTTACAGCATCCGCATACGACTTACCACTGAGGGACCGCAAATGCGAATTCATTGTTTTGGCAAGAGATTTTGGATCTACTTCATCTACTAGAAATTTCGAAGCTTTAGCATCGATAATCATCACCCTATCACTTGGTAAAAATACAATCGAATCAGGTCTCAAAGTATCTTGATTCTCGTTTTGCACGCTATATTGCATACGATAATCAGTATTCAATCTTAAACCCGAAGATTTCATAATATTTTCAAGTGTTATCTCAGCTAAAGCACCAGCGCCAGACGGCGATAACAAGGAGTTCTTAATTACATCTACTATGTCCTTAGATTGAGCAACCTCTTTGCTCAAAGAGCCAACCATCCCGACAATTCTCTCAAACTCTGAATTAAACTTCTTTGCTGTTTCTTGGATATTCTTTTCTGAATTCTCTCTACTCTCTCGATTTTCTTTCTTATGAATTTCAATTAACTGCTTAGAAAGCTCATTTCCAAGCTCGAACAAAACAGCTTTAGTAGATTCTTTCGACTCTTCTTTTAATTTCTCAAAATCGCTAATCATTTGTTCTTGGTATTTCAGCCTCTCTGAAAGCTGCTGAATCTTTTGAACGTATTCAAATTTCTCTTCTTCAAGACTAGCATTTTGTTCTTTAAAATCTTGAAGAGATTCATTTAAGAATTTGGATTCAAGCTTTAGTTTGACATTTCTATATAAAGAAAAACCCAAGAAACCAAAAGATATTACTGAAAAAATTATAGAAATATATAAAATCATTATAATAATAAATTTGCGTAGATATGAAAGCTAACTATAGCTTACTACTGATATAGTATTTAAGCAATGCTTCCTAAACCCCAAGACTATCAAGAAACGTTCTCAGTTCCTGACGAGCTGCCACATGTGACATACTAAATGATTTTGTAAAATTTGCTTTTTTCAAATCAAGCAATGTTAGCCCATGTGGAAATAACTCTCTAAAAATCACTCTTTCGCTAAACCCTGGAGCTACTTTAAATGAAATACGTTTTGATAATTTTTTCAATGCTTGCTCAACATTCCTTTTATTTTGCGCATCTAAACTCCCCAAACGATTTCTGACAACTACCCAATCTATAGAACCACTATCTCTAGAAGCTCTTTCCATCTTTTGTTCCCACAGCATCTGACTATATATTGATGGTGATGATGTATCTAAAGTTTCGCTATCAATCTTTGCCATCACATCGAGATCTATAAAACTATCATTAATTGGCGTTACAACTGTGTCCGCATGCGAATGAGCAATTCTCGATAAGTTTGTATGGCTACCTGGAGTATCAATAACTATAAAATCAGCATGATTTTTAGCCATATTAAATACTTGTTCAAACTGAATTTTTTCTTGCTTTTCTTTTTCTTGCACTGAATCATTTATCACTTCTTTTAAATGAAAATGCAGTGGCATATCGACCTTACTCTCAGGATTTTTCTGATTATATGCTTTCCTATTATTGATATAGGTTGTAAGAGAATGCTGCCTAGAATCTGTATCAATACTAGCAATTTTATACCCCTTATCAAGCAGACCAATAATCAGATGCATAGAGCATGTAGTTTTCCCAGCACCACCTTTTTCATTTCCAATGACAAATATTTTTGGTTGTTTATTTTGACTCATAATTTTCCTGCACAAATTGATTCAATAACCTAACCCCGAAACCAACTGCGCCTTTAGGACAAACAGGGTTTTTCCCTTTCTTATCCCAAGCAACTCCAGCAATATCAAGATGAGCCCATTTTACACCATCTTCAATAAATCGTCCAATAAACTGTGCCGCAGTAGCACTACCAGCGGCTCCTCTTTCATTACCTATATTAGCGATATCTGCAATTGGTGATTTTAACATTTCGTCATAATCTTTATGAAGCGGCATTCTCCAGAGTTTTTCATTTGTAGCATGCGAAGCCTTAATTAAATTCTCAGCCAACCCATCATCATTAGCAAAGCATCCAGCGTAAGTACTAGCTAACGAAATTATTATTGCTCCTGTTAGAGTTGCTAAATCAACCACACACTCAGGCTCAAAGTTCTCTTGCAAGTATGTCATGCAATCGCAAAGGACTAGACGCCCCTCAGCATCAGTATTTAAAACCTCAACTGTCTGGCCAGACATTGTACTTACTACATCTCCTGGTCTTTGAGCATTTGCTCCTGGCATATTTTCTACAAGCCCAACAACACCTACTGCATTTACTTTTGCACTGCGAAGAGCTAAAGCTTTTATTGTACCGACAACAGCAGCTGAACCACCCATATCATATTTCATAGCGTCCATTCCTGCAGGAGGTTTAAGTGATATTCCACCTGTATCGAATGTAACTCCTTTTCCAACAAAACAAACTGGTTTTTGCTTTTCACCACCTCCATTATACTTCATCACTACAAGCTTTGACTCACGTGCTGATCCTTGGCCAACACCAAGTAAAGCTCCCATACCCAAAGAACGCATCTCTCTTTCGCCTAGCACTTCAATATCAACTCCAAGAGGCTCAAGCTTATCAACTATTTGTTCTGCATAGCTTTCGGGATATAAAACATTAGGAGCCTCACTTACTAAATCACGAGCAAAATATACTCCCATTGCAGTCGCCTTCTTATCCTGAAAGACTTTATATGCAGCTTCACCATCTCCAACAATTATATTGAAGTCACCGATATCAAACTTCTCTTCATCTTTTAACTTTGTTTGATATTTATCAAATTTATACGCAGCAAGAACAGCCCCACTACCCAGTAAAGCAGAAACTTTTTCTTCAGAAAACTCACCTACTCTGCCATTAATTTCAATACCAACATTTTTAGCTTTTGCAACTTTTGCATTTGAGTAAATTTTGCCACCTATCTCCTCAAGTTGGAATTCTTTTATTTTTGCCTCATCTCCAATTCCCACAATAATAATAGTTTTAACATTACCATCCTTATCAGTTGATGATAGAGCTACTACTTGACCTAACTTCCCTTTGAACTTATTTTCATTTTGAATAGTTTTGGATATAAGGCCATGGAACTTTTGATCTGTTGCCATTAAATCCTTATCCATTTTTAATTGGTCATTAACTAAAACAGCTATTGCATCATTGGCAAAAAGATCTTTTTCTTCAAAAGAGATATTTAACATTTTTCCTCTACATAAAATTTATTATTACTAAGGTCATTTAATATAAAACTAATCATTAAGGGCATATTTTGCAAGTGAATTACCAAATATTAGCCTAAAAAATCCAATATATAACTAGGTTCGCAACATTGAAGTTTATCTAGAACACTATGCTTGAAAACTCTTTTAAAATATTTTATATGTAAAAAAATAATGATTCAGATAAATGAGGATATAAATTATGAGAAACTTTCTTAAAATTAAAACTGCTTTAATTACAATCTTATTTTTTGTATATTCTACAAATGCAGCGCTACCACAATTTAGTAGTTCTGAAAAAGTCCCGACACTAGCACCAATCCTTAAAAAGGCTACGCCGGCAATAGTGAATATCTCAATAATTCCAAAAAGAAGAGAGGCAACCAACCCTCTATTTGAAGATCCTTTTTTTAATAAATTTTTTAAGGATTTCCATCAATTCAAGCAATTTAATTATGAAGAAAATGATTCATACAACAAACAACAAAGTATTGGATCAGGAGTGATAATTGACTCACAAAAAGGACATATTGTTACAAATTATCATGTAATTAAAAATGCTAAGGAAGTATTCGTTACACTTAAAGATAAGAAACAGCTAAAAGCAGAAATAATTGGAACAGACGATGCTACTGATCTAGCTCTTTTAAAAATTGATGCGCAAAATCTTGACTCCCTTCCAATTAGCAACTCAGATGATCTTGAAGTTGGTGATTATGTTATAGCAATTGGGCATCCTTTTAGCTTAAGCCACACAGTTACTTCTGGTATAGTCAGCGGCCTTAGCCGCAGCGGACTTGGAATTGAAGGATATGAAGATTTTATCCAAACTGATGCATCAATCAACCCTGGAAACTCTGGAGGCGCTCTGATCAACCTAAAAGGGGAATTAGTTGGTATTAACACTGTCATTCTCTCAGCAGGCGGTATAGGCAATATAGGGATCGGTTTTGCTATTCCATCAAATATAGTAACGATGGTTACTCAGAATTTGATTAAATTTGGCGAAGTTAAACGTGGTCAAATTGGTATTTATACACAGAACATTACTCCTGAACTTGCTAAAGCTTTTGATCTATCAATAAACAATGGAGCAATTATATCGAAAGTAAATAAAAATAGCCCCGCTGAAAAAGCTGGTTTAATGGAAGGCGATGTAATAACTAAAGTTAATGATAAAATAGTAAATAATATTTCTGATGTCAGAAACATCATCGGTATGCAATCTATAAACACAAAGGTTAAGATTAATTTCCTTAGAGGCAAAGACTCGAAAACAGCAGAAGTGACCGTAGGACCACAGACTAAAGATACTACAAGCTCTGATTCTCTCAATATAGACTTGCTAGATGGAGCCAATTTCGCAGATATGACTAGCGCTCACCCATTATATGAAAAGGTGCAAGGTGTTCTAGTTACAAAAGTGAAGCCAGGAAGCTCAGCCTGGGGAGCTGGACTGCGAGAAAAAGACATTATTGTTTCAGTTAATAAAAAGAAGGTAACAAATATAGCTGAGTTAAAAAAAGCCGTAACATTGAAAAAAAATGGAATTTTACTCAATGTTCGTCGTGGAAATGCTGCATTATATATAATAATTCATTAGTATAAAATTGCTAAATTGCAGAATTTTCTAGTTCGCAAAAAAATATAATCGCGAAGTTATCATGGACCAACTCGAAATATACTTATTGCTTTTTACAGATAGCTTAGTCAGTAATTTTGCAATTAACAATTCTACTGAACTAGCTATTTTCTCAATGAAAATATTTAGCAGTTTATATAATCCATATATAGTCTTAGCAACAGCTACTTGTGCAGTAGTTGTTGCTTTTTCAGCCAACTATCTTCTTGGAATTGCCTGTTACAAAATACTAGCTCCAATGAATGCTGAAGAATCAAATCAAGACAACTCTAAAAGAATTGAAGTAATAAGGAGCAGCAAATTATTGCCAATAATTTTATTGCTTAGTGGAATACCTTTTTTTGGTAAATTTATAATTTTATTCGCTGGATTTTGTAGAGTGTCATTTATTAAAGCTATTATGATAGGCAGTTTTGCAAAATTTGTATATTACACTGTAACTTATTTAATTTTATAAGCATGACTCAATGAATATTTTCAAATGCAGTTCAAAAAATAAATTCATTGATGAAGTTATAGATTTCATAACTGATAATTACAAAGGCAACTTTCCCAAGTTAAAAATTTTATTGCCAAACGGATTAACATGCAGCGAGCTTCAGCACGCCTTGATTAAGACTCATGGAACAATAATACTACCAAATATAATTCCAATTTCAGAACTAGTAGCAGAAGAGGAAGAGATTTTTAAAATACCTTCCGGACAAATTGGTGCTATTTCTCGTTTAGAAGAAAAATTAACCCTTGCAGAAGTTATAAGCTCATATAAAGATCTAGATTATGACTTATCACAGAGCCTAAGGCTTAGCCCTTCTCTTGCTCAACTATTTTTCGAATTTGAGACAAATAATCTTGAATTCAAAGATATTAAACATCTTCCAAAGCTAGATGAGTCAGAACATTGGAATATGATATATAATTTCCTAAAATTTGCACAAGATAAGTGGCTAAGCAATATTAAAAACATGCAAAAAATATCGCGCGGTGCCTATCAGGATCAAATATTCAAAGCAGAAATAAATAGATTAATGACCACCCCTGATGAGTCTTTAATCATAGCAGGAGTTGTCGGCAATAATAAAATAACTAATGAATTTATTAGAAAAGCCCTAGAGCTGAGTAATGCATCACTAATATTGCCACCTTTTGATGAAAGCGCAATAAAAAATCAGCTACCATTTGAAAACCCACTATATAAAATTCAAAAATTCATCTCAAATCTAGAAAACAAAAAGATTAATATAAAAACTCTTGGAAGATCGAATGAGAGCATATTTGACAAATTACTATATAATTCTAGTGCAGATAGATATGAAGATAATCTAGAGTATGTAGAGTTAGACAACACTTTCTGCGAAGCTGAATATATTGCACTTAAATGCAAAAAACAGGTCGAAGACAATGCTAAATGCAAAATAGCTATTCTTGCTCATTCCCAAGAAACTAAAGAACAATGCTCTTTGTTTCTCGAAAAATATGAACTACAATTTACCGATTTATTTGGAAGAGATATACTAACCCACCCAGCCATCTCGCTAATATTATTGATCAGCGAACTTCAATATTCAAAATTTAGCTTGCAAAGCTTTTTTGCTTTTCTCTCACATTCAGAAATAGCGAACGATAAAACTCTCGAAATAAAAAACATTATCAGAAAACATAATAGATTAGCTTCAAATTTAGAATCTATTGCAAAAACTATCAATCAATACGCAACCCAAGAAACAAATGATGGATTCAGTAATTTAGTAAATTTCATAGAAGCTTCTGCTAGTAGTAATAAATTTCATCATTTATTAAAACATACTTTGCAAACAGCAGAAAAAATACTACCAAATATCTGGAAAAAATATTCTGATATAAATGCACCTCTATCTGAAATTATAAACAAAGAGTGGAAGATCCAGATCACAGATATTGATACTTTTCCAGAACTGCTAAAACAAATTTTAGAAGGAGGAAGAATTTTAGAATCAAGATCCAATTGTAATATAATAATATGCAAACCGCATGACACAGCTTTAATTAATTATGATTTAATCATTATTTCCGATCTAAACGAAAATAAATATCCTAAATCAGTTGTAGCAAACCCTTGGCTTAACTTACAAATGCAAAAGGAGTTAGAACTTGATAGTAAGATTTCTGATATTGGCAATAAACTCTATGAATTTTATTTAAACATAAATAATAAAAAAATTATCCTCACAAGAGCCAAAAAGTCAGCAGGAATGCAAACTATTCAATCACCTTTTATTCTTCACCTCAAATACATCCTTGGAAATAGATTTATATCCAAAATCGCAGCTAAGCTGAATACTAGAAATACCGAATATCCCAAAGATAGTTGCGCTAAGAGCGATATATTCCCAAAACAAATTTCAGCTACTGATATTGAGACATTGATCCGTTCTCCTTACAATTTTTACATAAAAAAAATCCTAAAAATCCGTAAAATTGATGAGATTAGCGATAAACCAAACCTTGCTGACTTTGGGAATTTCTTCCACCAAATTGCTGAAGACTATACTAATCACTTTCCTGAAAAATTGATTGAAGATCTTAGCGATAAATATCTTGAAGAAATAGATATACCACAATATAGCAAAAACGCGTGGAAAACGAAAATCATGGCTATTGCTCCTGAACTTATTGATTTTGAAGAAAAAAGAAGAAAACTTATACAATCTGTACATTGTGAAATTAAAGGCACTTTAGAACTAAATATAAAAGGAAAAAAGGTAACTATCCTTGCAATTGCAGACCGCATTGAAGTGGGCAAACAAGGCAAAGCATATATAATGGACTATAAAACTGGAGCAATACCTACCAAAAAAGATATTCTCTCTGGACTATCACCACAGCTCATAATTGAATCCATAATATTATCTGAAAATGGCTTTAATCTTCCAGTAAATAAAATCGAAAAGATTATTTATATTAAAATAAATAGCCACAGCCCATACATCAAAACTACTGAAATTGAGCTGTCAAAAGAAGATATATCTAAGCATAAACAAGGACTTATAACACTCCTAGAACATTACATCACAACAAATCAATACCCAATCGAACCCTGCATAATGAAGTATGATGACTACACTCACTTTGCAAGAAGAGTTTAATAACATAGATTTAACTTCTCTTATCTTACCTTATGTGAGTAAATTAGGTAGTAACTAAATATTTGATGATAATCTTTCACTAGCTATGAAAAATATACTTACAGCTATTATTTTAACATTATTTATTAATAGTAATATTATGGCAAAAACAACTGAAAATACTGAAGAGGCTATCTTTGCTATGGGTTGCTTCTGGTGCGGGGCAGCAGCCTTTGCAGATTATAAAACAAACAAAAAATTTCCTGGGATAATTTCAGTTAGAGCCGGATATACTGGAGGAGATATGCCTGCTCCAACATATCAGAATCATGAAACCCACAAAGAAGCCGTGCAAATAATTTATGATCCAAACATTATCTCTTATAAACGTCTTCTAGATATTTTCTGGCGTAATATCGACCCGTTTGATAGCAAAGGACAATTTTGTGACAAAGGCTTTTCCTACACATCAGCAATTTACTATAAAAATAAGTCTCAGGAAAAATTTGCAAATGAAACAAAGAAAGAAACAGAGAATATACTAGACAAACCAGTTGTTACGGAAATACTACCTGCAAAAATCTTCTATGAAGCCGAAGAGTATCACCAAGATTATAAAATAAAAAATCCAATCAGATATAAATATTACACTTGGTCATGCGGCAGAGCTCAAAGACTAGAAGAAATCTGGAAATAAGTAATAAAGTGTTTAACGCCCTCTTGCATTAGCAATTCTTTTTCTAGATTTATTATTAATTCTCTTTCTTGAGTTAGGATTTTTATGAATCTTTATTTTACGTGCTGCTCGTTTTATTTTTTCACTAATATTTTTTTTATTCTTTTGCTTTTTAGGTTTGAGTCGAATATCACCTATCTTTGTAGTAAGTTTCTTAGGGTTATTATATTTTGAAAAAGGATTATGAGCTCTTCTAAAGTTTCTCATAAAATTCACAATACGATACCTAGATTGAATAGCTTTTTCTGTCCCTTCAATTTTTTCTCTTATTTCTTTAAATTTTTCTTTAATCTGCTTATCACTATAATTTTTATAATCTGGATCTTTAACGAGCTCTTGTAATGCTAGAGTTTGAATTTTTTGCTCTCTTGCAGCCACCTTAAGTTCGTTTAAACTATCATAGCCAGGTGCATCATCTCTATTCCTTAAGCCATCAATATGGCTCTTAAATTCATTGCGCTTCTGACTCATTGTCATTTCACCTGAAACTGATGAACCAACGCCAATGGTAGTAAATGCAACAGCTTTTATTACTTTTGCTGGATTTCGTGTTATTACCCCTTCAACGACTGATACAACACCTCCAGCAATGCTTTTAAACACATTTAATGCTATATTAGCAGCTAATGATCTTTTTTTTGACTGACTACCTTTTAAGTACCTTGTGCCAGCAGATTTTTTGCCAGCTTTTTCAGGTTTGTAGAGATCTGCCTCCAGAACTCTACTAAGCTCTGGATTTTTTTCTAATAGTTTATCCTGTACATCCTTAGCCAAACAATGTCTTGATAAATGCTTGCTTTCACTATGTAATCGCCTTGTTTTTCTGACCATATATGTATCAACTGCAGCACCTATTGCAACAACTCCTAAAGAAGCCACAGCAAATGGTATTGCAATTTGTGGAGCCAATACAAAACCTGCGACAGCACCAAGACTTACGCCAGAAAGCGCTAGTACTCCAAGCGTTATTCCTGTAGTAGCGAGAACAACAGATATCCCTCTAGACACAGCAGAGCCAGTAAGAATTTTTACAACTTTATTGTTTTTAACTCTTGATATAGCCCCCCAAATTTTGCCTAAAAGCCCAGGGTTATCTTTACTATTTTCTTCTTCCGAAGACTTCTTCCTCTTACTCACCTATACTTATACCTTTATCTTACAAAAATTTGTCTCAGATAAATTGTAACACGCAAAGACAAAGCATTACAAACTCATTAATATCATCAAAATTAATTTTATTATTTATTATAGAAATATGGCATTAATTATCTGTAATTTCTACAAAAGTACCTAGAGGTAAATTATATATCCATTTAGCGTCATCTTTACTAACCCTTATACACCCCATACTTGAAGGCTTTCCTTCCTTGTAAAGACTATTTCCTAGATCTACTAAAAAATGATCACCTTCTAATAAACTATGAAATGAAATATACTTATTAAATCTGGTTATATAATAATATCGGATTTCTGAACCGTCTTTTTCAATCCATTTATCCTTTTCTTTCTTGTAATTAGTATAGAATTTTCCTAATGGAGTAGAACCATGTTTTATCCCAGTTGAACAAGGTATTTTTTTAATCAAAGTTTCGTTGTCATAAACATCTATAACTTGATCCTTTAAATACACTTTAAGGAAATAATTATTCTGAGCATTAACACAGCTATTTGATAAAAGAAAAATGAATATAATTTTTATAAAATTTTTCATCCTACATCTCAAAGTAAACTCTTAAAACTGTAACATACTATATTGCAGTTCTTTCATACCGATACCATTCTTACTACTTGTAGCTACGATATTACAATCATCAAACCCAAGAGCAGCAAGACGGCTTTTTATATCAGCTATATATATTTCATTCACTTTTTCTTTATCAGATTTTGTCAGCACAATCTGAAAATGCTTACCAAAATTGTGTAGCATATTCATTATATCAATATCATTATCTTTTATTCCACGCCTTGAATCAATTAGTAAATTGACCAAACTTAAGTGATTGCTAGTTTCAAGATAATATGTCATTAGTCTTTCCCAATCCGCTTTTTGAGCTTTTGATACTTTTGCAAATCCATATCCCGGAAGATCAGCTAAAAGAAGTTTATTTGCAATTGAGAAAAAGTTAATCTGTTGAGTCCTTCCAGGAGTATGAGAAACCCTAGCTAAATTTTTACGCCTGCATATGGAATTGATTAAACTAGATTTCCCAACATTAGACTTGCCTATAAATGCGACTTGAGGAAGGTATAATTTAGGAAATTGGTCAATTCGTGCAACTCCTGCAACAAATGTTGCTTCCCGCCTAAAAATCTTAATTCCTAAATCATTTGTCATTTATCTAGTTTATTGATATATGATTGCTGCACTATTGAAAGTAAATTATTCCATGACCAATAAATTAGCAACCCTGCAGGAAAACTACTAAACATAAATAAGAACATGAGCGGCATAAATTTCATAACTTGCGCTTGAACAGGATCTGCTGGTTGCGGACTCATTTTCTGCTGTAGATACATACTACCTGCCATTATTAGCGGCCAAACTCCAATCATTAAGAAACTTGGTGGTGTAAATGGCAGCAAACCAAATAAATTAAAGATTGTTGTAGGATCTGGTGCTGACAAATCTTTAATCCAACCAAAAAACGGAGCATGTCTCATCTCAATAGTAACGTATAGCACCTTATATATGGAAAAGAACACGGGAATTTGTACTAATAATGGAAGACACCCAGAGACAGGATTTACCTTTTCTTTTTTGTATAGTTGCATGACCTCTTGGTTTAGCCTTGCCTTATCATCCGCATATAACTCTTTTAATCTTTCCATTTGAGGCTGAAGCTTTTTCATCTTTTTCATAGAACGGTAGGATTTATTTGCCAAGGTAAACATAAGCAACTTAATTATAACCGTTACAATCATTATGCTTATCCCAAAATTACCTACATATTTATAGAAAAAATTCATCGCATTAAAAATTGGCTTTGTCAGAATGTAGAACCAACCAAAATCAATTGCTCGATCAAATAGTTTAATATTATACTCACTTTCATACTTATCTAACAGAGCTACTTTTTTTGCTCCAGCAAATAGATGGTGTGTTAGCTCGTAACTCCCACCAGATTCAATTAACTTAGATGAAGAAATAAAGTCTGCTTGATACTTATCGCGTCCAGCCTTCAATGCATAATTATAATTTGCACTATATTGCTCCGAACTATCAGGTATAAAAGCAGCTAACCAGTATTTATCAGTAATACCAAGCCAGTTTAATTCGCCTAACGAAAATTTTTCTTTCTTATTATCTTTTATCTTATCGTAGGAAAACTCTTGCAACTCACCCGCAACAGCACCAACCATACCTTGATGCAAGATATTAACCATATTATCTGGTTTTTCTTCATAGTCTCTATTAATCAAACCATAATATTGCGTGGATATTGGACGACCAGACTGATTATACGTTGCCTGTTTGATAGTAAACATATAATTATCATCCAATGATACTGTTACTTTAAACAAAACATTCTCTGGACTTTTCCATGAAAAATTTACTGATTGACCAGCAGAAAGCTCTGACTTATCCGCCTGCCAAATAGTTGAGGAATCCGGATATGTTATAGATTTATCCGCACTCCACCAACCAATTTCAGCAAAATATCCTTGATCAGAATTTGAAGGCGAAAATAAATCTACTGGCGGACTATTTTCATCTAGCTCTTGCCTATAGCTAAGCAAAGTCAAATCATCAAACCTTAATCCTTTTAGTGAAATAGAGCCAGATAATGATTTAGATTTTATATTAACTCTTGATACTCCAGCAATAGCATCACTTCTTGCTAGCACTTCAACTTCTAAATTTTGCTTAGAATTTTCCTTTATTGTCTTAACAGTCTTATTATATTGTTTTGTCTGCTCAGCAAGCTTTTCAAGCCTTGGCTTCTCATAAAAATGCTGCCACCCAAAAATGATAGCAACAGAAAGGACAATAGCAGTAATTAGATTTAAAATACTATAATTCATAAAAAATTTTCAATTTATACTATGGTGAACTTCTATATTATTTAGCGAAATTAATCAAGGAATTTGAATAGATAACATTAACTATAAGTAAGAAAGATTTGCATTTCTTGCTTAATTTTAGTATAATTCGCAGGCTTTATCTATATTATTTTTAAGTCATGGATTCAGATAAAAAAACCATAGTAGTTGCAATGTCAGGTGGAGTTGATAGCTCTGTCGTTGCTGCAATGCTACACAAAGCAGGACATAATGTAATTGGTATTACTCTTCAATTATACGATTATGGAATGGCACTACAAAAACAAGGAGCATGCTGCGCCGGTCAAGATATTTATGATGCAAAAATGGTTGCAGACAATCTAGGATTTCCACACTATATCTTTGATTATGAAAGCAGGTTTAAGCAGGAAGTAATAGATGATTTTGCAGATAGTTATATTCGTGGAGAAACACCTCTACCGTGTGTAAAATGTAATCAATCTGTAAAATTTAAAGATTTACTAAAAGCAGCAAAAGAACTAAATGCTGATGCTCTTGCAACTGGTCATTATGTCCAAAAAATTGAAAATAATGGCGTTAATGAACTACATCGAGGTAAAAGTACAGCAAAAGATCAAAGCTATTTTCTGTTCTCAACTACGCAAGAGCAGCTGGATTTCCTTATGTTTCCTCTTGGAGGTTATAGCAAAGATCAAACTAGAGAAATAGCACAAGAGTTTGGTCTTGAGGTCGCTGATAAGCCTGATAGTCAAGATATTTGCTTTGTTCCTAATGGAAATTACAGAGACGTTATTAATAAGGTTCGTCCAAATGCAAGCGCCCCTGGTCGCTTTATCCACACAGATGGTTTTGATCTTGGTGAGCATAAAGGAATTATAAATTATACTGTTGGTCAAAGAAAGGGCTTAGGAATAGCTTATGGTGACCCAATTTATGTTATTAGAATTGACCCTGAAACAAATACAGTTTATGTTGGTCCTGAATCTGAATTAATTAAAACGCAATTTTTATTAAAAGATATAAATTGGCTCGCAAGTGACATTGACCCTAATAATTTAGAAGTTTCTGTTAAAATAAGATCAACTACGCCTGGTGTACGAGCCAAGATAGATTTGATGAATGATGATCAAATCAAGGTTACTCTTTTGGAACAAGAAAAGGCCATAACTCCAGGCCAAGCATGTGTATTTTATCACGAATCCCGCGTTTTAGGCGGTGGATGGATCACAAGAGAAATCAAATAAAAAGGTATTTAAAATGAGCTTTCTTAAGAAGAAAAGTTTTGACTCAGTAAAATCAGCAGGAAGTACTAGTGGCCTTGATCGTACATTATCTGCATTAGACCTAATTTTACTTGGCCTTGGTGGAATTGTTGGCACGGGAGTTTTTGCTCTAACCGGTCTTGTTGCCTCGCAATATGCAGGTCCAGCAGTGACTCTTTCTTATGCTATCGCAGGCTTTACATGCATATTTGTTGCTCTTGTTTATACAGAACTTGCAACAATGCTGCCAACATCTGGGAGTATTTATACGTATTCATATGTAGCATTTGGTGAAGTTTTTGCATGGCTCGTAGGAAGCTTAGTTATTGTTGAACTTGGCTTTGCGGCATCCGCTGTTGCTGGCAGCTGGTCAGCTTATATACAAGGGATGCTTAGATCTGCAGGTTATGAGCTCCCTTTAGCTTTTTCAAAATCACCATTTGAAGGTGGTATAATAAATCTACCAGCTCTACTAATAGTATCTTTTGTTGGTTTTATGCTTTATCTGGGAACAAAAGAAAGTAAAAAGCTAAATAACATCCTAGTTTTCATCAAAATGCTTGCTATAGCCGCCTTTGTATTCTTTGCCGCGCCACATTTTGAAGCTGAGAATTGGAGTAACTTTATGCCAAACGGTGTTGACGATGTTTTATACGGTGCATCAATTTTATTCTTTGCTTTTACTGGCTTTGGAACATTAGCTAGCGCAGCGGAAGAATGTAAAAATCCAAAAAGAGACCTTACTATTGGCATTATTGGTTCTCTAGCTCTTGCAACAGTAGTTTATATAATTGTTGCTGGCGTTCTGACAGGAATCGTACCATATTTCGAACTAAATAACGCACAACCTCTTGCCTACGCACTTAGAGAAAACGGTAGTGGAATTGGCTCTACTTTAGTTGCAACTGGAGCTGTCGCTGGAATGACTACTGTAATTATGGTAAATATATACGGTCAATCTAGAATTTTTTATGTGATAGCTCGTGATGGATTACTGCCTAAACCATTAGCAAAACTTCATTATAGATATGACAGCCCTTATATAACGATTATTACTTTCTCAGCTATTATAGCTCTCTTAGGAGCACTAGTTCCATATGGAGTTTTAGCTCAGCTTTCAAGCATGGGTGCATTAACTGATTATATGATAATTGGAGTAATTGTTGTTATATTTAGATTTAGATATAAAGACGTTGAAAGACCTTTTAAGTGCCCTGCTATTTTTATCGTAGCTCCACTTGCCCTTATTTCTTCGTTTTACTTGTTATTCAAACAAATAATAAGCAAAGATGGTCAGATGCTTTTGACTGGTAAAGTGTTTATCCTTTGGTTTGTAATAATGTTTATTTTATACGCAGTGAAAAAAGCTATATTAAAAACAAAACAAGAAGTTCAGCAACTATAACTAATCATATAAAGATTGCTATTTGCAAGAATTGCTTGACAATTTTTATCGTCTTGTATAGAATTTTACTCCAATTAAAAAACATAACTAAAAATGGAACGAAAACGAAAATAGATTTACTACTCAATTAACCAATGAGCTTTAAAGTTTTTCTTTTTAAGTTATACCTATTATTATGTTTACTTCCTTTTATTACTCTCGTTTTCAACAATGCATTTCTAATTGTCGCAACAATTTGACAAGCAATGATGAATGCGCAAACAATTTTATAGAACACAACATGAGCTTTGATTTCATTCTACATAAAATCCATACCATTTTGACTCTAAGATCTTTGATGGCGCGAAAACCTGTGCTTTTCTTCTAAATCTTTAATTATAAACGAAACAAAATTGGTAAAAAATTATGTCTATTATGGACTCAGCATTTAGTATTATTACATTTCTAGATGATTTTTATTGGAGCTATATCGGTTGGGCTCTTATTACTCTTTCAGGTATTTATTTAACATTCCTATCACGTGGATTGCAATTTAGGGCTTTATTTAATTTTCGCACTAATATAAAGCAAATTTACTCCGAAGGGAGTAATAAAAGTAATGATGGGATTCATCCATTTAAATTATATTTCGCATCAGTTGGTGGCATGGTTGGCCTTGGCAATATTGTATTTATTAGCACCGCTATAATGATTGGCGGACCAGGTAGTATTTTTTGGACTATCCTAGCATCGCTTAGCGGAATGCTATTAAAATATTCCGAAATCTATCTTGGTGTAAAATACAGAGTACAAAACCCAAATGGTGGATTTAATGGTGGCCCTATGTACTTCCTACAACAAGCATTTAAGCCAAAGTTTTTTGCATATGCTTTTGCATTTCTTTTATGTTTATATGGAGTTGAAATATCAAACTTCTTAATTATCGTAGATAGAATAGAATATAGCTTTGAATTTAATAGATATATTATAATTCTTGCCCTGCTTCTTGCCGTTCTATACTCCTCACTTGGTGGAATTAGCAGGCTTGCAAACATATGTACATTAATAATGCCAGTTTTCATGATTGGCTATATGATTTTCTCGGTATACATAATAGCTTGCAATGCCAGCTTACTACCAGAATTTTTTAAAACTGTTTTAGTATCAGCTTTTACTGGCCACGCTCAAATTGGTGGTTTCGTAGGTAGTACTATGATTATATCGGCATATCTTGGCATTTCAAAAACCGTATATTCTGGTGATATTGGTATTGGATATGACTCGATTGTTCAAAGTGAGACAAGAATTATTAATCCCAAAAAGCAGGCGACTCTAGCAATTTATGCATTATTCACTGATACACTAATATGCATCCTAACTAATACAATGATTGGGGTAACTGGAGCTTGGCATAGTTTGAATCATCTAGTACCATCAGATGTTGTTGCAAGACTGCTATCTAGCTACATACCTTATAGTGATTTATTCATGACTTTATTACTTTTTTTCGCAGGCTTCACAACTATCATTGCTTATCTTGCTGCTGGTACAAAATGTGCACAATTTATTAATCCTAAGTACGGGAAAACAATATACTTGATGTATGCTATTTTTGCCTTTATATTCTTTTGTAATTTTTCGCAAATAAATGTTATGATAATCATGGGACTACTGAGTGGTTTATTAGTACTTCTCAATGTGTGCGGAATATTAAAGCTTAGAAAGGATATAGAATTTTAAAAACTTATTAAAAGGTTGGTTCGTGATGATTAAAAGACTTGGTGCAATTTTTGTAATAATGGCTGTAGCTGCAGCTACTGGCTGGTTCTATTTTGCTAATAAATTTGAAAAAATTGCTACGGAAGAAATACTACCAAAATTACAAAAAGACGAATCTTTGATTTCAATTGATAAAGACTCAATAGTAATTGATAAGTATAAATTCAAACTGACCTTACAAGATATTAGGATTTTTCCAAAGTCAGAATTTAAAATTCATGCCGATGAAATAACAGCATGTTACAATCCCTTATCTGACAGTATTAAAGCACAAATCACTGGTAATAAATTGACAATCGGCGAAGGGGAAATGGAATTTTATTTTCCTTCACCAAGTCATAGAATTGATTTTAACCGCTCATTAATCAATAGCAATTTTGACAATTTCAAAATCTCAGTTTCATCAAAAGATTCATCAGTATATTTTGCCAATGATGATAAATTTATTTCAAAGTCAGATAACTCAAAAATAGCTATATCAAACGCGCTTGATAACGATATGTATGAGATGAATCTTAAAGTTAAGATTGATGCATTACAAATGAATCCGGAATCTCAGTTTTTGATAAAAGTTTTAAATCAAATATCGTCAGAATTTGCAAAAAATGGTATTAATTCTAAGATTGACGGATATTACTACAAGATGCTTGGTGAATCAGGACCTATTAACTATAAAACTGAATACTCAGTTCAACTTGGAAAAGATCACGTACATAGCTTAATAGCGTCCTTAAAAGGAGAAAAAGATATAAAAGAAGTACTAGAAAATTTTGCTTTCACAAAGGAGCTGTACTCTATAGATATTAGTGAATCAATCAAAAATTCAACAATAAATGATTTTGGTGATATTAGCTTTTCGAGTGACGGCGAAAAGATCAAAGCCGAAATTGATATAGCGCTTAATCGTAACTACAATGAAGGACAAAGAAAAAATATCACTGAAATATTCAAAGACCTTCTATTTGAAGGCTTTAAATTATTAAATAATGAAGATGCTTCAAGAATAGAAAATAAGCTTACTGCAGGCGATTTTACAAAACTCTCTGAAATGCTTGCGGATGTAAATAAGATCGAAACAATCATTGATGTTGAATACGATATTAAGTCAAAAGACCTTGAACAAGAATTCAAATTCGTACTTAATGATTTCAAGATAAAATCGGAAGGCGAAGTGAAAGATAAAGTTTATAATGGTACCATTGAAATATATAGTCCTAAACTTATAACTGATGGTATGCCATATATTTATGAATCTGGAGCCCGACCAATTTTAGTAAAATTATCTGATAATAATGACGATACAGTGAATATTGCTGCGTATGATAAAATTTCTAAAAACATTCAAGAAAATGGATTTAGTGCACTATCTACTTTCCATAAAGATGAAGAGCTAAAAGAAAATAGCGAACTAGTAACAGAACTGACTTTTGATCCAAACGGCTTTAAGTTTAAAATAAATGATAAAGGCTTTTTTGAGATCTTGACGGACGAAAGGATTGCAAATTTTCTTGAAAACATGCCTACTGAAGATGAAGTAGAAGTTAAATAATATGTCTAATAAAGTTGCCCCTCTTAGGGGAATGAAAGATTTACTACCAGAAGATTTCAGAGTTCATAAATATATTGAAAATACTGCAAAAAAAATCTCTGAACTTTATGGTTATGAAGGATTTGCAACTCCTTTATTAGAAAATGCCAATATATTTGATAGAACTCTAGGAAACACATCCGACGTTATAAGCAAAGAAATGTATTCTTTTGCTGATAAAAAAGGCAGAATAATTGCTTTAAGACCTGAGTTTACTGCAAGTATAATCCGTGCCTTTATTTCAAATGGTTTAAAACAGCACTTACCTTTAAAACTATTTTCGTCAGGCCCATTATTTAGGTATGATCGTCCTCAGGAAGGTAGGCAAAGACAGTTTCACCAGTTGAATTTTGAGTATATTGGAGCGGTCGGTCCATATTCTGATGCAGAAACAATTAGTATGGCATCAAGACTACTTAGTGAACTTGGACTCAGCAATGATATTATTCTTGAACTAAACTCTCTCGGATGCTCTGAATCAAGAGAAAAATATCAATTAGCTCTTGTTGAATATTTTAAAAAATATGAAAGCGAACTATCTAGTGACAGTAAACAACGCCTAGAAAAAAACCCATTAAGAATACTTGATTCAAAAGATGCAGGAGATATAAAACTATCAGCGAACGCTCCTCTTATTACAAGTTACTATACTAATGATGCTGCTAAATATTTTGATGATGTAAAATCATATCTTGATATTCTAAAAGTAAAATATACGCTCAATCCAAGACTTGCTAGAGGCTTAGACTATTACTGCCACACAGCTTTTGAATTCACTACCAAAAAGCTTGGTGCTCAAGGTACTATTCTTGCTGGGGGTAGATATGATGGACTAACAAAATTGATGGGCGAGGAAGAAATACCAGCGATTGGTTTTGCGGCAGGTATTGAAAGAATTGCACTAATGGGCAATTTTACACCAAAAAAAATCCGCCCAACTGTAATAATGCCGATAGGTGATGAATGCTTTGATTACTGTATAAATCTTGCTCAGCAACTAAGAAATAAAAATATAACAACAACTTTATCATCTAGTGGCAAAATCGCTAAGAGAATGCAAAGTGCTCTAAATACCAATGCTAAATATGTAATTTTCGTAGGTTCTGATGAACAAGAAAAAGGGTTATGCAAACTAAAAGATCTTGATCAAAATTCGGAATTAGAAGTAGAAATATCTAAGCTAGCGGATATTATTCTTAAAACATGAATTAACTAACAATATCTAGAGGGGTATAAGCTTTGCGTATATTTAATATCATGATGTCACGAGATTTAGGCGGTATACAGCAAGCTTATATTGACTATAACGATGCTTTATTAAGCCAAAATCATGAAGTAATCAACATAGCAAGCGCTAAAGCCCAAATAAATGATCAACTAACTCCAGCTCATACATTGCCTAACCTAGCACAATGGTGCTTTTTATCAAAAATCTACTTAGGCATTTTAATACAAAAATATAAACCAGATATTATTATCTGCCATGGCAATAGAGCAATTAATTTTGTGTACGGAAGCCTAAAACCTAAAAATACAAAAATTGTTGGTGTTTCACATAATTACAGCTATAAAAAACTTAAAAAATGCGATTTCATAATTACTCTTTCTAATGATCTTAGAGAAAATCTAATCAAACATGACATATCGCAAGATAAGCTCCTGCATTTGTCAAATATGGTCAGAATAGAAAAGCCATATAGTCCAACTCCATATAACAATCCAATTACTATAGGAAGTTTAGGACGTTTTGTAGAAAAAAAAGGATTTGCCTACTTGATTGAAAGTATAAAGTTAATAAAAGAATCAGGTCATAATATCAGACTTATAATTGGTGGAGATGGCAAAGAGAAACAAAACTTAAACCAGCTAGTAAGTAAACTCAACCTAAGTAAAGATGTCGATTTTGTCGGCTGGGTTAGTGATAAAGATGCTTTTTTTGATAAAATTGATATTTTTTGTCTTCCATCTGTTAGTGAGCCATTTGGTATTATAGTACTCGAAGCGATAGAGCATTCGAAACCAGTTGTAGCTACAAACTCTGGTGGACCTCAAGAAATTATTCGCCATGAGCAAGATGGATTTATTACAAATATCAGTTCAGCTGAAGATTTAGCAAAATACTTAACATTGATGATAGAAAATCCGGAACGTGCTAATAATATGTCGAAATCTGCATATGATAGACTAAAAACTAATTACGATATAAAAATAGTTGCAAAACGACTTTCGCAAATACTAAGTAACTTGGATAAAAAATAAATGACTTTTAATTCTAGTAAATTAAATAACGGTTTAAATATAGTGACTTATTCAATGCCACATGTAAACTCCGTTTCCATCAATATTATAGTAAAAGTAGGAAGTCGCTATGAATCTGAAAAAGAAGCTGGAATCTCACATTTTCTTGAACATATGGCGTTTAAAGGTACGAAAACTAGATCGGCTATCGAAATAGCAAAAGAATTTGATAGTATAGGTGGGCATTTCAATGCATATACTAGTAGAGAAAATACAGTTTACTACACAAAAGTGCTAAAGCAACATACCAAGCAAGCTATCGGCATATTAGCAGATATTTTACAAAATTCATTATTTGAAGAAGAAGATATCAAAAAGGAATTAAGTGTTATCTCGCAAGAAATTGCTGGTGTGAAAGATTGCCCTGATGATCTTGTTTTCGAAAATTTCTATGAACTAGCCTACACGGGCCATCCTCTTGGACGATCTATCCTCGGAACATATGATAACATAGCTAAATTTGATAAAAATTCATTCCAAGACTATATAAACAAACATTATTGCGCGGAAAATATTTACATTTCAGTTGCAGGCAATATTGACCATAATGAAGCAGTTAGTATAGCCCAAGACTTATTCTCTTCTTTTCCCACAAAATCATCTAGAAAACAAGAAAAATCAAGATATTCTGGTGGTTTTAAAATTACTGAAAAACCTCTAGAGCAAACAACAATTGCTCTAGGATTTGAAAGTGTATCATATAAAAATCTTGAAGATTTCTATCATGCTCAAATTTTATCTATTATCCTAGGTGGAGGACTATCTTCTAGATTGTTCCAAACAATACGCGAAAAACATGGTTTAGCCTATGGAATTGGCAGCGGAGTAAATGCTTTTTGTGATAGCGGTATTTTTAGTATCTATGCAGCCTCAGACCATCGCAATGTACAGATGATGATTGATAAAATTGTTGAAGAAATAAGCAAGATTAGGGAAAACATTTCTCAGGAAGAACTAGATAGAGCAAAAGCCCAAATTGAATCAAACATCTACATGGCCGAGGAAAAAACTGAATATAAATCCGAAGAAGTTGGCAAGAATTTCGCGCTATTTGGCAAATATTTTCCCGCAAAGCAAGTAATGGATATTATCTCAGCTACCCAAATAAATGATCTTAAATCTAGTGCAAATAAAATTTTCAATACCTCTCCAACACTAGCAACAGTGGGAGATAAGCTTGATAATTTCAATTTTAACAATATGTGTGATAATCTACTAAAATAATAGTATCTTTCTTTCAAAAGATACTATAATATTTTCATTAATCTTAAGCAGAAGACTAATATTATGTTTCCTAAAAAAAAACCAAAACTACTTGATAAGACGCTTGCGTCAGAGACATTACAAAAAATTGGTCATAAACGTAAAAATGGAAAAACCAAAATATCAGAACTAATGGAAGATTTTCATGAAAATGGCCTTCTACTTGCTATGATTTTCTTTGCGCTTCCAGTTGCTATACCACTTCCCTACCCTCCAGGCTTTACAACTCTCATGGGAATTCCTTTAATGATCCTGTCAGTTCAGATGCTTATGGGGAGTAAAAAAGTACGCCTGCCAGAAAAAATTAATAATTACGAGCTTAAAAACTCAACACTAAAATCTATAAGTGACAAAATAGTGCCAATTATTGAGAATATTGAAAAATATATGAAACCTAGGTTTGATTTTGCCAGCTCAGTTTATTGTGAACAATTTGTTGGATTAATTTCTCTGATTGCTGCTACCGCAGTTGCAATTCCATTATTTATGACAAACGCAATACCTGCTCTTGGAATCACTGTAATGGCACTTGGCTTAATGAATAGAGATGGATTAATTATCATTGCAGGTTTTATTATCTCCATAGTTGGAGTAGTAATTGCTATAGCCGCTGTTGTCGCAAGCTGGCTAGCTATTAAATATCTATTATTCAGTATTTTTTAAACATGAAAGAAAAAATATATAAAGGTACTTCTAAGACTTTATATCAGTCTGAAGAAGATTACGCATTAATTATGTCTTTTGATGATTCAATCAAAAAAGCTAATAAAGAAATAATTAATATATCTGGCAAGGGTGTAATTAATAACAATATCTCAGCATATATAATGCAACAGCTTGATATGATTGGTGTAGAAAACCATTTTATTCAAAAGAATAATATGCGCCAACAATTAGTGCAATTTGTTGATGTATACCCGGTGCAGATTCATATTTGCACAATCGCATGCGGAAGATATGTGACGGATTTTGGTATGGAAGATGGTTTTGTGTTTGAATCTCCAATTATTGACTTTAGAGTTAAAAATAAAGATCTAAGCTATCCGATAATAAATGAAGAACAAATTCTTAGCTTTGGCTGGCTTAGTAAACAAGAGTTAAAGGACCTGAAGAATAAAGCTATGAGAGTACATGATTTTCTCTCAGGCCTATTCGCGACAGCTGGAATTAGACTTGTTGATATAAAATTAGAATTTGGGCGTGTTTTTAATGGTGAAGATTTTATTACCATGCTTATAGACGAGATATCACCTGATACTTGCAAGTTGTGGGATATGGAAACAAATGAAAAGCTATGCTACGAAATTGTAGAAGATGATCCAGAAAAAATACTTCCTGCATATCAAGAAATACTTGGAAGACTGAACATTAATGCAAAACTGTAGTTAACTAACATTTTCTATAAAATTATTCCTATGAAATATTTACAATTTTCGCTTAAAAATAACTTAAAAAATGACATTCCTATAATTAACTAATAATACCTATAAAAATGAGTTTGACTTTTTAATCAACTATTTATATAATCGCCAGTCAAAGAACTTAAACTTTAATAGGTATATTTAAGTGACAAAAATTATTAAATCAAAATATAAAGCTAGTAGAAGACTTGGAACAAGTATCTGGGGTGATGGTAAAGACCCTTTCCATACAAGAAATTTTCGCCCAGGACAACATGGACCTACAGGAAGAGTTAAAACTTCTGACTATGGTGCTCACCTACAAGCTAAACAAACTGTTAAAAATCACTATGGACGTATTACTGAGAAGCAATTCAGAAATACTTTCAAGGTAGCTGCTAAAATGAAAGGGAACACTGCTGAAAATTTTGCAGGTTTACTTGAAAGTAGACTAGATATGGTTGTATACAGAATGAATCTGGCTCCAACTATTTTCGCTGCAAGACAATTAGTTTCTCACTGTAATGTTAGACTTAATGGTAAAAAAGTAAATATCCCAAGCTTGAGATTAAAAGAAGGAGATAAAGTTGAACTTAAAGATTCAGCAAAACAAATTGCCGTTTACATGGAAGCTGCACAAAAGCAAGAAAGAACAGTTCCTGAATATTTAACAATGGATCCTGGTACAATGTCTGGTGAGTATATTAGAACTCCTATGATTTCTGATATACCTTATCCTTTTGAACCAAATTTTGGTAAAATTATTGAGTATTACTCTCACTAATAGTACGAATTAAAGCGGAGCAAAAGCTCCGCTTTTTTATTTAGAATAATGAGAATTATTGAAAATGCAAAATATTATGGAATATAACATAAAAAACTATTTTTCAAACTACTCTACTCTGTCAGTCGTCTCTGTCGTGGCTTAGCCACTATATTATCTTCTTTTAAAAATTTTCAAAATCATATATATAATTCGCCTTACAAAATTAATGCTATTTCTCAAGTTAAATAGTGCAAACTTAATATTTTAGAAAATAGAAATTAGTACAAGGCAAAACAATAAATTTTAAGGTATAAACTATGAAACGACATATTTTCCTTTATGGATTTTCAATATTCTCAATGTTTTTTGGCTCGGGAAATCTGGTATTTCCTCTAATGGTTGGTGTGAATAATGCAGATAATTGGCTTGCAGGATTCATAGGTTTCTTTTGTACTGGAATTATCCTGCCTTTCCTAGGATTATTTGTTATAAAACTTCACAGAGGAAATTATGAGAGCTTTTTTGGAGAAGCTGGCAGTATAGCAAAATTTGCAGTACCTCTATTTACACTCTCATTACTTGGTGCATTTGGAGTTATTCCACGTTGTATAACAGTAGCTCATGGTGGTCTAGAATTTCTCTATCATGACATATCCCTTCTGTCATTCAGCATTATATTCTGTATTTCTTGCTATGTTATTTGTTTAAATGAAAAATGGATGTTTAGCATCCTTGGAAAATTCCTTACACCTATACTATTATTGTTTCTAATTATATTAATTATAGTAGGAATATATTCAGGATCACCGATTAGTCTTGACCTATCAGCAACAAGCACAAATTTCGTAAACGGCTTTTTTCAAGGCTATGCTACGATGGATCTATTTGCAGCTTTCTTTTTCTCTAGCTTGATTTTTAAGCAAATAGAGGCACTTGTGGATGAATCTAGTGGACGATCAATTATTAAAGCTGCTCTTGGCCCAAGCATATTTGGAGCACTTTTACTTGGGGCTATTTATTTTGGATTTGTTTATCTTGGGAGTCACTACAAACATCTGGCTACAGACCTACCTGGAGAATTGATTCTTCCGGCTATTGCCAATCACTTGCTTGGCAAGAACGGTGCGTTGTTTATAGCAATCATCATCATATTCTCATGCTTAACTACCGCAGTTGCACTTAATAGTATTTATGCAAAATATTTATGTAGTTTCAAATCTATTGGAAATAAGAAATTCAAGAAAGTATTATTAGCAACTACTGCATTGTCATTTATAATTTCATTATTAGATTTTGATGGGATAGCTGCAATTTTGGGCCCATTGCTAGAAATTTCATATCCTGGATTAATCATATTGACCATAATGTCAATCTGCACAAGAAAACATCAATCAATGAAAATGATTAGCTTCTATGCAGTTATAGCGTTTATGCTTATAGTATAAAGCCTCATACGAGGCTTTTACTCAAGTTCTTGTGTAGTGATTGGAAATGAGGTTCCTTCAATATCACCAGATAACTCTACCACCATATCATGAGAATTGAATGATAAACCAATAAAACTAAATTCCTCATTATCTAAACCAGATAATATACTAATTGTAGCAACCATCTGTTGATGCTCTTCAGTAAAAATAACACTTTGTATTAAATTAGCAGCGTCCTGCTTTGCCGCCTCAATCTCATCATCCATAAAATCTTTCCCCCAAAAATTAATTACATAATAAATTATGCAATATCTTTATGAAGAAATGATTAATGACAAATATTGGGCCTAATCATATACTACATTGATACTAATATCATTCTCAGATAAACCTTGAGAATCAGATGATAATTTGTTAACTATTCTAATATCAGCAGACGAAGTTACTTGTTTTAAATCATAAATAAGGTTATCAGATAATTGACCGTTTTGAACTTCAATATATTCAATTGGAGCCTTAATAGACAAGTTATCCTGAGCTTTAACTTTACGAACTAATTCAAGCACAGACAACAGATTTTCTGATTCTTTAGCTTTCACTTCACCAAAATTAATATCTAATTTTGGCCAATTACCTCGAGCATGAATAGATTTATTAGAATATAAAATCTGATATATTTCTTCAGTTATATGCGGCATTACTGGAGCAAATAGCAAAAGCATTGTTTTAAGCGTATGATATAATGTAAGCCTTGCGCTTAAAGCACCGCTAGGATCATTATTCTCTTCATCATATGCCCTTGTTTTCGTTATTTCTAAATAATTATCACAAAATAGAGACCAGAAAAAACTTTCTGCCTTATGCATTGCAGTAGCATATTCATATTTCTCATATTCACCCGTTGCATAAACTACTAACTCAGACAGTTTAGCAATAAAATATCTATCAAAATCGGAAGTGATTTTTTCCTTTACTTCTTCTAAACTTAATTTTTTATCACTATCTGGTATTTTATCAAAATGCTGAGAAACAAATTTTGCTGCATTCCAAAGCTTATTCACTAAACGCTTACCATTCTTTACAACATCTTCAGAATAGGCTGTATCACTGCCAAGCTTTGAACTTGATGACCAATAGCGCACCACATCAGCTCCATGTTGCTCTAAAATAGTCTCAGGCACAACAATATTACCTTTAGACTTAGACATTTTGCTTTTATCAGCAGCCAAACACCAACCGCTAATCATAATATTCTTCCATGGCAATTTATCTTGGTGCAAATGGCTTTTTAGTATTGTGTAATAAGCCCAAGTTCTTAGGATCTCATGTGCTTGCGGACGAAGGTCAGCTGGAAATAATTTATTGTGACGCTCTTCATCAATCATAAACCCATTTGCAATTCCATGTGAGCTAAGTTGAGGTGAAACAGAGCTTGTCGACCAAGTATCCATCACATCTTTGTCTGGCTCAACCTCATCAGGAGAATAACCATCTGGTAAATCACGAAGAGGATCAACTGGAAGCTGATCAACAGAGGCTAATAGCGCTCTTCCTTCTTCTCCTTGTCTTTTTGAATACCAAACTGGGAATGGAACACCAAAATATCTTTGCCTTGAAATACACCAGTCTAAAGCTACTCCTTGAGTCCAGCTATCTAATTTTATTTTCATAGATTCCGGATACCATTTCAATTCATTTGATTTTTGTATCATTGAATCTTTATGCTCAACTGATTTAATAAACCATTGAGGAGTAGTTAAAATCTCAAGAGGTGCACCAGATCTTTCTGCACATTTAACAGTTTGTGTTTTTTCTGTCTGACCTAATAAAAGACCTTCTTCTTTTAAAATTTCGATTATTTTCTCTCTGGCTGCCTTAATTTTCAGCCCCTTTATCTGAGATGCAAATTTTTGTGCTTTATCGACATCCAGACAACTCTCATCAAATTCGATTTCATCTATAGTCCCCCATTTAGTAAATATAATCTTTGTAGGTAAGCTATGCTTTCGCCACCATTGAATATCTGTCTGATCACCGAAAGTACAACACATAACTAGGCCTGTCCCTTTCTCAGGATCAACCATATCATCTGGCAGAAGCGGTACTTTTACACCAAATAATGGTGAGATAGCGAATTTGCCTTCTAACTCTTTATATCTTTCATCATCTGGATGAAAAAATACTGACACACATGCTGGAAGCAGTTCAGGCCTTGTAGTAGCAATTATTATTGGTTCTCCATCCTCAGTCGTAAACTGAATATCGTTCATAAAAGTAGTTTGCTCTTTATCTTCAATATCAGCTTGCGCAAGTGCAGTTTGGTCAACTGGGTCCCAAAGCATGGGCTGAGAATCACGGTAGATCTGACCTTTTTGCATTAAATCAAGAAATGACATTTGTGAAATTTTGCACGATGTATCGCTTATTGTTCTATATTCAATATTCCAGTCAACTGATAGAGCTATACTATTAAATAGATCTTGGAATTTTTCTTCCTCTGATTCAACAACATCTTTACATATAGCCACAAACTCTTCACGGTTCATGCTACTGGCTTTTACTTTTCTTTTTTTCTCAACCAATCGCTCTGTTGGAAGCCCATTATCATCAAAACCCATCGGGTAGAAAACGTTCATACCTTTCATTCTCTGATAGCGGACTATAAAATCAGTATGAGTGTAGCTATATACATGGCCAATATGCAAATGCCCCGAAACTGTTGGCGGAGGAGTATCAACTACATATGTATTTTCACGAGACTCTTTTTCATCCCAAACATATACTCCCTGCTCTTGCCAAAAATTTTGCCATTTTTTCTCACTTTCATTAAACTTATATTTCTTTGGAAATTCAGCCATGCTATTATCTTTTGATTTTATATATTTTTAGAAAACCTGAATTGAGGATAATAGTATAAATAGAAAAAAATGACAAATAAATTCACCAACTTACTGCTGCTAATGCGTTTAAACTCACCCGTAGTTTATTTCTGCTATTTTTTTCCAGCAGCTTTTGGCTTAATGTTAGCCTATAAAAATGATCCATCAGACCTGCTATACCTATTAATATTTATGGTAGGTAGTGTTATAACCCGCGGTGCAGGTTGTATAATAAATGACTTGTTTGACCGTAACCTAGATAAAAAAGTTGCGCGTACTAAAAACCGCCCAATAGCAAGCGGAGCTATATCAGTAAAAGAAGCAATTATTCTTCTTTTTGCCCTCCTGTTAATTGGACTATTAATATTACTATCACTAAATACAACATCAATAGCAATAGGATTTATAGCAATCTTTCTTACTACACTATATCCTTTGATGAAACGTATTACTTACTTTCCTCAAGTGTTTTTAGGTATTACTATCAATCTAGGTTGCCTAATTGGTTATGCAGTACTTACAGATAATATCTCGATAGATGCTATGATTCTGTATTTTGCATGTGGATTCTGGACAGTAGGCTACGATACTGTTTATGCTTTTATGGATATCAAAGATGATAAAAAAGTTGGTATCAAATCAACAGCCATTTTTGTTGAAAATATGAACTACAAAGCTATTATCTTGGGATTATATCTAACATTTATATTTTTATTTGCCTTTGCAACTTGGAATACTGTGAATCTATTTCTATCTATTGCCATTATACTTAGCATTTTAGGTGCTACATGGATTGTCTATACTTTGGATATAACACAAGAAAGCAACTGTCTTGTACGTTTTAAAGCAAATAATTATATTGGTTTTATATTGTTTTTGGGGTTGCTACTTGAAAAACTCTAAAAACCCCTTATATTATATATAGATAACAAATTATTTGAGGTAATTTTATATGATGGATTATACTAAAGCTTACGCTGGTAAAAGCCAAAAAGGCTTTGATGAAGGCCTAAGAAGCTATATGCTCAAAATATACAACTATATGGCTCTTGCACTGCTTTTAACAGGTGCTATGGCGTATGGAACTCTAAATTTTCAACCATTAATGAGTCTTATGTATAGTTTAGGTCCAAATGGTGAAATTCTAGGTCAAACCATGTTAGGAATGATCATTACCTTTGCCCCTCTTGGAATAGCTCTATTCTTTTTCATGGGTATGGGAAGAATGTCTGTGCAAACCGCACAAGTTACCTTCTGGGTTTATGCCGCACTTATGGGAATGTCCCTATCATCCCTTGGTCTTATGTATACTGGCCAATCATTAGTTCGTACCTTCTTAATCTGCTCTGCAGTATTTGGTTCTATGAGCTTATATGGATATACAACTAAAAGAGATTTAACATCAATGGGTTCTTTTATGGTCATGGGTCTGATTGGTCTAATAGTTGTATCTTTAATTAATCTGTGGCTACAGAGTCCAGCTATCCACTTTGCTACATCCTTTATCGGTGTTGCAGTATTCATGGGTTTAACTGCTTGGGATACACAAAAGCTTAAAAATATGTACTACACTTCAGGTGGAGGCGAGATGGGACAAAAAATGTCTATTATGGGAGCATTTACTCTGTATTTAGACTTTATTAATCTGTTCCTATATCTTCTAAGATTCTTTGGTGATAGAAGATAGTCTTATAAATTTATGTAATAAAAAGGCTAGTGAAATTCATTAGCCTTTTTATTTTTAAAATTATTCCGTAATGCAAACATCCCTCAAAAACTATCTTTAATTTAGATAATTTAAACTATCTATAAGTTTTATAGTAAAAATTACTATATTTAATGATTAATATTATACAATTTTAGTAAATTACACATATAAAACCGAACAAAAAGTTAATATATTTTAGCGTAAAATAAATATAGTGGCATGAATATTGCTTTACCTATTTCACAAATTTAATTACAATTTTTTATAAAGTAGGTAAATAATAATGACATTAACATTAGGAAATGATTTAACAGGTACCGTAGCAAGAGAAGTTAGTGCAGCTAGTAGAAAATCTAGCGGTCTAGGTGAAAGCTTGACTACAGGTAATGACAAGTTCGTAGAAGTAGTTGATGGCTTCCTAGGTAGCTCACTAAGAGATAGTGAAATTGTACTTGGTGCAATCGCAAAAAATACTGCATATAGTATTAATATGCTAACAATTACAGATGAGTATCTAAAGACAGTTGCAACATCACTACAAGAAGGTCTTAAGACAATCGGTAGTGCTGGTCCTCTATCAGCGGATAAGCTAGCAGTTCTTCAAAAGAACTTAAATGATAAAAGAGGTCAAGTAGATTTACTTATCAAAACAGCAGACTTTGATGGTAA
>sequence11
ACTTCTGCGCCCCCTCTGGCGGAAATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACATCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTCGTTATTTAATAATGCCGACATGCTATTCCAACGTCCCAACGTCATTCTAACATCTCAATATCATTCCTATATCTCAACGTTCCCGCATAGGCGGGAATCTAGAGATCTTGCAATGCAGCATAGATTCCGCCTACACGGGAATAATATCAGAAAAGGCTGTGCGTAACATCAAAAAAGCTATGCGTAACATCAGTTATAAATTCAACCGCGTTGCCTACTTTCTTTCCTCTAACATAAATCACAGAACAAAACTCGCCATTACAAGCGTCAGAGCGTCAATCTATTCTTAAACCAAGCTATTTTGATAAGCTAGCTTTAGCAACTTCATGGACAGTTGGCAGCTCTAGCTTTGGCTTTGGCTCTGTTTCTTTTGCTTTATCAAGAGATTTTTTAGCTCCTTTACCTTTCATGACTCTATCAACCATACTCGTAGCAACTTCCTTTACAACTGCAACCGCGATTTTAGCCAAAGCTTTTTTCAGCTCTTCATTACTAAAAACTAATCTAGTAATTTTTCCAGTCATTGAATCAGCATTTGTCATGGACATAGTTTGCTTGCCAATATTTCCATTTTCTTTTTTCAATTTTGATAATTCCTCTGCCGTATCTTTATCATACTTAACAGGCTTCACACCAGTATACGCCTCTTCTAGAGAGATTACCTCACCTTCTTTACCTTTTACCTTACCCTCTTTCTTAACAAAAACTTCGTTAAAGTTATCAAGAGTATGTTCAGATTTCAGATCATCTAAAATTCCACCAGGAGCAAGCAAACCTATTGCTTTCCCAAGCAATGGACTAATTTCTGAGCCAACAATCTTAGAAACAACTTCAAAAACCATCTGAGTTAAAGATGGATTCCTTTCTTTTTGTGAATGAGGTATAATCGTGTATGTTCTCCCAGTTTGTTCATTCAAACTGTTTATCATATTCTTACGGTTATTAAACTCACAAAAATTTAGCTTAGAAATATTTTCTTTTGGTAAACCTGCTTCTTCATACATTTTTTCAATCATAGGCTTTGTACCAGGATTCTCAAATGTCACCGCAGAAATCTGATCTTTTTCTCCTTTTCCTTCAGCTTTCAAGCCCTTCTTAGTCAGTTTTATATCCATATCAGCTGCTTGCATCTCAGCCATAGCAGCACCAAGAGAGTGTCCTGTATAGTGAAATTTATACTCTTTTGCTTTGTCACCTAAACTATCTAGAACCATATCATTAAGAATCTGAGCTGGATTCATCTTACGGGGCTTGTTATGCGCTACCATCAAAGCGTCATCATATATATCCGCAATTCCTTTCTCATCCATACCAAATCTAGATCCTGCAGTTGCAAAAACTATTTCTTTGGTATTTTGATTCATAAATGCAACGCACCTAAAAGATGCTTCACCAACTTCTTGAACATGATCAGTCATTAAGAATAGTTCATAGCCTTCAGGCACTTGATCGGCCATTGCTTGCATTTCTTCATCTTTTTGACTATAGGCATAGTTACTGAAAACTACTGCTTGCGCAGCTTTTCCATTAAATACTTGCCAATCTGGATAAGAATCTTTTACTACTTGAGCTGTTTTAGACATTATTTACACCTATTAACCTATATTAATATATTTTTAGCTTAGTAGGTGTAAATTAATTTTGCAAATAAAATTTATTATAAATATATGATATTCATATCTTTTGTTGATTATCTACATGTTATTTTCAATTTTTGATATATACACTAAAATTTAGTTCAATGGAGACTATTTCTTGATCTTGAGAAATTGAGACCTTTATATCATTGTACATACCAAGCATTTTACAAAGAGTTATCTGCTCATTTTGAAAATTAATAAAATTAGAATTAATTTTTTTGAAAATAAATTGTAATTTCTTACTTTGGCAAATTTTAATTTCAGCTAAAATCAGATCTTTCTTATTAAAATTTAGAATTTCATCAAGCAATGTTATAAAAAATGATTTATAAACATTTATATCAAACTTAATATTTGGAGTCATTGCAACCGTTTGACTATGGTTCTGAGATTCTAACTTGATCCTAATAGCCTCGTGTAATTCACTAGCACTAATACAAACCTTTTCTCTACTCTGGTTTTTAATTAATTGCGTAAATTTAGTATACTCAGATGTTAATGATCTTATATCCTTTTCACTAACTGCAATTGTTCTTTCAATACTCTTTAGCCTTTTATTAAAATCTACAACAGAAGAAATTTTTTTATTATTTTTAGTACTCATATCTGCTATATCTTCTTTGAGAACTTCAACTTTACTTGTTATATAGTGCGCCAAAGAACCAATTGAAAAAATTATTGAAATAATCTTTGCAAACTGCTCCCTTTGTTCCTTCTCTTGCTTAGAAATCAATGCAGATTGATTCATATTAAAATCATTAATGTTATAAAAGATATTGAATAGTCTATCTATATTTTTTTTTCCATTCTTGTTTGTTTGTATCATCATTAATGATTCCTTCATCGGAAGTAATATCATTCTCCAATAAAGAAAAAATAAAACTCCAAGTAATATGCATATAACACATGTAGAAATATAAAAATTACGTAAAAAAGATTTTTTGAAAGTCTGTGGGTTATATTTAAATTTTAAATACTTATCTAAACTGCTATTATAGTAAATTGTACTAAGAGTAGAGTTTGATAAAATAATTTTAGATAAAAAAGTGAAAGTTGGAGATGCTGTTAACTGATTATATAATTCCTCAGACTCTGTATTACTCTCTAAAGAATCATTTATAAATATCTCTCTATTTTTTTGTGGAACTAACTTGTAATTTAAATAATTTACATCAACTCTAAATAGAACTGCACCATTAAATCCTATATTTTTATTTTGAATTCCAGATGAAATAAAAAAGTACTTTCTTTTCAAAATATTATCTTCAATTACGTCGCCAATAAAAATCTTATTTGGATTTTCTTTTAATTCATCAAAAGAAAATCCAAGAGTTTTATCATTATAAACATTTAAAGCGCTGATTACACTATGATTACTTTCACTATAAATAACATTTCTATTATCATCTATAACTGATATATTGAATATATTAGAACTACAACCACATAACAATTCGGAAAAATTTTTCAGCTGCTTAGCTTTAGATACCCTTCTTTTAAAACAAGAAATTTGATTCTTTTGGGTAAGAATAAAATCTCTAAAACCAATCCTTGATGATCCTTTAATTCTTTCAATCTTTGAAACCAGTTTATTAGCATATAGAACTGCATTTAAATAAGATACTGCAATCAAGGAAGTAAAGAACAATATGCTAAAAAACGTAATTGATTTTTTAATTGCATCTTTATATAAAATGTTAGATTGATCATTTTTCAATGAAAGTTTATTAGTATTTTTAGTCATTATTATTAGCGTTAAGATATGATGTTATTTTATAATTCTTATTAACTTAGAACTTTATTTTATTGATATTTTTTGATTTATCATTAAATCACTATCAAGGTTTACAAGTGCATTTATAGAGACTTCTACTCCATAATTTACCTTAAATATATTTAGATACTCATATAATTTTAACGCACCTATTTCTGTTTGTCCCCTTTCCCATAATTCTATTGATCTGGCAGAAAATCCATACTCTCTTGCAATTTCAGCACGACTTAATCCTGCTGTTTTTCTAATAGATTTTAATCTTTCTCCAAGAATTTTTCGTTCAGAGTCCATGCATTTCTCCAATTACAGAAAGTAGTATAGAACATAATACATTAAATAACAACTATTAATCAATTTTTTTATTCAAAATTTAACGTAATGAGTGAAATTATTATATTTTTCTACATTATTAGGTTAAATTTATCTGATTTTATTATTGACAATATATCTACCCATAGTATGTTAAAGAAAAATTAATTATAATGAAATGATTTATGTATAAATAACCTAAAAAAGCAATATGAAAAACCTAAGTAACCAGTTAAAACAAGCAAAAATAGATAAATTAAATGAAATGCTCAAGAGCTCTATTGAATTAGCTTTTCAATCACTTGCTAATGATATAGGAGATCAACTATTTGATTATGAGTCATTACAAATAAGTTTAGAGCTGCATCAGAAAAAATATCCTGAGGAAGCAATGAATGAACTTGCATCTAGCCTAGACGATATATTTTTAAGTCAAATGAATCAATTGACAAATAAAATTCATAATGAAGTGAGTAAACATATAAATTTGCAAGAAATCTTATATAAGCAAAAAATTTCATAAACACGCTATAGAAATAAGAGCTAAAAAACTAGAAAAGCTATAATCTAATAGAATTTAGATAAAGCGAAGTCTCCAATGTCGATTGAGATTAGAAAAATTATACCACCGAATCTGTCTTATCAGTATTTAGGACAAAAAATTCTTTGTCATCGTTCTATGCGCTTTGGTTCACCAAGACTTGATATAATAAAAATAAATAATAAAGTAATTGCAAATAACTATGGGCACGGTGGAAGTGGCTGGACAATTGGTCCTGGCTCAGCTGAATATGTAAATCAATTATTTATTAACTCAGAGCACTCAAAAAAACTTAATTATAATACTCCTATATCGATTATTGGCGCCGGTATAATTGGACTTTTTACAGCATATGACCTATGTAAAAAGGGCTTTAAGCATATAACTATCATTGCTGATCAATTTGAATATTTAGTATCTCATAATGCTGGAGGATTACTTGCACCAGTATCAATGAGTAATGACACCCAAGTACAAAAGTTAATTGATAAGCTAGGAATTGACGCATATAAATTTTTTGAGTTAATTGCACAAGGAAAACACAAAGATTTTAGACAAGGTGCATCAATTGTTCCAACATATTTTAAGAATAAAGAACATTCTGGCCTTGAACCATATGTAAATGTGGTGATGCAACCCGCAAAAGATGTAATATTAGATTTTAATAATGGAACAACCCAAAAAATGATTGTCTATGATGATGGTATATTTATAGATACATCTCTGTTAATGCAAGAATTAAAAAATTACTTAGAAAACAAAGTTAAATTTGAAAAACAAAAAATATCTAACTTTTCAGAAATACAATCAAACTTTATAATAAACTGTAGTGGTATTGGAGCTATAAAACTTAATCGCGATGAAAAACTTGTTTCAGTTCAAGGGCATTTAATCATACTAAAGAATCAAAACCCTAAGCACATTAATCATATGATTTTTACTTATCTTGATGAAACAACAAATAAACATAACCAAAATGTAAAAAGAGCTTTTTATATTTCGCCTAAAAAATTATCAAACAGTAGTAAGGATGATATTGGAGTAATAGGTGGAAGCTTTATTGAAAATGCAAATTATAAAACTCCAAACACAGAAGAGTTTGAGCATATAATAAATAATGCTAAGAAATTTTATGGAATAACTTAAAAAAAGGAATTTTATGAGTGATCAATATCTAAAATTATTTGAAACCAATATAAATGAGGTAAGAAAAATAATTGCTGTAGAAAAAATTGATGAAGATATTTATAAGATAACACCAAAATCCACTACTACTAAATCAGTTGCAATAGTTGGTATTACTCATGGAGAAGAAGTAGCTGGCTTACATATTATAAATGAAATTTTATTTAGAATTATAGAAGGAAAGATAAATATAGATAGAGATCTATATTTAATATTGGGTAATAGAAAAGCTTATTTAAAAAATCAACGCTATACAGATACTGACTTAAATAGATCTTACTGGATTGAATCTAAATCAGATAAACATGAGGAGCAAAGAGCCTTAAAAATTAAAAATGCTATCAAAAACTGCTCTTATGTTATCGACATTCATCAAACTGTAGAAGATACTTTATTTCCATTTTTTATTGCCCCAAATTCTAGCAGTAAACTATATAATTGGATTGCATATATCGGCTCGGATATAGCAATTATCCAGAGGGAATCATCAGAAAAAATTACAACTCTTTCATCGTATGTTTGCTCACAAAATAATTATGGAGTAACACTTGAAGTAGGTGGAAATGGTTTTGACGCATATCAAATTTCACTTGGAACTAAAATTGCAGAAAATATTATAAAGTCTGCTGATAAACAATTTTTTCAAGTATCTAAAAATCGACAAAAACCTTCAATATATAAAATTGATTACCATGAAAATTATGACAAAGGAAATGTTAAATTTTTAAAAAAATTTGTAAATTTTGAAAATATAAAAAAAGGACAAGTAATTGCTTTAAAGGATAACAAAGAAATCACTGCACCAATCTCAGGACAAATAGTTCTATACCCACGCTCTTGGTTCAAAAAAAATTCAACTACAGCACCTGAAGGAATTTTTGCCTTAGTTAATCACAAGAAAAACTTTCCATCTATCTGAATCTTGGCTTGAATTCACTTTCTTTCCATTTATTTGTGAAATAATACAATATAATACAAATGGATAGCAGAGTTGCATATAAATATGCATAATTATTTATTGTATCACTATGGAAAGATGAGATTAAAAAACTTACAGCAGCAGTCATCATATAATACAATGAACCAAAAATTGATCCAGCAGCACCTTTAACTTTCATATAGTCTTCCAATGCATTTCGAAGCAACATTGGTACAACTAATGCATGTCCCATCAAATGAATTGCCATGGGTACAAAGATCATCAAAGTTATAAATATTAAACTGCTATTAGGTCCTACTAGATAAGTGCCTAGTAACAATCCAACACAGCCAATAGTACTAAAGCACAACCCAATTGCTTTTATCCTATATATGTTTACAAATCTTTTAATCAAATATTTGCAAAGCAAACCACCTAGAAGATTGGCAACACTCAATATTAAAAACAATTTACCATAGTCGGATGGCGGCATATTAAGCCTATCAATAAATATAAATGGCGCTTGAATATAGAAACCAAAACACACACCATTATATGCCCCAACCATAAAGGCAAAACTAAGTAGAATCTTATCTTTTAAAGCGGTTTTTAATACGTAATAAAACCTGTTGTTGCGCCCTTCTCCAATATGAGGATTTGTTTCCGGAAGAAATTTAATATAAATCAAAAGCAATGTACCTGATAATATTATCAAAAAGCGAAATACATATTTCCAATGTCCATAATACTCGACAATATATCCGCCTATAGCCGAACCAATTGATGGTACAACTGACATAATCATAGATACACTTGCATATATGTAGGATAATTCCCAACCTTTATAAGAGTCTCTTGCCATTGACTGTGCTATAACAGAACCAACACTTGCGCCGTACGCTTGAAACACTCGCATTGTTATAAAAAATTCAATATTGGTAGATAAGCTGATTAAAAATGTTGAGATTATATAGAATGATATACCAAACAAGACTACTGGCCTTCTTCCATAAATATCAGACACCCTGCCAAGTGTAAAAATTCCAAATGCAAATCCTATATAGTAAGCAGTAGTTGATAGCTGCGCTATTCCACCTTCTGTTTTTAATGCATCCGCAATCTCAGGAAGAGCAGCAGAATAGACCGTCTCAGTCAAAGTAGAAAGAGATATTAAAAAATATAGTAAAATTGGTTTTATCTGACCAATTACCTTCATATAAAAATTTCTAGTTTAAACATTAAACCTAAAATGCACGACATCACCATCCTGCATTACATAATCCTTCCCTTCAACACGCATTTTTCCAAGTTCTTTGGCTTTTGTTTCAGTACCAACTTCTAGAAGTTCATTATAGCTAATTACTTCTGCTCTGATAAAACCCTTTTCAAAATCAGTATGGATAATACCAGCCGCTTGCGGAGCTTGAGCTCCGGTTGTAAAAGTCCAAGCATGCGCTTCTTTTGGGCCAACAGTAAAAAATGAATTTAGATCAAGAAGTGAGTAAGCAGATTTAATAATCTTACTTAAACCAGTCTCCTCTAAATCCAAACTTTCTAAGAATTCTTGTTTCTCCTCTGCATCTTCCAAAGTAGAAATTTCTTCTTCTATTTTAGAAGAAATAATAACACTATTTGCCCCCTGCTCTTTTGCCATTACAGCAACTTTTTCAGAATAGCTATTTCCTTTTGCTGCTTCATTTTCTAAAACATTACATACGAATAAGACTGGCTTAGACGTGAGTAGCTGTAAATTCTTCAATTCTTTAGCATCTACCTTACCATTTAATACTCTTACTGGCTGTCCTTTTGACAAAACTTCTTTGCATTTTTCAAGTAACTCAACTTGAGGCAATAAAGACTTATCTGACTTGGCTTTTTTAACAAGATTTACAACTCTCTTTTCAACTGACTCGAGGTCAGCAATTATTAGTTCTGTCTCTATAACATCTGCATCCTCGAGAGGATCAACTTTACCGTGCACGTGAGTCACGTCAACATCTTCAAAACAACGTAAGACGTGAATTATTGCATCTACTTCTCTAATATGAGACAAAAATTGGTTGCCTAGTCCTTCACCTTTACTAGCACCTTTTACTAGCCCAGCAATATCAACAAATTCTATAAATGCAGGGATAGTTTTTGCAGATCCAGCATTCTCTGCTAATTTACTTAGCCTATCATCCGGAACAGAGACAGTTCCTGTATTTGGTTCAATTGTACAAAAAGGATAGTTAGCAGCCTCTGCATTGCTACTTTCTGTTAGCGCATTAAATAAAGTAGACTTACCAACATTCGGTAGCCCAACAATTCCACATTTCAATGTCATAAGTAATAAATATGAATAGTTTATCAAAATGATAATTTATCATATTTTAGATAATATTGCTAGAAAATAAGATGTTTTATATGGATCCAGAGTAAGCTTCAAGTAAACTAATTAATCTAGAAAAACTGTATTTCCATTTTGCTAGCATATTCTATAATTAATTAGAAATAGGCTCAAAAAATAGTAAGATCTACTTTGTTAAAAACTAAATCTAAATATTAACCAAAAACAAAATACTACTTAAAGTCTTTCTCGTTAATTACAACTTCAGTCAGAGTTACACCTATTTTTTCATCAACAATAACTATTTCGCCCTTTGCTACTTTTTTATTATTTACAAACACGTCAATAGGTTCTCCAACTGTACGCTCAAGCTCAATTACAGCACCTTTACCAAGCTTTAAAATACTGCTTAGCGGCATGGTAGTGCCACCTAATACAACAGAAACTTGTACCGGCACGTCGTACAGCGCTTCTAATGTTAATTCTACATTTTCTTCATCAGCTTGTTTCTCAGCCATATCTTACCTTATTATTTTTTATCTTGCGCTCTTAAGCTGCTCTATAATTTTATCAATTTCAGCTGTAAGCTGCTCTTGGTTATATTCTAGTCTAGTTTCGTCATAATCTAAAATACAATCATCCAATCCTAGCTTGTCATCTTTTACAATTTGAAAATTCTCCTTAAATTTACTAGGAATTGCATCTGATTGCAAAACTTCAGTACAAAAATCATATCGATCAGGATGAATTGTTAAAACAATACTTCCATCTTTATAAAAGCTTTTTAGCTTCTCAATCAAACCGTTACTAATGATTTCTTCAAAATTTGCAGGTAAAATCAAATGTAACTTCTTTGCAATGCCTGAAATTGCTTCAGCTGAAGTTTTTGTTACTTGTGAATCAATATCAATATTCTGAGAAATTAAACTAAGTTTTTGCGATAATTTTTCAGATAAGTCACTATTAGAACTATTTTCTGCAATTATTGCTTCATATTTAGCTTTTGCTTCTTCCAAGCCTTTTTGATAAAACTCTTCTTTTATAGCTTCAACATCAATTTCAACTTCATTTTTCTGAGAATTATTCTCTGTAGACATATTACGAGATTCTAAAGAATCGTCAACATCTTTTTTAGGTAATTCAGGTGATTTTTCAGTTTTATTATCTTCTTCATCAACAATTTTACTAAGATGTTCAGTGACTGCTTCATTAATTATCTCATCAACTTCCTGATCTCTTGCGTGTACTAAAGAATTTACAACAGCTGACTTTGGTAGTTCTTCTAATTCGAATTTTTCATATTTTATTGCCATCGGAAGTTACCTGCTAATACTTAAGTTACAAACTCGTCATCATCACTATTGAGAACAACATCAATTTCACCAGCTTCTATAAGCTGTTTTGCAACAGCAACTACGTCTGCTCTTGCCGAATCAACATCTTTTACTCTCACTGAACCAAGAGCCATTAAATCTTCTTCTATAATCTTAGCAGCACGTTGTGACATACTTGAAAATAACACATTTTTAAGCTCATCAGGTGCACCTTTCAGAGCAAGAGTAAGTCTTGATTTTTCAACATCACGTAATAGACGCTGTATGCCTTTTGAATCAATTTTAATAAGATCATCAAATGTAAACATCATATCCTTAATCTTAACGGCCGCATCAGGAAGATTAGACTCAAGCATAGACATAAATTTACTTTCACTATTACGATCAAGATTATTGAAAATTTCTGCTAACATTTCGAAACTATCATATTTCTGAGTTTTACCAACGCTACTAATAAACTCGGCTCTTAAAATTCTTTCAACTCTTTCTAGAACTTCTTTCTTAACGCTTCCTAAGCTTAAGATTCTTGAAATAATCTCAAACGCAAAACTATCTGGTAAATTACTCAATACTTTTGCTGCATGATCGGGAGAAATTTTTGACAGAACTAAAGCTGCAGTCTGTGGGTGTTCATTCCTAAAATATAATGCTAACAACTCTTCATTAACATTCGCAAGCTTTTCCCATGTATTTCTTCCTTGAGGCCCTCTAATCTCATCCATAAGACTCGAAACACGCTCTTTATCAAGAATTTTTTCAAGCAATCTTTCGGTACTTTGCAAATTACCAAGAAACATAGAATCACCTGTAAGAGCGGTTGATAATTGATCCATAACAGAATCAATAACTTCAGGACTCACAGCTCCTAGATGTGACATAGCATGCGATATATCCGTTATCTCGTCTTCGGACATCAGAGAAAAAACTTTAGTTGCATTCTCATCAGTAAGAGATAGAAGAACAATTGCTACTTTTTGAGTACCTGTTAATTTTGCAATATCTTTAGCTGTAACTCCCATTAACCATCCTCATTTAACCATTTTCTTAGAACATTTACTAGATCCTGCGGACTTGAACCAGCAATTTCATTTACTTTAATAATTGGATCTACTTTTGCAGCATCTGTTTCCGGAGATTCTCCATCAGCTGGTGGTGCAGTCATTGCATTTGGCACTGCAGCTCCGGGAGCTCCAGGAACACCAGCCGCTATATCTACTCCTTCCAGGCCGCCTTCACCACTATATTCTTCAGATTTTCTAACTTCAAAAGCTTTAAGCGCAATTGGCCTTATAACCGTAATAAGCACTAATAGTACTACAATTGCAAAAATTAAAGTTTGGAATAAACCCGGTAGCTCCTCTTTTATCCAGTCAGAATCATCATCGCCAAATGGATCCAATTCTGCTGAAAATTTCATATTTATAACTTCAATTCTATCGCTTCTATCATCGTCAAATCCGACTGCAACTTTTACTAAATTTTCTATCTTATCCAAATCTTCTTGAGATCTTGGAGTATATTTAGTTTCTTCAGTTTCTGGATCAGTCTTATAGTGCCCATCAACCAAAATACCGATTGACATCTTCTTTATGACACCACTTTCCGAAATATAATTCTTTACAGTTTTTGAAATCTCATAGTTTGTCGTTTGATCACTTTTTTCAACAATAGCAAATTTACTTGCACTATCATCTCCTCCACCGCCACCTGGAATATTATTCGCAACAGAAGCATCTGTTCCGCCTGCACTTCCAACTGGTGTTTGCTCTCTTTCATCAATAGATTGTACAGACCTAACAACTGCTCCATCTGGGTCATATGTTTCTGAGTTTGTAACGACTCTATCAAAATTCATATCAAGAGCTACCTGGGCTTTAACTTTCCCTGGTCCAATTGTGCTTTCAAGAAGGTCGACTATTACTTTTCTTAAACGAGCTTCCTCAGTTACACGAATCTCTTCATTCTTACCATTGGAGTAATTTAGAGATTCCTCCGAAGAACCAATTTTAAGAGCCCTTCCTTTTGTATCAACAATTGTTACGCTCTTCATCTCTAAACCTGGAACAGATGTAACAACCAAATGACTAATCGCGTCAATTTCAGATTTCCCAAGTCTCTTACTACCTTTAAATTTTAAAACTACAGATGCTCTTGGGTCCATTCTTTCTTTTGAAAAGATCTCTCTTTGTGGCATAACTAAATGCACTCTTGCCTTAGACACCTGGTCAAAAGCAGAAATTGTCCTGCTTAGCTCTCCTTCAAGCGCACGAATTAATTTGATATTTTGTGAAAAATTAGTTGCACCAATACTATCTTCTTTATCAAAGATTTCATATCCTACAACTGAACCACTATTTGGCAATCCAACCTGTGCCAACGCCAATCTTGCACTAACAACTTCTGCCTTGTGTACTTTTATAGTACTACCATCAAACATCGCTTGATATGGTATTTTACGATTATCTAATTCTTCAGCAATTTTTGCACTATCCTGTACATCCAGATCAGTATACAAAACAGCGTATTCATTATTGCTTACATTTGTCATAAATACAACAAACATAACAAGGAATGTAAATAAAGTAATCGCAGCAGCGGCGAGCCGCATAGGGCTCATCTCCTTAAAAAACTGAACTATAACCTGCATTTACAACGATTTTTCTTGAGTTAAAAAAAAATTAAGTACAATTAATACTCACTTTATCCAAAATGTCAATGGATTTGGATGAGGTTGTTCTTCGAGTAGGTACTGCAAAGCGACAATACTTCTGACAACAAACCAAACAAATATTAGCATATATAAAATTGGTCCAATGAATATAAAGGTTGTAATCATAGCGACAAAGGCTCCAGCTATCCCAAAGCAAAAAGACCTAAATGCAAAAATATAATGAGATTGGTATAATTTATTACTATTAGTCTTGTTTGCAAAAGCAAATACTGCTCCAACTATAGGCAAAATTGGTACAATTATTCCACACAAATATAAAATATAGATAAAAATCAAATTTTTTTTACCTGGATCTAAATATTGCTTTATCTCATCACTCATAAATCAACTTTTCTCACTCAGATTTTTTATTACCGAACCAAGTATACTACCATGCTTAATATATTCTATTTCATTATCAGTATATATCTGCAAAGTAACATCTATAGTTTCATTATTGCCACCACTCCTTTGAACAAACAATTTCAATGGTTGATATGGTTGTATTTCATCATTGATACCAAGAATACTTATCTTCTCATTACCTTCTAATGATAAATCATCAATTGTCATTCCACTATTAAAGGCTACAGGCAAAACTCCCATACCAACCAAGTTAGATCTATGAATCCTTTCAAAACTCTCTGCAATTACTGCCTTAACACCTAGCAGGTTTGTTCCTTTTGCCGCCCAATCGCGTGACGATCCAGTTCCATACTCTTTTCCAGCCAATATAACAAGAGGCGTTTTTGAATCTTTATATGACATGGCAGCATCATAAATACTCATTTGCTTGCCAGTCTCTTGATTAATTGTTACACCACCTTCAATACCTTTACACATCAAATTTTTAATTCGAACATTAGCAAAAGTTCCACGCATCATAACTTCGTGATTGCCTCTCCTTGAACCATATGAATTAAAACCAGCAGGAGATACTCCTCTATCCATTAAAAACTGTGCGGCAGGACTTGTTTTGCTTATCACACCTGCTGGCGAAATATGGTCAGTAGTAATTGAATCGCCAAAAAACGCAAGCATCCTAGCTTCTTTTATATCAGCAAGTGACTGATTTTCTTTATCAATATTCTCAAAATATGGAGGGTTATTTATGTATGTACTAGATTTGTCCCAGTCATAAGTACCTGTTTCTTCAGCTATTATTGATTGCCAATTCTCATCACCTTTAAATACATCTTTATATTTTTCTGCAAACATTTCTGGAGTAATACTAGTTTCAACATGCTCTCTAATTTCTTCTCTTGTTGGCCAAATATCCTTCAAATACACATCATCACCACTTTCTGTTTTACCGATCGGATCTTTATCTAGATCGATGTTAACCGTTCCTGCAATTGCATAAGCAACAACAAGAGGCGGTGAAGCAAGATAATTTGCTCTAACATGCGGATGAACTCTGCCTTCAAAATTTCTATTTCCTGAAAGCACAGATGCCACCGCTAATTCGTTATCCTTGATTACTTTATCAATTTCAGAATCTAGTGGCCCAGAATTGCCAATACAAGTTGTACAACCATAGCCTACTAAATTAAACCCTAATTTATCAAGATCCCAACTTAAACCACTCTTATTTAGGTATTCTGTTACAACTTGAGACCCAGGAGCTAGCGAAGTTTTTACCCATGGCTTAACATTAACGCCAAGCTTATTGGCTTTCTGCGCAACTAGCCCAGCTGCAATCATAACCGAAGGATTTGAAGTATTAGTACAACTAGTAATTGCTGCTATAACTAAGTCTCCATGACCTATTGAATTTTCAGTACCAGCTATCTGATGCTTAACTGATAAATCAGCCCCTGCTCCCGCAAGATCTTCTAATGAATCTATAAAATTTTGCTGCATATCCGATAAATTCACTCTATCCTGAGGTCTTTTTGGACCAGCTAGTGAAGGAGTTAGTGTTGACATATCAAGCTCAAGCATATCTGTATACTCCGGCTCATGAGCATCTCTCCACATACCTTGTAGCTTTGCATACTCTTCTACAACTTTTACATTATGCTCTTCTCTACCTGTTAATCTAAGATATTTTAAAGTTTCATAGTCAATTGCAAAAAATCCACATGTTGCTCCATATTCCGGCGCCATATTTGATACGGTTGCTCTATCTGCTAAAGTAAGATTTTCAACACCAGGACCAAAAAATTCAACAAACTTTCCTACAACTCCTTTTTCTCTAAGCATTTGAGTTATTGTTAAAACCAAATCTGTTGCTGTAATTGAACTCTCTAGCTCCCCACTTAACTTAAATCCTACAACCTCAGGTAAAATCATAGGTAGAGGCTGGCCAAGCATTGCAGCTTCAGCTTCGATGCCTCCTACTCCCCAACCTAAAACTGATAAAGCATTAATCATAGTTGTATGGCTATCCGTACCAACTAAAGTGTCAGGATAAACTAACGCCTCCTGTCCTTCTTCTATGTAAATACATTGAGCGAGTGATTCTAGATTAACCTGATGACAAATTCCAGTTCCTGGCGGTACAACTCTAAAATTACTAAAGTTCTTTTGCCCCCATTTTAAGAACTGATAACGCTCCTTATTACGCTCAACTTCCTTACTAACATTTTCAGCAAAAGAGGTTTTTTTACCAAAAGAATCAACTTGAACTGAATGATCAATAACTAAATCAACCGGAATTAATGGATTAATTTTATGAGGACTATCTCCCAAAGTTTTCATAGCATCTCGCATCGAGGCTAAATCAACTATTGCAGGCACGCCAGTAAAATCTTGCATCAGAACACGAGCTGGCATGTAATTAATCTCCTCAGTAGACTTTCTCTCCTTTAGCCATCTCTTAAAAATTAACAATGATTCTTTATCACTGCTATTTCTAACTACATTTTCAAATAAGACTCTAAGAGAATATGGAAGTTTTTCTATTTCAAAATCACAATCAATAGCTGCTTGCTTTACATCAAAAATGGTATAATCTACTCCATCAAAACTCTGCTTTTTTGCGTATTTTGACTCAAGATTTTTAGACATACAAAACTCCTAAAATAAATAATTACAACCAATGCACTAAAGTAGCCTTGGCATTTTCCTCTACTAATGGTAATAAAACTATATGCTAAGAACAAGTTATTTCATTGTTTAATTGCATAATTTACTAAATATTATTTTTAAAAAATGCTGTCATTACAATCATTAAGCTTTATTGCTCAAGATCAAAAAATTTTTCAAGACATCTCTTTGACCCTTTTTCCATCATCTATTGTATATCTTAAAGGAAAAAATGGCTCTGGAAAAACGTCATTGCTTCGAATGCTAGCGGGCATACAAAAACCAACTAGTGGAGATATAACTTATGGAAAAGAATCAATTTCAATAAATAAATTTGATAAGCCCTTCTGCACATATATTGGCCACAAAACGGGTTTAAAACAGGAATTATCTGTTATTGATAATTTAAAATACTGGGCACAATTGTACAATGCTGAAGAACTAGTAGATGCTGCAATAATATATTTTCAACTTCAAGAACATGCATATAAAAAATGTTATGAACTATCAGCAGGAAATCAAAAAAAAGTTGCGCTTTCTAAACTTATAACTTGCCAATCAAAATTTTGGTTACTAGATGAGGTAGATACAAATCTAGACGATGCAAATAAAAAATTATTGATAAATTTAATTGTCTCACAAGCTGATAGTGGAGGAATTGTTTTTATCTCAAGTCATAATGAGCCAGAAATTAAAACTGCATTAACAATAAATCTGTCAGATTATACATAAAAGAATTATCATGAAAGCAATTATTAAACACGAACTTAAAATCCAAAACAAAATAAACAATTTAATAAAATATACGGCTATCTTTTTGATATTTTGTACTTTTAGCATTACATTAATCAACTCTCAAGAAAATGTACAAGCATTCGGAATAATATTTTCTGTAATATGTATTCCTCTTGCATTCATAGGGCTTACTCATGGATTTATAAAAGCTGACATTGAAGATGGAAGTTTAGAGAGCTCTCTTGCCTCAGTGCATGCACACAAAATTATTTTTGCCAAATATATTGCTCTTTGTATATGTACATTAATTAGCTTTACTCTAATAATTCCTATAATTTTTATTTTATATAATATTAGTACTGAAAACTTTATCGCCATAATATTTTCAGGAATAATACTAATTACACTAAGCGCTGCACTTGCGCTCCTTACTTCATCAGTTCAAGGGTATTTTAGAACGAATACTAATTTTCTCTCAATACTCATAATGCCACTAATAATTCCTAATATAATTATATCAGGACTATTTATACAGACCCCTGAAGATATATATCTTGCTACTATTATGTTTGGTATTAATCTCGTTATTATTCCTCCATCTATGTATCTATCTAGCTACCTATTGGAAAATATTTACAACATATAGGTTCTAAATACTGCAAGTAAATCTTAAAGTATTTGCTTGCAGCATTTAGCATGGTTTAGAATAGTTATGATATTATAATATAGTAAAGCGGCAAACATATGTTACAAATGTTCCTAGGCAAACTCAAGCTTTTGCTCAAAAACCCTATGGTTATCTTTATCTATGGAATCATGGCAAAATGGTATGTTATGATAATGGTGGCCGCAATAGTCGTAACTTTTTGGGTATTTACAGGTTTAAAAAATTCTGGATTTTTAGAAGAAGCTGAAAAAGTTGTTTCAAAAGCTCTAGATGACTCTAAATCAGTTGCAAGATACTGCGTTCCAAAGATAATGAGTTTCAGCGATTTTTGGGATTGTTTAGAATCGCCACCAAAATATGTTCCTACAAAAAATGAAAAAGCTTTCGAAGAAGGCTTGACAGATCTGTTAGATTTTAATAGTTATGATCAATCAAAAGATCCATATGCAGATACAGGATCTGATAAATCTAGTTCAGCAAATTAAAATATGAGTTTATAATTTAGCAACATTAATAAAAATAATAAATAGAAAAAAATATGTCAGACGATACAATGCCAGATGATCCAGATAAAACCACGCGTCGGGATTTTATGACTTTAACTGCAAGTGGAATGACAGCCGTTGGAGCTGCTTGCGCGGCTTGGCCATTAGTTGATTCACTTAATCCATCTGCTGATGTTCTTGCACTATCATCTATTGAAGTAGATATAGGGCATGTTGAGCCTGGTCAAACTATGACAGTAAAATGGCGAGGAAAACCAGTTTTTATAACTCATAGAACGGAAGCTCAAATAAAAGAAGCAGTGGATACTCCTTTAAAAGATTTAATTGATCCTGAAGAAGATTCAGCAAGAGTAAAAGATGGACACTCAAAATGGCTTGTAACAATTGGAATATGCACGCATTTAGGTTGCGTCCCATTATCAAACAAAGGAGATTATGACGGTTGGTTTTGTCCTTGTCATGGCTCACATTATGATACTTCAGGAAGAATTAGAAAAGGCCCTGCCCCACTGAATTTAGCAGTACCTCCATACGAATTTATTTCAGATACAAAAATAAAAATTGGCTAACCATGAATAAAACAGATTCACACACAACTCATAAAAAGAGAACAGGAATAATTGGTTGGATTGACTATAGGCTACCCATTTTTTCGTGGTTAGATCACTTTGCAATCTATAAAACACCAAAAAACTTAAACTATATGTGGAGCATGGGTTCTATTGCCGGAATTGCTTTAGTAATCCAAATAGTTACTGGAATTATTCTTGCTATGCACTATACGCCACATGTTGATCATGCATTTGATAGTGTTGAAAAGATTATGCGTAATGTTAATTACGGCTGGTTAATCAGATATATGCATGCAGTTGGTGCATCAATGTTCTTTGTTGCAGTTTACTTGCATATATTCAGAGGACTTTATTATGGTTCATACAAAGCTCCAAGAGAACTACTATGGCAAATAGGTCTAGTCATCTTTTTAGCTATGATGGCAACAGCTTTTATGGGGTATGTACTTCCTTGGGGACAAATGAGCTATTGGGGAGCAACAGTTATTACAAACCTATTCTCGGCAATACCAGTCATTGGTGATAGTATTGTTACTTGGCTTTGGGGAGGTTTTTCTGTTGATAATCCAACATTAAATAGATTTTTTTCTCTACATTATCTGCTACCATTTATTATAGTTGGTTTGGTTATACTACACATTTGGTCACTTCATACGCATGGATCAAATAATCCTACTGGAGTAAAACTAAAAAATGAAGATATGGTTCCATTTCATCCGTATTATACAGTAAAAGACTTTGTAGGGTTTGGTGTTTATTTCCTAATTTTTGCTTACTTTATCTTTTATAAGCCAAATTTACTTGGACATCCAGATAATTATATACCTGCAAACCCTCTTGTAACACCAGCTCACATTGTGCCTGAATGGTATTTCCTGCCTTTCTATGCAATCCTCAGAGCTGTACCATCTAAGCTTGGTGGTGTGCTGCTTATGTTTGGTAGTATAATTATTTTATTCTTCCTTCCATGGCTTGATCGTTCAAAAGTTAGAAGCGCAACATACAGACCTTTATATAAATGGGCATTTTGGGCTTTTGTTATTGATTGTTTAGTGCTTGGGTATGTTGGTGGGATGCCTGCTGAAGAGCCATATATTACTATAAGTAGAATTGGAGCAAGCTATTATTTCTTCCACTTCTTAATAATTGTTCCTTTCATTGCACGTTTTGAAAAACCTCTACCGCTTCCACATAGCGTAGAGGAAGAAGAACACATGCATGAAGATGATATAATTTAGGTAAAAACTATGCTTAAAAGAATTTTAACCACAATAATAGTTATTCTCATATCCGGTAATTGCTACGCTGCTGGAGGCGCAAAAAAGCCCATACAAATGGTTTGGCCTTTTGAAGGAGTATTTGGTACTTTTGACAGACAAGCAGCACAAAGAGGTGCTCAGGTCTACCTAGAAGTATGCTCAGCATGTCACGGATTAAATCACCTATATTACCGTAATCTTATTGATTTAGGCTTTTCAGAAGCAGAAATAAAGGAAATAGCTAGTGGAAAATTGGTACTTGATGGTCCTGATGATATGGGCGAAATGTTTGAAAGAAAAGCAGTGCCATCAGATATTTTTGTTTCACCTTATCCAAACGAAGAAGCAGCTCGGGCTGCAAATAATGGCGCCTACCCTGCTGATCTATCATTGATAATAAAAGCCAGGGAAGATGGAGCTAATTACCTTTATTCTCTATTGACTGGATATCAGCAACCACCTGAAGATGTAGTACTAATGCACGGTTTATATTATAATCCATATTTTGAAGGTGGTCAGCTTGCAATGCCTGCACCTTTAGCTACAGACCAAGTTGAATTTATGGACGGCACTCCTGCAACTATAGAACAGATGTCTAGAGATGTTACTATCTTCCTACAATGGGCAGCAGAACCTGAAATGGAACATCGAAAATCTATGGGTTTAAAAGTTATGATCTTCCTTGTAATATTCACAGTTTTCTTCTTTATAGCTAAAAAGAAACTTTGGAGAAACGTTAAGTAATTTCTATAATAAGATAGTTTTATTTATTAAGTTTATCCAATTTATACTAGGAATTATAAGTTCTTCAAAAATAGAATTCTAAATTTAGGTAGGAGTTATTTTATTACCTAATTTCTTCTACCTAATTTTAACTCCAAGACTATTTAGGTATTCAATCTTTTAAGTTATTTACTGTTTTCAAAAAATAAAGTAAGTCGTAATAGTATGTCAATTGATCAATGTAAAATAATTAAGCTAAACGAGCACGTCAGCAAAACAGGTAATCTCACTACATTTGAAAATGGAGAATTAGAAAATTTTTTTATATCTAGAATTTACTTTCTCAATAAACTTATAGAAAAACAACCAAGAGGAAACCATGCCTATTTAAACGTTTCTCAAGTAATAATACCTATTAGCGGCAAGATTTCTATAGAAGTTAATGATGGACAAAATAGTAAAACTATTTATGCAAGAGAATCTTCAGAAGGTGTATACATACCTATAAATATCTGGAGAAAAATAACTCCTCTAACTGCAGACACATTAATATTAGTATTAGCAAATAAACTATACAAAGATTGCAAAAAAATATCTAACTACAAAGAATTCATATCTCATTCTAAAAACTTTACTGGCACACTTTAGAACATCTTTTGTCCATTAGGAACGTTTGGGTCTGCTGTAATTAGGTAAATATCACCTTCCTCATCAAGTATAACCAACTAGAAGAAATTGTGATTTAAAACCTGCAACATTTTTCTCTCCTAAATTCACACACCCAACAATTTGTCTACCAACTAGATCATTAGGAACGTAATGTAAGGTAACTTGCGCCGAAGTTTTTAAACCCCCTATTTCCGCACCAAAATCAGCCCATATTTTATAAGCTGGTTTTTTAGCTCTTGGGAAATTTTCTGCTTTCGCTATAGTTCCAGAATGCAAATTAACTCTTAAAATAACGGGTGTATCAAAGACGTTAAGCTCAACAAGCACATTAGTGTTGGTGCAGCCACAGATGCCGATTTATCATCATTATCACCCCTATAGTAAGCACCTAGCATTTTTAAAACCAGATTCAGATCTTCTGATAAATTTATTCTTACGCTGGTTTTCTCACCAATGACTTTAAAAGCCATAGCCGCTCCTGAAGTTCAGGAGCAGATAGCCAAACGTGTTCTTCTTTTAAAATGTTGAATCTCAACTTTTCTTTAGCAAAATCAAACTCAGGAATTGGGGCAAGCCAACTTTCAGTATAATGAATGCCGACAAAATCTAATCCATGCCCCTTGCAAAATTTTTCTACTTCTTCAAGATATTTTTTCTGGTCATCAATAAATATAATTCTTTTAAATTTCTTATTAATGCTCTTTAGTGCAAGTCCTAGCACTTCACCTTTATCGCCAAGCGCCGTAAGGATAATTCCAGAAATTATCATAGGCGTTCCGCCATGTGCAGTTTTATCTGGTGTTAAGCTTATACCTTTATTAAACGGTGACAGATCAGCAAACGATATTTTAACTTGCTGTAGCTCTTTTAATCTTTGTTTTTCCATTTCTTGTATTGTACCAAAATTATCTGTCCACCATGAGGACAAAGCAGATACTGAGATTTTTTTATCTTTTAAGAATTTAAGGAGTTTTGGCATATTTTCATTAACCAGCTTCACTTTTCTTTTAAGAAAAAAATCTGAAAATATCACTTGAACTTCTTGTTTACTTTTGTTTTGTGATATTTCCTTTTTTAGATCTTTTCTGATTTTATTGCGAAAGTTAAATTCATCTGTTGGAGAAATCAAAACATCATCCACATCAAATAATACTAGGCTATCTTTTGATACTGACTTCATGACCTCATTTTTTAAGATGGCAAAATTATTTGCTTTAATAATCTCAGCATGGCTGTTTTGCACTCTAAAAACAAAAAAAGTAATTATTAGAAAGATAATTTGAATGAAGTTTATATTAATAGTCTTCATAAATTATATTTAAATTAGAATTACTATTTTGTATTTACTTTATCCCAGAAATCTCTTTTTTAAACTCTTCAATTTTACCCTCATACAAAAGAGGAAGAATATCAAGTATCTTATGAATAGTAATCAATGCAATTTCTTCTTCATCTCTAGAAAATTTGCCTAGAACAAAATCTGAGATATCGTATCTAGGATCTTCTGGACGCCCTACTCCAATTCTGATTCTGTGGTAATTAATTCCTATATTACTATCAATTGATTTGAGACCATTATGCCCACCTGCACCACCACCTATTTTATATTTTACGCGTCCAAGTGGAACATCGACATCATCATGTATAACTATTATATTCTCAGGTTTTAGCTTATAAAAGGAAGCAAGTGGTAAAACAGATGCTCCAGATAGGTTCATGAAAGTATTAGGCTTACATAATACTACTTTACCAAATTCCAAATCACCAACTGCAATTTCAGCATTAAATTTTGATTTTGTACTCCAGATAAAATTATAGCGGCCAGATAGTATATCTGCCGCTATAAATCCAATATTATGTCTAGTGTTATTATATTTTGCACCCGGATTCCCAAGTCCAACCACTAAAAACATTATTTTTCTTCAGCTTTATCTGCTGCTGCTTCTCCTTCAGATTCTCCTTGACCTGCAGAATCATCATCAATATCAGTAGATCTACCTCTCTTACCAATAATAGAAGCAATTACAAATTCTGGATCACCAATAAGCTTTGTACCTTCAGGTAGAACAACTTCCTTAGCTTTTAAAGAAGTACTAATTGGCATATCCGTAACATCTATTTCAATTTTTCTTGGAAGATTATCAACTGGACAAAGAAGAGTTAAACTTCTTTTAACAGTATTAAAATAACCACCTCTTTTTATACCGATACAATTTTCTTTATTAGCATAAACAACTGGTACTTCCATTTTTTGTAGCTTATTTTCAAGAAAAACAAAGTCAGCATGACGTGCTATCTCTGTTATAGGATGAAGATCTATAGCTTTCGGTAGCACTTTAAATTTCTTTTGACCAATTTCAAATTGAATCACTTGAGAAATATATTGCGGCTTTCTGTAATATTTTGTTAGCTCTTTTTCTTCAACAGCAATTGACATTGGCTCTTTACCTGCACCATAAATAGTAGCTGGCACCATACCTCTTTTTCTTAAAGCTCTTGATGCTCCAGTCCCTAATTCTTCGCGCATTTCAGCTGCAAGAGTTAATACTTCACTCATTATAAATTTCTCCAAAAATTCTACTATTGGTCACATTAAAGACCATTTTCAAGGCCACAATATATAACTTTATGTCCGATAATTCAAGCGTTTTTTATAAAAATATACAAAATGAAAAACTTAACAAGTTCAATTAAATATTATATAGATTGATTTAGCTAATCTTGATATAGTAAGTAATCATAACCAATCAATAAAATACTAAAAACAACCGAAATCTCGATGGCAATATTTAGCTTAGTATTCTTTAAAGTACTTTCATCACTTTTAAGTGTTGTTATAGGTTTTATGTCAGGTAAATATTCAAATGTTGAAAAAGATAGCATAGCATCTTTGCTGTTTTATTTCGTAGCGCCCATCGTATTCTTCGCAATACCAACTAGTGCGAATCTAACTTTTTCATCACTCGGAATAACTCTACTTACCTTCACACTTTGTACAATGCTTGGTTTCTTTAGCTACTGGCTATACGGAAAAATATGGCAAGATTCACATCGAAATATCCTTGCACTATCTGCTGGAACAGGAAATAGTGGCTATGTAGTGTTGCCAATTGCAACGGTTTTATTCGATGATTATACCTTGAGTATATATGCACTTGGATTAATTGGAATTTCTATATACGAAGCATCTATAGGATGTTACTTCTGCGCTCGAAGCGTTACAACTTTCAAACAAAGTGTTTTAAAGGTTGCAAAACTGCCTTTGCTAAATGCCTTCTTCTTAGGGTGCACAATGAGTTTAATGGGTTTCAAACTGCCTGACTTTTTTGATGAATTTGTTAATAATATGAAAGGAGCTTATTCAATTTTGGGTATGGTTACAATAGGTCTTGCTTTATCTGGAATCAAAAACTTCAAATTAGATGTAAAATTTACAGGAGCAGCTTTTGCAAGTAAATTCTTATTCTATCCCATCTTGTTTAATGTATTTATTTTACTAGATCGCTTTATATTTGGCCAACTAGATACTAACTACTATAATGCTCTACAATTGTTATGCGTTGCACCTCTAGCTACCAACACGATTGTACTTGCATCACTTTACAAGATATATCCGGAAAAAGTAGCAACAGCGGTATTGCTTTCTTTACTATTTGTACTAATATATATGCCAGTTATGTCTGCAATCTTCTTGCAAAATATAGTTATTTAAATTGATTAACTATAAGCTTAGCTAAAAATAATCTTCTATAAATTTAAAGGATAAAAACATGGAAAAATCAACAATTAAAGCAAAAGTTTTAATAATTGGATCTGGGCCAGCTGGACTTAGCGCAGCTATATATGCTGCAAGAGCATCTCTAGAACCAACACTAATTCATGGCATGCAACCTGGCGGACAATTAACTATAACCACTGATGTAGAAAATTACCCTGGCTTTGCTAAAACAATTCAAGGGCCATGGCTAATGCAAGAAATGGAACAACAAGCAGAGCATGTTGGTACTAAAATGGTTCATGATTACGTTGAAAAGGTCGACCTTAAAAATAAGCCATTTAAAGCATATACATCATCTGGTGATGTATATGAAGCAAACAGTATTATAATATCAACAGGTGCTCAAGCAAAATGGTTAGGACTAGATTCTGAGCAGGAATTCCAAGGATTTGGAGTATCCGGTTGCGCAACTTGCGATGGCTTTTTCTTTAAAGGCAAAAAAGTTGCTGTTGTTGGTGGTGGTAATACTGCAGTTGAAGAAGCTTTATTTTTAACAAATCATGCAAGTAAAGTGTATGTAATCCATAGAAGAGATGCTTTTAGAGCGGAAAAAATCCTTCAAGAAAGGTTATTTGCGAATGATAAGATTGAAGTGATTTGGGATCATACACTAGAAGAAGTAGTTGGAGAAAAAGATCCAAAAGCAGTAACTGGTATAAAGGTAAAAAATGTCAAAGATGGTGAAATAAAAGATATAAAATGCGAAGGTGTGTTTATCGCAATTGGTCACAAACCAAATACGGACATGTTTAAAGATCAAATAAAGATGGACGAAGAAGGATATATTTTAACAGCCCCTGACTCAACAGAAACCAATATACCAGGAGTCTATGCCGCTGGTGATGTACAAGACAAGATCTATAGGCAAGCAGTAACTGCAGCTGGTACTGGTTGTATGGCAGCTCTTCAGGCAGATAAATTCTTGCGAGGCATATAATTAGAATGTCTAAAGCTCTTACTGAAGATGATTTACAAAGGAAAGTACCAGCAAATTTTAATGCTGAGCAGATGCTGCTTGGGGCTATACTAATTAACAGCGACCTAATTGAACAAGTTAGTGAATTTCTAAAGCCAGAACATTTTTATGAAGCACTACACCAAAAAATATATAATGCCATTGAAATTTTAAATGAAAAAGGTCTAAGCGCTACTCCTATAACAGTTCGATCAATGCTTGATAAAGAACCACTATACCAAGAGGCAAATGGTGATGAATATCTCATAAAGCTGACCACACTGGCAATGGTTGTGATTAATCCAAAAGATTATGGAAAAATAATATATGACTTAGCGATAAAAAGAAGCTTAATTCAAATAGGCGAAGAAATTGTTAATGACGCCTACGAATCAACTCTAGAACAAAGCGCAACAGAACAGCTAGAAACAGCAGAAAGTAAGATGTATCACTTAGCTAGTGAAGGACTAAACGACAAAGGTTTTGTTGCCATGAGAGATCCAGTTGCTGAGTCGTTAGATAGTATTAACAGAGCTATGAAAAACTCTGATCATGTAACGGGTATCTCAACTGGACTTGTAGATTTAGATAATAAATTATCTGGTTTTCAAAATTCAGATCTAGTTATCATTGCAGGTAGACCTTCAATGGGTAAGACTGCATTTGCAATTAACTTTGCATTTAATGCATGCAAAGCTTTAAATGCAAAAGCAAAAGAAGGAGAAAAACAACCATCTGTAGGCTTTTTCTCACTTGAAATGTCGTCAGAACAACTTGCTAGTCGCCTATTATCGATGATGGCACGGGTTGACTCTTCTAATCTTAGAAGCGGTAAAGTAAATGAAGAACATTATAATGATCTTAGAAAAGCAGCTTCAGAACTTGCAGAAATGCCGTTTTTCATTGATGACACACCCGCTCTTACAATCTCGGCAGTAAGAGCTAGAGCTAGAAAACTAAAAAGAAAACATAATTTAGGAATTATATTTGTAGATTATCTACAGCTAATGAGAGGATCTTCAAATAGTGATAATAGAGTATTAGAAGTTACAGAAATAACTCAGGGGCTTAAAGCTATTGCAAAAGAGCTAAATATCCCTGTGATAGCTCTTGCGCAGCTTTCTCGGGCAGTTGAACAGAGAGAGGACAAACGTCCTATCCTATCAGACCTTAGAGAATCAGGCTCTATTGAACAAGATGCTGATGTGGTTATGTTCTTGTATAGAGAAGAATACTATCTCAAAAGAAAAGAACCAGCACCAGGAGACCCGAAATATACTGAGTGGCAACAAAAACTTGATAAAGCTCATAATATTGCTGAAGTGTTGGTTGCAAAGCATCGTAATGGATCTGTTGGTAATGTACAATTATTTTATGTTGATAAATTTTCAAGTATCGGTAACCTTGAAAAGATGCATACTCAAACATAACATACGGAGGCAAGTCTATGGTTAAGCCAGTGATTTTCGGAATATCAGGAACAAATTTAACAGATGATGAAATAAATTTGTTTAAAGAAAACGAAGCCATAGGATTTATTCTCTTTGCGCGTAACATTGGAACTAAACAGCAGGTAAAAGACTTAACTACTGAGCTTAAGGCATTATATCCGCATAAACAAACACCTATTTTTATTGATCAAGAAGGTGGCAGAGTCGCAAGGATAAAACCCCCAGTAGCAAAAACTCTATTTCCAAGCGCTGAGCATTTTGCAATCAACTATCAATCTAGCAAGATACAAGCAAAACATGAGCTAAAAGCAAACTATATTGATTTAATGTCTGAACTGAAAGAATTTGGTATTGATTCACCTTGTGCACCAGTTTGCGATTTGAGATTTGCTGGAGCAAGCGATGTTATAGGAGATAGAAGCTTTGGAGAAAGTCCTGAGCAAGTAATTGATTTATGCAAGACTGCAATAACTGGAATATCTCATGCCGGAGGCATACCATTCATAAAGCATATTCCAGGCCATGGAAGAGCAAAAGTTGATAGTCACTTCGAACTTCCAATAGTAGAAGATTCTCTAGAGATACTCGAAGAAACAGATTTTGCTATTTTTAGAGCTCTTGCTGATGAAAAAGTTTGGGGTATGACTGCTCACATTATTTATGAAGCATTAGATCCAGATAATACTGCAACAACTTCATCAAAAGCTATAAATTATATTAGAAACAATATTGGCTTTAAGGGCACTTTAGTATCAGACGATATTTGCATGTACGCTCTTCATGGATCTATTGGAAAAAGAAATGCAATTTTAAAAAGAGTTTTAAATCTAGCTACTCAAAATAAACAATGGAAAGAAAAATATGCAGAGCAGCTCGAAAAGACATTTTCCTTTGATACTTATGAAATAGGAAATCCTATCATTATCGAACAATGCGAAAAGAAATTACTCGAAATAAAACCAGTATTTCTTGAAAGTCTTGCCAAAGTTACTAGAATGACACTAGATGCTGGATGTGATATTGTGTTACATTGCAGCGGTGACTTAGAAGAAATGCAAGCTGTTTGCAAAGAACTATAAACTAAATATATAAATTTTAGGAGAATCAAAATGACTTATTGCGATCATTCCAACCAAGATGAATACCCATTCAAACTACCAGAACTACCATATGAGAAAGATGCATTTGAACCACATTTTTCTCCTGAAACTTTTGATTATCACCATGGCATGCACCATAATGCTTATGTAACTAATCTTAATAATTTACTTGAAGACAACAAAGAGATGCTTGGACTTGATCTTGAACAGATTATCAAAACATCACATAATACTAATAATGCTATCTTCAATAATGCAGCACAAATTTGGAATCATACCTTCTTTTGGCATTCAATCAAACCAGGTGCTGGTGGTGCTCCAAGCGATGACATGCTTGATAAGATTATCGAAGATTTTGGCTCTTATGACAAATTTGCAAAACAATTTAAACAAGCTGCTATGACTCAGTTTGGTAGCGGCTGGGCTTGGCTTGTACTAAATGAAAATAATAAGCTAGAAATTGTTAAAACAGCAAATGCAGAGACTCCACTTACTGACGGAATGTCTCCACTAATTGCCTGTGATGTATGGGAACATGCTTACTATATTGATTTTCGTAATAAAAGACCGGACTACGTTTCAGTGTTTTTAGACCATATGGTAAACTGGGACTTTGCTTCAATGCACATGCACAGAGCTATGCAATAAATTTTTATGGACGCAGGAGAACAAATTCTCCTGCGTCCACAGCTAATAAAAATAAATAAACCTATCTTTACTTTTTTATTAATTTTTGTATAAAATATATTAATATAGATATTAGACCTTTGAACAACTGATAAATATGGCAAAATCAAAAACTAAGCAAAAAGAAGCTCTAACTAAACACACTGATTTAACTCCTTCAGAAAAACATTTTGGGGATGTCATTTCGGGATTGTGTTCTGTAGGAGTACCATCTCACTCTTTTACTAGCTCTTCTCTTGGACTTGGACTATCACTACAACCACCTATAGATAAAAATGATCAAGTAGTAATGTATGCACTAGGAGATCATACCGGTATTGCAGAAGGATAATGATAGCTTTCTAGTAAAATATAAAAATTATGAACCATCAACTTCCTGATTTTATATATAATCTAGGCAATCCATTAGGTGTAGTTTTAGATAATGAAAGCAAGGAATATAATGCGTGCGACTTTTTGTTAAATGGCGAAAGAATAAAATTTAGACAAGCAAAAACTACTCCTAAAAAATCTGGACAATTTGTTACTTTGTGGAAGCGCACAAAAAATGGACCTATTGCTCCATACGATATTAATGACGAATTTGATTTTGTAATAATTAGATCAAAAAATGGTTATTTTTCCTTCCCTAAATCAGTATTAATAAATCAAAATATAGTTTCATCAAAAAATTCAGGTGGCAAACGAGCTTTTAGAGTTTACCTCCCTCATGAAACAAATCTAAATAAGCAGGCGATTAAAACGCAAAACTGGCAGAAGAAATACTATATTACCAATTCTTCTTAAAAATCAACTCCAGTTTGGCATTTTGAAGTTATATATGTTAAATTAACTAAGGCTAAAAATGTGGTTAGTATGCATAATAGTATCACTCAAGGTTCAATTACACCTATACATAAATATAGTGTTTATATGGCAAGCACAGAGGTTACTCTAGGAGGAATTCTGCACGCTGCTCGAATCCCCCTAACGGGATATATACTATCGCTATTTCAAGCTTTTTGTTTAGCAAAAGCTCACAGAAGCGATAATGGGTTATTTACCTCATTTTATGTATCTACTACTGTATCAATCTTAAAAACCCTTACACCTGTTGGAAAGAAAGTAGGACCTATGGTTGCCATCATAGCTCAAGGAACATTATTTAACCTTGGGGTCTTATGTCTTGGAAACAACATAGCTGGTCATGTTTTTGGCGCAGTACTGTTGAGCTTTTGGGGTTTTATTCAGCCAACATTATTTATGTATTTAATATTCGGGCAAGATCTACTGGCTGGATTAAGTACGATGGAACAACGAATTGATTTATATATACCTGGATTTTCTTTTCAAATACTTCTTATAATCATCGTATGTTTAAAGACTTTCTTAGCTTCTCTTGCGGTTTTACTAGCAAGATCCTCGCTACCTATTGAAACTTTAATTCAAGAAAAGTTACTAAGTAAATATAATATATTAAAACAGAACTCTAAACGCAAAAATAGAAGTGCTTTGGTATCAATCTATAAAGACCTTACAAATTTTTGGTATTTATTTTCTTTCACTATTGTAGGATTATTTACTTGGTGGCAACAATCAGAAGCGATGACAGTATTTTTTATTATGACAAATTATCTCGCTTACTCAATTATATTCTTTATGCTATTGAGAGTGCTAAATTTGCAAAAATTTTCTGACTATCTGAAGCATCTTGGCTTTAATAAACTATCTTCAACTGTTAAAAATACTTTAGACTCAATTGAAGATATAATTTTTGGGCATTGTTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGAAGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCAGAGGGGGCGCAGAAGTACAAATGTAAGAGTTGTGGAAGCACGTATAGATCTGGTGATAAAAGGTTAAAACACAG
>sequence12
ATGAAACTGTCGCCGCCAACTTTAATAGTTGAATTCCCAACGCTGCTCATACGACTGCCAATAAGCGCAAAATTCCCCACCACAAACCCTTCCGTATCACCAGTCGAGGTGATCGTTGCTGGTTTGTAGACTACGGATTTTTTCTTATAGTGGCCGCCGCTGAAGAGCGTTTCAAAGGATTTGCTATCTTCAATTGATTCATTGATCATATTGCCGCCAACTGCGAATTGCAGGCCGTCGCTTTCGATGCTGGATCCTTTATTAATTAGGTCACCGCCAGAGATTAGGGCTAGTGGGCCTCTGACTTTGATAGTTGATTGTTTGCCGATTGTTGTGACGTGGTTTTTCTCATTACCGTAGCGTTGTGATTTGGTAATGTTTTCGATGTGGCGCTGGGCGGTTATAAGGCCAATTCCGCCGCTTTCAATGGATGAGCCGACATTGCGGATATCACGGGAGGAATCTAATGTGAGATGTTGTGATGCGTAAATATCTCCGCCGCCTTCATTGATTATGTCGCCTGTGTGTGATTTTAAGCGGACGGTTTCGCCAACTATGCTTGAGCCATTATTTTCGATTGAACCAGATTCGATATCGATATTGCGGGCAAGCAGACCGCTGGCTCTTTTCTCGCGCTTAGATTTTGCGACATACAGGCGAGGGACGATGATTTTGGTGCCGCGTAGTTCAATTTCTTCTGCCCAGACCATATCATCTTGCAGGGCATTTACCTGCTCCTCTGTCAGAGCAACGCCAGCACTGAGTTTCATCTCCTTGCCGTATTTAATGCCTGTTTCATAGAGATTCTTGATTTCCTGAACGTAATCTACATTATCTTCGAGTGATGCATGACCAGTTAATTCAGTCATCTGGCGACGCACGAAATCCATTTGTTTCATTGAATCACCGAAATGGATGCGTTCTATCTTTTGCGAGGATACGCTCTGTTTTTTTGGCTCAAAACCTTCTATACGTTTGATAAAATTATCAGTCGAGAAATATGTGCCCATGTCAGTAAAGACAGGTGATGTTTCTTGGATGTAATAGCGGCCTGAGCTTTTGGATTTGGTCCAGTCAGAGTGAGTTGCTTTCATGATTTCTGGATCGTCGAATTCCCAGGAAATTTCTGGAGCTTTTGGCATTGATGGCGGAGTATATGTATCGGCAATTGCGCCCGCCAATGTGCTAAGTGATGAATCATCCAAAGAAATTTTTGCAAGTTTGCCGCTTGTAGTGCCGCTAGTAATATCTAGTTTTTGCATGCGTGATTTTGAGAGCTCAGCAAGCGATTGACGGCTCTCGATTGTTACAGGTGCGAATTTGGCATTTTTTGTGTCCGCTACTTCAAGAGAGCGGGCTCCGGATCTTGCTTTGCCGACATATGATGCGCCGCTGCTCCCGGGTTTGATTGGCTCGGCCTTAACCTGCGAATAGTTGCCAGAGCCGCCAACTCCGCCTCCAGATGGTGCCGAGATACCGGATTTGCTTCCTCCACTGCTACTTGAGCCGAGTGTTACATTGCCTGCAAGTGAGCCAGATATTGTGCTGCCGGCTTGGATTAGTGAAGGTTCTCTTTTAAGTTCATTTGTAATAAAGTAGCTTGGAGCAGGTCTAAAGCTAGGTCCCCATGTAGTCCATGATCCTTTTCCTTTCCAATCCCATTTTCTTTTTTTAATAAATGTTTGAATTTTAGGTTGATCATAAACGTGCTCTTGTCTAACAATATCTGCATTTATTAACTTGCTACCACTAATTGCAATATTTCTGCGGGCACTAATACTACCTGCAGTATTATTCAAGTCTCTGGCACGAAGTGTTATATTGCCTCCAGATGATATAAGAGTTTTTTGGGGATCAATAGTTATAACGCCATCTCTATAAGTAGTTCTTGTTGTAATAACTGTTTCTAAGACTTGATCATGATATGATCCTCTATTAACTTCTTGACCACGAATTTGTACACTAGGTGCAATAGGCATATAAAGATGCAATTTTCCTTTATCAACTTGTACCATTTTATATTTTCGATCATTCCTAATATTCCCACCAGCTGTAATATACATAGTTCCAGTGCCAGTTAAACTGATTTGATTCTTATTAATCACATCGCCTGCAGCGTTTATGTTCATGCCGTTTCTTGCAATAATGCGTGCTTCGTTTGTTATGCTTCCACCAGTAGATTTTAATTTTACAGTTCCTCCATAAATGGAAGACTTGTTGCTGATGTTGCCGGATTGGGTGGTTGAAAGTGTTCCTGCCGCCTCTAGAACACTTGTATTTGTTAGTGAAGAGCTTTTTAAATCCATGCTTCCATAAGAAGTCATTACTCCCGAGTTATAAATAGAGCTTCCGCCTGATGCGGTGACATTACTATTTGATGCTATTCTGCCGCTATTAGTTAGATTACCGGAGATTCCAACTTTATCTTTACCTGATAAGCGTCCATAATTTGTTACTGTTCCTGCAATAGATAGAGCTTTTTGAGTTCTTATATCGGCTCTATTTTCTAATGTTCCACTAACAGTCATATTTTGTGTGCTTGAGATGCCTCCATAATTTGTAGTTTTAGTACCAGTTAGGCCAAGTGTAGTTCCGGATACTAAATATCCGGTAGATTTATTGTTTATGATAAGGGCTGAGACTACGAGTCCGCTTTTACCAAAAATTATTCCTTCATTAGTGAATGTTCCTCCACTTTTTGCGGTAGCTGTAAAACTTCTTGCTTTGAGAATTGCCCCGGATCTATTAGTTATAGAATTTGCTGTTATTCTAAGATCTGCGCCATCGATATACAATTTTCCAGTATTTACGTAATTGCCATTTATTGTAATATCAGATTTTCCTCCAGCTGTTAGGATGTTTGAGGTCAGATTAGTTACATTTAAACTTGCACCGCCAGAAAGTTCGGTACGTCCAGTATTGCTGAAAGTAGGGGCGGAAATTGACAATGTACGGCCTTTTAATGTCCCTGAATTTGTAACAGAATTAATGCCGGTAGTTGCATTCATCACACCAAAGTCAATTAGACCAGCATTCTTAATGGCTTTCGTATTGATCATAGTAACTCTGCTTGAAGATGAGATGCCTGCACCGGACTTATTATCTACTATTTTTGCTGTTTTTAGTGTTAGTTCGGAAGCATTTATTTCTCCGCTATTACTAATTGTATCTGCAGCTGAGATTTCAAGAGCTTTTGACCCTAAAATTAGGCCTGTATTTATAACATCCTTATCTCTTGCTGTAATAGTGGCACCATTACCGAGTTCCATATTTTGACTATTTATTACACTATTTTTTGCGCTAATTGCACCACCTGTTTTAGAATACATAACACCTAAATTTTCAATATCCCTAGAGGTAGCTGTTACATTTAGTTTATCGCCCTGTAAGTAGCCATTTTTTAGACTAGTAGAATCATTCTTAACAGAGGTAGCTCTAATATTTACAGTTCCATCATTTGTTAGAACATTTCCTGAATCATTATGAAAGCTTCCACTAGTTGTTGTAATATTTATATCTCCTGTTGCTTGTAGGGTACCTGTAGAGCTAATATCATCGTGGGAAGTTAGGTTAAGATTGGAGTTAGTTGAAATTATATTACTTTTAACAGTTATTCCTTCAGTTTCTGCATTAATGGTTATCCCCTCTTTTGACTTGATTATACCCTTAGTATGAGTAACTTCTGTTTTTGCAGTTAAGTCTATAGATCCGCCATCGGATAACATAGCGCCAGAATTTTCAATTGATCCATCTTCGCTAACAACAGTTAGAGCTTGATTTGATTCGATTAGACCTAAGTTTTCTATACCTTCACTTGATTTTGCAGTAATTTTTCCAGATTTAGATAAGATAATCTCTTGGTTTTGTATTTTGTCTTCAGTGGATTCTAATGCAACGTCGCTAGTTGCTTGAATAATACCTGAATTTTCAATTGCTTCTTTAGTTAGAGCATTAATTTTGCCCATAATAATTAGAGAATCTTTACCTTCAAAGCCTGCTGTAATAGTACCTTTATTTTGAAAGCTTCGAGATGGTGAAAGACTATCAAAACTTCTGATATCTAGGCCTTTTAGCCCTTGGATGGCACCGCCATTTAGGTTTTGTACGTCGCCATCTACCCTAAGTGCTATGGATTCTCCAGCTATCATATTCCCCGAATCATTTAAGACTGAGTTTGGAGTTAAAATTTCTAAGGACTTTCCAGATTCTAAGTGAGCTTTAGTGTTTTCAAAACCTAGGGTTGCCTCAATAGTCGACTTACCTGCCACAACTATGCCGCTTTTGCTGAACCTACTTGGATCCGAATTTGCATTCTTTACATGGCCTTTTTTACTGATTATTGTTAAATTGCCACCGGATTTAATAAGTCCAGAATCAATATTATCAATATCATCAACAGCTAATAATTTTGTAGATTGTTTAGAGTTAATTTGTCCTAGGTTTGCAATTGATTTTCCATCTATTTCTATAGTTCCACCGCTTAACGTAAGACCTTTATTTTCTATAGATGATTCGGCCAGTAATTTTGTAGATTTTACAGCGTTAATTTGTCCATTATTTATTACTGAGTGTCCAGTAATATCTGTGTTTCTATAACTGAGAATGTGGCCATTATTTTCTATAGCTTTTTCTGATCTGAGTAAAACATCACTAATTGCTCCTATTACGCCATCATTGGTAATTGATTGTGTTTCAGATGATATTGTCACTTTTTTTTCAGATCTTACTTGTCCTTTGGTTCCATTAAGAATGTCTTCTTCAGCTTTAATATCAATATTATTTTCCGAAATCACAGTGCCATTATTAACAATGTCCTTATCGGCTATAACTTCTGAGCCCAGCTCTGAACTAATACTACCGCTTTCTCTATTAATAATATTTTCGCCAGATTTGATATTGGCTTTACCATTTAGCGCTAATATTTCTCCTTCGTTATCTATGTCATCTTCCGCAAGCAGCGTAAGATTTTTACCTGATCCAATATTAGCTCTTTTGCTATTGATGAATTTGCCTGATGTTTCGAGCTTCGTATCATTAGAGGCAAGTATTGAACCAGAATTATTTATATTTTCTGATCCAATAGAAGTAATATTCTGATGTGCGATAATTGAACCAGAGTTTTCTAAATCATCACGGGCAGTTAGTGTTACTGAGTCTGTTTTACTTTCTATTTTTCCTTGATTGTTAAATTCAGCTGATTTTGAAGTTATTTCTTGAGATCCTATTGATTTGATTACCCCAGAAACTGAGTTAATAAAAGCTTGTACACTGGATAAAACAATATTACTGTCAGAATAAATACTACCTGAATTATCTAGAGTGCTACCTGTATCTGCAGAAATAGATTTTTTGGCTTCAATATGTCCTTTATTTTCTATTTTTCCACTGGACTTTAGTAACATGCCTCTTTTAGAGACTATAACTGATTCGCGATCATTTAGCAGATTTCCTCCAGTATTTAATACTAAATTTTTAGTCGTAAATAATAAACCGGCTTCGTTAGAAAAATCATTTGCAAGACTAATGTTTGCTTTTCCTAATGATTTAATAGTGCCTGAATTCAATAGTCCACCTTGATTTGAGATTATGTCTAGCAAACTAGTAAGTATAGTATCACTATTTTCTATATCTCCTCTGGTGGTAATACTTATTGTAGGCGCTGAAATTTTTCCAGAATTTATTAGTCTTTGCGTTTTTGAAGTAATTTTCAGTGGTGCTTTGACTGTAGCTATATTTCCAGTATTAATAAAATCTAGATAAGTGTTAAATAATCCACCATTTGATGATACGATTGTTCCATAATTTGCTATTTTTCCAGACTTAGATAAGATTTCCAATCTGCTCGAATAGAAATTGCCTATATTAGCAAAATTATTATCCAAGTATATTAGTGCTTTTTCGTGAGTATGTATTTCTGAGCCTAGGGTATTTTCAAATTCACTACCACTAAAACTAATACTTTTCGATTTGATTAGTCCTGAGTTTACTAATTTTCCTGATTCCGAGACTATTCTAAAGTTTTCTGTCGTGATGCTTCCAGCATTAGAAAAATTCCCTGACAACAATACTATAGAGTCATTTTGAGTGTAGATTTCAGCATTTTCAGAGTTTTCAAAATTATCTCCACCATATTTCGAAGTTTTGGAGATAATTTTTCCAGTATTATGGAAGCCATTTTGGAACTGAGCTGCGAGGATTAAGTCTGTTTTTATTATACCATTATTTTCTATGGAGTTTTGTGAGTCAATTGATATATTGCCTAGAGTTCCAGGTCCAGTAAGGATAATACCATTGTTTTTTACACTGACTGTATCTAAAGATACGCCTTTCTTACCTTGGGATGCGATTATTCCTTGATTTTTTATCTCTCCATCTGAAGATACTAGGTGAATAGAGGCTTGAGATGCAATAGCTGATCCATTTTCGATTTCAATACCTTTTTTAGCGATATATTGAGTGTCCCCTTGGGCAATAGATTTTTTGCCAGATGAGGATATGATTTTATCATTAGTTGATACTATTTTAAGTTTATCTGCGGATGAAATATTTTTATGAGTTATCTTTCCATCTGCTGTAATTTCAATATCTCCAGTAGTTGATTGGATATCGGGAAAATTGACTCCAACGCCTGATTCAGAGCTAACTAATCTAATTTTACCTGCATATAAACCTCCGAGTTTAGAAGTGTCGATAGCAAGTGACGGTGCACCAGTATCAACATGTTTTGGATTTAGCTTTTTGCTTTTTACATTATACTCACCAGTACCTGTAACAACACTTAATTCGGTATCTTGACTATCTTCAAGCATCCTATCTCTTTTAGCATAAATAGCAGTGTTCAATTTTACCGATCTTGCAATAATCTCAAAGTAGTCAAGATTTGATAAATCTATATCTACTCCATCAATTTCAATATCCCCTTTCTCTACTAGAAATTTTTCTAGCTGACCACTTGAATCTAGTAGAACTTTACCAGTTGTATAAATTGCACTCTGAGTGTTGATAAATTCTCCGCCATTTACAGAAATTCCATTAGGATTAGCTAGTATGTAATCAGCTGATTTACCCAAAATTTCTTGTGGCCCATAGATTTGAGATCTACTTGTTCCAGTTACTTCATTTATGATAGTATTTGCAGAGTGCGTTAAGTTTGCATTTCCCGCTACTACACCGCCAATTTTAGATACGGCGTTTATAGAACTGTTATTAATAATAGCTCCTCTTGTTCCTACGTTAAAATCTGTGAAGTGATTATGTGATACGCCCGCGAAATTTGGATCGTTGATATTAACCACAGGTATATTATTTGCTGATTTATCCATATAGACATTATTGCCAGAAATATTACTATCTGGAACAATCGTTGTAGCTAGAGCATAAGAGGTGAAGCAATTAGAAAGGGTCAGCATTACTGCTAGAAAATGTGCTAAGACTTTACTAGTAAGATGCTTAATATTGTACCCTAACTTGAACATTATCGCCTCTAGGCATTTGTTAAGAATAGTTCTTTAAAACTATTCTTAATTAAATATCTATAAAGATAACTTAATTCACTATTAATTATAAATCAACTTATAGTTGTATAAACTATTATTTTTGAATGTAAGTCAAGAATAAAAATTAGTTAGTTTCTATAATATCTAGAGGAAAATTATCTTTCATTGTAAGTACACCAATTCATTGACGACGTGATCTTGATAACGTAAATTATTCATAACTTATATTTTATAAAACGTATATTTTAGCTATGCTAGATTTAGATCCAGTCCTACTTGCTCGTATTCAATTTGCTTTTACTGTCAGCTTTCATATTGTATTTCCTGCTTTTACGATTGGTCTTGCCAGTTGGCTAGCAGTGCTTGAATGGAGATGGCTTAAAACTGGTTATCAGATATACCAAGAATTATATAAGATGTGGATTAAGATATTTGCCGTATGTTTTGGTATGGGTGTTGTATCTGGTGTTGTAATGTCTTACCAATTTGGCACGAATTGGTCGGTATTTTCTGATAGGGTAGGTAATGTTATTGGACCACTGCTTGGTTATGAAGTGCTAACTGCATTCTTTTTAGAAGCTTCTTTTCTAGGGATTATGCTTTTTGGTTGGGGCAGAGTTAGTAAAAAAATGCATTTTATTTCAACTTGCATCGTAGCAATTGGAACTTTTATATCTGCGTTTTGGATAATATCAGCAAATAGTTGGATGCAAACACCTCAAGGATTTGAAATAGGTAGCGATGGATTATTATATCCAACCAGTTGGTTTGAGATAATATTTAATCCTTCATTTCCGTATCGTCTTGTTCATATGTTGCTTGCAGCATATCTAACTACAGCTTTTACAATTGGTGGTATTAGCGCATATTATTTATGGCGTAATGTACATGTTAAGCATGCTAAAATAATGTTTGCAATGGCAATGTTAATGGCTGTTTTTGTTGCGCCAATACAGCTTCTTGCTGGTGACGCACATGGGTTGAATACTCTTGAACACCAACCAGCTAAAATTGCAGCAATGGAAGGTGTATGGGAAACTGAACGCGGTGCAGGGCTAAGGCTTTTTGCTATTCCGGATCAAGAAGGTGAGACTAATCATTATGAGATAATAATTCCAAAATTAGCGAGCATAATATTAACTCATAGTTTGGATGGGGAGATAAAAGGGCTTAAAGAATGGAAGCCAGATGATAGACCACCTGTGACTATTACTTTTTGGTCTTTTAGGATTATGGTTGGAATTGGTTTTGCAATGATATTTACGGGTTTAGTTGCAGTTATCTTGTTTTTCCGCAAAAAGCTATTTGAAACAAAATGGTTCCAGTATTGGTGTATAGCTATGACGCCATCAGGTTTTATTGCTCTTCTTGCAGGTTGGTTTGTAACAGAAGTTGGTAGGCAACCATATGTTGCTTACGGCATTATTCGTACAAGTGAAGGGGTATCACCTGTTATTAGCGAGCAGATAGCTATTACTTTGCTGCTATTTATTATCACTTATCTGTTTGTTTTTGGAGCAGGAAGCTTTTATATCATCAAATTAATTCGCAAAGGTCCGCAAATTGCCAATGATGATGAAGAGTTTTATAGTCATTCTATAGAAGCATCAATTACAAAAAAATTAACTACTCAAAAAGTGGAGGAATAGGAATGTTAGATTTTTCAGCTTATATTGACCTTCCTTTTATTTGGGGCTTTATCATTGCAACAGCAGTCTTTCTTTATGCCGCTCTTGATGGGTTTGACCTTGGTTGCGGTATTATATTTCCATTTGCTCCTTCTGATAAATGCCGTGATTCTATTATGAACTCTATTGCACCATTTTGGGATGGAAATGAAACTTGGTTAGTGCTTGGTGGTGGCGGACTATTTGCTTCTTTCCCATTAGCATACTCAATTCTAATGCCAGCTTTCTATATACCGATTATGTTAATGCTTCTTGGTCTAATATTTCGCGGTGTAGCTTTTGAATTTCGTTTTAAGGCGAGTAGTGATCACAGAAAAATATGGGATGTAGCATTTCATGGCGGTTCTCTCATGGCAGCTTTTATGCAGGGAATTATCTTAGGTAATTTTGTACAAGGTGTTGAAGTTGATGGAAGAAATTTTGCTGGTGGCGCGCTTGATTGGGCAAATGGTTTTAGTGTGATTGCAGGTCTTGGAGTAGTATTTGCATACGCACTGCTTGGCTCAACTTGGATTATCATGAAGACAAATGGTATTACTCAAGAATGGGCTAGGAAAGTAGCTTCATATGTTTTAGTCTATGTAGCAATATCAATGGGTACTATAAGTATTTCAATGCCATTTGTAGAAGAGAGAATAATAAAATTATGGTTTAGTATGCCAAATTTCTTTTATTTATTACCTATACCACTTTTAACGTTGGTTGGCTTTATAAGATTATGGTTAGATTTAAGATCTGATAAAGAAACTAGACCTTTTGTTATCACTTTAATTTTGTTTTTTCTTGGATATCTAGGTCTTGGAATAAGCCTATATCCATGGATAGTTCCGTTTAAGTTTACAATTTGGCAGGCTGCTGCAAGTTCAACATCTCAATCGATATTGCTGATAGGTACAGCGATATTCTTGCCAATTATTTTATGCTATACAGCCTATAGCTACTATATATTCAGAGGAAAGACTAGCTCTGATCCGATGTATTAAATGGGTGATAACTATGAGTAAACTATTTAAGAATAAACTTAGTAAAAAACAAACTCAATGGCTTTGGTTCATTGCGCTCTGGCTTGGTGGTTTTACTACGGTCTACATAATTGCTTATATAATAAAGTTAGCGATGAGAATAGCTTAACTCTCAAGTCATAATCTACTCGACTAAAACTAAATCTAAGCTTGATTCTCCTCCCATTTTAACTTCATCATTATCAGGTGCATATGAGCTCAAATCTATATTACGATCATAAAAACCATCACTATTTTCCCAATTATGATCTACAGATACTACTATTGAATCCTCAAATTCTGATTTTATAATTTTACAAACAGAACCAAATGTGCCTCTATCTAGGTTGGCTAAGGTTTCATCTATAGTAAATAACACTGGTGAGTTTAGATAGTGCTTACATATTATTGCAGCAATTAATATAGTGATTTTTCCTTGCCCAGTACTACCTTTAAACTCTTTGCTGGATAAAGTTTTTTCTGAAAAACTATTTTGACCAAACATTTTAAATAGATCCAGAATTTCCTTAGCAAGAGAAGTAGCATTACTATCAACATATTGTTGAGGTAGTCTATAAGTTAATCTTTCAAATAATGTTGTGTCTGGAGAGCTAAAAGGTGTAGGGTCACAAAATATCATTGGAATTTTTTTGCCATTAACCGTTGGGTAATAAATTGTTCCAGAGCTTTCAAATACTCCACTATTTAAGCAATTAGCAATATCAGACAGGAAGGTTGTTTTTCCTGTTCCTATTTTTCCAGAAATTGCATATATGTAACCTGGTTTAAGAGTTAAATCTTTTATATATAACATATCTTTAGATATAGATGTGTTTTTCAGATTATAATTTTCTATTCTTAGAGAAAAATCTTTTTCTAAACCTCTAGATGCAATTCCTATTTGCTTTGGATTAGTTAGGGCTTTATAAGTTTTCTCACATCTTGATAGAGTATCGAGACTATCTCCACCAAATGAAGTAGTAATATTTCCGTTAAAAGTTGATGGTTGGAGTACTGAATTGAGTCTTTGAAGCAAGATTTCAATTTTTTGTATGTCTTCGGGTGAAGAAATATTTAAACTTGGTAACAACGTAAAAAACATTGCATCATTGAAAAATGTTCTAACATATTCAAATAACGATAAAACGAAGTTTGAATCAAAATTATTAGTGGAGTTTTGTCCATAAATATATTTCTTAACTTGGTTAAGCATAAACTTATTTCCTCCACATCTTGCAATATCTTGAAGATTTCGATAAGCATATTGTTCAGCAGAAATTTGCATCGTGATAGTAGGTCCACCATTACCTGTTTGGATTACTGTTTTACCTACTCCTGGACCAGGAGTTGTTTCTTTTGAGGAGTCTCCTACTAAATATTGATAAAGCGCTCTAATATTATCTTGAGATAATACTGAGCTCATTACATTCTCAAATAATATCAAATTTGGATATAATTCTATAATAGAAGACAAATTGTCTGATGAAGGAGTATTGTTTGCATAAATATATGGAACAATTAATTTTTGTGATAGATGAGTAATTTCAGAGCTTACAGTCTGATTAGCTGACTTCATATCATCTGCAAAACTATTTACATCATTTTTTAGTTTCATAACAACGGGTGTGACCTCTTCGTTTAAAACTAGTTCAGAAACTTTTATTGAAACTTCTTCATCTATGCTAAGCTTTTTTGCAACAAAGATATTTGCTCCACTATCGATAATAAATCTGATGGCTGATAGTACAAGATTTTTAAAAACTTTTTGAAGTCCATCTTTTTCATTTGAAGCATAATAAATAGAAAGCTTTGAATTTGAGACTAAACCACTTAGAAATTTCTCTAGAACTATTAATTTAGCTATATTTACACCTTGTTTGACAAATAAGTTAACTAAAAACTTATTTGATAGTAATGCCCTAAAGTTTTTTGCTATTTCGCTTAATCCGCTGAATGTATTTTTACTGAAAGCTTGTTCAACTTTTGTTACTTCTTGTTGATCGCTTTCAAATAATTTTGCTGATACAGAAGCTGATCTTAACATTTTACTGAAATCTTGGTTTTCCGAAGCTAGAAAATCGTTGCCTTTCCATACCATGCTAATAGCAGAAAGTGCAAAGAATAATTTCATGGGCATTTTATATTTAGAAGATACGTATTCAGAAGCATCTAAATTAGATATAGCTTTATAAGCTATATATCCCCAAAATCCCGAAAGACCAGCATAGTGGCGTGTCGTGCCAAAATACTTTGCCATTGCCCCATCTACTAAGGAAGTAGATGCTGTAATAGGTAATGATTCTTTCCCAAAATAGTTATAAGAACTATATAGGGTCATTAGTTGTTCAAAAGATGGTAGATAATTTCCAACCTGGTTCATTGCCTATTTTACCTCCAAAGTAGCAGATCAATTTGTATTTAAAAATAATGAAATTATATTAATATTTGTGTTGTGTCAAGAATCATTGTTTGTTCTTTCTAAATAGCAGTAACATGAATCCAAAGGACATTAGAGCTATAGAAAGCCATATGAAGCTAATAAGTGGTTGATAATGGATCTTTGCATAAACTATTTTCTTTTTATCGATCTGGCTAAGAACGGCATACGTGTCGTGAAACAAATAGGAATAGATATCGACTTCTTGCGAGAGTATATTTTCAATCTTATATAACCTGTTTTCCGGTTTTAAAATTGTAATTTTATTATCAGGAGATTCAATAGAAAATTCAGCAATCTGGCGAAAATATGTTTCACTATCGGCAAATTTAATATTTTCTAGCTTAACTACTAATCCTTGATCTTCAATTCTTTTTCCAGTCCTGCCTATAAATTCAACCTCTCTTGACAAGGATACATTTAATGTGATGCTAAGAGCTAGTAATCCAAATCCAAAATGTCCAAAAAATAACGCATAGGATTTAGCTTGTAAAGTACGAGAAAAATAATTCGATTCTTGAACTAAATAATCACAACTATGGATAAGTAGATACGCCGAAGCAAAGCTGAATATTTGAGCCATGAAAGTTAAATTTAACCATTTTGCTAAGCCAAAAGATATAGTAATTGCAGTGACAAAAATTAGTATTTTTTTAGTATAATCTGTTCTTAATAAAGATGGAGTTATTGCGGTAAGAATAAGTATAGGAATATGAATTGGAATATATACTTTTTTGAAATATTCAGGATCAATAACTACGTCTGTTCCATCGATAAGTAAGCAGTAAATTGGATATATAAGCGAGATTATAAGAGAAACTAGAGCTGCAAGCCACAATATATTTCCAAATAGAATTCCATAAGATTTTATACTATATTTTGCTGGCATTGTTGGGATAGATGATTTCTGCCAGAAAAATACCCCAAGACTTAAAATTGTTAAAACACCGCAGATAGAGAAAATATACAGACCTCTCTCCGGAGAAAAGGCAAATGCATGAATTGACGAAATAATGCCACTTCTAACTATAAATGTTCCATAAATGGTTAAAAGAAAGCAAAGTAGTGATAGAAATATAGTCCAAGATATATATTGATCTTTTCGCATGGATAGTAGGATAAAATGATGTAGCGCAATTGCTGATAGCCATGGCAGTAGAGAAATATTTTCAACAGGATCAAAAAACCAATAACCCCCCCAGCCTAGTTCTCTATATGCCCACCATGCTCCAAGCCCAATACCAGCTGTCAGTGCCATTAGCGCAAAGCTAGAGAATGTCTTATTAATTTGCAGAATTTCCTTTTTTTCAAGAGGTTTGTATAGTAATAGAATTCCACCAGCAAAAAGTCCTATATAGCTAACTAGTCCTGTATATAGTAGAGGAGGGTGAATAGCTAGAGCAATATCTTGGAGCATTGGATTTAAACCTAATCCTTCTTCTGGAGTAAAAGATAGGGGATCGAAGGGGCTTGATGTAAAAATTATAAAACTACAAAATAATATTTGAATAAAGGCCAAGATCATGGCTCCTAATTCTTTTGAGTGTGTTGAAAATTTTGCAAAGTATATGTACATAAAGCTTGCAATACAAAGTAAGCTATACCAAAGAAGAATAGAACCTTCGTGACTTGCCCAGCAGGCGGAAATTTTATAGATATCTGGTAGTAACGTGCTGGAGTTGAAAAATACGTTCTTCAAGCTAAAATCAGAAGTAATAAATGCATAAATAAGCAAAAATAAAGCGAAAATTGGCAGTAATGATGCGGAATAAAAGCAGAGTAATTTACTTCTGCCGCGCAAAATAACGGCTAGTAATGCGGATATTAAAGAACAAAAAAGTAGTAAATTTCCAGTAAGACTAATCACTTTTTTCTTCCGTATCTTTTTGAATAAATACTTGGATAGTTTTTATACGATTTTCTGATTTCTTTTTAACTATCATTTTGAGATTTTTCTCAATTAGAAACTCTCCTTGATTAGGCAATCTCTCCATTTTAGTTATTATAAACCCGGCAAGCGTAGTTGCATCACTTTCAGGAATTTGCCAGTTAAATTCTCTATTTAAATCTCTAATTGGGACTGAGCCATCAATAATAAATTCATTTTCTGATTTTGCTTTGATTTTACTTTTTCCTGTATCATGTTCATCGTATATTTGACCAACTATTTCTTCAAGAATATCCTCAAGAGTAATAATTCCTTGTAGATCACCATATTCATTAACAACACACGCAAGGTGAGTTTGTCCTTCTCGAAACATTTGAAGTTGTTGTGTAACTAATGAATTATCAGGAACAAAGACAGTATCACTAAGCAGTGATCGTACGTCTATTTCAGTGTTTTTAGATTTCGTATCATATATTTTGCTTAAAAGGTCTCTTACATGCAAAATTCCAATTATATTATCATGATTATCTTCCCAAAACGGAATCCTTGTATGATTAGATGATAAAACAGTTTTAATAATTTTATCAGTAGGCGTATCAATATTAATTGCAACAATATTACTTCTATGAATCATGATGTCTGCGATCACTAGATTTCGTATGTCAAGAATTCCTCCAAGCATATCACGATCATCTTTGAACACATTCCCTTCACTTAAGTGATGCTCAATAACGCCGCGTACTTCATCTGCAGCTGAGACCTTTTGTTTTAAATCTATTCTAAAAATAAAGCAAAATCCTCTTGTTATATAACCAAGTGCAATATTGATTGGCTGCAATATTTTAAGAAATACAAGAAGCACTGGAGTAGCCATTAATGCTACTTTCTCTGATTTTGCAACGGCAATTGCTTTTGGTATTACTTCCGAAAAAACAATTATAGTAAATGACATTACAATTGAAGATATTAATGTACCCATATCGTCACCAAATGTTTCAATAAAAACACCTGTAGCAATTGTGGTGCACAAAGTATTTGCAATACTGTTTCCAATTAAGAGAGTACTAATTACTTTTTCCTTAATTTTGAGTAATCCAAGCAGAAGCTCTGCCTTTTTGTTGCCTTCTGACTTGAGTTTTTGGATTAACCCTGGAGATGTTGCGGTTATTGCAGTCTCAGTTGCAGAGATTAGTGCTGCTAGCCCAAGGAGTGCAGCGATGAAAGATACAACAATAAAAAGCATTAATTTATTTTTTTAAAAAAATCAGTTTCTGGATTCTAATTTAATTGATATTATCTGCTTTTGACAAGAATTTTCGTATAAATTACACAAATATAGTATAAGCAGAGGAAAGATTTTATGACAAATGACAGTGAGTTAAAAGAGCTACTAGAAACAAAAAATACTACAAAAAGAGTTGTTGCCCCTGCTCTTGAAGAGATGCTATATAAGCCAATTCCTGTTTTAGATCATGGTTTTATCAGGGTTGTAGATTATATGGGAGATGATAGCTCGATAGTTCAAGCTGCTAGAGTATCATATGGACGCGGTACAAAAAAAAGCTTGCAAGATAAAGGTCTTATCAACTATTTGATGCGTCATCGTCATACAACGCCTTTTGAGATGTGTGATATAAAATTTCACATTAAACTGCCTATTTTTATTGCAAGACAGTGGATTCGTCATAGAACAGCCAGTGTGAATGAATATTCTGCTAGATATTCTATCTTAAGCAACGAATTTTATGTTCCAAAAAAAGTTAATTTAAGTGCTCAATCGACAATAAATAAGCAAGGGCGTAGTGACGATGAATTACCAGATGATGTGGCAGATAAAGTCCTAGCACTTATTAAAGACGACTCCGAGAAGTGCTATAGACATTATGTTGAGATGATGAATGAAGATGATCAAGGTAATATAATTGATGAAAATACTATAGGTATCACAAGAGAGCTTGCAAGAATGAATTTAACTCTAAATCATTATACAGAATGGTATTGGAAAATTAATTTGCATAACTTGCTACACTTTTTGGCTCTTCGTGCAGATTCTCATGCGCAATATGAAATTAGAGTTTATGCACAAGCAATGCTAGATGTCGTAAAAGCTTGGGTGCCTTATGCATATGAGGCATTTGTGGAGCATAGTATGAATGGAACAAATATTTCAAGAAAAGGAATGGAAGTGATTCGTCAGATGATTGATGGAAAAGAAGTAAGCCAAGAATCAAGCGGCATGAGCAAGAGAGAATGGTCGGAGCTAATGGCTGTAATTGAAAACTCTAAATAATATTTGTTATTGGTTATCTTATAAGTTAGGTTGTACTAAATAGAGAATCATACCACATATGCAAAATTAAGTATGAACAAAGCAATAATTATTTGTGGTCCGACGGCTAGTGGCAAAACTGATTTTGCTCATAAGCTAGCACTGAAAAATAATGGTGAGATTGTCAATGCTGATTCAATGCAGTTATATAAGCAATTGCCAATTATTACTGCATCACCTGACCAAAAGCTAAAAGATCAGCTGCCGTATCACTTATATAATTTTCAAGACATAGATCAAGAGTTATCTGCTGCAAAATATGTGGATATGGCTAGTGAGGTTATTCGAACAATATCTTTAAAAGGTAAGTTACCAATAATTGTAGGTGGTAGTGGCATGTATATTAATATGCTTGCCAATGGCTATAGTGTGATACCTGAGATTGATGAGGAGATTCGTCGATATGCTAGATTATTGCATAAAGAGATTGGAGCTGAATTATTCTTTGAGGAGCTTAAAAAACTAGATCCCAAAATTATAAAAAATTTAAATATCTCGGATACTCAGAGAACAATTAGAGCTTACGAAGTAATGAAACAAACGGGTAAGTCAATTTTAGATTTTCAAAAAGAAAAAAACTTTGAGCCACTTCCTGATTTTAAATTTAGGATTATATTTCTTCTTCCTGAGCGCAATTTCTTATATGAAACATGTAATAAGCGGTTAAAAATATTATTTGATTCAGGAGGAGTTGAAGAAGTAAAGCTAGCTTATAAAAATTTTGGAGATATTCAAACTACTGGTATGAAAGCTCTAGGTGTACAAGAAATTATTCAATACATAAAAGGAGCTATTTCTTTAGATGATGTAATAGAGCTTGCTAGTGCGAAAACAAGGCAATACGCAAAAAGACAAACTACATGGTTTAAGAAACAAATCAAAGTAGACCAAATTATTAATTTTAGTTCAATTAAAGAATATAGTGAAGAAGTAGAGAGTTTTTATCTTAAATAGCGATTTAAACGCAAATTAAGGATAAAAAAACTTGCATAATATTTCCCTAAACGTCTATTTTTAAGCAAAAAATAACCAAAAATACTCGAGTATCTGCGGTTATACTGAATTTTTTACCTAAAACTAGGCAGTTTTATATAAAAATCTACTAAATTTCTTATCCTTAATTTGCTTTTTAAATTCGCGTTGTAGCAGTTCCCCTAATTCAAATTTAGAAAATAATTTGAATTTTTTATTTCAAGTAATCCTTTAGGAAGTTTCTGCTTTAGCTTGTAGATATGGGTTTCAATAGTAGTAGATTCTGTATCACGATGGTGATCCCAAACAGTTTGTTGCAAACTCTCTTTATCAGTAGTAAATTCATTGCTGATTAATATGGCTTTAAATAAATCATTTTCTTTATTAGTCAGAACTATTTCGCTATTCTTTGAAAGCAGCACGCTTGCTCTTTCATTATAGATCCAGCTATGATTAATTGGACAAAATAAGCTTGTATCTTTAGCATTTTTGGAAATTATATGAACAATATCTTGTAGAAAAAAAGGTTTCTGTATTTCTATTTCTCTCTTTAGAATTTTTTCTTTTGTTAGATTAATAACAATATTAGCCCGAAATAGAGAAGAAATATCCAAGTCTTCTTTTGTATCAATAATTAGTATATCAGCTTTTTCAAAAGAATTTATAGAATGATAATTATTAAATATATAGTCAGTATTATCAGAAAGTGCATTTAATAGTATATCGTTCTTACTTACTACAAAGTAATCTTTTTTTGTTAAATCTGATAGTGTCATCTATTTACTATTACTTACTCCTTTAGCCGTTTGACCCTTTTCTACCCAAAATCCTTCCGAAGGTGATAAATCAGATGAGACAGCTCCTCTGTCATCAAATACAAAACATTCTCCCTTCCAGGTGTTGTTTACATTTTTTGTATCTTCAAGATATTGAAGAATGCCGCCTTTTAAGTGAAATACTTCTTTCACACCCATATCTTTAAGAAGAGCGGTAGATTTTTCGCATCGAATACCGCCGGTACAGAACATGGCAACTTTTTTATCTTTTAGCATATCTAGATTTTGTTTGGTCCATTCTGGAAACTCTCTGAACGTTTCTGTCTTAGGGTCAACAGAGCCTTCAAATGTACCAACTTTGACTTCATAATTATTGCGAGTATCAATTGTGATAACATCATCCCTTTTGATAAAATCATCCCAGTCTTTAGTTTCTATATATTCACCTTTTAGATTTTCCACATCAAGATCGCTATATTTTAGTGCTACTATTTCCTTCTTAAGCTTCACTTTGGCCTTTGTGAAAGGTTGCTTATCGCAATAATTAACTTTGACACTAATTTCTTTTGCACCCGTTAATTTACGCATTTCTTTGATAAGATAGTGCAGATCTTCTTCTTTACCAGATATAGAACCATTTAGCCCTTCAGGAGCAACTAGAACTGTTCCATAAATAAATTTTTTCTTTGCACGTAATAAAATTTGGGGCTGTAAGATTGCAGGATCATTAATATTTGTAAAGGTATAGAAACTTAAGATAGCAATTTTGTTCTCATGATTGTCCATAATATTATATTTTTCTTATCTGTTAATTTTATTTCAATGGGATAGCAACAAACATTGTGTAATCTCCTCTCTTTACTAGAAGCACTACATTATTTCTTTCCGAATTGGATTGTTGTTCTTTGTAAATTTTATTAAATTCTTGGATATTTTCTATATTTTTCTGATCAATTGCAAGTATTAGATCTCCAATTCTAAGATCAAGAACTATACCTTGTTCATTTACTCCTACTATTACAATACCTGTCGCATTTTCATCTATATCTAGTTTGCTTCGTAAATTTGGTGAGATATTGCTAAAAGTAATGCCTGCTTTTTGCGTAGTATCTTCTTTTTCTAATACTTGTGGCGCTTCTTGAGGCTCAGTAGGTTCTGTAATTTTTGCAGTTAATATTACTGTTTTACTATTTCTTATAACAGTAAGTTTCACTTTATCTCCAATATGGCTATCAGCGACAAATAATTGTAGTTTTCTGGAGTTTAGTACAGGATGACCATTATATTTTGTAATTAAATCTCCTTGTTTTAATCCGGCTTGATCACCAGTTCCATCTGGTTTAACATTAACTACTAATACACCACTAGCTTCTTTTAATGACATTGCGTCTGCTAATTCCTGAGTAACTTCTTGTATACCAATATCAAGGCGACCGCGGCTAATTTTTCCTTTTTCTTTTAATTGCTTCATAATGTCTATGACAGTATTAGCAGGTATTGCAAAACCAATACCGATATTTGTTCCACCATTAATATCCGGTACAGATGTATTAATACCAACTACTTTGCCGTGAATATCATATAATGGTCCACCAGAGTTTCCAGTATTGATAGCTGCATCAGTTTGTAAGAAATCATCAACAAGTTCATCTTGGTTTAGTCCAAGGTCTCGGCTCTTTGAAGATATGATACCAGTTGTAACGGTTCCACCAAAACCAAGTGGGTTTCCTATTGCTATTACTACATCGCCAACGCGAACTTTGCTTGAATCTGCAAATTCTGCCGCCGGCAATTTTTTCTCAACATTAATTTTTAGTAGAGCAAGATCTGTTTTTGGATCAGTTCCAATAATCCTTGCAGGTACTTCAGTATTGTCTAAGAGTTTGATATATATTTCATCTGATCCAGATACTACATGATCATTTGTAATTATATATCCATCTGGATCTACAATAAATCCAGATCCTAAAGATAGGGTGCTTGGATTTGTTGATATATCGTCAAACGAGAAAGGTACATTAAATTGTTCAAAGAAGCTATTAAACTTATCCAGTGGCAATATTTCTGGTAGTGAAGCTGCTTTTGGATTTGGCTGCCTACTATATTTTACAGTGTAAATATTTACTACGCTAGGCATTAATGGTTCAATAATATCTGCAAAGCTTGTAATTTGAGTGGGCGCAGCAGCACTGACAGAGCTTACACGCGCCAGAATAATTATATAAACCAGTAATTTGCCTAATATTTTCATGATATTATTTTCCCACTTTCAAATATTTGAAAAATTCAGATTTTGGCGATAATACAAACTGAGTGTTATCTTTAGCCAAAGATTTCTTATAAGAGATTAATGATCTATAGAATTTATAAAATTCAGGATCTTTCGAATATGCTTGATTATATATTCTTGCAGATTCAGCATCACCTATACCTTTTACTTTTTGAGCATCCATAAAAGCAGTAGCTAAAATAATTTGGCTTTCTTTATCAGCGCGCGATTTGATTCTTACTGCTTCTTCCTCACCTTCAGCTCTGATTTGTTTTGCTTCTTTATGACGCTCAGTCTGCATTCTAGAGTAAATAGCATCACTATTTTCTTGTGGCAGGTCAGATTTTAGGATTCTAACATCTATGACTTTTATTCCAAAAGTTCCTGCTTCTTTGTGAACTAGATCACGAATTTGTAACATTAGATCCGATCTTTGATCTGATAAAAGAGCATTTAATGGAACTCTACCAATAACAGTTCTCATCGAAGATTCAAGGATTTTATTAAGACGCAAATTTGCTCCGGAATAGTTATTTACCGTTTTAATAAATTTAACTGGGCTGATTATTTGATATTTTGCAAAAGCATCAACAATTACTCTTTTTTCATCTGAGGCCGTTAATTCTTTCTCTTCAGCAGTAACATCTAAAATTCTCTTATCTAAAAATTGTACGTTTTGAATAAGTGGAATTTTAATGTTGAGACCAGGTTCCTCTATAATTCTAACAGCTTCACCAAACTGAAATATAACGCCTGTGTAACGTTGATCTACAGTAAATAATGATGCAGATAATAATAAGAAGGTAGAAAAAACTGCGATTATTGTTATATATAATTTATTCATTTTTTAGCTCTTCCTATTTTTTTTCAAACAAGTTTTTTTGATTTACGGACATGTGAGGTAGCATTCCATCTCCACCCATAATAATTTTATCAGATTCTTCAAGTATGGATTCTATTGTTTCCAAATATAGCCTATTTTTTGTTACATCCTTACTTGCAGCATATTGTCTATAAATTGCATTAAATCTAGAAGCATTACCTTTTGCTTTAGAAATTACCTCTTCTTTATAACCTTCTGCTTTTTGTATAATTCTTGCTGATTCACCTCGAGCTTTTGGTAATATGTCATTCATATAAGCTTCAGATTCATTAATTACTTTTTCTTTATCAGCTTTTGCAGTTTGGACATCACGGTAAGCGGCGATTACTTCCTTTGGTGGTTCAGCTTTTAGAAGCTTTACTTGCTCAATTTCAACACCTGACTCATATTGATCTAGAATTTGTTGAATTAATTCTTCGATTTGAACAGCTATAGCTTGCTTTTTGTTTGAAAGTACAGATGTAATATGTGTATTTCCTATAACTTCACGAATAGCACTCTCCGCTGCGGCCTTAACTGTTTCTTTAGGGTTGTCAATATTAAAAGTATATTGTGCAAGATTCTTAATATGCCACATGGCGTCGACATTTAATTCAATGATATTTTCGTCACCAGTTAGCATTAGACTTTCAGTTTTTACATCTCTTGCAGATGTAGCGCCGCCAATTCTTGCTCGACCAGTTGAACGATAGCCAATTTCAACTCTTCTTGATTGATCGACTCTTTCTATAATTTCTTTTTCAATTGGCCAAGGAAGATGATAGTTCAAACCAGGCAATCCAACTCTATGGAATTTACCAAATCTCATTACAATTGCTTGTTGGCCTTCTTCTACTTTATAAATTCCAGACGTCATCCAAATCAGAAGTAGAGCAGCTAAGATAAGAAAAATTGCCTTTCCACTAAAGTTAAAATTAAAATCATTCAAGTTAAATTGATCTTTTCTCTTTTTCGTGAAAATATTATCTTCATTATCCCCTTCAAAATCGTCCCAGGGCGATTTTTTAAATATTTGCATATATAATTTATTAATCATTAAATAGAACCACAGATTTTGTTTTGTTATAAGTAGTCGTCTGATATAATATATAAAAATTATAGAATATTGCAAGCATGACAAGTTCAAACGCAGAGAGAATTAAGACATTAACTGATAAATTATTATTTTCTGATGGTTCCTCTGTCAAATCAAGATCGTCAGATATAGTGATTAATAAGAATAGCCTCGGGTTTTCTATTGATATTAGTGGAATAGATCTAAAGGAAGCAGAAACAGTTCGCCAGCAAACAATATCATTGATTGAGCACAATGAAAATTTTGATAAGGTCAGCATTGTTTTAACTAGCTCGCGCTCAAGTAAGAAAGATGAGCATCCTAAGCTGCATGTGGATGGGGTAAAAGAGATTGTAGTGGTCGCCGCTGGAAAAGGTGGTGTTGGTAAATCAACAGTTGCGGCATTATTGGCGCATAAGCTAGCAAGTGAAGGAAAAAAAGTTGGTATTATTGATGCAGATATTTATGGTCCATCAATTCCACATATGTTGGATCTTAGTGGTAAGCCACATGTTGAAGATAAAAAAATGATTCCACTTGAGAATTATGGAATAAGCGTTAATTCCATTGGCTTTCTGACAGAACCTGGTGCATCGGTTAGCTGGCGTGGTCCAATGACAAGTAAGGCGCTGTATCAACTTCTTTCCTTAACAAAATGGGATGATTTAGATTGTCTTATAATTGATACTCCTCCAGGCACTGGTGATATTCACTTAAGTTTGCTGCAAAATTATATTGTTGATAAGGTGATTATGGTGGTAACGCCTCAGAAAATTGCAGAACTTGATGTAAGCAGAGCTATAAGCTTATATAGAAAATTTGATGTACCAGTGTTTGGAATTATCGAAAATATGACTCACTATATTGACCAAGATTCAGGAAAAGAAATTAGATTTTTTACGGGTGATAGTAGTGAAAAAATCTCGCAAGAAAACGATATTCCAGTGCTTACAAAACTCCCAATTACTCCAGAGCTATCTGCTGCATGTGATGCAGGGATAGATTTGAAAAAATTCACGCATCTTTTGGATTTTAATCTATAGGTTTGATTGCACTTTGAATTTGCAAATAACGAAGTTTATCGATGTTTTAGACAATTCTGGTGATTTCTGTTATAAATATAATACTTATCAAAAATTATAAAGAGGGGTTTTATGTTTATAGAATGGATGATTTTTCTGGTTATTGGGGGGGCGTTATTTTTACTAATTATATTTTATAACCGATTAGTAAAGCTTCGCCAGAATCGTAAAAATGCATTCTCTGATATTGATGTACAGCTCAAGCAAAGATTAGACCTTGTTCCTCAGTTGGTCAGCACCGTGAAGGGCTATGCTGAGCATGAATCGAAAGTTTTTGAAGAAGTTACAAAAATGCGCGCACAAGTGAATCCTAGCGCAGATGTTGCCGAAAGAGCAAAGGCAGAGGCTTCTTTAAGTGGATCATTGATGAATCTTTTTGCGGTAGCAGAAAATTATCCTGATTTAAAAGCTGATATTAGTTTCCAGCGTCTGCAGACAGAGCTTTCGGATATAGAAAATAAGATTGCAGCTGCTAGACGATACTTTAATAATGCTACAAATGAGTACAATACGGCTTGTGAGCAATTTCCCTCAAATGTTATAGCTAGTATGATGTCTTTTAAGCAGGAAGAATTTTTTGATGTTCCAGATTCGCAAAGAGAAGCAATAGAAAAAGCTCCTGAAATTAAGTTTTAAGAGCGTTATTTTATGAAGCGTAGTGATATTCATAAAGTTGGTATTCAAACCAGTATTTGGAATAACAATTTAAAATCGGCATTTTTGTTGATTAGTTTCCCTTTTGTAATTGCAATGATGTTTTGGGGAATGATATTTGCATTTCAATTAGTTGCAATTAGTCAAGACGGAATATTTTGGGGAGATGCAGCGCATATTGCCAATGATGTGTTATTACAATATTGGTGGGTTGTATTTTCGGGTGTTGGTATATGGTTTGCAATTGCGTGGTTTTCTCATCAAAGTTTGATTAATAAGGATACAAAAGCAAGGCCAGCGGTTCGCTCAGAAACTCCTGAAATATATAATATTCTGGAAAATTTATGTATTAGTCGTGGGCTAACTATGCCAAAGCTATTTATTATTGATTCTCCGGTATTGAATGCTTATGCAAGTGGTATTAATCAAAAGACATATGCTATTACGCTTACAACTGGACTTATAGAAAAGTTAGAAAAAGATGAGCTAGAGACTGTTATAGCGCATGAGCTTACTCATATTATGAATCGTGATGTTCGTCTTTTGATAATTTCTGTGATTTTTGTAGGTATTATCAGCTTATTGTCTGAAATGATGGTCAGAGGTGTGATGCGCAGCACATTATATTCCGATAATAGCAATAGAAGAAAGGGAAGGAAAGGATCTAGTGGCGCTATTCTAGCGGCTGTTGTAATAATAATTCTTGTTGCAACTATTGGTTATTCTCTTTCAATCTTAATTCGTTTTACTCTTTCTAGAAAAAGAGAGTATTTAGCAGATGCTGGAGCAGTAGAGCTAACTAAAAATAGTCCAGCCTTAATTCGCGCGCTGCAGAAAATATCAGGTAACTCGCATCTCGAAGATGTTGATAGTGACGTCCAGCAGATGATGTTTGATAATCAAAAGTCATTCCTTGGCCTTTTCGCAACTCATCCTCCAATTGAATCAAGAATAGATGTATTGAAGAATTTCTAATTGCTTTATAAGTGAACCGTTGCTACTTCTCAGGATTTAGAAATTCTTTCATAGAAACTTCGAGTGAGTTTGCTATATTCATCATGGAGTTAAGACTGATCTGATTTTTACCAATTTCATATTGATCAAGCAGATTAACGCTAATATGCGATAATTTTGATATCTTCTTTAATGTCATACGTTTTTTCTTACGAATATCATGTATATTTTGTCCAATATTCTTGCGTATTTCTCTGAATTCCTTTCTATTGTCGATCATTATTTTCTCCCATTATATAGATTTGGTATCGGGAGCCAAAAACACGTTATGATACCTAGAACTCAAAATAAAATAACATGTGAGTTTATTCCCCGCTATAAAGCAGGTATTTTATTCACCGCACTCCCGACATAAATGGGAATCTAATACATAAATTTTATGCATCAGATAACAAACCCACTTCTGACGGAAGCAGGGAACTCTAGTGAATTATAACGGTGTTTTTGACACCTTGTTTGTCAGTCTATACTAAACTTAAAAATCCAGCAATAACTATTACCAATTTCCATAGCTTGTAATTACTCATAAAATCCTTTATTGTTTCTCTGGAACTTTTTATGTAAAAACTTAAACGTCACCAGCGAGCGAAACACGGCAATCCATTTGCGGTGATATCAATTTTTGCTCATTAGTTGATACCTATATTTTAGGTGCTTAGATGATGTTTTTTTGATTATGGATAAAATATAATATGTTAGAACAAATATTAGAATCAGCCAGAGAGAAAATTAAGGTAATAACCAATTCTCGGAGTTTGCAGGATGCTAAAGTTGAGTATCTAGGGAAATCAAGTCAGGTTAATCAAGAAATGAAAAAGCTTGGCAAGGCTACTCCTGAGGAGCGTAAAACTCTTGGTCAGAAGATCAATAAAGTTAAGCAGGAGATTCAGGCAATTCTTGATGAGCAAACGCTGGCAGTTGAAAAAGCAGAACTTGCAGAGCGTTTTAAAAATGAAAAGTTAGATTTAACAATACCTGCTCGTCCAAGATCAAAGGGTAGTATTCATCCGATAACGCAATGTTTAGAGGAATTGATTCAAGTATTTTCTAAATATGGTTTTGATATTAAAGATGGTCCGAGCATTGAAGATGATTGGTATAATTTTACTGCACTTAATATTGACGAAAATCATCCTGCACGCCAGATGCATGATACTTTCTATTTAAATAAAACTGATGAAAGTACCAAATTGCTTCGGACTCATACATCACCGATTCAGATTCGTACAATGCAAAATGAGGAGCCGCCATATAGGTTCATAGCACCTGGCAGAACATATCGGTCTGATTCTGATTTAACCCATACACCAATGTTTCATCAGATTGAAGGCATGGTAGTTGATAAGAATATTCATATGGGACATCTAAAACACGTGATTATTGATTTTATCCGAAAATTTTTCGAGCAATCAAATATAGAAGTTCAGTTTCGTCCTAGTTTCTTTCCTTTTACAGAGCCATCTGCAGAAGTGGATATTAAAATGAGCAAGGATGATAAGTGGCTAGAGGTGCTAGGTTGCGGTATGGTTCATCCAAATGTGCTTCGGAATGTTGGAATTGATCCAGAAGAATATCAGGGATTTGCCTTTGGGCTCGGCGTTGAGCGTTTTGCGATGCTGAAATACGGTATTCGTGATCTAAGGCAATTCTTTGAAGGTGATATGCGCTGGCTGAACCATTATAATTTTTCAACACTAGATATTCCAACATTAGCAGGAGGTTTGACGCGATGAGATTTACATTATCATGGCTTAAGCAATTTTTAGATACGGATGCAACGCTTGAGAAAATAGCTCACACCTTAACAATGACTGGCTTAGAGATAGAGGATATTGATAACAAGTCAGAGGACCTTAAGGATTTTGAAGTTGCTGAAATCATAGAAGCCAAACAACATCCTGATGCAGATAAACTAAAAGTCTGTATGGTGAAAACAAAATCTGGTATGCTGCAAATTGTGTGCGGTGCACCTAATGCAAGAGCTGGTATTAAGGTTGTGCTTGCAAATGTCGGAACAGTAATACCTAATGGCAACTTCAAAATTAAGAAGTCAAAAATTCGCGGTGTTGAAAGCGTTGGTATGATGTGTTCTGCAGATGAAATAGGTATTTCAGGCGATCCAGATGGCATAATTGAGTTAAAGAATGAAGCTGTTATTGGAGATAATGTTGCAAAATATCTAGGAATTGATGATCCAGTTTTGCACATTAATATTACTCCAAATAGGGCAGATGCACTTGGTGTTTATGGTATTGCACGAGATCTTGCAGCATCAGATATTGGAACTTTAAAAAAGCTTGAAATTCCAACTGTTGATGAGTCTTTTGATAGTGACGTTAGTCTTGCTAATAATGATGAAATAGCTTGTCCGTTTTTTGCAATTCGTGAGATCAAAGGACTTGAGAATAAAGAGTCTCCAGAATGGCTGAGGAATTATCTTGATAATATTGGCGTTGGTTCAATTTCACCATTAGTTGATGTGACTAATTATATTTCTTATACATTTGGGCAACCAATGCATGCCTATGATGCTGATAAAATATCTGGGGGATTAACTGTTGAAACGCTATCGGAAAGCGCTGATTTCAAAGCGCTTAATGATAAAGAATATGTGCTGGAGTCTGGTAATATCATAATTCGTGATGAGAGAGAAATTCATTGTGTCGCCGGTATTATTGGGGGAGTGAATAGTTCATGTTCAGAAAATACAACTAGAGTAATTTTAGAGGCTGCTAGTTTTAATTCGGAATACACCGCTAAAGCTGGTCGTAAGCTGCAGATTGATACAGATTCAAGATATCGTTTTGAAAGAAATGTGAATAGTGAATTTACGCTCAGCGCATTGGATGTAGCGACGGATTTAATATTATCTATTTGTGGTGGTTCGGCGTCAAAAGTGATATCAACAGGAAATGCAAAGCTACCAGTTAGGACGCTTGATTTTTCAGCAGATTTTCTTAAATCTAGAGCAAATGTTGATTTAGACGAAAAAGAGATAAGTGATATTCTGACTAAACTTGGTTTTGTATGTAACATTGCTGATAAAACTATAAATATTATAATTCCAAGCTGGCGATATGATGTATCGATTAAGGAAGATATTGTCGAAGAAATAGTCAGAATTCATGGATATGATAATTTGCCTGAAACACCACTGCCAGCTGCAGATATCTCACGTATTATTCCAAAAGATCAAAAACGTATCTCTGATACAAAAAGGCTGCTAGCATGTTCTGGCTATACGGAAATAGTGACATGGTCATTTATGGATAGCGGGAAAGCAGAATTATTTTCTGACTTAAAAGATGAGCTTAAATTACAAAATCCGATTAGTTCTGATTTAGATTACATGCGTCCGTCGATTTTGCCTAATTTGTTAAAAGTAGCAACTAATAATCTGAATAGGTCTTTCCACGATTTATCTCTATTTGAAGTAGGTCCAATTTTTGAAAATGCTGGCGATCAAGTAATAAATCATGCGTGCGCAGTTAGGGTGGGATCAACTTCTAGTAAAAACAGTCATGGAGACTCTAGGAAGTTTGATGTATTTGATATGAAGTCTGATATTGCTATATTGCTTGAATCAGTTGGGCTTGATATCAATAAGTGTCAAATTAAAAATAATGCACCTGAATATTACCATCCAACAAGATCAGCTAGCTTGTCTTTGGGTAAGAATATTCTTGGATATTTTGGGCAAGTACATCCTTCTATTCTAAAAGCATTCGAAATAGATATTGATGTGATGGCGTTTGAGCTTAATATTTCGAATTTGCCATATGGTAAAGATAAGTTTGGGAAAAGACCAAATTATATCGTTTCAGATTACCAGAAAATAACTCGAGATTATGCATTCATTGTTGATGCTGATCAGCCAGTCGGAGAAATGTTGAATTTAATTCGAAATGCTGATAAAAAATTAGTAAGAGCTGTAGAAATTTTTGATATTTACTCAGGTGCTAATATTGAAGATGGTAAAAAGTCAGTAGCATTATCAGTCAGTATTCAAGATGACAATAAAACTCTAGAAGAAGCTGATATTGAAAAAATCAATAATGCAATTATTGATGGTATTGTTCAGAAATTTGGTGCGGTGCTTAGAGATAGTTAAAAATACTGGTTTTAGATGAAGAAAGTTGCAAAAGAAATTATCCACCAAATCAATACAGGAGAAAGAGAGTCTTCAAATTTGATGGAGTTTCTTGCAGCAGATTTTCAAAGAATACTACAAAATACTGTTCCAGAATTCAAGTTTCCAAAGCAGGCATTAGACGTTGGCATTACGAAAAAACATAAGATAATTGCCAAAAATTTGAATACTCAATTTGGCTTTAAGATTTTTGATAAGTTAGAAGGGCATAAATCAGATATTTTGCGTGGCCTAGCTAGCTATTTGATTGGAGAGCAGGATATTTCTTTTAAAGAAAAACTAACTCTATCGGAAAAGCTTGCAAATGACAGTAATTCTGGTGTTCGTGAATGGGCATGGATTGCGATTCGTGACGATTTTTCGTCTAATTTAGAAGACAACATAAAACTAGTTATTCCTTGGACTGCATCAGATAAGGACAATATCAGAAGATTTGCATCAGAAATAAGTCGTCCAAGAGGTGTTTGGTGCTCACATATCACTAAATTGCGCGAAGATCCAAAAATAGGCTTGAAGATATTAGAACCTCTAAAATCCGATCCAGCCAAATATGTTCAGCTTTCAGTGGGTAACTGGCTAAATGACACCGGAAAAGACCATCCAGATTGGGTGATTAGTTTATGTGCAAAGTGGAAAAAAGAGTCAGCTACGAAAGAAACAGAGAAAATCTGCAAGCGAGCATTGAGAAATTTGCAGTAATTAACTATATTACTGCAAATTTCTAATTTTATGTTAGCAGCCGATAGCATCAACTAGAGGAAGTGCTTCATCTCCGATTACCATCATACCAACACCGCTTGGGTCATGATCATCATCATTGTGATCGCTAAGTAGATCATCAATTTTACAGAGCCATATGTTTGATATGTACTAACATTAGAATGTGTATACGTAATTGCTTCATCACCAGCTGTAAATGAGAAACCACGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGGACCTAGCAAGATAATATCTGATGAGAGAGTTTTTGCTTTCTACTAGCGCAGTTTCTGCTTTGGTTTGGTGGTGATGTTTTGATATTCTATATTTAC
>sequence13
CATTCCAACATCTCCATGATGTATATGATCTGGTAATAAGTCTTTACCACGGTTAAACCAATTAGTTTGTGGCAATGCTTCCATTACCATCCATGCATTTTTTACTTCTTCAGCACGATCTTTAACTCCCTTATTCACTCTTCTCATTAAATCTTGAATCTGATATACTCCAGTCCTTCCATATTGTGCATAAACCATAATATTCATACCACCTCTATCAGATAAAGCATCTACAAGAGTTTTTAATCCTTCATCTGGAGATTCAAGGTGGTGTAGCACTCCCGAACATTGAATATAATCAAACTTACCAAGCTTTAGACTCGGTAAATTAAAAATACTATCATTTATCCACTTAATATTCTTTAAACCTCTATTCTTAGCCCTTTCTTGAGCAACTTTCATGCTATTTTTACTAAAGTCTAGATATATTATTTCCGCATCGGTATCTTTCAACTGATCAGCAAGATAAACTGTTGAATCACCTGTTCCACCGCCAGCAACTAAAATTCTAAAGCCCTTTTTAAAATCTTCCTTACCATTAAATAGCCAATGATTGATTTCACCTAAGAAATCACAGTACATTTTCAAAAGACGTTTTTTATCTTCTTCAGGATCTCTAAATGGATATGGATAATCTAAATAATGATCTTTTACTTGTTTTAAATCTTTTGACTTTTGGTTTTTTTTCTTACTCATGGCTTAGCTTATTAAATTTTGACACTGTAATTTCTATTGGAATTTCCCCAGTCCGTCAACTATTTTAAGTATTTCAAGAAATATCTTTTAACTTATACAACACATCGAGAGCCTCTCGCGGAGATAATTTATCTGGTTCAATAGAGACAAATTCATCAAATAATTTTTTATGCTTAGGATTTTCCAAAGAACTCTCCATTTCGAACAAGTTCATATTATATGATTCTTGCTTCATCATTTTTTTATTCGATTTATTAGATTCTTTTTCAAATTTCTCTAGTAAACTTGCAGCTTTTTGAATTACAGATTTTGGTAGACCCGCCATTTGTGCAACATGAACGCCGTAAGATTTATCAGCAGAACCTCTTTTAATTTTATGCAAAAATAAAACGCTTTCTCCAGTATCATCTATTGCAACTGTATAATTCTTAAGTGCTGGAAGGACTTCTTCCATTTTTGTAAGCTCGTGGTAGTGTGTTGCAAACAAGCACCTTGCTCTAATTTTATCGTGAACATATTCTAAAACTGACCATGCAATAGCTACCCCATCATATGTTGAAGTTCCCCTGCCTACCTCATCAAGAATTATTAAAGATTTATGAGTTGCCTGAGCTAAAATAGCTGAAGTCTCAAGCATTTCTAACATAAAGGTAGATTGTCCTTTATTTAGATCGTCTCCAGCACCAATCCTACTAAATATTTTATCAATTATGCCAATTTTTGCCGATTCTGCCGGAACAAACGAGCCTATATGCGCTAGAATAGCAATAATTGCATTTTGTCTTAAATAAGTACTTTTGCCAGCCATATTAGGGCCTGTTAACAACCATACCCTTTCATCAGATTCTAAACTACAATCATTACGTATAAAGCTTTCTCTACTCTTCTTTAACGCCTTCTCAACAATTGGATGACGACCTCCTTTAATTTCAAATATCATGTCTGAGCTAATTTCAGGCATAACATAATTATTCTCGTCTGCAACATAAGCAAAATTACTATATACATCAAGCAAACTCAGCGATTCAGACATTTTATAAAGAGCAGATTGCTCAATTACAATTTTCTGACAAAGCTCATTGTATATCTCCTGCTCTAAACTAATTACCAATATTTTTGCATTTACAATCTTACTTTCAAGCTCTTGCAATTCTGCCGTCGTATATCTAATTGAATTAGCTGTAGTTTGTCTGTGGATAAATTTTTCATCAAATATTTTATTCGCATGCCTTGCTGTGATATCTATAAATAGTCCCAATACATTATTATTAGAAATTTTTAATGTATCAATACCAGTTTCTTTTCTATATTGATCCCTTAATTTCTCAATCGCAACATGGCTATTATTGATAAGTCCATATAACTCTTTTACTTTAGGATGATATTCATGTTTTACTATTCCACCATTTGTAGTTATATTGGGGGCATCATCTTTAATTACCGAATCAATAGATTCATAAAGATCATTCAAACCCACCAAGGGTTTCACTAATTTTTCTATATGTTGAGGAAGTTCAATTCCTTTTTGCGCAACAAAAGCCGCACGTATTCCTTCTGCAATCTCAATAGTGTATTTGATACTAAGCATGTCCTTTGGAGTGCTTCTTCCCATATTAAGTCTAGTAATACAGCGCTCAAGATCTCCTGTTTTTTTAAGTAGAGCTCTTAAATCATTTGTTAAGCTCATATCTTCATAAAAATATTTAGTTAGATCTAAGCGTCTATTAATCCCCTGGATATCAATTAGTGGGGTTGATAAGTATTTGTATAAAAGCCGACTACCAGATTTAGTAACACTATGATCAATACAATCAAATAGACTACCTCTCATGCTACCTGACGTTGTTAAACAAATTTCAAGATTACGCCTGGTCTGCGCATCAATAGTCATAAATTTTTGATGATTTAAAATTTTAGGCTTCGGTAGTTTTGGCAAACTATCTTTCTGTGTAATCGAAATATATTCAATTATCCCGCCTACAGCTGATATATGAATCTCCTCTAATTCACCAATTGCTCCTAAATCTTTTATCTGATAAAAATCTAAAAGATTTTTTCGGCACTTATTTACAGCAAAAAAACTATCAACCTGAAATGAAATACGCATATTAAGCATAGACCCAATCTGTGATGCAAGCTCACTTGCCCTGTATTTTTCAGCAAGTAAAATTTCTTTAGGTTTTAATCTTGCTAGCTCATTAATAATCTGACCTTCTGGTACAGATATAACTGCGATTTCAGAAGTTGATAAATCAACATATGATAACGCAGCGTTATTTTTAGCAATTGCTATACTGACTAAATAATTTGGCTCTCCAGCTTCAAGAAGAGATTCTTCTATTATAGTGCCTGGCGTAATAATTCTAGTAACATCTCTGTTAACTACCGCCTTGTAACCTCCTCTTTTTTTAGCTTCTTCTGGAGTTTCTAATTGATCACAAATTGCTACTTTAAAACCATCTTCTAAAAGCTTATTTAAATAATTTTCCAGTGCATGGTATGGGACTCCGCACATGGCAATTTCATCATCACCTGTTTTTCCTCTTTTTGTTAACGCTATTCCAAGAACTCTTGCAGCTGTTATTGCATCTTCATAAAACAACTCATAAAAATCACCCATTCGGAATAAAACCAAGCAATCAATATTGGCAAATTTTACATCCAAAAACTGCCTCATAACAGGAGTTGCTTTATCGTATTTATATTTTTCTTTGAATTGCTCTAATTGCATATTTATTTACTATATTATTTTATGTTTTCTATGGATTTAAATGAATTACAGAAAAATATGAACGCTACTATTTAACAATAGGCAGAAAGATATCTTCCTTTTTATGCCCAAAATATTCACTATACAATTATAATATTCAGAATATTGATTAGTTCAATGCAATTTTCAAAGAAAAATTGCAACATTATTACTGATATATTTCCAAAAGACTAACTTAATGATTTACTAGAAAATATAGTAAACCAAAACAATATTTTTCTTTTTGTTTGAAATGCCTTGTAATCTACTAGAATAAAATAATAAGTGAAATTTTGTAGTAAAATATCTGGATAGCTGCGCTTGCGCTCGCTATGACACATAATGCGCTAACTAATAGCAGAAATCACAGGAATCTACTGAATAATATGCTGCATGATATGATCAACAAAAACTTTCAATTTACCATACATATAGGGCATAATAAGCAACATGCCAAAATATACGGTTACAATTTTTGGAACAAATGTTAGAGTGGTTTCTTGAATTTGAGTTAAAGCCTGAAACAAAGATATTAATAAACCCACAACGAGAGAAAGAATCAGTACAGGTGCTGATATCATTATCAGCACATAAACTGCTTCTCTACCTATCTCGCCTACAAACCCTGGATCCATTTATAACACCTCAAATCTAGAATGGAGAAATTATATCAATAACCTGTGATCCAGCTCTTGGCTGCTGAACATCACTTACTACGCCTCTACCACCATATGAAATACGAGCTTCAGCCATCTGATCAGTTTTGATTGAATTATCACTATCAATATCTTTTGGCCTGATAATACCTGCGACTTTAATTTCTCTTAACTCGTAATTTACTCTAATTTCCTGATGCCCTTGAATCACCAAATTACCACTAGGCAAAACCTTTGTCACAGTAGCCGCAATTTGAGTTTTAACATCTTCTTTTCTAGAGATATTACCACTACCGGAATGATTTCTAGAACTGCTTGTACTAACTAGCGACCCTAAATTTGCAGTAGTAGAAAGATTTGCTTGAATAGCTTTTTCTTGGCCAAATAAATTCGGAACTCCCAAAGCATCTTTTCCACTTCTATTTTGCTGTGTTGAGTTGTTCAAGCTTGCATTATCTTTAATTTCAACTACAACTCTGATAATATCACCAACTTTCCAAGCTCTGCTATCTCTAAAAAACTTTGTTGAACCTGGCTGCCATAGTGAATTGGTCCTTCTCATATGAGCGTGCTGAGCTCTTAGTTTTGCCTCTCTACGCTCAATTTCTTCTTCATCTTCTTCAATAGTTGGAAGCTCAATATTCTCAAATTGCGGAGCCTTTCCAACTCTCTTCAATTTATCAACTGTATCTTGACATGACATTAACAAAAATAACGACATTAATATTGTCAAAAAATTATTCATTGTCCACCTACCTGTACAGTATTTTTATTTATTATTTGACCAAGTAATACTGCCCCAGAAGAAGTATTTTTAACCTTTATCATATCACCCACTGCTCCAGTTCCCAGAGCAATTCCAACTGTCTTTAGATTAATAGCCCCAGAAGAATATATAATATTCACTGGATCATTATTTTTAAGAACAGGTGGGCTTGAAATATCGCTTAACTTAAACATACGGCCAACAGCAATATATTTTTTAGCTTGCATACCAATTACTTCAGAATCTTCTGTAGCAAAACCTTTCTTAAAATTATCTAGCCTCATTTTTTTAGACGTTATATCGGAAGCTTGAATCACCTCTCCAAATTTAATATATTTTCCAGCAATTGGAGCCATAATATAAGATATATATTTACCTGAAATAGAATCTACTTTCCCATCATTGTAGTGAACTTGAACACGATAGCTTGAAAACTTAGGATCAAATTTCTCAAGAACAATCGATTTTATCTCTTCCTTCTTAGATTTGATTTGGGTAAGTTTACTTTTTGAATTATATTGCTGCTCGACAATCACCCTACTATCAGTAATTTTTTCCTGAAGCAGGCCTTGAATTGTACTATCAACAAAATCTTCGTCAGCAAAAGAGGTGTTTACCAATAACACTAATAAAACTGGTAAAAAAAGAAATTTTGATTTCATTCTATAAATATTCTTAAGTTTCAAATGCCTAACAATGCAACGCTTGATAAGTGCAATGACCAAAATCATCAGCTTCTATACACATAGGCTCCCAATCATTTTAGCTACGCGTACAATAACATGCAACGATTTAAATTACTATTTAATTTGGTTTGTAGTTTCCAAAATCTTATCTTGAGTACTAATTACCCTAGTATTTAACTCATATGCACGCTGTGCTTCGATCAGTTTAGTCAATTCTTCAACCGCCTTAACGTTTGATGTTTCCAAGAAAGCTTGTTTGAATCTATTAGTAGTATCTTCAACTGCAATTCGCTCACCCGATCCTGGAGTTTCTACTAGCAAATTATTTCCAATTGCTTCTAATCCACTTTCATTTGGAAAAGTAAATATTTCCAACTGACCAATTTCAATAGTTTCAGCTGGATTAGCTGGATCTTGAGCAGTAATCAAACCATTTTCAGCAATTTGCACGGTTTCTGTTGGTATATTTGCAGGAATAGCTATAGCTGTTTCAAATGAATTACCATCAGGTGTAATGATATTACCAGTTTCAGGATCTCTTTGAAATGCACCAGTTCTAGTATATCCTACTCTTCCATTTGGAAGTTGAATTGCAAAATAACCGTTTCCAGTAATAGCAATATCCAGTGGATGGAATGTTTGACGAAGCGCACCTGGTTCCATATTCCTAAATGTACCAATTATTCTAGTACCCATACCTGTTTGAACACCAACAGGTCTTGGAGCAGCTTCAGCATTCTCAAGAATCCCTGATCTCTTTAGATTAACGTAGAATAAATCTGAGAATGTCGCCTCCATTCTCTTATAACCATCAGTATTGACATTCGCTACATTATTTGAAATCGTGTCAATTCTCAATTGCTGCGCCTGCGCCCCCGTTACTGCTGCACTCATTGCTACTGAAGCCATAATATCCTCCTATTTTACTTCGTTAATCTTTGTATTGACGAAGTCTCAGTCTCATTTACATTCGTCATTAAATCTGTTGTCAGGCCGTACGATCTCTGCATCTCAATCATTTTCGCCATCGCGAGAGTTGAGTTAACATTTGACTCTCTTAGCGCACCCGATATAACTGTAAACTCTTCTAATAATCTATCATTGCCTTGAATAGCATATAGATTACCACCTTCTTTTATTATCGGATCAGTTGAATCAAAGCCAAAGACTCCCAAAATTGCAATTTCTTCTTCATCAACAAAAATCGTGCCATCTTGAGCTATATCAATTGTTTGAAAATCATCAGGAATTTCTATTGGTTCATTCTCAGCACTCAAATAAGGATGACCACTAGAATTCACTAAAAAACCTTGATTATTAATTAACATAGATCCATCTAAAGTATATCTTACCCCTCTTGGTGTCGCAACTTTTAAATAACCCTCACCTCCAATGGCAACGTCAGTCGGACGATTTGTCACTCTTATTCCCCCTTGATCGCCAGTACGATAACTTGTTTCTGCCCAGGCAAATGAATTATTTCTTTTTGAGTTTTGTTTTAAATCTACATTTCTGAATATAACCGCATCTTGCTCAAAACCAACCGTATTTGCATTTGCAACATTATTTGAAATTACTTCAAGTTGAGTTTTCCTGGCTATTTGGCTTGATAATGCTATATATGAAGCATTATTTGCTTTTGCCGCATTGCATAAAAAGAACAACTCAAATAGCAAAACAAATAAAATATATAAAGATAGTTTGTGTATCGGAATATGCATCATATAATCACTTTTGTATCTTTTAGTAATTTAAGCTGTTTTTTTTATTTAGCATAAATATATTAAACATTTTAGTAGAAAAAATTTCAGTTTTCATGTATTTTGATCTACAAGTTACAAAAAATACTACAAAATGTTAAGATTTTCAACATAAAACTAAAACCAAAACTAATGGCAAAAGATACAGGCGAAAAAGAAGAAGAACCTCTAACTCCTACAGAAGCACCTGATGGAGGTCAGAATAGTGGAAATTCTGATAAAAAGAAAAAGATAAAAAAAATACTTTTAATCACAGTGCCAATAATTATTACAATTATCGGAGCGGTATATTTTTTCTTTTTTGTAATCAAAGCCCTAAAACAAAGTGAAGGACAAGAAGTTCAACAAACAAAAGAGAAGCAGCAAGTTGCTTTAGAATCCAACACTTATCTTGATATTGACCCTATTACAGTTGGTCTAACACCTTCTGGCAGTAAGAGGGAATATTTAAGGTTGGATTTATCACTAAGATTAAGCACTGAGCAAGAAAGCGCAGCAGTTCTGACAAAAATGCCTATAATAAAAGATACTTTAATTACATTTTTAAGAAGTCTTAGAGCAACTGATTTTAATAGTTCGAGTAGCACTATATACTTAAAAGAAGAAATATCGAAAAGAATAAACAAAATAACAGCCCCGGTAGTTATTAAAGAGGTGTTATTCCAAGAAATTACTGTTAATTAGCAAAAATATAATTGATTATTGAAAATATGACAGAAGAACAAGCAAAAGCAGAAAATGCAAAGAAAAAAGCAGAAGAAAAAGACTCTTCTGATCTTAAAGGTATCAAAGCAGTTCTTGAACAGTCTTTGCAGTCTTATGACAAGCTACCTATGCTTGAAATTATTTTTGAAAAATTTATCAGGCAACTTAGCACCTCACTGAGAAATTTAACATCCGAACCTGTTGATGTTACAATCGCCGACTTTTCTTCCCTAAGATTTGGAAGTTATTTTGATAGTTTAGAAAACCCTTCCTCTATTGTAGTATTCAAAGCAGTTGAATGGGAGAATCTTGGATTATTGATTTTAGAAAATAATATGATATTTTCTTTTGTCGATATACTTTTAGGTGGAAAGAAAAATACATTACAAAGCAATTCAAATGATCCAGAAAGGATTCTAACTTCTATTGAACAAGGACTAGCTAGACAAATTTCAGAGATAATTTTAATGGAATTAAGTCATGCATTTGACCAGATTAGTCCGACTACTTTTTCTTTTGAAAGATTGGAAAATAATCCAAATTTTGTTACTATCTCTCGTCCAGGTGATGCTGTAATAGTACTAAAGCTTAAAATAGAAATTGATGAACAAGTGAAAAATATAGAACTACTAATTCCATATAAAACGATTGAGCCAGTAAAAGAGCAAATGCAGCAGGTATTTTTAGGCGATAAATTTGGTATAGATCAAGAATGGGAAAGATTACTTTCCGAAACAGTACATGACATTGATTTACCTGTTGAAGCGGTTATATCTAACAAAATTTCTACTGTGGAAGAAATTGCCAAACTTAAAATTGGTGATACGTTTGTAATGGATCATGCTAAAGATAAAGATATAGTAGTTAGAAGCGGTCCAATACCATTATTTACCGGTAAAATTGGTAAGGTAGATAATAAAGTGGCTATTAATTTAAAAAATTTATTTGAAGGATAATATAAAATGATAATTCTGGATATTTTGTTATTGATTATGACTGTAATATGCGTTGTCTATTGCTGGATGCTCAACAGACGTATACAAGATTTACAGAATAGCAGGATTGAATTTGCTAGGATGATAAAAGAACTAAATGCTTCTATTGTTAAAGCAGAAAATAACGTGAGCGAAATGAGCGAGCTTAGTAATGTTACTAGTGCCGAAATAAAATCTGTTATTAATGAAGCAAAAGAAGCTTCATCAGAACTAGTAGCAATCAGTGAGGTTGCAAGTGAATTGTCTACTAAACTTAATGAACAATCTACTAAAGCGCAAAATGCTGATGGAGCTGATGCTGCTCCACTTGAGGAAGATATTTATGAGAATATTAGTTCAAAAGCTGGAGAAAGATTCACGGAAGATGACTTAGCTCCGCCATCAGATAATGAAAACGCAACATACACAAATCATTTAAAGAACTTTATACAAAATATTGTTACAAAAAAGTCTGACGAACAAAGCACAAGCTTAAATCAGACAAGTTACTATGATACTCTAAGAAAAATAAACGCTAAAAAATAATGAAAGCAAGCCTATTTTCCCCAATCTTGATTCTATTAATCCTTGCATTATTTGCTAAGGCTTCAGTGCTTTTTGGTCGGATTCAAGAACAAACAACATACGCAATGGATACCAGTACTTCTTCAATATTGGTTAACACTGCTTATGCACAAGCTAATGGTTCAGAGAAAACAGCACAATCTAAGAAAACAGCAGAACCATCATCTACTCAAATTGCACCAATAAAAACCGAGAAAAAGAAGGATGTTATTAACAACCTTACGCGTTCGGAAATGGATCTTTTAAAAGAACTTTCAAAAAGAAGAGAAACTCTAGATAAAGAAAAAACCGATTTAAATGTTCGTGAACAAGTGCTAAAAGCTACAGAGAATAAAATTGATAAAAAGGTTCTAGAGCTTAAAAAACTTCAGACTCAGCTTGAAGATCTTATGAAACAATATGAACAGAAGGAGAATAGTAAAATACTGAGCCTGGTAAAAATCTATGAAACTATGAAGCCAAAGGATGCTGCAAAGATTTTCAATGAGCTTGAAATGCCAGTGCTCTTAAAAGTAGTAAGTAATATGAAAGAAGTTAAGGTTGCACCTGTTATAGCTAGCATGGACCCAGCTAAAGCCAGAGAGCTATCAATTGAACTTTCTAGACAAAAACCGATTGATTAAAATATTTGATTTAAACTTAGAGTGTAAAATAATATGAACCTATATTTGTTAGCTGCATATTCTTTTACTTTTATAGCGCTTGGAAGCATTTTAACGAGAACAATTTTTAATTATAAAACTAACCGTGCAAATCAAAACAAGAAATAGACTTACAGGCATCATCGCCGTACTTCTTATATGCGCCAGCGGAGTCTATTTTATTCTCTCTAGTTTAAATGATAATATTGTTTTCTTTCATCCACCTTCTGAAATAGATAAAATTCAACCAAACCATAGTAAAGTAAGAGTTGGAGGATTAGTAAAAGTTGGATCAATAGTTAAACACGAAAATGGAAAAATTGAGTTTACTATCACTGATCATATAGCTGATCTTAAAATTGAATATAAAGGCGTACTACCAGCACTATTCAGAGAAAAGCAAGGTATAGTAGCTGAAGGTAAGCTAATTACTTCTAATCTATTTAAAGCAAATAAACTACTTGCAAAACATGACGAAAACTATACCCCACCTGAACTTGTAAAAATTGACTTGAACAGAAAAAAGAAAGCCGCAAGCTCTTACGAATAAAAAACTAAATATTACAGTAAAAAACTTGTTAATGAAAATGACATAGTAGAGTTTAGTAGAAACTTGTCGATTCTATTATATTTGATGAAAAAGTAGGCTTATACATATTACAATCATACAAATTTTCATGTAGCTCCGATTGTAATAAGTTTTACACTTTTTGCCCCTGCTCTTTTCAAAATTGAACTACATGTATTGCTAGTAACGCCCGTTGTACGCACATCATCCACTAATAAAATTATCTTATTTTTGATATTATATCTTTCGTTAATCTGCAAAGAACCACTTAAATTTTCTTTTCTTTGGCTTTGAGACAGACTAGTTTGAGGTTTTGTCCATTTTGATTTTATCAGTAGATCTGGCACTTGCTTTTTACCTATAAGCTTCTCAAGTTGCTTTCCAAGTATTTGCGGTGGATTATAGTTTCGAAAAATTCTCTTAAACCTATTCATAGGAACTGGAACAATCATATCAATATCATTAAAATCGTCTTTATATCTAGAAAATAATAACTTTGAAAATAACTTTGCATTGCTTGTCTGATCATTATATTTAAACCCATGAATAAGTTTTTTGCTGTATGGATCAAAGTTAAATAAACTTCTAGCAAGATCATATTTTGGTGGATCAGAGATGCATTTTCCACATTCGTACTTTTCTTCAATATCAAATTCAAATGGAAAGCCACAAATTTTGCAATATGGAGAAGAAATAAAATTAAGTTTACTAAAACAAGTTGCGCATAGGCCACCTCCCTGCTCAGTCAATTCTGAGCATGAAATACACCTATGCGGAAGCATGAAATCTATGATGCTAGATAAAGCTCCATCTAACACAACTATCTTCTACCCATAGCATATTTAATAAGCAATTTTTTAAATGGTGTAACTTTTTCTATTGTCTGAAAACCTAGCGATCTTCCAGCTTGAAGAATTTTAGATTTATTAGAAAAAATTGCATTAATAGTATCCGTAATTTCCAGCATATTACTATTATCAGTTTTACGCATAGTTTGATACTGATCTAACATTAAATCAGTAATTCCATACTCCGATAATAACTTGATAAAACAACTAATATCTTTTATTCCTTGATTTAAACCTTGCCCTGCAAGTGGATGAATAACATGAGCAGTATCTGCAATCAGAACAATTCTTTTATTAAAGTATTTATTAGTCTCATATGCTTTTAAAGGAAAGCCTGCAACCTTACCTTCAACTTCTATCTCGCCTAAAAATTCACCAAAATTATCTTGTACAATCTCTTTAAATTCATCTTTTGGCAAATTTTCTAGTAAATCTTTCATATCAGCATCTATTGTCCAGACAATAGATGAGCGTTTTTGATCTTTTAATGGCAAGATAGCAAAAGGCCCCGTTGGCATAAAATGTTCTACAGCAGTTCCTTCATGCGGTTTTACATGATGAACAATAAATGTAAGAGCACATTGAGCATAGGTTTTTTCGATGTTACTTGAAAAGAATTGTTGTCTTGCAGTAGAATATCTACCATCACAAACAAGTAATAAATCGCTTTTATGCTCTTCACCATCATTTAAAATAAGACTACAACCATCTAATGTATTTTCCCTAATTTCGTAAGAGCAATTTTGAATAACATTAATTAGCTTATTTGAGGAAACTAATTCATATAATATTTTTTTAAAATCAGTATTTTGAATCAAATACCCCATAATTTCACCATCTTCCAGATCAGACGAAGCAAAGTGCAACATTTCAGGTGATTTATTATCAACAACATAAATATCATTAATCGGTCCAACAAAATCAGAAAATTTTTTCCAAATTCCAATTTCTTCAAAAAACTTCCTTGATGAGTCAGTTAAAGCTGTTGTACGTACATCAGAAAAAAAACTTTTATCTTTGCAAGATTTTTTTTCAATAATAGTTGATGGGATATTATTACTCGCAAGCGCAAGCGCAGATATCATACCGCTTAACCCACACCCTGTAATAGTAATATTATTGTTAAGATTCATCTTCTACTTCCTTTTTATGTTTTTGCATAAAATATTTTAAGTAGGCATTAGTAGCTACAACGCTAAGAAGAAAGTATATCAAAGCAATATCAATATAAGAGCTATTAACTTTAAATGACCCAAGAAAACAAATAAATAATGCAGCCACACTAGTTCCAGTATTTAGAAAGAGAAGCTTAATAAATATATCTTTCTGTAAAAATGCTCCGCATATAATTACTGACGATAAAATTAGTGCTAAAATTAAACAAATATTGAGCATATTTATTCTATTATCTCCTTTACTCTACTATCCATTTCACCTTCCTTTAAATCGTCCATAAAACTTATATCTAAGGCATGGACAAGCAAATGATTATCTTCTGTAGATAATGTAACAGTTCCAGGAGTTAGGGTAATTGAGTTAGCATATGTAACAACTCCCACCTGTTTTTTTTGTACTGTTTCTATTGGTTCGAGAATTGGTTGTAATCTCATATTTTTTCTCCAAGAAATTCTTACAACAGCAATTGACGACATTAGAACTTCTTTTAGCAACCACCCCAAATATATAATCGCTGAAAATTTAAAATGGTTCTTTTTTGGCAGCAAACCTATCCATATAGTAAGTAACAAAGTTGCCAAAGGTGCAAAAATCATAAATAACAAAGGTACTGTTTTTGTAGGAAATCCTGCTAAACTACACCAAATAGTGACGAAGACTATATATGTTATAATTTTAGTGAGCATTGGCACCTGCTGTATCTTTTGGCATTGATGAAAAAGGAATCAATATCATTCCCAAACAAAACAATATAGTAATGATAACAAACACGTTATTAATTGCAATTATAAATGATTCACTTACTACAACTTTATCAAGTAATTGCAAAGCTGCAAGCTCTGGGTTATCAACCCTACCAATCAAAATCTGTGTAAAAAAATCCATTCTTTCTTGCACTTGAGGAGATGTTAGAGATATATTTTCTTTCATACCCTGAGCATAAATTTTAGACTTTGAAATAATTAGACTATTTATTATTGCGAGTCCAATTGCTCCCCCTAAATTTCTCGTAAGGTTATATAATCCACTTGCATTCTGAACCTCATCTTTAGGCATTGTTCCAAGTGCTAGGTCATTTATAGGCATAAAACAAAACATAAGCGCAAGCCCCCTGACAACTTGCGGAAGGAAAAACTCCCAATATTCAGATTCAGCTGTTAAGAAACTATTCAAATAACAACCAAGTGCAAATGTTCCAAAACCTATTGCAAGGATTAATCTTTTATCAACACCAGAATCAAACATTCTACCAGCAAGGGGTGCTGAAATAAATTGGAATACACCGGTTATAACCATAGTAATCCCAATTTGCAGAGTATTATATCCAGCAATTGTAAATAGAAACAGAGGAAGCAGATACACTGTACCGTATAACCCAACACCAAGAATAAATGAATAAATACATCCAAAACTAAAATTTTTGTTTTTAAATGCAGTCAAATCAATAATTGGATTTTTACACGTCAGCTCATGAACTATCATCCAAATAAATGTAATCACAACAAGAATTGAAAGAAATAAAATATGATTATCCTCCAACCAATCCTTCTTATTTCCCTCTTCTAAAACATATTGTAGAGCTCCTAGACTTACAGCCATTAATATAATGCCAATAAAATCAAAATTATCTAATAATTTATAATCAGGTTTATCAAAATCAACGTAGTTGAATACTACAAAACAAACAAATATTCCAGGAATTACATTTAGTAAAAACATAAAATGCCAAGACATTACTTCAGTTATATATCCACCAAGTGTTGGTCCAATAGTTGGAGCAACTGTTACTACTAAACCAATGACCATACTTACTTTTACATGCATCTTCTTAGGAAAAATTATAAATATAGCGCCAAATGCAGTTGGTATCATTGCACCGCCAAATAATCCTTGAAGAGCCCGAAAGATAATCATTGATTCAATATTCCACGCCAATGAACATAGCAAACTCATTATGGTAAAGCCAAATGCTGCAATAAAATATGAAATCCTTGTAGAAAGTAACCTTGCGGAAAAACCTGTTATAGGTATTATAATTACTTCAGCAATTAAATATGATGTTTGAATCCATGATAGCTCGTCTCCAGATGCAGATAAACCTGCTGCAATAACAGATAATGAGCTTGCAACAATCTGAATATCCAAAATAGCCATAAACATACCAACTACCATAGCAAAGAATGCAATGATAGTTTTGGTTGTTACCACAGGCTCTTCTGATGATATTTCTGCTTTACTCATATCCAAATCCAAAATTAATACTATAGTTATAACTACGAATAGACTCCTCGGCAATATATTCAGAAGATATTTTAATATTATGATAATTTCTGGGTATATTACTCTAGTATTATATTAACTATATTATATTATAATTTTATTAAATTTTTTTAATAGTAAGATATTGATCATAAAAATTATAAGACAGAAGAATATTTTATAATTCAAAAAATTCTTTATAAGAACAACAAAAGGTTGAAAAATAAATTAGTTAATATACTAGTGATTATTTTTAAACTAATTCTACTTGTATAGTATATAAAAGCTATATAAAACGTCTATTTAATTTTACCTTAATACTAAGTTGTATTTTTAATAAAGGTAATAAATCAAAATTATCCAACAAATTTTTGTAATCAATATATAAGGTAAATATTCTTGATTTTTGTAGTATTCTTTATTTAAATTTTATCAATTTTTTCTTTTCATATTTCTTAAAATATGTTAGATATATCTCTAAACTATTAACGCGTATACATCATCATGAGCAGAAGAAAACCAGAAGATACAATTCGACAATCAAAAGTCGGTACTGCAGGTGGTGAAGCAGATAAAGATACATTAGAAATTACAGACGCATTAAGTGAATTGGGTTTAGAAGTTGATAACAGACCTGTTATGTCAATAGATAAATAAATAAATTAGAATGAAAAGAAACCAGATAGAGAAAAAAAATCTAGAAACAAATTCAAGCCCTCTAAAAAAATATAAATCTACATTTAAAGATGTTTCAGGCTCGCCTAGAACACCAATTAATCTTAGAAGCTATGTAGTAAAAAAAGAAAAAAGCCAGAAGGTAATTAAAAAAGCTAAAATACTAAAGTTTCTTGAAAGCGTTCTGCACCTTGATTTACAAAACACTCTCCTTACGGATATTGTATTTTCTAAAGACGGAGGCTCTTTAACAGTTGTTGGTAGAACAAAATTAGATGGTACATCAAAACAGCTCAACCATGTGATACCTGTATCATTTATTAAAAATCTAATAGATATTACAATAAAAATCTCCTTTTCTCCTAAGTTATCCTTAAAACTCTTATCAAAACAACTAGTTATTCTAGCCCAGAATCAGAGAGGTTTTGCTATCACATCAAAACAATTAGAAAAAGAAGAATATTCAGAAATTAAAAAAGTTGCGCCTATCCTATCAGATAGAAAGTTAACAACTAACACAGATAGTATACTTCTATTCTCTCCAGGAAAAAAATCCCAATTATTTACAACGCCTAACAAAAAGAAAGTAGCAAAGGATCTATACCCTATTCATAATAAGACCTTCATTAATAAGTCTATGGAGCTTTTTTCTGAAGCCATCACTTCGACCGATGAAAATACAACAACAATTGCATGCGAAGCATTGGCTCGCTTTATATTTATAATCTGTAGCAAAGGCAAAAATATAAGTTTTGCAAGTGCAGGGAATACATTGCGTTACGAAATAAGGCTATATAAAGATCAGAACGAAGCAAAGAAAGCATCGGATAATTATGATGTGGTAAAATCTAGAGAATTAACCGGTCTAAAAGTAGAAGAAATTAGCAAATGTATTAGAATCGTAAATTGCGAAGGTTCAAAAATTAAAGAAACTCCAAAAGCTTTAGACGCTTTGAATAGTATTATCTATTGGTTTAATACGCTTGATGAAATACCTGAAGAATTAGTAAAAACATATAATTCTAAATATAATTCCGTTATAACTCTATCAAATTCTACAAGAGATATCTCAGATTATAATGATCCACTAACAGAGGAAAACTATGATTCTATTATCTATCATCATGTTGCAAAACTATTATACTTAGCATTTGACTTAAAAGCTCTCGAAGACGTAGTATTTGCTCCAGTATTTAGAGGAGATGTTACAGTCTATCCAAGCGCTAAAGGTACAAGAACTGCCACATATTCTCTAGTCGAAGGTGATGAGTATAGAGAAATGCAGCTAAATGCTGAAACTGGATTTAAAGATGATAGTTTCTTCAGAAGTAGAGAAAAAGATTTAAAAATACTTCCTCAAAAAATTGTAGAACTCTTTATTATTGGAACTATGCCTTTTGCAACTTTTGTGACAGGCTTTCTAAACTCTAGTAAGAAATTTCTTCCCACTTGCTTTGAAAAGCTCATTGCTCTTGCTGCGACAGATTATTGTTTAAAAGATAAAGAATTATTAGATTTCAAAGAAGCTACTCATGATATATATACTAGCTGGATATCAGGTGATTCAATACTAAACGACTCACAGGATACTGTAATTTCCCTATCCGGAGATTCAGATTTTTCAGAATTTCTTGAGTAATTTTAGTGTGACATATTAACATCATTTGACTTTCCCCTAAAAATCATTGAAACTTTTAGTTGACGAATTTTAGTAAAAGCTCTAATTTCGCTCCCCACTAACTAATTTGGAGTAATATATGAGTAAAGAACTAAGTGATATAGAAGTTTCAGCATGGAAAATACAGTTTAATAATATATTTTCTCTCGGAAGAGGAATGATTGAAAAATCTATATGTGCTAGACTTTTAAATAAAGATCCATCAAAAAACTTCTCCCCAGAATTGAAACAAATATTCTTAAAAACTCTTGAAGAATTTATTTTAGAAAACAACAGTCATAATCTACAAGATATACTAGATCAGCATACTCTAGATATTCTTGGAGAAGAATTAAATCAGTGCGACTTGACCTCAGGATAAAAAGCTATTGTCAGAAATCATCTGAATAATGTTGATTATCTTGACCTGCGAGAGATGATAAGCACTCAAGATAATCACTTGTAGTATATAATCTTAAAGCACCTTCTGCTATGCAATATACTCCTTCTGAATCGTCCGTACCTTCTTCAGAAGGATTAACATGTATTGGATAAAATCCAGGGACTTCAGCCAATACGTCAGAAGGATATTTAGATTCAAGAATGTCATGACCAGTCAAACCTGCTTCGTTTTTTATCTGCAAATTTGCTCCATGCTTCACTAATAGGCTTACAAATGGATGCAATTCATTAACCGCTTCCAGCTGATTGAAAAAAAGCATTGCTACGCTATTCCCCTCTTCTGTAGGATTAATATAGTTTGGATCAGCATTAGCTCGAAGTAACTGAGATACGATAGCACTTCTGACATTAGGTCTTATAGTTTCAGAGCATAAAGCTATCTGCGATGGACTATCACCATAAGTTGTACACTGATTAACATCACCACCAGCAAAAATTGCTATTGCCAAATCTTTAACATTTGACTCTTCAACAGCTTTAAATATTTTAGATTTACCATATGGATCTTGCTGTTCTTTAGAGTTTTCCTCACCTTGATAGCTTGCCTTCATTACACTTACCTTAAATTAAATTACATTAAAGTGTTATAAATATTACACAAAATTAATCAAGATCTTTTTTATTTATATTACTATAGGTTATATAAAACACAAAAATAAATAACAACAATATGTATACTCCTATAGGTATATGGGAATTGCTATAATGAAACAATGCCAAGCATATAGATGGACTCAATTTTCCGATTGTACAAGCTCCCAAAGCTGCACCCATACCAACAACTATATATTTTTCATCACCTTCTACTTGTTTACTATTCCACAAATTAAGTGGACAAAGGAAAACTATCCCCCAAATCACAATCCAAAATCTAACAATGCTTATATAGATAATTGATGAGCTATCAATAAAATACCATAAAGGAATTATAGTAAGTGCTAACACTCCGCTTGCAACAGACATTACAGCTTCGGCAGAAAAACGTCTAATATACCCTCCAATAAGTGGAATTGCTAACATATCAAAAACAAGGACAAGACTACTTAGCAACATCATTGTCTTCATTTCAATATTAGTAACAAGTGGAACTATATGATTCATTGTTACAAATGGAATAATATATGTCATATGCGAAAAACTATTTACTAAAGCAATTCTCACTAAATTTATTCGATGCTTCCAAAGCACTGATAAACTTCCAGAAGTCATAAATTTTAACGCGCTTTTTTTCTTAACAGTTTTTATTTCCAATATTTTTAATCGAATAAGATAACCAATAACCGCTGCAACACCTCCAAATATAAAACAAATCCTCCATGCGTAATCAATATCAAGATATTGAACAAGCGTTGCTGCAGATGATGCCAGAACCATACCAAACACCGTTGAAGTTTGGTATAAATAAGACCCCGTAAAAGCTTCTTTTTCTGGTTTATCATGTAGTATATATAATTTTGCGATTGCACTTTCACCAGATGCAAATATATCTCTAACCATTCTCACTAAAATTAATAATATTGGGGCTATAAAACCAATATCGTAATAATCTGGCAAGCAACCAATACACATTGTAGCAAAACCAACTCCAATTAAAGAATATGATAACGCTCGTCCTGGTCCATATAACCTTGCTAATGCACCAAAAATATAAGTCCCTAGCGGCCTTGTTACAATCGATGTAGCAAGGATACTATAAGCTAAAATCAACTCGATAATAGGATTATCATTTGGAAAGAATATCGGTGCTATGGTTGGAGCAATAAATACATATATTGATGTATCGAAATGATCAACTGCATTGCCAAGTAAAATCGTAAAATCTTTTTTAGAAACAAATTTCATATTAAATCCCAGTATTTATAATAAAAAAATAAATACCAGAAAATAAGGTTATTACATCAATATGTTAACACCACATAAGCTGAACACTCATATGATTATCGATAAATTTGTTATACCTTCCTACGCATGCATTACCATGGGAGCAGGTTCAAAGAGTATATTCTCAGCCTTTAGAAACCTATTATCTAATAGTTGTTCCAAAAGCACCTCTGGTATTTATGTTATCTGAATGTTATAGAAAGATAAGATCCGTGTCAACAAAGAGATTTTCTTGTGTAAATCTACAAAATTATATAATTAGCGCAGCATCAGAAAAGAGCGTTTGTGCGCAACCTACAAATACTCACTGGTAAGCACCGAAACATCAGATAGCCGCGCATTCGCTCGCTATGACAGCAGGTTTCGTCATTGCGAAGGAACGGAGTGACTGCGGCAATCTAGATCTTTCAACAAGAGATATGTTTATATGTGGTAAGCCCTGGATAGCCGCGCTTCGCTCGCCATGACGTATAGAGTTTATTACTTGTTAGGTACTTACAATACCCGCACTAACACCCGTTATTACACATAAAAACTAGCTACTTAACAAAGCAACAACACGGTCTTCAAGATGCTGCAATTTGCTAATATCAGTTCCACCAGCTTGTGCAAGCGTAGCCTGCCCTCCACCACTGCCACCTACAAAAGCAGAAGCTTCTTTAGCAATATAGCCAGCATTATACTTAGTTGAAACTGCTTTTGAAACTGCAGTAACAATTGATAACTTATCATTATTCTTCGAAATATAGACAACTACTAAATCATCATGACCTTTAGCTAAATTCTCCGCTGACATACGAAGCATTTTCGCATCAATATTATCAAATTTTACATATAACAATCTAGCACCATCTAGTTTTTTAGATTTTTGTTCAAGCTCAGCATCTGTAAGAACCATTCTGTCCATATGCATCTTTTCAAGCTGCTTTTCTAGATTCTTTTTAGCTCCAAGCAAGCCCTCTACCTTTTGAACAAGTTCGACTTTGTTACTTTTCAAAGTATCGATAACTTTATCAAGTAGTTCTTCACCTTCCGTAATATTTGCAAAAGCATACTCACCACAAACTGCTTCTACCCTTCTAATACCTGCAGCTATCGCTCCTTCACTAATAATTTTAAATGCTCCGATATCTCCGGCTCTTTTTACATGAGTCCCACCACATAATTCAAATGAATATGGGTTATTCTCTTCGGTTACGGGACCTAGTGAAACCACTCTAACTTCTGAATCATATTTTTCACCAAACAACGCCATAGCACCAGATTCTATTGCCTGATCTGCCGACATTAGTTTTGTAGATACTTGCGAATTGTGACTCACAATTTCATTTACTTTTCTTTCAATCAATCTTATTTCTGCCTTTGTCAAAGCCTTTGGATGACTAAAGTCAAATCTCAATTTATCTTTTGCAACAAGAGAACCTTTCTGAGTAACATGCCTACCCAAAACCTCTCTCATAACAGCATGAAGAATATGTGTGGCGGAGTGATGCATCTTTAGATCACTTCTATATTTACTATCAATGACCATTTTAATTTCGTCATTTTTAGAAATTATCCCTTCCTTCAAAACACAAACATGGCCCATAATTTTTCCAAGATATTTTAAAGTATCAACTACTTCTATTTTACAATGAGTAGACTCTATAGTACCAATATCACCCATTTGACCACCAGACTCACCATAAAATGGCGTTTGATTTGCAATTAATGTAAATTTTGCACCAATATCTGAAATCTGTTGAATTTCTTCACCTTTCTGTACAAGAGATACAACTTTTCCTTCAGCAGATTCAAGTGAATATCCTAAAAACTCCGTTGTACCAAATTCAGATGCTATATCAAACCATATCGAATCTGTCTTTGACTCCCCAGAACCTGCCCAAGATTTTCTTGCACGTTCTTTTTGAATTTGCATATGTTCATTGAAGCCACCATGATCAACAGAAATTTCTTGCTTCTTTAATATATCTTCAGTTAAATCAAGGGGAAAACCATAAGTATCGTATAATTTAAATGCAACCTCACCTGGTAAAGTACCGCCTTTAGATATAGAAGTTGTTTCATCTTCAAGTAACTTCAATCCTCTATCTAGAGTATATTTAAATCTTTCTTCTTCTTGTTTTAATATACTTGCAATAAATTCTTCTCCCCTAGTAAGCTCTGTATATGGATGACCAAATAGATCTTCCAACTTTGGAAGTAACTTATACATTAATGGCTCTTTTGCTCCAAGTTGATGGACATGTCGCATCGCTCTTCTCATAATACGTCTTAAAACGTACCCTCTACCTTCATTTGAAGGCATAACCCCGTCAGCAATTAAGAAAGCAGATGACCTTAAATGATCAGCAATTACCCTGTATGAAAATAGAGCCTCATCTTTTGCAGGAACTTTTACAATTGATTCTGCGTGACCAATTAGATCCTGGAACATATCAATATCATAATTATCATGAACTCCTTGCACGACAGCCGAAATTCTCTCTAGTCCCATTCCAGTATCAACAGATTTATTAGGTAGCAAAATACGAGTATCTTTATCTACCTGCTCATACTGCATGAACACTAGATTCCAAATTTCAATAAATCTATCCCCATCTTCCTCAGGCGTGCCAGGTAGACCTCCTGGAATATGATCCCCATGATCATAAAAAATTTCTGAACACGGACCACATGGACCAGTATCACCCATTGACCAAAAATTATCACTAGTTTTGATTCTAATAATTCTATCATCACCAAAACCGGATATTTTCTTCCAATGCGAAACTGCTTCTTCATCATCATGATAAACAGTTACATATAGTTTTTCTTTGGGAATTGAAAAATTTTCTGTAAGTAATTTCCAAGCATAAAATATAGCTTCTTCCTTAAAATAATCACCAAAGGAAAAATTTCCTAACATTTCAAAAAATGTATGGTGCCTTGCAGTATAACCAACATTATCAAGATCATTGTGCTTACCACCAGCTCTAACAGATTTCTGGCTAGTTGTCGCTCTTTTATAATCTCTTGTTTCAACACCTGTAAATATATCCTTAAACTGAACCATGCCAGAATTTACAAACATTAAGCTTGGATCATTGTGTGGAACCAACGAACTTGAAGGCACATGCGTATGCCCATAATTCTTAAAGTAATCAATAAAAGTGCTTCTTATCTGCTGTGTGGTTAACTTTGACATCAAACTATTCTTTTTTTTATTATCTATTAATTATAAACGATTTATCACTATAGTTTCAAAAATTAGTAGTAATAAATTTTTAGCACTATCTCATCAGTGCCCAGTCTTAAGCGCTTATACACTAATAAATTTATGGCCAAATTACAATATTAATTTAAAAAGCATTTTGCTTATTTTTATTGATATTGAGCTTAATAGACTTACACCCTACTCTTAAAGATGTAAACGAATAGGTTTCTAAGCTTAAAAAATCAGTCTTAACATAATGAGCCAACAAGATACATATAGATTAGAATTTTTTGTTAATTTATTTAATAACTTATTTCATAGAAAAAACGTAATAGTTCTAGTTGGAAAAACTGGTATAACTTTTTCTGCTCTCAAAAAACATAAAGTAATTAGTAGTATTTTTGTTGATAGCAAAGATGCGGATTTTCAAAAAAAGTACCGCAAGTTTTTTAAAAAATATAAAAATTATCATATTGTTTTTTTATTAGACGATAAAAATTGCGTACTAAAACATGAAATCATGACCATTCTTGGGTCGATAATTAAAAGCAATCCGGTTGAAAACTTTATTCAAAAAAATTATCATCCTGAAGATATTGTTGCGCATAACATATATGAAGTAACAACACAAAATGGTGAAGTATGGAATACATGTATTGCTTCTATGCCTTTTATATTTCCTATTAATGAACTTCTAGAATATGTAATAAATAATTCTTTTAAATATAGCGGCATATACTTTCTTTCTTTAGAATTTGAAACAATTATTGAAAGAATATTACAAAAAACTCAAAATACAGAATGTACTAATCATCTCCAGATCTTTGCAACCATAACAAGAGCTAGCGATATTCGAATTGCTGTTAAATATAAAAAGAATATCATGGATGAACAGATGATTGAATATCCTAAAGATAAATCTGACATGTATGTTCAAGGTACAATTGAACAAACAATCACAGATAAACTAATCTACTATAAATCTTTTATTGAAAAACTAAATTTACAAACATGCGTAATTACACTATCGGATAAAAAGCTAAAAAACCTACTAGGTACGTTGAAATTTGAAAACTGTAAAACAATTGCTATAGCTGGAGAAGATATCACCGTATCTAAAAGCAAAAAGTCAGATCGATTTCAAGATAACATCCTGCTAGAAATATTTGATAATTTTAATACTCATCTAGCTCTCAATAAGCCACTAAAATCAATTACAAAACTTAGTTTAATTAACAGCATCGTTTTTAAACCACTTATTGCTATAATGTTTGGTATATGCGTTACTCTTTCAGCGATAAAATATAAATCTATTATGCTGCAAAATGAAACAACCGAATTTAATCAAGAATATTACTTGCTTTCTGAAAAATATAGAGATATCCAAAAGCGCTATCCTGAACTCAAAAATGCAACTGACTTAATCGAATTATACAATCTAGAGAATATAATTAGCAAAACCACAATAACACCATTTGATCACATTAAATCGATTTTTTCTTTTGATTCAGAAAATCTTAAAATTAAGAAAATGTATTGGGCAATTAATGATCCGCAGAATATAACTCTGCTAAATAACAAACTTAATGTTACTATAGATTATCAATATGAAGGCCCTAGACACTCAGCGCTGCACGGGATTGAAATTGTGAATGGATACGCCAATCGATTAAAATCTATTTTCCCAAAGCAGAATCTAAAATATGAGCGTAACCCTGATGATATTACTGAAATTGCAAAAAAAGTTATTATACCTGCAAAAATAACTTTTGAAGGAACTATTGAGGCTGAGAAAGATGCTAGATAAATTGATTATACATTTAAAAAATATTATCTTCTTTAAGGCCGTAATATATATTATTATGACAATAATATTATTTACATTAATTCCCATATTTTCTGAAGATTTAGAAGATTCTTCAATTAAGAATAAAAAATCATATGCTCTGCTACAAACTTCTAAATCAAAGCTAAAATCTATTGTAAATTTCGAAAATACAATACTTAATACTAAAGAAAATTATGAAGCACTTATTTCAAAAGCAAACAATCAAGGTTGTTTAGATAGAACAAAGTTAACAAATCAAATTGCTACTTTAAATACCAAATACTCACTATTTGAGCCTATTTTTATACGTATATCTAGGCAATTTAATAATGAAACCACTCAAAACTATGCAAGTCATGTTAAAATAAACCATTATGAAATCAAAATTGCTTTTAAAAGCAAAGATCCTGTTACCATGCTTATGATATGTAATGAATTATACAAAATGCTTCCCTACGGATCTATTGTAACTAACACAAGCATAGCAACATATGAGGCATTAACTCCTGATATTATTAATAAATTAAATACTAAAAATGCACCAGGCCTTTTGGCAGTTAAAATGAAAATCCAATTAAGGGAGATTGTTTATGAACACTGATTTATCTCTACCACCAGGAGTTGACCCTAATCCCTTTAAAGAATATTTTTTAGAGTATTTGGGGGCTAACTTAAGTGAATCACTTTGTTCTTCTGTAGCAAATTTACTTGCAATAGACTACGTTGGACGTCTTGAGTCTAAACCTGACTTAGATTTTCATATAAACGAATGCACCCTAAGAATCAAAAAACAGCTAGGATTAAAAGTTGTTACTGATGAATCTTTTTCATCAGTAATGAGCCTATTTACTATTGCAATAACTCCAGAAAGAGATCTTGATACGGATGATGAAAAAGCTCAAGAACAGTCACATGATGCTTTAATTGATTCAATTATTGCTACATATTTTCATGACCTGACTCCAGAAGAAACCGTTATAATTAAATCTTTAATGAAAGAGATTCTTAATGGTAAAGATGGTAAAGAGATGATGATTGTGGCGTCATCTAATCCAAAACTTTTTTATTCAATTGTAGTTTCAGCTATTCGTGAAAAAAATAAGCTTGAAGAAGTTCTTGAATCTGTAAAACTGCATTTAACCCAAATAATGTCTAAAAATAAACAGCAAATCAAACAGCAAAGCGGCTTAAAAGGCCTTGTAAGCAAACTTTCACTGATAGGAGGACTAATGCTAACTGCATCAACAGGTCTAGTACTTGGTGGAATTACATTACCTGCACTTATACTCCCTGCTACTGCCGCGGTAGTTAAGCTTTCACCAAAACTTGGAGAAAAAGCAGTTGCATCACATGAACAAGAAGTAGTATCAATACAAAAAAAAGAATCAAATGCTAAAATAAATACTCTACATGCAACAGATAAAGACAGCAGAATCACTCAATCAACTGAAAAAAATATTGAGCAAAAAGTTGACAGAGCAAAGATAAAAGATCTAGCAAAGTCTGTAGCAGTATCAAAGCAAAATGAGAAAATAGTAGAAAATAAGTTTGAAAAAAAATTACAAACAAAGATTAAATCAAAAGATAAAGGACGATCTATATAAGAAATTATAATTACTCTGAGCTTTAGGAACATACTATACGTCATAGCGAGCGAAGCGCGGCTATCCAGATATTTTCAGCAAAAGTTTACTTACTATTTAACCTAACAGATTGCAACATAGATTAAGCTATTCGCAATCACGTGAGATAATTCGTCATGACAAGCGAATGCTTGGCGATCCATTGTTTTAAAGCGTATAATTTTGGAGTAATGGTGACTAGATCGCCGCAGTCACTTCGTTCATTCGCAATGACTATTTGACTAGATTGCCGCGTCGCTTCTCGCTCCTCGCAATGACAAGTACAAGTAACAAATTCTATACGTAATAAATTGCAAACAAAAAATGCGCTAAATTACCCAAAAGATAATCAGCGCATTTTTTTAATAAGAATATTTTAAAATTGTACTCTATCTATAAATAGGAATTATGCTTTTTTCTTAGAATAAGTTTTTCTTTCTGGGATTCTTGCTGCTTTACCACTTAAATCACGCAAGTAAAATAGCTTAGCACGACGAACAACACCACGCTTAACTACATCTATTTTAGCAACTATTGGAGAATATGTTAAAAACCTTCTCTCAACACCCTCGCCATGACTTACTTTTCTTACAACAAAAGAAGAAGTTAGCCCTTTATTTCTTTTAGCAATTACAACACCTTCATAAGCTTGAAGTCTTTCTGTTGCACCATCAATTACTCTTACACTAACTCTTACAGTATCACCAGCTCTAAACTCAGGGACTTCTTTTTTCTCTGTAAGCTTTTCAATTTGCTCTTTCTCATATTGCTTAATTACGTTGCTCATTTTTATCTCCTAAATGATTCTATATATTTTTTATACAATAAACTTTTAAGCAAAAGAATTATTTCAAAAAACTATTTTGCCTTACTTTTGTGACCCTTATAGATTCAGATTTTTTCCACTTTTCAATTTCAGAATGATTACCTGAAAGTAAAATCTCCGGAACTTTCCGACCTCGCCAAACTACTGGTTTAGTATAAAGCGGATGCTCAATCAAACTCAAACCTTCAGATTCTTTTTCAAAAGACTCTTCTTTTAAGGTCTCTTGGTTACTAAGAACCCCTGGTAAAAGCCTAACTATGCTATCTAAAATTGTCATTGCAGCAACTTCACCACCCGACAAGACATAGTCACCTACACTAATCTGCTGCACATTATACTCATCAATGACCCTTTCGTCAATCCCTTCGAAGCGACCGCACAAAATAATTATATTTCTTTCTTTCGATAAATTTCGAGTTACTTTCTGATTTAATAGTTGACCCCTTGGTGACGGATAGTAAATTTTTGCTCCTGGATGTGCGTCAAGTGCAGCATCGAGCGCAGGACCAATAACATCTGGACGCATAATTAATCCATTTCCTCCACCGCAAGCCACATCATCGACATTCTTATGTTTTGTTAGTCCAAAATCACGAATATTTATAATATCCATTGACCATAAATCGTTTTTTAACCCTTTCCCTGCAAGTGAGCAGCCCAAAGGACCTGGAAACATTTCAGGAAATATTGTTAAAATTGTTACATGAAAATTGTTCACACAATACTCTTTTGTAAGTAGTAGTTAATCTGTATCAAAATGTGCCGTACACCCCCACCGCAATCCATAGATTCATCATCAAAAACTCTAACTGTTTTTTCTAAACCCATACCAAATAATGATACAAACTCTTCGCTATCTTTACCATAGATAATAGAAATGGCAACTATAGCACCAAAAATTATTAGCTCCATAATACCTCCCCCAAGATAATAAAACCTTAATTAAATGGTATCCTAATGATTGCTAAAATTCAAGATCAAAAGCCATACAAACGAAGCCTCTGCATTAAGAAATTTATCAAATCTAAAATGAATTTTCCTGTCTCTATAATATTTTTTATTGATTTAAAACAAAGACTCGTTTATAAAATCAATCACAATGAATTTATTTGTAATTCAATATTCGGTTTGAACTTGAAAATAGATACAAAAGAAGAGCCTTGGTAAATAGTATAGGCAAACGATGAGTGACGAAGTTCACTGTTCAAAATGAAATTATAATTGTCGGGGCATGGCGCAGCCTGGTAGCGCATCTGGTTTGGGACCAGAGGGTCGGGAGTTCAAATCTCTCTGCCCCGACCATCTAATCATTAATAAGACTATTCTAAATTATAATTGATCTGCAAATTCAAAAGATGTTCTGAGCTAATTCCATAACAACTATTCTTAGATAGACATATCACTAATTATAGCTGCCCTATTAAAGATGAATCGCTAATAAATAAAAAAATTTTATATGTAAGTAGTACTTTTAATATATAAATTTATTGAGAACGACAGTAATTTATATCAAACCCAGTGTGAGCTAAGCAATGGGCAACCTTATCACTTAACCATAAACTTTTTGTCTTTAAAATTTCTATCTTTTTTTCAGCAGTTTTCTTATCAAAACTACTATTTACACTATTAGTATATTGTTTTACATAATGTATACCGACAAACTCAATATTCTTACTCTCGCACATTCTCCGAACATCACTAATCTTATCAATACTATTATCTATATGTATTATTTTTTTTGGTAAAAACTCAACTTTATCTAAAAAAATGTTTAGTATATTTCCTTTAGGACGTCGTGAGGTAAAAATTATCCCATCTTTAAATATAGCATCATTTGCAAACCCATCTTTCCTACCTATACGACTACCTTCTTTATCAATACGTTCAAGAAATAATCTCGATAACTTAAAACTTCCAGTAAAGCCAATATCGAGACTTTTTAACCTTGATATTATTAGATCTTCACGACTAGTAATACTACCAATTTCTCCAGTACTACCGCTAGTTAGAGCTATAACTTTTATTCCATGTTCTCTAGTATCTTTGATAATTTCAGGAATCCCTTCATCCAAAAGAACAGGTTTATAATTTAACAACATTATGCCTTCTAACCTATCTGCTTCACGAGGATTATTTTGTCTTAATGTAGAAAAAAAATTTTTTACAAACCATTTATTTCCAGACTTAAGTACATTATCCTCAGGTTCAAAAAGCACACCATTTACATCAAATGTAACTAGGTCTTCTGGCGTTAGGTTTTGCAACTCTTGGTGAATAACTGAGCTATCATCAGTCTCAATGATTTTAGCAAAAACTGGATCAATTAAACTAATTACAATAATTATAAATATAGAAAGTTTATTCATACAACAACACTATTTAATCACTCTACTATACATATAGTAATCTTTATGCTCACCTTCTACAACTTCATATTTCTTAAGCAGCCCTTCTTTTTTAAAACCCGTTCTTTCTAACACTTTTATTGATCTTTCATTATCAATTATTACAGTTGCTTGAATTCGAACTAGTTCAAGTGCTACATCTGCAAACTTTAATATTCCATTGATTGATTTTAACATGACTCCTCTGCCCCAATATTCTGGGCTCAAATCATAGCTTATTTCCGCTCTAGAATTTGGAAATGAAATTAAATTAAATCCCGCAGTTCCAATCATCTTATTACTTTCTTTTAAGGCAATTGCCCAATATATACTTCTCTTTTGTGGAAATAAACTACCCCAGTACTTCACTTCTTCAAGAGCCTTTTCAACACTATTTGGTCGATTCTCCTTTGTAAGGAAACCTTCCATTGCATTGTTACTCATATATTCAAAATAATCTTGCGCATCTGATTCTTCAATTTCTCTTAAAATAACATTCCCTAAATCAAGCGCTGGAAAATCACCAAAAAAATACTGTACATTCATGATTTACCTCACATATTTTATTGGATCCCTAACTTTGTTATCTTCA
>sequence14
GTACTTCTGCGCCCCCTATGGCGAAATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACATCACCTTTTTCTTGGTAATATAGCGCAATTATTATTCTATGTCATTCGTTATTTAATAATGCCTTTCTACTTGCTTTATTTTCATGGCTCTTAATATTCATAATGTATATAATTTACTTTAAATTATTTTTAATAAGTTAATAGTATTAAGCTATGTGTTAACCTAAAATTACTTAATAAGGTTTTTATATTGATAAGCAGCAATTTTGCTTAATTTTGTGATAAAAGAGACAAGTCGAAGTTTAATGTTGAATTATAGATTGTGTAATACATTATTTTTAACAAAAGGGTATGCGTATCTTATGTATAATTGATAGATGATTAAAGAACATAATGTTTTAGACTAGTAAATTATTTGATGTTTGCTACAACTATAAAATGTCCTAACTAAACAGCAAAGGAATTACCGCAGCCACATTTTGCGCTGGCGTTGGGGTTTGTGATTTGGAAGAAGTTACTTCCAAGCTCCTGAATAAACTCGATTTTACAGTCATTAAGGAATTGCTGAGAGAGAGGATCAATTGCAACTTTGATACCATCACTTTCAAGTATGAAATCATCGTTATTAATTTTTTCTACTAAAGCATATTGATACATAAATCCTGAGCATCCACCTCCATCAACGGAAACTCTAAGAGCTACCATATCCTTTTTATCTTTTGCAATGAGTTCTTTGACTCTTTTAGCCGCAGCTTCAGTAATTTCTATATTCATTGTTATCGCTTATTAGAGAAACTAATTGAAATGATTTGTATATATCAATATATTGATTATTAACAAATTTTTCAAGGGATTAATATGCTAAAAACTTATGCTTGCTTGCCAGAGAATAGTAGAGGTAGGATACATCCTGAAAAGCCAACGCCTTATAGAAATGAGTTTGAACGCGATAGAGATCGCATTATTCATGCAAACGCTTTTAAAAGGTTGCAATATAAAACTCAAGTGTTTGTTAATCATGAAGGTGATCATTATCGCAATCGCATGACGCATTCAATGGAAGTTTCCTCGATTGCAAGATCTTTGTCTAAGGCCTTAGGGCTAAGTGATGATTTAGCAGAAGGAGTAGCTCTTGCGCATGATCTTGGTCACACACCATTTGGTCATGCTGGGGAAGATGCGTTAAATGAGTGTATGAAGGGTTATGGAGGATTTTCACATAATGCTCATGCTTTTAAAATCTTAACTAGTATTGAACAAAAATATGCCGCATATGATGGTCTAAATTTAACTTGGGAAGTGCTTGAGGGGATAGTAAAGCATAATGGGCCTGTTTATAAGAGTGATGCATACTCATACATATTTGAATATGACACAAAGCATAATTTAGATTTGAGTAAGCGTTCATCTGCTGAGTCGCAGGTGGCAGCTTTGTCAGACGATATTGCATATATTTGTCACGATCTTGAGGATAGTATAAAAGCTGAAATCGTTTCATATCGTGACTTAGAAGAGATAGCATTTGTCGATAAATATATACATGACGTAAGAAGTGAATTTCACAATATAAATGATGAAAGGCTAATTTACGAAGTAGGAAGAAAATTAACTCACCATTTGATTGAAAGTCTACTTTTTCAAACTCAAGAGAATATTAAAAATCACAATGTGAAAACCGAAGAAGATATTAGGAATCTTGACTGTCAGCTAGTAGAATTTACTGATACAACTTTTAAAGAAGTGAAATTAATAAAAGACTTTTTAATGAGAAAGGTGTATAAGCACCATCGTGTGGCATCTGTCACTTTGCAGTGTAAGAATGTGATAAGAGATTTATTTAAACTTTATGTTGAGAATATTGATTTACTTCCATTTAGCTGGAGAAACATGATTACAGAATCTGGTGAGTTGGCAAAGATGTCTATAATTGCAGATTATATTGCAGGTATGACTGATCGTTTTGCGATTAAGCAATATCAATCTTTTTATAATTTAAATTTTGCAAATACTGATTTATGAATATTTTTAGAGAAATTGGCAAAGATTTGAAGAAAATTGGTCTTCAGATCTGCAGTGATGAAACAATTTGGTCTCAATCTACTATAGAGGCTCCAAAAGATCCGTTAAATGGGGATATTTCGACTAATATTGCAATGATTATTGCATCAAAAGAGGGGGGCAATCCTAGAGAGATTGCTTTGAAGTTTAAAGAGTTACTGTCGGATATTCCATACATAGCTCACATAGAAGTAGCTGGACCTGGGTTTATTAACTTTACCATAAAGGCCGATAAGTGGCATAGTTGTATCCGAAGTATACTGAGTGATGATCCAGATTTTTGGGAAGTTAGTGTTGGAGATGGAGAAAAAGTAAACATAGAATATGTCTCCGCGAATCCTACAGGCCCTATGCATATTGGCCATGCAAGAGGTGCAGTATATGGAGATGCGCTTGCTAATATTCTAACAAAATGTGGGTATGATGTTACTAAGGAATATTATATCAATGATGCTGGTTCACAGATAAATACTCTTATAGAAAGTGCAATTTTAAGATATCAAGAAGCATATAGTGGAAAAGCAGTTGAGATACCAGAAGGCTTGTATCCTGGTGACTACTTAAAAGATGTTGGAAATAAGCTAGCTGAAAAGTATCAAGATAAATTACTTGATATGGACATTTCTTCAATAAAGCAGGAAGTTAAAGATTTTATTATTGATCAAATGATGGAATTGATTAAGTCAGATCTTGCTGAACTTGATGTTCATCATGATGTATTCTTTTCTGAGCAATCTTTGCATGATGGGAATAAAATAGAAAAATCTGTAGAAATCCTAGAGAAGAAGGGCTTGATTTATAATGGAGTTCTGCCGCCTCCAAAGGGTAAGATTCACGATAAATGGGAAGAAAAAGAACAGATGCTTTTTAAATCTTCGGATTATGGTGATGAGCAAGATAGGCCGGTGCAAAAAAGTAATGGTGACTGGTCATATTTAGCTGCTGATTTTGCTTATGCAAAAGATAAGATTGATAGAGGTTTTGATAGGTTAATATATATTCTTGGTGCTGACCATAGTGGATATATAAAGAGAATTAAAGCAGTTATTAGTGCGTTAAGTAACGATAAGGTTGCGAGCGATATACGTACGAGCCAGCTTGTGAATTTTGTTAAAGAAGGTCAGCCTATTAAGATGTCTAAACGTAGTGGGAACTTTATGACTGTTCACGATGTAGTTAATGAAGTTGGCAAGGATATTATAAGATTTATTATGCTTACAAGGCGCAATGATATGGCGCTTGACTTTGATTTTGATAAGGTTAAGGAGCAATCGAAGGATAATCCAGTTTTTTATGTTCAGTATGCGCATGTTCGAACGAAATCTATTATAGCAAAAGCAAAAGAAACAATATCTGAAGCTTATACAAAATTTGAAGCTAATAATTTTGATTTATCTCTTCTTGATTCTGAAGAAGAAATTCAGTTGATAAAATTACTTGCATCATGGCCAAAAGTGCTAGCTACTTCTGCAATGCACAGAGAGCCTCAGAGAGTTGCTTATTTTCTGATTGATGTAGCCTCTAGATTTCATTCGATTTGGAATTTGGGTAAGGAGAACAAAGAATATCGTTTTAATACTGAAGATAATATTGAACTCACGGCAGCAAGATTGGCTCTTGCGGAGAGTATTCGTAAAATTATTGCCGGTGGCTTTGAGGTTATTGGTGTTACTCCTCTTGATAAAATGTAGAATAATCTATTATGTTGATCCGTCATGTATATGGAAAGCAAATACAAAGCTACATAGATGATATAGCATCTCTTAGGCTCAAAGTATTTAAGGATTTTCCATATTTATATGGTGAAAACATTGAAGATGAACATAAATATCTAGAGCGATATTCTCTTTCAAAAAATAGTCTTGTAATATTAGTTCTTGATAATGATAAAGTTGTGGGAGCATCTACAGCTCTTCCATTAAGCGATGCTGATTCGGGTTTTAAGGAGCCATTTGAGAACAGTGTTTATAATATAGATGATATTTTTTACTTTGGTGAGTCAGTTCTGCTAAGAGAATATAGAGGGAAGGGTATTGGAAACCAGTTTTTTCAAGAAAGAGAGAAGTTTGCTCTAAGTTTAGGATATAATAGTTTCGTATTTTGTGCTGTTAATCGAGAAAAAAATCATCCACTAAGGCCAATTAATTTTAGTGATTTAGATGATTGGTGGTCTAGAATAGGATATCAGCCTATGCCTTCTTTGGTTTGCAATTATAGTTGGAAAGAGGTTGGTTCTCTGCAAGAAGTTATGAATTCTCTGACGTTTTGGCAAAAGGGGTTGTAGTTGGGCATATAAAATGAAAAAGAAGGTTGTAATTATTCTTTTACTTTTTGGGTTGAGTTTTCTTATTTTTGCGATAAGGAATTATTTTTATTCTCCTCAAGCGCAAGATGTAGTCACATTACTGCCAGATGATTCTGCCACTAAAAAGAAGCCTAAAGATCCAGGTGGTTTAGTTCTTCCAAACTCTGATAGTTTGGTGTATGAGAGGTTAAAAGGTGGAAAACACAAGGAGAAGAAAATAAATCTTTTGCCAGCCCCTGAAGAGCCAATGGAAATTATAAGAAGACAAAAAGTCAAAGCAAAGCTTTTGGATTCGATTGATGAAATACTTGATAATATTGAATATTATGAAAATGAGTATATCGCTTCAGAAAAAAATGATACAGAGAATTTAGACTACGTCGTTCCTAACGTTTTGTTATTAAAGGATGATAGTAATTTAGATAAAAATAGTATTTATGTTCCAGGGACTAGTTTAAATATTATAAAAGCCTTAGAAAGTGAGTATAAAATTGCCAATATTAATGTAGTGGATGAAGAAGAGGGGGGGTATAAAATTCAACTTGCTTCAGCATATTCTCAAAATGACGCAATGAAAAAATGGCAGGATATTTCTCAAAAACATAAAAAAATACTTAGTGATGCAAACTTAATTATTAAAAAAATTGAGGGTAAAAACGAACGGATATTTTTCCTAGTAATGGCTGGTAGTTATCCTTCGCTAAGTCATGCGAAATTACTCTGTAAAAAACTCTCCAAAAGAAAACAAAATTGTATCGTTACAAAATAATTTTTTTATTTTTTGGCACGCTTTATGCTCCTATAAGTGTAGATTATATTAAATCCCCAGGGGAATCAATGGCTACAACGATTTTTGAGAATATAGTAGATAGTAATTTTGGAGATAAAGGGTCTTCAAAAGGAGTTTCTTTCGGTCAAAAAACAGATTCTTCTGAATTTCGTGATTTAGTAAAAGATAAAACTTCCCAATCCAAAATAGATTATTCTAGATCTGGAGTGAAAACTAAAGGTGAGAGTGATCGTGTTGCTGAATCCTTAAGTACAAAAAAAGCTCAAGGCACCAAAGAGCAAGTAGCTGAAGAAACTAGCGCAGACTCAGTAGTTAATGTAGATACATTAGTGACTGCGGATCAGTCTAGTGTTAGTCAAGAAGTTCTTTCTACATTAATTCCAAGTGAAGAGACAGTATTGGTTGCTGAGACTGAAGAAGATATTATTCTGGAGGAAGATCTAGATCAACGAGAAGAAGATATTGTTCCAGCTATTGATTTGCTGCAAGAGCAGGATGATGAAGTTGAATTGTCAAATTTAATTGTCAGTGATTTTGTTGATAATAGTGTAGATGAAGAAAGTGTGGTAGTGCCTGTTGCGCTACCAGAGATTACTAGAGTAGCGGATTCAGGAAATGTTGATAAAACAAGTGCTTCTGTGTTTGCTGATGAAGTTGTGACTCAATCAGTAGATATAGCTGAGTTGCCAGCAGAAGATCAGGCAATTCACCAAAGCTTAAAAACATTCGATTTGCCACCTGGTTTTATTACAGATGATGTATCTAGAGATATTGAGTTGTTGACTGATAAGGTTCAAATCACTCCTAAACCAGATAATATTCAACAATTAGAAGAGCTGAGCTCTAAACTTGATGCACCAGTTAAGATTGTTGTTGATGGGGTGGAGTCTGGGAAAAACACTGTTGAAAATACTAAGCCTATTATAGTTGCTCCTTCATTAAATTTAGCATTGGCAGATAATACTAGACATGGGAAAAATGTTATTTCTAGAATGCAAACGTCCGATAGTGATCAGAGTGCAGCTGTTATTTCAGAAGGGGAAGAATTCGTTTTAGACAATGAAACTATACTTCCTAATTTAGGTGATAAGGATAATAGTGGTGCAGGGCAGAGAAGTTCATCTTCACTTGAAGCTTTTGGGGTAGTCATAGAACAAGCAAATGATGAAACATTTGAGATTGCATTTAAAGCTCAAGATTTCGGTTCAAAGCGTTCTGAGATGCCAAAACCTGCTATGCAAGTTTCATTGGCAGTAAATGAAGTATTAAATTCAAGTTCAGCATCAGGCAAAAAACAAATAACAATTAATTTGCATCCACAAACATTAGGAGCAGTTAAGGTTGAAATTTTGTCTCAAGTGGGGCATGATGGAGCAAGTAAAGTAGAAAGCATTAAAATTAGTGCTGATAAGCATGATACTTTAGTTATGCTTGAAGAGCGTAGAGCAGAACTTGCTAAAAGCTTAAAAGAAGTAAATGGTACAGAAGAGAAAGAAGCTCATCTTCAGTTTGAAATGAGCCAAGATCAAGGTAAAGGACAAGGTGCATATTTTTCTTCGCTTGAAGAAAGAAATAATTGGATGAGCAAGTTTGTTGGACTCGTAGCAGACGATGAATTGCAAACAGAAAATAGCTCTCATGAAGTTGATGAATATGCAACTCGTGGAATAATAACAGAAGATAAAGTAGATTTAGTAGCGTAAATAATAATGGCAGCAGAAGTAAGAAATCAAGGTAACCCTCTAGCAACAGCTTTGATGAAACCTAAAGGTAAAGCAGGTAGCAATTCGGGTGTTATTGGAGCAGGGTTTAGTGAGCTTTATAAATCTATGGGTGCTCCTAGAAAAACTCCGTCTCAGTTGATGAACACTTCAGAAGATATGGATAAGGCAATAAAGAGTATAGATGATGCAATGGATTTTGCTACTAAGCTTATGCTTTCTGCTGCCAAGAACATGGGAATGCCGAGTGAAGATGGTAATGATAGTAAAGCACGTGAAATGTCGGAGACGGCGCAATCAATTGCAACTATGATGGCTACGAAGGCAAGTGTTCAAGCACAAATGCAGGTAATAGAACAGCAGAAAAAGCCGGCAGTAGATTTGATGTCTTTAAAAGGTAAGCAAGTTGAATATGATAATTCGACAAAAACCTATTATGGCAAGCCTATAACATATAATTATAGAGTTACGCATAATGAGTCCGACCCAACAGCATCAGTTAATTTAACAATGACTATTAGAGATGAGCGCGGGATACCGATAAGGACAATAAGGCAAACAACAAAAGCTGGAGAGTTTTCTTTTGAATGGGATGGAAAAGATGACAGAGGTGTAGCTGTACCAATTAAAAAAGATAAAAAAGGTGTATATGTAGCAGCTAAAAATACCTATACCCTTGACTTAAAAGCTGAAGGGCGCAAGATAGTCGGTGGAAAGTCTGTACCATTTGCTGCTAAAGCAAGTGCAACTCTGGTTGGAGAGGTTGAAGCAGTTAAGATTGAAAAAGGTACATCTACTGGTGTTGTAATTAATGGTAAAACAATAACTAGGGATAATATCGTAGACGTTCGTGATATGCCTGAGCCTGAGCTTGAAGTTGATTTAACACCAGATCTAATTGGTAGAAAAGTTGATCTTGATTTCTCAAAAGCAAAAGTTAAGGCTGATGGATCTATGGAAGTCTATTTCAAGAATCATGTAGAAAATCCAGGTGACCTAACTGTTAGGGTTTATGATGAAGGTGGTAAATTTTTAACAACATTAACAAGTAAGAAAAATATTGGAGAAGGTGTTGGTAAAGTTTCTTTCTCGAATACAAACTTGGATGCTGGTGTTTACGATATAAAAGTTTTTGTTCAGGATAAAGAGAATCCAGCAAACGTAAAAGATGTTGAGCTTTCTTATAATGAATCAATCTTAGTGGCTGGAGTCAGTAAACGCTATGGAACGGTTATGTCTGTTGAAGAAAAGACATATGATCCAATGCATATTACGTCAGTTCTTGGTAACTATACAACTCCAATTGAGCAAAGAAGAGCTGAATTAATTGGTTCAGAAGTTGTATATCGAGATGATTTGTTTAAGTATGCTCCAGGTGCGGATCCAGTGTCCTTTACGTTTAAGCTTCCTGAAGAAGATGCTGTAATTTCAACAGGTAGAATGAATATTTATGATGAAAACACAAATGAATTAGTTGCAACAGTTAATGCTGAATATGATTTGAATTCTATGTTAACGGTTGGAAGTCAAGCTGCAATTATAGGTTACTTAAGAGGTACTTTTAATACGGCTAATTATTCAGTAATTACTGGAGAAGAGAGAGTTCAGGCTAATCGTTACATAAAAAATGAGATACAAGCTAGAAGATTAACCATCGATGCTCCTTATCTTGAGGCGTATAATAACGGTCAGGTTGCGATGACTTTCCCAGTGTGGAATGGTCAAGATACTAATGGAGTTGCAGTTGATGGTAACAGGCAGCTAAGAAGAGACTTTACTCCTATCTATAGCAGAGATGGAGATGGTTCTTTAGTTGCTGGTGATACAGATAAGCAAATAGTTGTTGGTACAGTGGAAGCTGTTGATGAAGTTGAAGGTGAGCTTCAAGTTCATGTCAGGGGTGTTGATGGAGTTATTCCAGAAGATTTAATCCTAAGTACTCGTAAGGTTTAAGGTAAGTCTCTTGCTAAATTAAAAATTTCTTAAGTATAAAAAATTGACAATAAAAGTTGATAATTATATGATCATGTCGTTGTAATTATTTAGTATTTTTTTATTATGTCAAAGCTAACTAAGACTTACATTTTTGATGAAATTTCAAAAAGGTATTTTCTTAAAATCCATAGATCTGCCGGTTTCATGGAGCCTCATACAAAATACCAATTAATAAACGAAGATTCTATTCCCAGAGGTGCATCAGTTTTAAGTGTAAAGATCAAATACGGATATGAATCAAGTGATTTAGAAGTTTTAGAAAAGCAATTTGAATCTCTTAGCATAGATCCAGTGGGTGTAAATTCTGACATGGATTGTGGATAATCAATATGCTTCTAAAGCTTAAAATTAGTATTTGTAGTCATTAACCCGCATGGTGAAGCTAAAGAGTTTGGTGTATTTGCTACAGGTTTATTGTGGTTGCGTAATATAATTTTGTTTTTTTATATATCTTTTTGTTCAGAGCTTGTAAATCACTATCAAAACTTATAAAATCAACTAGATATGTAACTTGAAGGATAAATATAACTTTATGTCTCGGGATAAAAACGATAAAACACGACCAATATCTCCACACTTAAGTATTTATAAACCACAAATCAGCTCTGTCCTATCAATTGGACACAGGCTAAGTGGAGTAGGGCTTTTTTTCGCGCTGGCAGCATTTTGTTGGTGGTTTACTATGTGGGTATTTAGTGGGTTTGAGCCTTGCTATCTTGAATGTTTTGACAATTCAATTGTCAAAACTATATTAGTGATTGCAAGCTATGGCTTCTTCTACCATTTTTCTACTGGTATAAGACATCTAGTGTGGGATACTGGTAGATGGTTTTCAATTCCAGCTATTAATGCTAGCGGCTGGGGAGCTGTGATTTTATCTATAGTATTAACAGCAATTTTCTGGTTGTGTATGTGAGGTTATTTATATGAAAAATAAATATAGATCAGATTTATCAAAAGCAAAAAATCTTGGTTCTGCCGGATCTGGTTCTGGGCACTGGTGGCATCAAAGATTTACAGCAGTTTTACTTGCATTACTAACAGGGTGGGTGTTTTGTTTTTCTTGGGAAATTAGTCGCTCTGAGCTAAGTGGAATTATTGAAGTATTTAAAACGCCATATCATATTGTGATGGTTACTCTGTTTGTTTTAGCGGGTTTTTATCATGCAGCAATTGGTATGCAAGTAGTGATTGAAGATTATGTACATTGCAGAGCAGCAAGACTAACCTTACTTTTAATAACTCAGATTTTTTCAATTGTAACAGCTCTGGCTTTTATTTTAGCTGTTTTATATGTAATGACTTTATAGTGGATTTTGTTTTATGACTGTACCTTATAACGTAATTAATCATGAATTTGATGTTGTCGTAGTTGGCGCAGGAGGCGCTGGGCTTAGGGCAACATTTGGAATGGCAGAAGCGGGCTTAAGCACAGCATGTGTTACAAAAGTTTTTCCGACAAGAAGCCATACTGTTGCAGCGCAAGGTGGTATTAGTGCGGCTCTTGGTAATATGGGAAAAGATGATTGGCGCTGGCATATGTACGATACTGTAAAAGGCTCAGATTGGCTTGGTGATCAGGATGCAATTGCTTATATGTGTAAAAATGCGCCTGAGAGCATTATTGAGCTTGAGCATTACGGTGTGCCTTTTTCCAGAAATAAGGAAGGAAAAATTTACCAAAGACCTTTTGGTGGAATGACTACTGAATACGGTAAAGGTAAAGCTGCTCAAAGAACTTGTGCGGCTGCTGATAGAACTGGTCATGCAATATTGCATACACTATATCAACAGGCTCTTAAGCATGAAGCGCAGTTTTTTATAGAGTATTTTGCTACAGACTTAATCATGGAAGATGGTGAATGTAAAGGTGTTCTAGCTTGGAATCTCGATGACGGAACATTGCACGCATTTAGAGGTCATATGGTTGTGCTTGCTACTGGTGGTTATGGTAGAGCATATTTTTCAGCAACCTCTGCGCATACTTGCACTGGTGATGGAGGCGGAATGTGTATAAGAGCTGGGCTTGCTATGCAAGATATGGAATTTGTTCAATTCCATCCAACAGGAATATATGGAGCAGGTTGCCTAATTACTGAAGGATCAAGAGGTGAGGGGGGATATCTTGTCAATTCTGAAGGTGAACGCTTTATGGAAAGATATGCGCCATCAGCAAAAGATTTAGCATCTCGTGATGTTGTTTCTCGTTCTATGACAATGGAAATAAGAGAAGGAAGAGGTGTTGGTGAACACAAAGATCACGTGTATCTACATTTAAATCACTTACCACCTGAAGTTTTAGAAAAAAGACTTCCTGGTATTTCTGAAACTGCAAAAATATTTGCAGGTGTTGATGTAACTAAGGAACCAATTCCAGTGCTTCCTACTGTTCATTATAATATGGGCGGGATACCGACTAATGTTCATACAGAGGTTATTACACTTAAAGATGGTAAGGAAGAAGTAGTTCCAGGCCTAATGGCAATTGGTGAAGCTGGTTGCGTATCAGTGCATGGAGCAAATAGACTTGGTTCAAATTCATTACTTGATCTTGTGGTATTCGGAAGGGCCGCAGCACACAGAGCTGCTGAAGTTATTAAATCTGGTATATCGCATAAAAAGCTAAAAGATGATACACTTGCTCCACTTCTGGAGCGTTTTGATAAAGTTCGTAACGCTAGTGGAAAAATATCTGTTTCAGATTTACGTTTGAAAATGCAAAAAGCCATGCAAAATCATGCTGCGGTATTCAGAAGTGATGAGACACTAAAAGAAGGTAAAAAGTTGATTGATAATATTAGAAAAGAATATACTGATATAAATATCAATGATCGTTCGCTTATATGGAATAGTGATTTAGTTGAAGCACTTGAATTAGCAAACTTGCTAGATCAGGCGGTTTTAACAATGCATGCTGCAGAAAATAGAAAGGAAAGTCGCGGCGCACATTCTAGAGAAGATTTTCCTGATCGCAACGACGATGAGTGGATGAAGCATACAATGATCTGGCTAGAAGAGTCTGGAGAAGTTAAGATTGACTATAAGTCAGTGACATTAGAGACTAACGATGAAGAGGTGGAAAGCGTTCCACCAGCTAAAAGAGTATATTAGATTTGTGAGGAAAATATGGCTGAGCTAAGACTACCACCAAATTCAAGAGTTCTTGAAGGAAAAGTGCATGTTGGATTAGAATCTGCAGATTCTCCAAAAAAGCTAAGAATATACAGGTATGATCCGGATTCTGGTGAAAATCCAAGAGTTGATACTTATGAAATAGATCTTACAAAATGCGGACCAATGGTTCTTGATGCTTTGATCAAGATTAAAAATGAATTAGATTCTACTTTGACATTTAGGCGTTCATGTCGTGAGGGAATTTGTGGAAGCTGTTCGATGAATATCGATGGAACTAATACCCTTGCATGTACTAAGCCAATAGAAGAGATATCAGGGGATATTAAAATCTATCCACTGCCGCATATGGAGGTTGTAAAAGATTTAGTTCCAGATATGAATCATTTTTATGCGCAATATGCTTCGATTGAACCATGGCTTAAGACTGATACTCCAGTCTCAAAAGGATCTGAAAGATTGCAATCAGAAGAGGATCGTGAAAAACTAAATGGGCTTTATGAATGTATTTTATGTGCTTGTTGTTCTACATCATGTCCAAGCTATTGGTGGAACGGAGAAAAATATTTAGGACCTGCAATTTTACTGCAAGCATATAGATGGTTAGCTGATTCTAGAGATGAAGCAGATGGAGAGCGTTTGCATGACCTTGAGGATCCATTTAAACTATATCGCTGTCATACAATTATGAACTGTACTAAAACATGTCCAAAAGGTTTGAATCCTGCTGAAGCAATTGCAGAAATTAAAAAGAAAATGGTTGAGCGTGAGGGCATATAGTTCGCATGAGTGCTTTAAGTAACATAAGATATGTTTTTATTTTTATATTATTCTTAGGACATACCTTCCACGCTTTTGCAGAAGTTAGAAATAGAAGAGTAATATCATATTTTGTAGATAATATTGTTTTTCAGACTTTGTATGCTGGTGGTTATTATACTATAGGTGTTATATTAGTACTTTCGGTATTTTCTTATTTTTCTAGAAAATTTAGGGAAATTTTTCTGAGTATTCTTTTTGCTTTTTTTGGTATTTTTCTTCTTGTATTTGTTTACGAAGCTCTTGAAGATTTTGAGTTTATTCCTCCAATGTATTCATGAAAATATAATACCATACTCAAAGTATAAATCTTAAAAAATAAATCTTATTAATCATTGGTTAATATTCTGGGTGGTACTCTTAAATATGAGGTAGATATTTTTCTGCTTCATTAATTAGAGGAAAGGAGGTTATTATGTCTGTTATAAAAAAAGTATTTAAGAGTATTTTTCCGTCAAGATTGAAGGCAATCGATAGTCATAAACACCACAATAAGCCTAAACTTGAGCTAGATAAACATGATCAAGGTGTTATGGATATTATGAAGTTAATGCCAATAATAGAATTTTATGATGGAAATGATAAATCAGCATTTTTGATAGATCCAAAACTTTTATCAGGTTTTCTTGGGCCAGAGCTTGGGGGTGTTATATCAGATTTAAGTAATAATTTTGATTTCGGGTTTGAAAGCGTATAATGGGTTATAAGTAAAGTATTTTAATTAAAATATAGGAATCACTCTTTTCATTCAGATTAGAGTGATTTTTTTTAATAATCAATAGTAGCTACAATCCAAACGCATCTAATACTTTTTCACAAGTTTTACTAGCTGTTACTCGAGCTTTTGCTGCTCCATTATCTAAAACATTTTTAATATAAGTTTTATCGGTAATAATCTTTTGGTATTCGTTATTAATAGGAGATAATTTTTCTATTATTATCTCGGCGAGATCAAGTTTAAATTTTGCAAATCCTACTCCATCATATTCTTTGACAATGTTTTCCTTAGAAATTTTTGCTAAACTAGAGTATATATTTATTAAATTCGATATTTCTGGTCTTTCAGACTGATCGTAAGAAATTTCAGCAATACTATCTGTTTTAGATTTTTTTATCTTTTTTATGATGATATCTGCTGAGTCAGTTAGGTTAATTCTAGAAGCGTCACTCTCATCTGATTTGCTCATTTTTTTCGTTCCATCTCTTAGACTCATCACTCTTGTTGCCGTTCCTTGGATAAGTGGATCTGGAATTTTAAGTATTTCTTGATTAAATTTCCGGTTTAATGCCCCAGCAATATCACGTGTTAATTCGAGATGCTGTTTTTGGTCATCTCCTACTGGTACTACATCTGCATTATAAAGCAGAATATCAGCAGCCATTAGGATAGGGTAGGTAAATAGACCAGTGTTTGCGTTATCTTGTTTTTTGCCGGCTTTATCTTTAAATTGGGTCATACGCTTGAGCCAACCTATTGGCGTGATACAGTTTAGCATCCAGGCAAGCTCAGTGTGTTCTTTTACATCTGACTGCATAAAAATTATAGATTTTTCAGGATTGATACCAGAGGCTAAATAAGTTGCTGCTGAGCTGAGTGTTGCTTTTCGTAACTCTTCTGGATTTTGATCAACTGTTATTGAGTGTAGATTCGCTAAAAAGAAATAACAATCAAATTCATCTTGCATTTCAAGCCAATTTTGAATTGAACCTAGATAATTCCCAAGATGTAGGTTACCTGTAGTTTGAATTCCAGAAAGAGCCACTTTTTTCATTATTTCCTCATTTATAATAAGTCTTATTATATTATTATCAATAATCTGCAATAATAGTTTTACGAAATTAAAAAATACTATATAGTTCTTTTTTTATTAATTATATCAAACATAAAATATGTTTTGGCGTTTAAGAACACTTGCCTTTTATACAATAATTAGCATTTTTATGGTATCTTTTTTTGTATTGCTCTGTACTCCAATGCAATTATTAAAAGCTCCATATGGATTTAGATATAAAGTATCTGAAGTTTTTTCATATATTTTTATATACTTAATATGGTTTGTTTGCGGAATAGAATATAAAATCGAAGGAAAAGAAATCCTGCCAAAAGATGGTAAGCCTTACCTTGCACTTGCAAATCATCAATCCTTTTGGGAAAATTTCTTTATGCAGCTCATTATTCCAAAGCATTCTTGGGTAATAAAGAGGGAGCTTGAAGCAATTCCAATTTTTGGCTGGGGAATAAGAACTGTTCAGCCAATTGCAGTTGATAGAAATAATAGTAGATCTGTAGCTCAAATATTGAAAGAAGGTACCAAAAAAATTGAATCTGGGCTTTCGCTAGTTATGTTTCCAGAAGCAACAAGAGTAAAAGTTGATAAAAATGTAAAGTTTAAAGCTAGTGCTGCAAAGCTTGCTATTAATACTAACAGTCCGATAGTGTTAATAGCTCATAATGCTGGTCTCGTGTGGCCTAAGGGTTTTTGGTTTAAACGTTCAGGTACAATTAGTGTGAAAATTATTGAATATATTCCTAAAGAGAAAATTGCTAAGCAAGATGTTCGTGAATTAACTGCATATATTCAAGAGACTATTAATCAAGAAAAAAATAAGTTAGTTGAACTTGGGGTATAATTTTCTAATAAACTTTTGGTAGCATAGCTATTTTATATGCATAAAATTATTGACGAATTGTGCTTAATTGTATATGATACGCATCTAGCCAGATAACATTTAGGTTAGATCAAAATTATGACAGATATCTCAGAGAATAGTTTGCAAACTAGCAATGCTCCTGAGGTTCTTCCTCCTCCTACTAAATTTGGAAAAATTCTTGATTATATATGGCCAATAGCTAGATCTGAGGCGCCAAAATTTCTTTTTATCACTCTACTTATGTTTTGTATTTTAGGGATACAAAATTTGATACGAGCAATGAAGGATAGTGTTATAAATACTATGATTGGTACTGAGACTATTTCTTTCTTGAAGTTCTGGGGCGTATTACCTGCTGCATTCTTAATAACCATAGTATATGTGAAGCTTGTGAGTGTGATGAAAGGTGAGAATATCTTTTACCTTATTATGTCTACTTTTCTTAGTTTTTTCCTGTTATTTGCATTTTTCTTATACCCTAATCATGAATTGATTCATTTAAACCCTGATACAGTGAAGAGTCTTGTAATAGACTATCCAAATTTTAAATGGTTTATTTTGCTGCTTTCTAAATGGAGCTTTTCTTTGTTCTATGTTATTGCAGAACTATGGCCTAATGCTATTTTTGCACTTTTATTTTGGCAATTTGTAAACAAAATAACTACAGTTGATGAGTCAAAAAGATTTTATCCGTTATTTGGGTTGCTTGGTCAAACAGGGCTTTATTTGTCAGGTACTTTTTTAATTAACTTACCGGCAATGAATGATTACTTTGTAAAGCTATTTGACTTATCACTTCCAAGAAGTGTCGTTTCAATTCAAATTGTTGTATCAGTAGTTGCTATTCTGGGTATGATAGGTTTAATTGCTTTTTGGGTGTTGAATAATAAGATTCTTGATGTAGCTACAACAGAAAACCTACAGTTTAGAGTTAAAAAGAATCAAATGGGAATTAAAGAAAGTCTTCAAATGATTATTCATTCTCGTTATATAAGGCTAATTACAATACTGCTTTTTTCTTATGGCGTTGCAATTAATTTAGTTGAAGGACCATGGAAAGCTGAAGCTGCACAAATTTATAAAACTCCTACAGAGTTTGCTGCATTTGTTGGTAATTACTTAAGCTATACGGGTATTTTAACCATAATATTTGTTTTACTAGGCTCAAATATAGTAAGAAGACTTGGATGGTTATCGGCTGCAATCATAACTCCATTTATGGTATTAATAACAGGTCTTGCTTTTTTCTGTGTTGCAAATTTTGATCCTGTCGCAACATTTATGATGTTATCTTTTTCTTTTACAGATCCTGTGATGCTGGCAATTATTATTGGAGCTATCCAAAATGTTTTAAGTAAATCAAGTAAATATACATTGTTTGATTCAACTAAAGAGATGTCATATGTGCCTTTGGATGAACAACTTAAAACAAGAGGTAAGGCAGCAGCGGATATGATTGGAACAAAGCTTGGAAAATCAGCAAGTGCATTATTACAATCGATGATATTTGTTATTATCCCAACTGCAACATACCCTTCTATATCACCGTTTTTGATGGTAGTATTTGCAATTATTTGTATTATATGGATTTGGGCAGTTATTGAACTTAATAAAGAATACAAGGCTGCGTGTAGTCATAAGGGAGAAGAGAGTATATTTTAATGTCTCAAGAATTACCAATTTTATATTCATTTAGAAGATGTCCGTATGCAATGAGAGCAAGGATGGCTTTGCACTATAGTGAAATTAATTGTGAATTGCGCGAGGTGTCTCTTAAAAATAAACCAGATGCTTTAATTAATATATCTCCAAAAGCTACAGTTCCTGTTATGCATTTACCTGACGGAACGATTATTGATGAAAGCTTAGATATTATTCATTACGCGATAAGTCAAAATGATCCAGAAGGTATATCTAATGTTTCAAAGAATCTTCAAGAGCAAATAGATGAGTTGATTGCAATTAATGATTCAGAATTTGCTTCATTACTTCGTAAATATAAATATTTTGAAAAACACCCTGAAGAGTCTCAAGAGTCATATAGGAAAAAGATTGAAGCAAATTTTCTAACAAAATATGAGATGATGCTAGATAGTAATAAATTTTTATTTGGTAAGAAGTCTATTGCTGATATAGCAATTTTACCATTTATTCGTCAGTTTGCTTTTGTAGATGAAGAATGGTTTTTTAATAGCCCATATAAAAATCTTATTAATTGGCTTAATATGGCGCTAGAAAGTGACGTTTTTGAGAATATTATTCTAGCAAAACATAACCCTTGGAAAGAAGGGGATGAACCGGTATATTTTATTTAAAATTTGTTCTTTGAATTTCATTGAAAAATAGTTATAAATTTTGTATATATGAAATTATAATGAATTTACTTATGAATCAGATATCGCTTACAAGAAGTTGTGTTAATATGCAGAGGCTTTTTTGCTAGGGAAATATCATGAATTCATTTAAATCTATTATATCAAATATTCTTGTTTACATGCGTGATTTAGAGAGAATTCATAAATGAATAAATTAATATATTATTTCGGTGGTGGTAGTACCGAAGGTGATGCTTCCATGAAAGACATTCTCGGGGGTAAAGGGGCTAATTTAGCTCAAATGTGTAAATTAGGACTATCAATCCCTCCTGGTTTTACCATTTCTACTTCTATGTGCCATTCAAATACTGAAAAAGAATCACATTTCACTCCTAAATTCGAAGAAGAAGTTAGAAAATATATTTCACAGTTAGAAAAAGATACGAAAAAAGAGTTTGGTTCTAGTTCAAACCCACTTTTACTTTCTGTGCGTTCTGGAGCTAAGATTTCCATGCCAGGTATGATGGATACTATTTTGAATTTGGGTATGAATGATGATACGGCAAAAGCACTAGCTGCAAAAACAAATAATCCTCGCTTTGCATATGATAGCTATAGAAGATTTTTGGAAATGTACGGGAATGTAGTATTAGAAATTTCAAGTTATTTGTTTGAGGAAGTATTTGAAAAGCATAAAGGAAATAATAATATTATAAAAGACAGTGATGTTCCTGTAGAAGTTCTTGTAGAAGTAATAGAAGATTTTAAGAACATTATTCAAAAACAAATTGGTTGCTCATTTGAATCAGATCCGTATCTACAGCTAAAAGCTGCTATAGAAGCAGTTTGGAGGTCCTGGAATTGTCCTCGAGCAATTACTTATCGTAAGATTAACAATATCAGTGATGATATTGGCACTGCAGTCAATGTGCAGTCTATGGTATTTGGTAATAAAGGTGAAGATTCTGCCACGGGTGTGATTTTCACAAGAGATCCTTCAAATGGTAATAAAGAGATATTCGGTGAATTCCTTGTGAATGCTCAAGGCGAAGATGTAGTTGCTGGCATTCGAACTCCTGCAGCAATTTTAGCAAATGACTCAGGTGATGGAGGTTCTATGCAGGAATGTCTTCCTAAGCAATATGATGAGCTTGCAAAGGTTTGTTCTAAGTTAGAAGAGCATTTCAAAGATATGCAGGACATTGAGTTTACAATAGAGGAGGGAAAGCTTTATATCTTGCAGACACGCAGTGGCAAGAGGGCAGCAGCAGCAGCCATAAAAATTGCAGTTGATATGGTTGCAGAAGGCGTAATTTCAAAAGAAGAAGCGCTAATGCGCATTGATCCTGAATCACTGAATCAGTTGCTTCATACGGCAATTGACTATTCTGCTGATCCAGAAATTATAGCAACTGGCCTACCTGCTTCTCCTGGAGCAAGTAGCGGTATTGCCGTATTTTCTCCATTTGATGTTGAAGAACTTTCGCATCACCATAAAGTTATACTAATCAGAAATGATACAAGTCCTGAAGATATTAAAGGCATGCACCTAGCAGAAGGGATACTTACAGCCCGAGGTGGCATGACATCGCACGCAGCTGTTGTTGCTAGAGGTATGGGAAAGCCATGTGTATGCGGTGTAAAAGGCTTAGTTGTAAGTGAAAAGCAAAAATTATTAACTACGGCAAATGGGTATAAGATCAAGCAAGGTGATCAAATCACGATTGATGGCTCAACTGGAAAAATTATTGTTGGTGATGTGCAGCTTATCCAGCCTAAATTTTCTGATGAATTTAAGACAATATTAGAATGGTCAGATGAGATAAAAGATTTGAATGTTAGAGCTAATGCAGAAACTGCACTTGATGCATCTGTTGCAATAAAATTTGGTGCAGTTGGAATTGGACTATGTCGTACTGAGCATATGTTTTTTGATAATGATAAAATTCCTTTGGTGCGTGAGATGATTATCGCCCAAGATAGTGAGCACAGACAAAAAGCAATAGATAAGCTTAGACCATTACAGACAGTTGATTTTAAGTCTCTGTTTGAAATTATGGATGGGTTGCCTGTAAATATCCGTTTACTTGATCCACCATTACATGAATTTTTGCCAACTGAAGAAAAAGATAAGGAGTTACTCGCTGAAGCTCTAAATGTGTCTATGTCTGTTATCGATCATAGATTACATTCATTACATGAGCTGAATCCTATGCTTGGGCATCGTGGGTGTCGTTTGGGAATATCCTTTCCAGAGATATATATGATGCAAGTCCAGGCAATGCTTCATGCAATAAAAATGCTTAAAAATGAGAAAGATATAGATAGTAAGTTAGAATTAATGATTCCGCTTATCAGTGATGTTAGTGAGCTAATTAAGCTCAAAAATCACATTAAAAAGACCATTGAAGAAATGGAATCAAAATATTCAATTAAATTTGATATTAAGCTTGGAACAATGATTGAATTGCCAAGAGCTGCTCTTACTGCAAATAAAATTGCTGAGCATGTAGAGTATTTTAGCTTTGGCTCGAATGATCTGACTCAGACAACATACGGTATTTCTAGAGATGATATCGGATCCTTCTTACCGGATTATCTTGAGCAAAAAATCTTTAAGCACGATCCATTTATTAAAATTGATGCAGAAGGTGTTGGCGAGCTGATAAAAATAGCAATTGATAGAGGCAAGAAAACAAATAAGGCAATTACTTTAGGTGTTTGTGGTGAGCATGCTGGTGATCCTTCATCAATTGACTTTTTCCACAAAGTAGGTTTAAACTACATTTCTTGTTCTCCATATAGAATTCCGATTGCAAGAGTCGCGGCAGCAAGAAGCAAAATCAAATTATCAAAAGGTATATAGTGAGTTTTCAGGACAATCTAAATAAAATATTAGAAAGGCAAAAAGAGCTTTCTGATAAACTCTCTAGCGGCATTGCTGGAGATGAATTTGTTAAAGCATCAAAAGAATATTCAGAGCTTGAGCCAATTGTAGAGAAGGTAGAAAAATACAATAAAATAGTATCAGATTTGGATGGCGCTAAAGGGATGCTCGAAGAAAGTGGATTAGATTCCGAAACAAAGGATATGGTTGAAGAAGAGATAAGAGAGCTAAACTCTATATTACCAGACCTTGAGCACCAGGTGAAAGTTGCATTGCTTCCAAAAGATGAAGCAGATAGTAAAAGTGCTATTATTGAAGTTAGGGGTGGTACTGGTGGTGAAGAGGCAGCCTTGTTTGCCGCTGATTTATTTGAAATGTATCAGAGATACTCTTCTTTAAGAGGATGGAAGTTTGAGATATTATCTATTTCTGAAATTGGAGTAGGCGGTTATAAAGAAGCATCAGCATCTATTAAGGGCGATGGAGTGTTTTCTAGGCTCAAATTTGAATCTGGAGTACACAGAGTTCAAAGAGTACCTGCAACTGAGTCCAGTGGTAGGATTCATACATCAGCTGCTACTGTTGCTGTGCTTCCAGAAGTGGAAGAAGTTGATATAAAGATTGAGGATAAAGACCTTAGGATTGATACTTACCGTGCTTCTGGTGCGGGAGGACAACACGTGAATACTACAGATTCAGCGGTGAGAATAACGCATATTCCAACTGGTGTGGTTGTAGCTATTCAAGATGAGAAATCTCAGCATAAAAATAAAGCTAAGGCACTAAAGATTCTCAGATCAAGAGTTTATGAGGAAGAAAGATTAGCCAGAGAAGCTGAGAGATCCTCTTCACGAAAGGGACAGGTTGGATCTGGTGATAGATCGGAAAGGATTAGAACCTATAACTTTCCACAAGGACGTATCAGCGATCATAGAATTAATCTTACTTTATATAAGATTAATGAAGTGATGAAAGAGGGGAAGCTAGACGAACTTATCGAACCTCTCATTGCCAATGATGAAGCTCAGAGATTAGCTGAGCAGCTATAGTAAACCTCATGATGTGGTAGCAATGGGGCGTATAAATGGTCTAGTTAGCATAGTGTGAGTATTTTGGATCTCAAATTTTTATAGAAGGATTAATCTTAAGATAGAAAAATATAGTAAATTATACTTATAATGCGCATTTAGTTTAAGAGCATAGGAAAATGATGCTTGAACTGAGTCATTACGAGGAGCCGAAGGCGGGCGCAGTAATCCACAAATGGATCGCCGCAGTCGATAAAGCTCCTTCGCGATGATAATGACTAGTAAAAAATAATAAAAATCAATAACTTAGTGCGCTTCTTATCCTAAACTGGAGTTTATACCTTAAATTCCATTAATAAATCCCAGAGATTACTGCACAAAGAAGCCTTGTATGGCTTGTTAATCTCAAATATGAATCACTATCACAGACTTAAAATTTAGCCGATATTAAATTGACTGTATATTATTGTTTTTGAGTATAACCTTATTCCATACTAGTCCTATTCGCAAAAAGAACTAGTGTCTCCTGCGGGTGCTACCTCATAAGACTCATCTCATAAAAACCAAGTGCATAAGTATTATATGCAGCTAGAGCAGTTATGCCTACTCCAGTAACGCTGGAAAAAGCAGCCCAAAAATCACCTTCCTTATATGCTTTATACATCAAACCACTTGTAAACGCTGCAAAACCTAGTGTTAAAGAAATGCCTCCAGGCAACGATTCTATTGGTGTACCAACTTGTTTCATAATAATCACGCCTACTATTTTTTACTTTTTTTTAGATATTAATATATGTTAATATATTTTCCAAGATATTTATATAGATAGAATGAGTTTAACCAAAAGTATAGTTCTTACTAGTTTAATATATTTAAATGCGTTTAAAACAAAAATCAAGCCTACCAGATAGGAATAATAGTGCACATATTACGACTGTGAGCACTAATTAATATTCTTACCTTCCAAGCACATAAACAAAAACAAATAAGAATAACCAGACAACGTCAACAAAGTGCCAATACCATGCAGCAAATTCAAAGCCTAGATGTCCATTTCCCGCTTTGAAATGACCTTTTCTTGCCCTGAAATAGCACACTGCTAGGAAAATTGTTCCAACTATAACATGCACCCCATGAAATCCTGTTGCAAGATAAAAATTAGCTGCATAAACTCCATCAGTTAGTTTGAATGCTGCGTGATGATATTCATATGCTTGCAGCATGCTGAATGTAATTCCTAAAAGAACTGTAAGTCCAAGAGCAGTAACAGAATCTTTCTGATTATCATGTTCAATTGCGTGGTGGGCCCAAGTGACAGTCGTTCCTGACAAAAGTAGTATAAGCGTATTTATAAAAGGTATATCCCACGGATCAAACGTTTTTATACCTTCAGGCGGCCAAGTTCCTTCAGCAACCACCCAGAATCCATCAAGTATTCCAGCTGGGAATAAGCTTGCTGAAAAATATGAAAAGAAAAAGGCAAAGAAAAACATCACTTCAGATAGGATAAAGAGCGACATTCCAATCCTTAAACCATTTCTCACAGGTTCAGAATGGTGTTTTCCAACTAAACCTTCATTAACTATATCTCTCCACCAACTCCATGAGCAAAATATAACAGCAATAAGGCCAAATATAGCCATAGCGCTGCCTCCAGGCTTCTCATGTAGTGCCATAACTCCACCCATAGTGAGTGCTAGCAAGGAAAAAGATGTGAGAATAGGCCATGGGCTCATATCAACCAGATGATAAGGATGCTCTTGTTTTGATGACATTCTTTGATTACCAATTATTTTAGTTTACGTTTTTATGTATTATACTTAAAAAACTATTAAATTGTCTAGTTACTAACGTCTCTGACTTTAAAGAAGCTATAGGATAGGGTAATTCTGTCAACATCATCCATTTCTGGGTCATTCTCAATTTCTGGGTCAATATAGAAAGTTACTGGCATTAAAACCTTCTGTCCAGCTCTAAGAAGCTGTTCTTCAAAGCAAAAACAATGTATTTTGACGAAATATTTACCTGCTTTAAGAGGAGTTACATTATAAATAGAAGTTCCAATTATATCTCTGTTGCTAAAGTTTTCTGATTCGTAGAAAATTAGAGTATTTTCTCCAGTAATGACATTTGCGCTTCTATGTTTAGGTATGAATCTCCACGGCAGTTTTGGATCGACATTTGCATCAAACTCGACTTTAATTTTTCTAGCACCTTTTTCCACTTTAATAAAGGCTTTTGCTCTTTGTGTTGTTCCTCCAAAACCTGTAACTTTGCAGAATAGATTATAAATTGGAACCGATGCAAAGCTAAGAAGTAGCATACTCATAAAGAGAGCTACCATAGCCAATGCAATATTCTTATTTGATTTTTTTGTGTCCATCAAAATTTACTATCTTTTTTCTGCTGTTTGGAAAGTCTGTCCTAAGTACACTTCTCTAACTTCAGAGCTACCTACGATATCTGTCGGTTTACCTTCCATTAGTACTTTTCCATCATAAATAATATAAGCTCTATCAACAATATCTAGTGTATCCCTGACATTATGATCAGTAATTAATACTCCAATATCTCTTTCTTTAAGATGTGATACTAATTCTTTAATATCACGTACAGCTATCGGGTCTATTCCTGCTAGTGGTTCGTCTAGCAAGATAAATTTAGGATTAGAAGCAAGCGCTCTTGCTATTTCAAGCCTTCTTCTTTCACCACCTGATAGAGTTGGTGATAATTTATTTTTTAGATGACCAATGGAAAATTCATCCATTAGTTCGTCACACTTTGATTCTATCTCTTCCTTATCATTATAGACGATTTCTAGAATAGCTTTTATATTATCTTTTACCGTTAAACCTCTGAAGATCGATGATTCTTGTGGTAAGTATCCTATTCCAAGTCTGGCTCTTAAATACATTGGTAGAGTAGTGATGTCTTGATCATTTAAAAGCATTTGTCCAAGATCAGCTTTTATCAGACCCATAATGATACTAAATAATGTTGTTTTACCTGCTCCGTTTGGTCCAAATAGGCCAACAGCTTCTCCTTGATGTAAGCTACAATTTATATCACGCAATACAGGACGCTTATCGTACGATTTAGAAATATTTTGAATTACTAGTTTATTTTGCATTATTCTTACTGCTTATCCCTTCAAACTTAGCTGAGTATACCAGCTTGTCAGTTACTAGTACATTACCTTCTTTTAACATTTTTACATTTCCTTTAAGAGTGAGCTTTTTTGTAGAATTATCAAAATGACCTGAGTCTGCAAAAAGAACTTCTTGACCACAATTTCTAATTGCTTTTAGCCTTACAGGAATCACTATTTCTTTTATATCTTTTTTTTCTGTGGTGTTGGTATAAAAGATTTTTAACGTTGAGCTATATAGTTTTAAATCATCAAAGGTAAGCACAACAGAGCCATTAAATGTTGCGCTAAGATCTGTTTTTTGAATTGTTAGATGATCAGATTTTATATTTATCTTATCATTAGGTGGTTTAGCATGAGTTTGTAAGGCAATTATAAATAATAGGATTAATTTTATCGAATTTCTGAAAAAAGTCATATGTTATATAATTCTTTGCTTTACTTCAATCCATTTAGATCAAAATTTGAATCTACATTTCCTTCAAACTTTATTGTATTAGCTGAATCTTCAGTTTTAAATTTATCAGCTTGAATTTTTGATTTTTCAAAAGTAACTTTAACTTTATCATTACTTTTTGCATCTTTTGTTTCAAGGTCAACTATTATCTGATCGCTATTAAATACCATGCTATTAAAAAGAATCCTTACATTATCATTTAATATTACCGACTTTTTAAGCTCGTCTAAAGTGCCACTATCAGCTTTTATTGTAATTTCTCCATCTGGCAATGTATACTTACCTTTTATAATATCTAAGAGATACTTATCAGAAGTATTTTTTGCAACGTTTTGTGCTATAATGACATATGGTGATAAATCTTCGCTTACTCCTTCAAAAATAGATTTAGTTATATTTAGGCTATATTCTTTTGATAATTTTTTTGTTTTATTCCTAGTGATTTGATAGCTTGATTCAGTGTCTGTTGGTAGTTTTTGAATATATAAAACAACTAAAACCGAGACTAGAACGCATATACTGGCGCTTAGGAATATATATTTTACTAATTTTGTTTTTGATCGGAGTTTGGATAATTCTTGCATTAGCCAACTCCAGCTTTCAGTATGTCATGTATATGGATTATTCCTAAGATTTTATTATTTTCTATTACGGGCAAAGCAGTAATTGATTTAGAGTTCATGATATTTAATGCTTCGGTTGCAAGCATATTAGTATTTACACTAGTTGGCTGTGTTGTCATAATATCGCCTGTCGAGATATTACCTAAATCATTTTTGATAGTTCTTCTTAGGTCACCATCAGTGATAATGCCAAGCATTTGATTTTGTGAATCTCCAACTATTGCACAACCCAAGCATTTTTCAGTCATTGTTAGTATCACACTCTTAAATTCATCATTGATACCAACAATAGGAAGTTTGTCTCCAGATCTCATGATATCTGCGACTTTCAAAAGATTTGCGCCAATTTTTCCTCCAGGATGAAATAGTTTGAAATCTTCTTTTGAAAAGCCTTTTGCATCATGCAAGGAAGTAACAATAGCATCACCTAGTGATAATGACATTAGTGCAGATGTTGTTGGAGCTGCTATAGAAGATGTTTCTTTTTGACTCGGAAGTTTTAATAAAAAATCGCTGTTTTGTGCCAATGTCGAATTTTCTTTCATGGTAATTGCTGCAATTTTTATGTTATATCTTTTGCAGTAATTAACTGTATCAAATAGTTCTTTTGTCTCACCAGAATTTGAAAGCATTATAACCATATCATCTTCTGTTATCATTCCAAGATCTCCATGGCTTGCTTCTCCAGGGTGTATAAAAAATGCTGGAGTTCCTGTTGACGCAAGGCTTGCTGCTATTTTCTTGGCAATATAACTACTTTTGCCCATACCGATCAGAATTACTCTTCCTTCAAGTTTCATTATGTAATCAATTAGATTTGAAAAATCTTTAGGAATATCATTTGCAAGAATTTTTAATGCTTCTGATTGTTCAATAATTGCTTCTTTAGCTGTTTTTAGATGAGACATTTTGTTATTACTTTTATTAGATTATCATCATTATACATATACATTGATTTGCTTACTAGTTAAATTTGTATAATGCTACCAACCTGACACACAGATTAAATTATCAATAATAGCTTGTGCTATTCGTTATTTTTCTGTATAATATGTTTAGATTTTCTAAATACTCTTTAACATACGCAGTTTTTGTTAACTTTTCAAGAATGTTTTTTTAGTATACGCATCTTAAGTGCAAGGAGTAATAAGAAAGATTTTTATACAAAATGTATAAAAATATATAACCTTGTTTTTAAGAAATAATTATGACAAACTTTCATTCTTTTGATTTGCCAAAGCAGCTTCTAGATTCTTTAGACAGATTAAAATTTAAGCAGCCTACACCAATTCAAGAAGCTACAATTCCTTTAGCTCTAGATGGCAATGATATACTGGGATCAGCCCAGACTGGCACTGGTAAAACAGCTGCATTTGGTATTCCCCTAATAGCAAAACTACTTTCAAATGAGACTGGTAGTGCAGTAGTGATTACTCCAACACGTGAACTCGCTGTTCAGGTGATGAAATCTCTAGAAGATATTCTAGGAAAGAAATCTTCAATTAAGACATGTCTTTTAATTGGTGGAGAGTCAATGCACAGACAATTATTTCAACTAAAAAGAAAACCAAGATTATTTGTTGGTACGCCAGGCCGTATGAATGATCACCTCGATCGTGGAACTTTAAATCTAAAGAATGTTAATAGCTTAGTATTAGATGAAATGGATAGAATGCTTGATATGGGTTTTTCTGTTCAGATAGATGCTATCATTAAGCATATACCGAATAACCGTCAGACATTATTATTTTCAGCCACTGTTCCCGGTAATATTGTCAAGCTAGCAAATTCTTATATGAATAAGCCTGAAAGAATTTCTATAGGAGCAGTTTCATCTCCTGGAGAAAACATTAAGCATGATATTATTTATGTAAGCGAGCAAGAAAAGCACGGTAGGCTTGTTGATGAGCTAAATAGTAGAGATGGTTCAGTTATCATATTTATGAAAACAAAATACGGTACTGAGAAGATGGCTAAGAAATTATCGTTTGAAGGGCATAGTGCGATTGCAATACATGGTGATTTGCAGCATCGCAAAAGAGAGCGCGTTATAAAAGCATTTAGAAATAAGAAATATAGAGTTTTAGTTGCAACTGATGTTGCGGCGAGAGGATTAGATATACCTCATATTGAACATGTTATTAACCACGATTTGCCTCAGTGTCCTGAAGATTATTTACATCGCATAGGGCGTACTGCAAGAGCAGGCGCTGAAGGCGAGGCGATTTGTTTTATTTCTAAGCAAGATCAGAGTAAGTGGGATGCTATTGATAGATTAATGAATCCTGATGCAAAACCAAAATCTGAAAAGGGACGTCCTTCTAAAAGTTTTAAAGGTAAGTCTAAAAACAAAAATAATAAGTTTAAGAATAAATTTGGTAAAAAACCTTCTAATTCCAATAAAAGATTTAATTCTAGCAAGCCAAAACGTAATAATGGCAAAAGAAAGAGTTCGGGAAGAAGAGCGGCTGCATAATTTGTGCATTAGTGCCTAACAATTTTTTTCAATGATTCTACTTTATTGTTATATAGACCAAGATAGAGGTCTTTGCTTAACTCACTATCGTGAGGTATTTCGGTGATTTCAAAGCCGTTTTTCTTATAAAAAATCAATTGCTTTAACATTTGTACGTCTAGTATCAACTATAATTTTTTGGCATTGTTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTA
>sequence15
AAAGTTTAATGGAATCCCCAGAAACCATTTCAATCTCTTCTTGAAAGAATGTGAATGGAGGTTTAATATAGGGTCACCAAAATATCTCCTTGAAGATCTTAAAAAAATCCTCAAAGAGAATTATTAGGTGTCAGCCCCAAACTTTTTTGCCAAAAACGTCAAGAGCACTAACAACTACTATTCTATCTGCAACTCTTATTCGATCACCTGTAGCACAGGCGGATGAATCTGTTTACGAATATAATCCAGCTGCTGAATTAACTACAAAATTTAGTAAGGGAAGAAATATTGGTGAATTAAACTACATGTAACCTTTTCTTGCAAATGATAATCATCTACCAATTCTTGATTTAAAACTCAAACTGGATAATCAAAAAAGTAAGGAAATAAACTTAAGTCTAGTATATAGATATAATTACGATGACAAGGCAATACTTGGAACATACTCATATTTCGATCATAGGCGTACTGGATCAAACTTTTCTATAAGCGGTTTAACTGCTGGTGTTGAAGTCTTGAGCAAATATATTGATGCTAGGGCAAACATCTATATACCTCAGAATAAAAGAAAAAAGCTGAAGCACAACAGCAAAAAGAGTGTTGAAATAAAAGGAACATCAATATTTGCAATCTCAGGTGGTCATAAATATGAATCAGCTCTAAGGGGTTATGATATAGAAGTTGGCACACCTCTATTTGCTTTTTCTGACTCACTAAATGAAAAATTTGGAACAAAAGTATATGTAGATAGATATAGCTTTACTGCAAAGAATGTTAAACCAATAGTTGGAACAAGGTTCAGAATTGAACAAGATCTTGGAAAAATATGGGCTGGTGACAATAGCTATAAATTTCATGTCAGCGCTGAAACACAATTTGATAAGGTAAGGAAGCGTCAAAACTTCATTGGCCTCGGTGTAAAAGTTGCATTTAATGATAAGAAAAGCTCATATAAAAAGAAACAGTCTGGACTAAGACATAGAATGATGGAAACAGTCATTCGAGATGTTGATATCGTGACTGAAAGCGTTACTGAAGCTCCTGCTACCCATAATTTCTATATGGGAGGCAAAGAAATCAAAAAGATTTACTATGTTGGAAGCGCAGGTGGCGGATATTCTGGCTATGGAACGAAAGAAAACCCTATGTCTCTTGAGCAAATGAACTCTATAAATTGCGACGATGCAGTTATCGTTGTAACATCGATTGATCTGAACAAAGGAGGAACGACAATTTCTTGCCATGATTATGCAAAGATCAAAGAAATGCCTCAAGTACTAAACGGCAAAGAAAATGTTGTTTTGTCAACAACTGGCGCCGATAAAGTATCCATCACTGTCAATGGTGCAAATGGAATATCTATTGCTGCTGCTGACAAACAAAATACAAAAATTATTGTTGAAAATAATCAAATATCTGAAGTCGGACTAAAGAACGGTGAAAAAGTTTCAACTATTCAGCTTCTAGAGCCTGAAACTACTCAAACAGTTGAAACACAGATTGAAACTGCAAGAGAAGAATATCAAGCGGCAAACGACTTACAAACATTAATTATCAATACTGCTCAAACAGAAATAGCTGAAATTCAACAAGAAATGCCAACAACTGATAGAGAAATTCTAAATCAAGCTGTCAGAAATATCGCTGAAGAAGTGGTAAACCAAATACTTGATGAAGAACTTCAGGAAGAAGAATTAGCTCTTCAGCCACAAGGTACATTCAAATCTGGAGTTGATAGAAGCGCTCTATCACCAGCGCAACAAGCACTTTATGATCTGATAACAACTGCGGAGTAACATTAAAAACCGATGCTATAGACAATAACTACGTTATTAGACAAGCTCAGTACGATAAAGTAGCTGGTATTATTCAAGCTAACCCTGGAAGGAATTTACTTGCTATCAAACAAATAATTCAGGCTGATGTCACTATCTTAGCAAAAGGTGCTCATGAAGATTTAGCCGAAAAAATCATGAAATTTGATGGTACTGTATAAGCAAATGCAAATGGCCTTGGAGGACAGCAAGGTATTGGAACTGGTCATACAGGACCTAAAGGATATTACAAGCGCTGAATCATTGGAAAAACTAAGAGCTATGTATGGAATTCTTGATGGAGATAAAGCGATAGAATTAACTCAAAATATTGTTGTCAGAGTAATTAAAGATAATATTCCAACAATTGGCCCTGATGTAGCTGGAATTTCCCTTGATCACAGAGATACAGCTGCTACTGAAGAATATAAAGCTGCTGCAAAACTTTATCTTGACAATGTAAGACCACCTTTAGCAGGAGAAACTCCACAAGAAAAAATAGCTAGAGAAGGTCACAAGAACAGAGCAATGGCAACCATTAAACAGGAAATAAAATCTTCGTTGACTGCTGTTAATAATAATATGGCAGCTCACAGAGCTCTATACCGTGCTCTGAGTCTGCAATTGGTCAAGTATTTACAGAGGAAGTTTTAGGAAGATATAATGACAAAGAAATGCTTGCATATGCTATTTTAGCAAATCTTGATGTTAGAGAAATTCAGAAAAACTTACAAATAGCAGGAAAACCTTTGACTGCTTCTAATATTTGGGCAAGTCAGCAAGAAAATATTCAAGGATTAATTATACAATTAGAAAGAGGCCAGAGAGCCTATAATATGGATCATAATTATGGTACTATTGATATTGGAGGTATAGGAGGTTTATACCCAGCACAAGGAGAACCTGGTCATTTTGGCAACCGACAACGTGCTAATAGTATATCATGTGCACATGGATATTGCGTAAGAATCGTAGACAGCATACAGCACCATAGCATGGTAAATCTAAGCGATGATTCACCTGCAAGTTTTGCCGACGAGTTTTTGAATGCTGTTAAGCTAAAAACCCGCTCTACTAGATCCACAACAAAAACAAGGTATTGTAAACTGGCGGAACAATCTAGAAGATCTTGAGGTAACTACCACATTTAATAATGATAGATCTGTTACCTTCTCTACTACAGCACATGATGGTCAGGTAGATATACCTGTTCACTATAAAACTATTTTGACTTATGTAGCTGAGGAAATGGATTCAAGGTATAATTATGCAAGTCCAAATCATAAACTACAGTTGGTTAAAAAGAATGCTGCAGTAGATGTATTTAAATTTACTCATTACTTAAACTTAGGATTTTAGTAAAATAAAAAGCGAGGTATCTATACCTCGCTTTTTTAAATTTGTAAAACTACTTAACTTCAGCGTCTACAATAATTGCATCCATACCTTCTACAGCAAGAACAATTTTAAAATTATCACCAGGGTTTAGTTTTCTTTTTAAGTCAAAAAGCATAATGTGAATACCACCTGGAGCCAAAGAAATCGTACTATTAGCTGGTACAACTATTTTGTCAATTGACGTCATTCTGCTTACACCCTTTTCATCAACAAAACTCTTATGCAACTCTACATTATTTGCAACAGTTGCTGCTGACGCACCCAAAATTGTAATTTGCTTGTCAGTTGGGTTGTTAATTGACATATAAGCAGCAGAATTATTGTTTGATGATAGTGAAGCACGAGCCCAAGCTTCAGATACTTCTAAAGCGTCTGCACTCTCATCTTCCTCATCCATAGGCTCATCACCGTCTTCTGAATCAGCACCTCCATCGTCTGATGTTTCAGATGTATCAACTTGATTCTGCGAACTTGTTGCACTAGGTGTGCTTGTTTGAGTTCCTGCTATTGCAACATTAACAAAAGCAAAGAACGCCAAACTAATAATAAAAATAATATTTTTAAGCATGTATTTATCTCCAAAAATTAAACATTCATAGATTCTTGCACAAAAAAATATGCTATTCAAACAAAAACCATACTAAAACTACATTTATAAACTTCGTTATTTTAATCATATAACATAATCATAACTCTACCTAAAGTTGAACAAATTATTTCTTCTTCAATTAGTTAACAAAATATATAAAATATATTTATAAATACGCTTAATCTATATTGACAATTAGATTAAATTATTTTAATAGTACAGGCTCAATTTAAATTAAAATATTTTTACTATGTCTAAAACAAAAATTTATAACCCTTTTTCCGACACATTAATGAATCTTATTAAAGGCGTATATTCAAGTGACGAAGCAGTTGCTAATAAAAGCTTCGACATACTAGTTCAGTACTTCAAAACAGGTTTAGCAACTGCTAGAGAAGTGCATTGCCTGATAATGACAAATCAAAATTATATCGTAAAATTACTATCTGATATAAGTGATCAGCCTGGACCATATGAACTACTTCGCTCTACTATTGGCAGAGTAGTGGCCGAGAATTTATCAGTATCTCATGAAGATGATGTCGATATAACAGGAGATGATACGGTTGAATTGAGTCAATAGAATTATCTTTCTTAACTAAAAAATAACCCCTTGTGCGTAGAGTACTGGGGTTATTTTTTTATATATTCCCTACTCTTTATCTTGCTCTTTATAGAGCAAGTTGTAAATTTTAGAACTTCTGAGCAATCCGCTATGCTTCCCACGACTAGCAAGAGTACCTTGATTAATAACAAAAATCTCATCAGCATTCTCAATTGAGGAAACTCTATGAGCAATTGATATTATTGTTTTTCCCTTTAGCGCTGACCTGATATTCTTCAAGATCTTCTTTTCGCTATCATTGTCAAGCGCGCTTGTTGCTTCGTCTAACATCAAAATCTCTGGCCTGTAGAGCAGAGCTCTTGCAATGGCTATCCTTTGTTTCTGACCGCCTGAAATACGCACTCCTCTTTCGCCGATTTCAGTATCCAAACCAAATTCTAGAGTATCTGCAAAATCTGTAATCCCACATAATTCAGCTATATCTCTGATGGATTTATTACTTGCTTTTGGATTTGAAAAAGCAATATTTGACTTGATGGTTCCTGAAAAAATTGTTGGATGCTGCTCTACATAAGCGATCTTTTTACGAATATCATCATCATTAATTGTATCAATGTTAAGCCCACCGATAGCAATATTCCCCTTACTATTTCTATAGAATTTTAAAAGTAGCTGCATTAATGTACTCTTACCAGAACCAGACTGACCAACAATGCCTGTAAAGCTTCCCTGCTTAATATCTAAAGAAATATTATTTAACGCTAAAATATCTGGCCTGGTTGGATATGAAAAACTAACATTTTCAAATTTTATCGAATAGTCTTTTCCTATTTTCTTTCTACCTTCCTGGCCATATGGTTGCGTTGCCATGTTTTTAAGTTCAACTACTCGATCAAGTGCAGCAAGCGGCCCCTGAATCTCACTAAATAATTCTGCAATCCCACCAGCACTCATGCCAACAATAATTGCATAATATATAAATGATATCATCTGACCGGAACTCATCTTACCACTTATAATATCCACACTACCGATCCAAATCACAGCCGTAATCGAACCTGCAATAATCGTAATCGCTAGTGCAAAAAACATCGATCTTAACCTTAACCTAATACTTGCATGTTTTATATACGAAGTAATTTTATCATCGAACCTATTTGCCGAATATTCTTGCTGGTTATAAGCATAAAGTGTACGGATTCCTGAAAAGCTTTCATCAATATTTGCTGCTAAATTACCCTGCTCTGCCATAACTGACCGAGATAATGCTCGAACATGCTTACTCAATTTCAAAAGAGGAAATAACAAAACTGGAACACTCACGACAACTAATAGTGATAATTTAGGGCTTTGAATGAACATTAATATAACTGCGCCAAAAAGCATAATGGAATTTCTAACAAAAAAAGAAAGGAAATTGATAATTAAATTTCCTATTGTCTCAATATCCGAACCTAATCTAGAAATAATATCTCCAACTTTTAAATCCTCGTATTTTGCTATATTAACATTAAGAAGCGCCCGATACGTGTCGGACTTAAGCTTTGAAATGACTTTTACAGTAATTACATTAATAAAGTAGGAACGAAAAAAACTTCCAGCAGCAAATATACAAATTAAAATACTAATTAAAAATACTGCATTATGAATTTCTGAAATCTGATCAGAACTTACTCCATTATCTACCAATTTTCTAAAAACAATACCAATTGAAAGCAAAGATGCTGATACAGAAAGCAGCGCAATGAAAACTACACATAAACTCTTTATATGTTTTGTAACATATCCAGCAATATACTTTATGTTATTTGTAATCATGTTATATAGAAAATTTTATGTTTAATTCATCTGTAAGTATTTCAAATAACTCTGATCCATTTCTAGACTTCCAAGAATCGTTAATACAAGCAAAATGATATGGACCACTTATAGGCGAAGAAAGCCAAATTTCTTTAGCTGCTGACTGTTTATTAATAACAAAAGTACCCTTATACGTAATAAGCGTAAGAATCCCATCATTTAAATCAATATCTATTTCACCTTCAGGATCTTGATCTTCGATATCCTGAACAATATTATCTAGAATCATTCCAACCTTAACGGCAAACTCTGAATCTTGCACCTTTGATCACTCCTTGTTTAAAAATACATAGATATTTCTACCGAACTTTACTTGTTTTGTAAATACATCTTTGCTGGAAGTGCCTAGGCACCACCGTCAAAGCCAGAATAGTTAGAATTTTAGAAGATTTTTTAGCGAAAATGAATTTATATTTTGTAGGAATAACTCATCTATTTCAAAAAATATAAGTTATTTGCAGCAAAAAAGATCCAAAATTCTAACTATTCTGGCTTTGACGGTGGTGCCTTCTACCCACGTACTAAAAATCTTATTTTATGTATTGCTTTGTATCCTAGGTATATAGCAATCCTCTCTATAATAAGCTCTTGTTGATATGCAATCTCCATAGACGCACTAGAATTCTCAGAAGATATGTAGAGAATATTAATTTTTTTCCCTCTTTCTTTACTGGAAGTAATTTTTAGCGGAATACTATTTTGACTAAATTTAACTCCAACAATTTTACCCCAATTGACGATAATTTCTGCTAAAACTGGGTGTTGCCTTTTAAAAACATTTCGCACCAGTTTATTAACCTCATCGACAATAGGCTTCATATTACTGACCTAATAATAGTTACCATAACAACTAAGGTTGCACCAATAATTGATATCACAGGGTAGTACAAAGACTGAACAGCAAGCAACATAAGTAGTATATTACATTTCATAATACGTTTTACCGTTCTTTTATGGCTTTTACCACCTTTTACTGATTTTTGAAAGAAGTGCTGCAAATGTGGCTCCCAAATTCTCTCACCTTTAACAATCCGGATCAAAATTGTCATACCTCCATCTGCAATATAATATAGAGAAGCAATAACGCAAGCAGCAAAAAGCTTGGCACTAGCTGAAGCAATTGTTAAAAGACAAATTCCTATTAAAAAACCTAAACTAATACTGCCAACATCACCAAGGAATATTTTTGCCGGCTGCCAGTTAAAATAAATAAAACCCAGCGACCATCCACCAATTATTACAGCTGTAACTATAACCATATCAACATTCGGAATAAGGTCATATCTTACAAAACATAACAACAAGATAGTACCTGAATAATGCAAAGATTGACTCACTGTAATACCATCAATTCCATCCATAAAATTGTATATATTTAAAAACGTAAGTAGCGCAAATGTACCAATTGCTAAATCTAAATATACAGGTATTTCGTAGTGCAAGATTGGACTTGGATGTACAAGCCACATTATTGCTAAGCACGAACACAATACATGAATAAGCAACCTAAGAGGAATCATTACGTGCGATATATCATCCCAAAAAGATACTGCACTAATCGGAATAAACATCTGCAAAACTAGGATTGAATCCTCAATTGATCCAACTACAAAATACTCGAAAGATGGTAATAAAATAGAATATATTAATACAAAAGCAAGGCCTCCACCTCTTGGCGTTATTTTGTCGTGAGCTCTTCTTTTACTTGGAACATCTACAATTCCAAATTTTGGCATTATTTTAATGAGTAATTTTGTTATAACTAGTGAAGCTATTAACGCTATTATTCCTAGGATAGTTAAATTAATAATAAAACTCATAACAACATATTTGATTTAAAACTATAATACTCATTACCACCGATGATAACATGATCGTGCACCGTTACGTTAATAGTTTTGCACGCACTTATAATCTGCGTCGTCAAATCTATATCAGCATTTGATGGCTTAGGGTTTCCGCTAGGATGATTATGAACTAATATCAGAGCACCCGCCTCATGAAATAGCGATTTTTTGACTATTTCTCTTGGATATACTGGTGTTTGATCAATAGTTCCCGTTGCCATAACCTCATCTGCTATTAGAACATTTTTCTTATTTAAAAAAAGCACTCTAAATTGCTCGATTTTCAAGCAACCCATATTAAATTTTAAATACTCAAGTAATGGTGACCACGAACTAATTACATTTTTATTTTCTACCCTTTCAGCAAATACTCTATTTAGCATCTCTTTTATTACGCGAAATTGTAAGTAAATCGCTTCAGTAGCACCGCTGACTGCTAAAATTTTCTCTCTATCTGCATTTATTAGCTGATTAAAATTCCCAAATTTAGACAGTAAATTCTTAGCAAGGGGCTTTACGTCGCGCCTAGGCACTGACTGAAAAAGCACAAGTTCTAGCAGTTCATAATCACTAAAACCTGTAGGATTGGTTTGCAAAAATTTATTTTTCAACCTCTTCCTATGTCCCACATGGTGAGGTTTTTCTTCTGTTTTATTTTCTTCCAAGCTCATATGGCGGGCATAATAATTTTTTTGGTGACATAGTAAAAATCTCTACACCGTCTTTTGTTACACCAACTGTGTGCTCAAACTGCGCAGATAGTGATTTATCCCTAGTTGTTACGGTCCATCCATCAAATTTGCTCAAGATAGTATCATATTTTCCAGCGTTAACCATTGGCTCAATCGTAAAAAACATTCCCTCTTCTAGAACAACTCCTGTTCCAGGTTTCCCATAGTGCAGAACACTAGGTTCATCATGAAACACCTGACCTATCCCATGACCTGTGTAATCACGAACCACTGAATATTTATGCTTTTCTGCATGTTTCTGAATAGCGCTGCCTATATCACCTAGCTGTACACCTGGCTTTACCATTTCAATACCAATCATCATAGCTTCATACGTCACTTGCACAAGACGTTTTTGCTTAATACCAACATCTCCCACATGATACATACGGCTTGTATCCCCGTGCCACCCATCAACTATAACTGTAACATCAATATTAATAATATCACCATTCTTTAGCTTTTTATCCGATGGTATGCCGTGACATACTACATGATTAATCGAAGTACAAATTGATTTTGGGAATCCTTTATAATCAAGTGGAGCTGGAATAGCACCATGGCTTGTTATAAATTCATGACATAAATCATCCAAGCGCTCAGTAGTTACTCCAGGCACGACATATTCAGTAATGTAATCAAGCGTCATTGCAGCAAGCTCTCCAGCTTTCCGCATTTTTTCAAAATCTTCCTTTTTATGAATCTTGATTGCCATCTACTTTATCCTTACAATTTTACCGTCAATCCAGTGTCCCTTTGCCCACCGATCACCATCAGCATAATTTCTTGTCCATCCAGAACCTCTGCTATCCCAACCATAACAAAAACCCATTTCTATGGACTGATCCTCACTAATGTGCTCGAGTGTAGCACGAATTGCTCGCATTTGCATTGGAAAATCTACATTACCCGATGAATGCCTTGGCATCACATCACCATAAACATTTGGAGTATTAGATGCAAGTTCAATTGATCTAAAACCAAACTCACTAAATATAACCTTCTTAGACTTTGCAACCCAAGATGTTTTATAACTTTCCTCAACTTCAGGATCCCAAGCCCAATGGTCAGAAGAGAACCAGCCCGCTACATCTTTCAATCTATCACAATTATTATTAAACTCAATCTCCTCCCCAGTATAATTCAAATAATAGTCATACCCCTCACCAGAATAAAAACCTGCTTTAATTTCTTCTACAGACAAGTCCATTTCCTCAGAATTCGTAAGAGGCATATAATAGTCTACTCCAACAAAATCTATATTTTGATTTGACCATAATGTATCAAGTGGTCTATATCCACCAAGGCAAGAATGATACTCAGTCCAATTTGCAGCATAGCTAATTAAAACACCATCTCCAACCTCACTTCTTACACTTGATGCAAGATCAACCAGACAACCTACAAATGGAAATTCTCTACCATCACCTTTAATAGATGTTAGTCCTTGCAATTCAGAACCAATGTAAAACATATCGATAACATCTTTCAATAGCCCAGCGTAATGCATAATAAATGGCTTATATTGTTTTTTATAAAAATTTGATACATCTTCTGCATCACCAGTAATACTGCCACGCCAAGATTTACTAACATCATCAACCATTATAAAAGGATAAAATGCAACTTTCAGCCCTTTATCTTTTATTTCCTGGATATAAGATAAAACATCAGAATCTGGTGCTGTACCACCATATCTAACTGTTGTTGGATCAAGCTGATTAGAACGATAAATTTGATGAGCATTAGTTCGATCGTAACTTGAAACAAGCCAATCATCCTCAGACTCACCAGAGTTTTTCTCTATGCCGGGTTTAATTATGTCATTAGCTATATCAAGACCTGTTGTAAACCATGAAACAACTATACCAACCCATTCTAGGTTTGGCATAGCCTCTAACATCTCATCAATGGATGATGTATCTGCATAGGATTTTTCTCCAGTTCCAGGCAAGGTCATAACAGCTTGCATATGCTCTGAAACATAATCCATATCAAGCTGATGCGCTTGGTCAACAACTTCAAAATCCCCAGATAATTTTGACATATAAAAATATTACTACAACTTCTCTTTTAATATTTCATTTACCATTTGTGGACTTGCTTTACCACCAGTTTTTTTCATCACTTGACCAACAAAAAAGCCAAATAACTTATCTTTTCCACCACGATAAGCTTGGACTGAATCTGGATTAGCAGCAATAACCTCGTCAATAATCGGCTCTATCGACCCACGGTCTGATACTTGCTTAAGACCTTTCTTCTCTACAATTTTATCTGGTTGCTCGCCGCTTTCAAACATTTCTTCAAATACAGTTTTAGCAATTTTTCCCGAAATCGTTCCATCATCGATAAGTGCAACCAAATCTCTTAGCATTTTAGGTGTAACTTTACACTCAGCTAAAGTCATTGAGTTTTTATTCAACCTGCCAAATAACTCACTCGAAATCCAATTCGCTACAACCTTTGCATTAGCGTCAGCACTTGCTTCTTCAAAATATTTTGCAGTATCAATGTCAGCAACTATAACTTCCGCATCATACTTATTAAGCCCAAGCTCGGAAACATAGCGATGTACTTTCTCTGACGGAAGCTCTGGAAGATCTTCTTTTAATTTTGCGATCAGTTCATCATCAACATGTACCGGCAGCAAATCAGGATCCGGGAAATAGCGATAATCATTCGCATCTTCTTTGCTTCGCATTGTACGAGTTTGTCCCGTATTTACATCAAACAGACGTGTTTCCTGATCAACTTCTCCACCACTTTCAAGTAATTCCACTTGACGCATTGCTTCATACTCAATAGCTTTTGTGATATTTTTTACAGAATTCAAATTCTTTATCTCACAACGCGTGCCGAGCTTTCCACCAGGCTTTCTCACTGAGATATTAGCATCACAGCGCATCGAGCCTTGATCCATATTACCATCACAAGATCCAACATATCTAAGCAAACTTCTAAGCTTGCGAACATAATCAGCCGCTTCAAATGGAGAGCTAATATCTGGCTCTGTTACTATCTCCATAAGCGCAATACCTGAACGATTTAGATCAATCAGACTATATTCTGGATGCTGATCATGTATAGATTTTCCTGCATCTTGTTCAAGATGAATTCGATTAATTCTGACTTTCTTCTCTTTTCCATCTTCAGTCATCACATCCAAATGACCGTTTTCAACGATAGGAATATAGAACTGAGATATTTGATAACCTTGAGGAAGGTCTGCATAGAAATAGTTCTTTCTATCAAAAACTGAGATTTTATTTATCTGGGCATTAATTCCAAGACCAGTCTTAATTGCTTGCTCAACACAATATTTATTCAAAACTGGAAGCATTCCAGGCATTGCAGCATCAACTAGTGAAACTTGAGAATTTGGCTTTGCACCAAACTCAGTCGCTGTACCTGAAAATAATTTTGCTTTTGATGAGACTTGTGCATGAACTTCAAGACCAATCACATATTCCCACTCACCTGTATTTCCTGTAATGTAAGCCATTAAAACCCTCCTGGAGTGAAATCTAAATCTTTAACCGCGCGCTCAATAACTGCTGATGCCTGAAGCACTCTATACTCATCAAGAGCAGGAGCCACTAGCTGCATACCAAGTGGCAGCCCTTCACTATTTAATGCCGCTGGCACAGATGCGCATGGCAGACCAGCTAAGCTTGCAGGAATAGTAAATATATCATTCAGATACATAGTCAATGGATCATCTTGATTATCGTTAATGCCAAAAGCTGCAGTTGGCGTTGATGGAAGCATAATTACATCTGCTTTTTCATACGCATTTTTAAAATCATTAGCAATTAGACGACGAACTTTTTGTGCTTTTATGTAGTACGCATCCATATGACTAGATGATAACACATAAGTTCCAATCATTATTCGGCGCTTCACTTCTTCACCAAAACCTTCAGTTCTAGTAAATCTATATAGATCATCCAGATTACTGCAAGGCCTATCAGTTCTGTGAGTGTATCTTACACCATCATATCTGGAAAGATTGGATGAAGCCTCCGCTGGAGCAATTACGTAATATACTGGAAGTGCATATTTTGCATGAGGAAGAGTAATGTTCACAATCTCAGCCCCTTCAGCTTTCATCATCTCAATTGAATCTTGCCACATTTGCATAATTTCAGGATTTACACCATCTATTTCCATTAAGTCTGTTGGAATTCCGACCTTCATACCTTTTACAGACTTACTCCCAGCAGAAACAAGCTCAGGCACAGGCTGATTAATTGATGTAGAATCTTTATCATCAAAACCCATCATCGCTTCTAGCATTAAAGCAGCATCAGTAACATTTCTGGTAAATATACCCGCTTGGTCGAGTGAACTTGCAAATGCAACCATTCCCCATCTCGAGCATCTTCCATATGTTGGCTTAATACCAAATGTTCCGGTAAATGCCGCTGGCTGCCTAATTGATCCACCAGTATCACTGCCAAGAGCTGCCATAGCTGTAAAGCTACTAACTGCAGCAGCAGAACCACCAGACGAACCACCCGGCACTAGATCTTTATCACTATTTTTTGCTTTCCAAGGGCTGATTACATTACCAAAATAGCTGGTAGTGTTTGAAGAACCCATAGCAAACTCATCCATATTTACTTTACCAATCATTACTGCCCCATGATCAGCGATATTCCGACTGACAGTTGATTCATATGGAGGAACAAACTCTTCAAGCATCCTAGAACCAGCAGTTGTTTTGACATTTTTTGTACAAAATAAATCTTTGACTGCAACAGGTACACCTTCTAATTTACGGGCATTTCCACTTGCATAATTTGCATCTGACTGCTTTGCTTGACCCCTTGCAATATCAAAAGTCTCAGTAATATAGCTATTCAAACTTTTTTGAGCTTCAGCTTGCTTAATATGTGCATCAACAATTTCTGTAGCTGTATATTTTTTGGCTTTCAAGCCTTCAAGCGCTTCTGCGATTGATAATTTAATTAATTCTGACATTTTATTCAATTACCTTTGGAACAACAAAACATTTTACTTCTCGAGCTATTTCAGAACCTCTCTCAGGTACATTCTTAAATAAATCTTCCGAGATATCTGATATCTCCACCTTATCTTCTCTAAATCTCTGATGCATATCGCAAACGGACCTAAGAGGCTCAACCCCCTCGCAATCAACCTCTTGCAACTTATCAATCATCCCAACAACATTTGTTAGCTTCTTAGAAAAAGCTTCAATTTCACTATCAGAAAAATCTAATTTCGCAAGCCTCTGCAGCTTCTTTAATTCATCATTGCTGATCATAATATTTACTTAATGTTTATTATAATTATATTTATCCAATAAATCATGGATTAGACTAAATAAAAATTACTTTTTACCCTTACGTCTGCCACTACCATTTGTGGTCTGATTAAACCTACCAATGTTCTTCACAAATTTTTGAATACCACTTTGTTCGGTTCCATGAGTTTTTGTAAAAGCACTATTTGCTACAATCGCTTCATTCTGGGCATTTTTTAATAATACTGCTTGAGAAACTCTTTTATTTTCAGCAAACGTAATTTTTACTATTCTTTGCTCGATCACCTTTGGATCAAACCATGCTCTACGCGCCAATGATCGCTGAATATAATACCAAGTACCTGCAGAATAATCTGGAACATATGTTGGCGTTCCAATCATATTTATCAACTCTTCTTTGTTTGGCTTCTTAATATTAATCTGCTCAATTGCACTATCACTTACAAATTGACCACGTACATCGATAGACTGGCAACCTGAAATGATTAAAAGAAAAAACACTGAAATAATTCCAGCAAAATAAGGCTTTAAATTTGTCATAAAAATAATTTTATATAAAATACTATAGATTTTGTAGTTGAAATATAGTATAATGCGCGACAGTTTGACAAACACTTTTTTTAAAAATACTAACAAAAAGTCAATTGAGAGATAAAAAATGGCAGTTCCAAAGAAAAAAACGTCCAAATCTAAACGTAATATGAGACGCTCACATGATGCGCTTGGGAGAATTAATGTAATCATTGATAAAGACACTGGCGAATACAGACTTCCTCACCATATGGATGCATCAAGTGGTTCATATAATAACAAGCAAATTGTTGTTGAAAAAGACGATAATGATGAATCTTAAGCTAAACTTATGGCTTCAAGAATTATAGGCTGCGGCGGCTACTTACCTTTCAAAGTAGTAACAAACTCAGATCTAAAAAAAACCATTGATACTAGTGATGACTGGATAAAATCAAGAACTGGAATTGGACAGCGTCATATTGCTGCTAGCGATGAGTATACTTCTCATATGGCTCACAAGGCAGCAAACGCAGCTATAAAAGATGCAAATATTAATCCCAAAGATATTGATTTAATAATTGCATGCACTAATACCCCTGATAACAGCTTTCCTAGCGTTGCTAACAAACTTCAAGGTTATCTTGGACTTGGCGAAATACCATCATTTGATATACAAGCAATTTGCTCTGGTTTCGTATATGGCACGCAGGTAGCTGACAATATGATTAAATCTGGCAAATATAAAACTGTACTTTTAGTATGTTCTGAAAAAATGTCTTCATTGCTAGATTGGCAAGATAGATCTACATGCGTTCTATTTGGTGACGGAGCTGGCGCTATTATACTACAACAAGATGACTCAAAAAGCGGAATAATTGATAGTGATATTTATTCGGATGGATCTATGTATGACATCCTATACACTGACGGAGGAGTTAGTATGAACGGTAAAAGTGGCCATGTACAAATGAAAGGCTCAGAAGTTTTCAAGAAAGCTGTTGAAAAAATGTCAGAGTCAGTAAAATCACTTCTTAAGTCAAATAACTTGAGTATTGAAGACGTAGATTTCCTGGTTCCACACCAAGCAAATCAGAGAATAATAAAATCTATTGCTAACAAATTTAATCTCCCCGATGAAAAAGTCATTGTTACTATTGAGAAACACGCAAACTGCTCTGCGGCATCAATTCCACTAGCACTTTCAGAATTAAAGTCGACTAAAGGAATAGAACGTGGTAAGCTAGTTGTATTTACAGCATTTGGTGCTGGAACGACTTGGGGATCGATTTTAGTTAGATGGTAACTTAATATTGCATAGCATCAGTACCCAAGCACAAAAAACCTAAGATAATTGGGGTTATTATGGGTAAGCCAGAAACAATCACAAAAGAAAAAGTTGCTGAAAAGCTTAAGGAAAAGCTTGGTCTTTCTGCAACCCTTTGCGAAGAAATTACTACCCACACTTTTTCTGAAATATTCCATCTTACAAAAAGAGATGATAAAACAATGCTACAAAATTTTGGTACTTGGAAAATAAATCATAAAAAAACCAGACCAGGCTTTAATATTCGATCAGGTGAAAGAGTTGAGATTAAGCCAAGAACGGTACTACGCTTCTTGCCATCAAGACCTCTTAAAGAAAAAATAAATTCATAGCTATGCTAACAAAAAAGTATTTTTCTATTTCTGAAGCATGCAACATGTGCGCCCTAGCTCCACATAAACTAAGATATATAGATAAGATTGATAAAAAAATGTCTATTGTTAAAATCCGCGGTCGCAGATACTACACTTTGGAAAATATAAACTATCTTATCCAAACATACTCTGATATTAAAGAACCAATAAATAAACAACCTTCTATCAAAATAGAAAATGCAGAAATCATTGATCAAAAAGCAGATAATCTTAATAATACTTCTCAAATCAACTATCAATTCCTAGAAAGAATCGATCAACTAATAAAAAATTTTTATACTCTTGCAGAGCGCTTGAGCTAGAGTTGTCTTATAAAGCTTATTTATTTAAATTATTTGACTTTTTTACATAAATTATTAAAAATCCAGATTAGCATAATGCAATGGTGGTGCAAAGCCTGCGACTCGGTCCTGTAATATTGTTTGAAAAGATGGTCTTGACTTGATAATTGAGTACCATTCTTTAATAAGCGGCCAACTATCCCAATTTATTTCACCAAAATAATCTACTGTAGAAATATGCGAAGCAGCAACAATATCGGCACATGAAAGTTTTTCTAACGCAACATGCGATCTTTTTTCAAGATATTCACTTAGCAACCGAAAATGCTGATTTAAATTCGCTTTTGCTGCACGGATAAAAGCACTTCTAGGTCCACCAACATGCATAAGCAATCTAATCATTTTTTCATTAACTAGAATTTTACTCACCTCACGATAAAACTTATCATTAAACCAAGCTATATCCTTACGCACCAAAGCACGTTCATCAGCAGATTTTGGCATAAAATAAAAATCCTCAAATTTTTCTGCCATATATTCAATTATAGAATAGTTACCTACTAAAATTGGCGAGAATTTATCTATTTCAATAACAGGAAGGTTGCCAGAAGGATTAATCTCAACAAATTCTTTCCTTCTAAGCCAATAATCTTCTTTCACCATAGTAAACTCAACATCAAATTCTTTTAAGAAGACTCGAATTTGACGCGATAACGGACAAGCAGGATGGTGGTATAATGTTAGCATTATAAGATGATTAAAATATTAAAGTTAAAAGATGGTCTATAAGCCGGATTCTGTATAGCAATAAAGCTACCGTGATTATTTATCTAGGATAAATGTTACCATTTACCTCAAGCGACCTACCCGCATAATCTCTAGCTATAGACAGCTAGGAACTATTAAAGTTCTAATTACGCCTATTTGATCTTGCTCCCGATGGGGTTTACATAGCGATTATTGTCACCAACAACCCGGTGCGCTCTTACCGCACCATTTCACCCTTACCTTAAAAGGCGGTATATTTCTGCTGCACTTTCCCTAAAAGGAGCCTCTCGCCTCCTTTCGCTGGCCATTAACCAGCACCGCGTCTATTTGGAGTCCGGACTTTCCTCATGCTTTACTTAAAAAAACAAAACATACAACCACGCGACCATCTTGAAAAGGATTGTAATGTATTTCATACAACTATGTCAATCACGTCTCCAAAAAAACTAAAAATTATCCACCAAACGCTGCTCCATAATAGCGTCCTCTCTCTAAATTATGAAAAACTCTCTGTTCGTGATCACTTATTTTAGCCAAATCCGCAATAATTCCGCAGGCCTTCTTAATATCATCGGATTGCTCTCTCCTAAGTAATATTTGCGAATAAGTTCGACTATCATTATACACCCTTTTCATACCTACAAAACCGGGTTTATTAATAACAACATTTGCTGGAGGTTGCTTTATAATTTGTACCATTGCTTCTATAAGATTAACATTACCTCTCTTTGCAACGTCCGTAAGTATTTCTCTAGTCTCTTTTTTACTCTTACCATTTAGCAATTCAATTGCTCTTGCTAGATAATCAATATTTTCATCTTCATATGGCTCTACATCTTCTTGCACATCGGGTACAGGAAATACATCAACCTCTACTGCAACAGGAACAGGTTCTAGATTTACTTGCGCAACAAGATCAGGTACTTCATCTACTTGTACAATTGGAATAGCGCCTACAGCCTCTTGTACAACAGGATTTATACCTTCATGCATAAGAACACCAAATAAGGGTTCAGGTGCTTGTCCATGCAACAAATTTTGAACTACTGCTGCATTTGCCGAATTATCTACAGGATCTTGCAAATGTACATTTTGCCACCCCGTATAATATATTGCACCTGATTTAGAAAAATCTCTATCTAGGCGATAATCATTATTCTTATTATTAAAAGTATAAATAAATTTTGCGTCACCTAGACCTTTTCTAACAATTTGAATATCGTGATCTTTATTAATCCCAACTCTATCTTTATCTACTAAATTTTTGAGAATCTGTTTAGGATCGTGAATCTTCAATATACTACTACGAGTAGATAATACAAGCTTGCTATCTTTTATACTTGCTCTAACACCAGCTTTAAAATAAAACTTATTAATATTCCTGACAGTATGATTTAAATCACGACCAAACTTAACTTCTATACCATTTATCCAGATACTCGCTTTTTCTACTTTTGCTTTATCAGCGTAGATTGTTTTTAAATTCTTTACATGCCTATCTATATCTTTATTGGACGACGTTGTAGTGCATGTATTTAAAACTCTATCAATCATATGTTACACCTAAAAAATCTAGCTTTTGCGTAGGCTATCATTGTTTTGTTGTAAATACAAAAAATTTTATAGATGCTATTTGAAATATTGCTACTAATTCTTAATTATATAACATCAATAAGCGCTTGAATGCTTTTCTATACAAAGTATTTAAGTAAGTATTAATTTTAAAAATACTATTAATATATTTTTGTAACTTAATTGATAAAAGTTAATTAATTGTTGGAAATTTAAGAAATGACATTTGTTTTTTAAGCAGAGTATGAGGAAAGTCCGGACTCCTAATAGATAGTTTTTCTATTGAAACTAGCGAGGTAGCGTCAAGCAGCTGTTAGCTTTAACAAGAGGGATCTTAGTATTGTAGATAATTTATAATATTTAGACACTTTTTCCAAACTTTCTATAATTTTATGGCTACTTATATAGCTTTGCCAAATATATAAGTTAAATTCCAGCAATTATAGAAATAAATCTCTAATATATATATGTATGACTCACCTAATTTATAGCCTAGCGCACTTGCTAGTAATTATCGTTGTAATATAATTTACACTAGTTAAATAAAGTAATTAGTATATAAATTAGCAAAATAATATATTTTATTAGATTAAATTTTGACTTAACACTCCAAGTATAATGTACTTAAAAAATATGTAAAAATATTAAGGTGTTTATTATGGATAATATATTAAAACTTCTTCTAGGCCAGCTTGTTTTTATTGCATTTATAGGTCTAGTTCAAGCAGAAGAACCAAAGAGCTTTCCTAAAAGAGTAGAAAATACACTAAAAAAAGAACTAGAGGCTGTGATTAATAAACATAATTTACCTGGAGCAAATATAGGTATATGGATACCTGGAAAAGGAGAATGGGCGCACTCTTTTGGCATGGCCAACAAAAGTGCAAAAGAACCACTAAAACTAGAGTGTTATTTCCGGATAGGTAGTATAACAAAAACTTTTGTAACTACTGCTATTTTACAATTAGTAGATAAAGGGCTAATATCTTTGGATGATAAAATAGGTAAACATATAAATAATGTACCTAATGGTGATATTATTACTATCAGACAATTAGCAAATATGACAAGTGGTCTTGCTAATTATAGTGAAAATGATGAATGGTTGGATAAAATAATTTTTTCTGAAAGCAAGCGTTTTATACCTGCTCAAGAACTACTAGATGTTGCCTTTGCTATGCCAATACTTTTTGAACCAGGAAAAGGATGGAAATATTCTAATACTAATACTGTATTATTAGGGCAAGTAATTGAAAAAAAATCTGGTCTAAGTTTAGATAAATATCTACAAAAGAATATTTTTGAGCCGCTTGAATTAGATCACACTTTATACCCTACTGACCATAATATTCCAACACCATACGCTCATGGCTATACTAAGCAAACTATAGATGGAAAAGAAGCAGATGCTTCTCTAAATAACCCATCTTGGACTAATGCTGCTGGGCAGCTAATTTCTACTATTGGTGACTTAAAAAAATGGGCAAAAGCTTTAGGTACCGGAGCTTTGTTAAGCAAAAAAGTCTTTGAAGAACGTACAAAATGGGCTAATTTGCCACCAAATACAGATAAAAGGCATTATGGGCTTGGTGTTGGGTTTAATAATGGATGGATTTACCACACAGGAGAATTGCCAGGCTATAACAGTATCGCTGCATATCTTCCAAAAGAACAGGCTATAATTGTTATTATGGTTAATACGGATATGCATTCGTTAATAAATGGCAAACCTGAAGGGCCGGCTGATATAATATTTGAAGCTATTAGAAAAATACTAACTTCTCAAAATGTTCCCTTGATTTAGAATAAAAACTCAAAAATAAATCTGATCTCTTGACTCAGTATCTGGAAATTTATTGCCATCATTCGTTGTTTAATAGGTGCTTATGGACAAACTCAATCACAGCTAACTCAGATTATTGACTAATGAATCTCTCGCCAGTTATCTCCAGAGTTAACATCAACATCGGTTCTAACATCTAAATTAATAGCAGACTCCATGGTTTTCTTTATTAGCTCCATAGCATCTTCAACCTCAGCCTCAGGCGCTTCAAAAATTAATTCATCATGGATCTGCAGGATCATCTTTGTCTTCATAGAACGATTTTTAATTTCAGTATTTAAATTAATCATAGCAATTTTAACAATATCAGATGTTAAACTTTGCATTGGGGCATTGATAGCAGCTCTTTCTCCAAAAGATCGCATTGCATGATTCTTATCATTTATTGTTGGTATAAAACACTTACGACCAATTAAATTCTCTACATATCCATGTTCTTTAGCAAACTCAATTGTATCACTCATATATTTTTGAATACCGGGATATTCTTTAAAATATTTCTCAATATAGTCAGACGCTTCCTTTCTAGAGATATTTAGCTGCTTAGAAAGACCAAAGCTACTTATTCCATATATAATGCCAAAGTTTATTGCCTTAGCGCTTCTTCTTAGCTCAGAATTAACTTTATCTACTGGAATATCAAAAATTTGACTGGCTGTCTGAGCATGAATATCACGATTTTCTGACATTGCCTTTTTCAACGGTTCAATATTTGCAACATGACTTAATATTCGCAGTTCAATTTGTGAATAATCAGCGGAAATTAATTTTTTACCTTCGCTTGCTATAAAAGCTGCTCTAATACTGCTTCCTTCTTCAGTTCTTGTTGGAATATTCTGTACATTCGGATTTATTGAACTAAGCCTTCCTGTGGTAGTTGCTGCTTGCAAAAATGTTGTATGAATCCTACCGGTCCTAGGATCAGATTGATTAGGGAGTGTATCAGTATAAGTATTTTTAAGCTTAGTCAAATGCCTCCATTCTAATAATAATTCAGCAATCTTAAAACCTTCTTCGTGCAATTTCTCTAAGATATCAGCACTGGTAGAAAAAGACTTTGTCTTTCCAGTGGTTTTAGCAAATGGTAACTTCATTTTACCAAATAGAATTTCTCCAAGTTGTTTAGGCGAAGCTATATTAAATTCCTCTTCAGTTATTTCATAAATTTTCTTTTCAAGCTCTGCAATCTTAATTCCAAATTCTTGAGAGATCTTACTCAAATACTTGCTATCAATTTTTACTCCTTCTATTTCCATTTCATCTAAAATATGACAAAGAGGAAGATCAATATCTAGATAGAGATGCAGCAATTTATTTTTAAAGAGCTCAGAATTAAGCTTTCTATAACAATCAACTAGATAAGGCGCTATAATTTCAATTTCTGCTTCTTTTGAAATCTCAGTGCCACTAAGGTCTTGTATAATCTTTCTTATATCACGGCTTTTCTTACCTGCATTTAATACATAATCCATTAACTGCAAATCTTCGAACGACTTACACGGTTGATTACATATTTTTAAAAGCTCCTTTAAATTAAATACGATTTTTTTAATAGATACATCTGCAAATAATTCATGAATTTGCTTTGAAAAATTTAGATTTTTAGACTTATCTTTATTCAAAGAAAACAAATCTTTTGGAGCATCAGATTGCGCAATATAAGGAGCTATATATAATTCGTCATTTACACCAAAAATAAATTGAATATCATCATCTTGCCGACAAGCAGATACAGAAACTTCTCCATAAAGCTCTGCAAAAGCCATAAATTTTGCAAATTCTTCATCGGATGAGATTTGATTTCTTTTTGTTGCAATCTTTTTGTTTATAGAGTCGTTTGCTTGAATTTCAACCTCCTGAATTTTCAAACTAAATAGATTCTCAACTCTTTTAATTAGTGATTTGAAACCAAATTCAGCTAAAAAGTGAGAAATATTTTCAACCGATGGTGCATTCCATTTAAATTCATTTACATCATGATCCAAATCTACATTATAATCGAGTCCAACCAGCTTCCATGAAATTCTAGCATCTTCAGCTGAACTTCTAAGTAACTCTTGCTGACGTTTGCTCTTAATTTGATCAATAGATGATAAAACCGTTTCCAAATCACCAAATTGATTTATAAGCCCAGCTGCTGTTTTTGGCCCAACTCCAGCAACACCAGGTATATTATCAGAACTATCACCCATTAATGCCTGAACTTCACGAACTTTATCTGGCCCAACACCAAACTTAGACAAAATGTCTTCCTCATGAATAAATTTAGACTTCACAGGATCAAACATTTTAACATGATCATTTACTAGCTGCATCAAGTCTTTATCAGAAGAAATTATAATAGCATCTCTTTTAGCTTCCTTAGCTTTATGCGCAAGAGTCGCTATAATATCATCTGCTTCATAACCCGCTCTTGAAATACATTCAAAATTTAGCGCTTTTGCTGCTTTTTCAACAAGCTTAAGCTGCATTACTAAATCATCAGGCGCAGGTGGCCTGTTTGCTTTATAATCTTTATATAAATCATGGCGAAAATTCTTTCCGCTATGATCAAGCACTATTACGGCATGTTCTAGCTTAAAGTCGGCGATAAGCTTTATAAGCATAGAAGTAAAGCCGTATATAGCACCGACAGGATCTCCTGACGGTGAAGTAAGTGGAGGTTGCACGTGATAAGCTCGAAATATAAAACCAAAACCATCTACTATAATTAATGGTTTTGAATTTTTGCTATTAGTCATTTTAGTACTATTGTTTATCGATTATTGAATTTGCATTCCGCAATTCTTCTTGAGTATTCACGCCCAAAACCAAATTGTAATTATCAGAAATATAATATGATACTTTTTCACCGTGCTGAGCACAAATTTCTATAATCTCAGTAAGATATAATTCTTTCTGTGGATTATCAGAGTCTGACCTTAAACAGGCCTCTATATACTTATTCAAAATACCTGGTGCAAATGACATAATACCAGAGTTGCATAATGTTATTTTTTTCTCTTCAGGGCTTGCAAATTTTGCTTCAACAATTTTTTCAAAATTACCCTCAGAATCAACAACAATCCTTCCATAAGCATTTGGCTTATCATATTCAAATGCTAGAGTTACAGCTTTTGAATCTGTCTTTTGCATATGATCAAACATATTCTGAATTATATCAGCAGTAATTAATGGGTTATCACCATAAATTACTCCTATTGGTTGATCAGGATCAAATTTATCTTTCGCAACAAACACTGCATGTGCCGTACCTAATTGCTCTTCTTGTTTTACCAACGTACATTTATTGGAAAATTCTGGTAAAAATTCTTTAATATGATCAGAATACACTAATATTAAATCATTAGAAACCTTGAGACAATTATCAATAACATGCTCAAGCATTGGTTTTCCGGCAACTTTATGCATTACTTTTGGAAGTTCAGATTTCATCCTACTTCCTTTTCCTGCGGCAAGAATAATTATTTGCATATATTTTTATCCTAATTTGATAATTTTTCAAACAGTTCTTCCGACATTTCATAATTGCCAAAAACTTTTTGCACGTCATCACTTTCTTCAAGAGCATCTATTAGCTTTAACAATTTCGTAGCTCTTTCTTCATCTGTGACCATAATTGTATTTTGTGGCTTCCACTCTATTTCTGACTCAAGCGGCGCCCCATACTTGTTATTCATATACTCCAAACACTCAGAAAATGTTTCAATATCTGTGTATACAGTATGATATTGATCTGTTGACTCAACGTCATTTGCACCAGACTCAATAGCACTTTCCATTATATCATCAGCCGACGCCACATTAGCAGGATAATCAATTCTACCTACTCGATCAAACATAAAACTAACACTGCCGGACTCACCCAAATTTCCTCCATGCTTAGTAAAAGCACTTCTAACTTCTGCAACAGTCCTATTTTTATTATCAGTTAAAGTCTCGACAATTATTGCAATACCACCTGGGACAAAACCTTCGTAGCGAATTTCCGTATAATTATCTGTATCTGATGGATCAGATGCTTGTTGCAGAGCTCTATCAATTCGATCTTTTGGTAGATTTTGACTGCGAGCTGCAGTAATTGCACTTCTAAGTCGTGGATTATTATTTGTATCAACGCCACCAATTTTAGCTGCAGTTATAATTTCTCTGACTAGTTTTGTAAAAATCTTTGCTCTCTTTTTATCTTGAGCGCCCTTTCTGTGTTGTATATTCTTAAATTTGGAATGTCCCGCCATTACAATAAATTATTTATTAACTTAAAGACCCCCATTCTAATACATAGCTGTCAGAAGGCAAGAAATATTAGGCACTACTAGAATACATAAGCGTAGACAATTTAGAAATTCGCTACAAAATAAAACACAAATCCCTAAAAATACTAATAAAACTAGCATACATAAGATTTCTGTAATATAATGTTAACGACTATCAATCAATGTTGTAGGTATTTGCAGTGTCTAATTATGATGACATCATTCTGGAACTGAAGGATTTTGCCCGTAGCTTTAATATGAGTTATATAAATTCTTTCACAATAGATAACCAAAGTGGCCGCGAAGCAGCATTTGCAAGCAATATTGTTGGAACTCTAAATCACAAAAAACATTTACTTATATATTTAAGTAAAATGCATCGCAAAGATCTTGAAGATTGCCTGCGCACCCATGGTGATAAATATGCCAGAGGCTTTGAAAGCACTAAAAAATCACCAGATGAAATTAAAGATTTTCATGATAAAATAACCGATATTCTAGATTTTGTTGCAAAATCAAAACCAGATTCGTCATTAACAAATCAAGAACTCGATCTGATTGGAGAGAGGTTATATAAAATTCTTAAAAATGCACAATTACTTTTTGCTGAACAATCGCATAATACTCAGGCTAAAGATTCAATGCAAGCTCTTGCAATTGCTCTTGATTGCTACACACTTGAATATGATGAACAAAATGCATTATACGAAAAATTACTGCAAGTAAAGGAACTCTGGGAAATAACAAATACTGAAGCTGCTAGTGCTCAAAGTGTAAAATATAAATTCCACTATGACCCTATGAGTAGAATCAAATTGCAGGAAATTGATGATAAGGACGGTGCTTTTGAAAAAATAGTAGTACTATTGACCGGAAAAATGTCAACACTAGATACTCTATCCGATGAACAGATAATTCACTTATATGATAGATTAAAGAATCTAGAATGGACTTCTCCTTCAATACCTCTATTACTAAATAGAATTCACGATGAAGCGCAATTCAGGTATAGCTACAATAGACTAACTGATTCTGGATACGACCTCCTTAATAGATTTCAAAGCTTTGATGCTCTTATGCACCAAGTGGATAATTTAGAGTTCTCCATAGTGGAATCTTACTTAATTAATAATACTAATTTTATTAAAGATACGCTTTCTTCACTTTTTAAGCATGTGGACAATATTAGAGGCCTTGCACTGAGTAAAGATAAAAATCTTGGAGCAATATTTAAAAAAATAGAAACTAAGATTCATCACTTATCTGGATCCGAACAAGAATCTGCTAAATCTGCACTCACCTCAGTGAGGGGCAAGCTAGGAAATGCACTTGAACCTCATATCCAAAAAAGATATGTTGATCTTGATAAGTTTGCAAAACTAACTATTCAAAACAGATATAACGATCTTTTTGAAAAGCTCGATCTGATCGTTGAAGAAAAAGAAGGATATATAGAGTATATTCAAGAGTTGTTTGTTAAAAAACTTACAAGAGATTTCTACTTACCTAATCTATCAAACTCGATAGAAAAACTCCGTAAAATGGCAGAATATAAGGTTGAAGTTTCACGCCTACTATCACAATTACATCTTGCGGATATATTTTTACATAAAGGTTTACTAAATAAAATTCCTTCACTTGACTTCAAACACGTATCTCTTGATTCAGACATTAAGTCATCAACTGATTATGTAAACAAATTGACAACAGAAATTGTTACTAAATGCAGCGCTTTTCAGCTTGAAGTTCTTTATAAGCCTCTTCTTAAGAGCGAAATACTTACAGAAATCCAAATGCACTTAAAAGAAGAAATATCTAACCAAATTCATCAAAGGACCTCTGTAGGAAAAATGATATTTTCTATCGTTAGCGGTAAGAAAAAAGAGTATGATCAACTTAAAGCCATAAAGAAAAATATAAAAAA
>sequence16
ATCTTTTGGGTGGACTGTAGTTACATCTTTTGTCCTGTTGTGGTTGGTAAAATCATATTTAGGGGTTTTTACTGTTTGACCATTTTTCAGTTGTAATAATTGTTTTTTAAGGAGGTCAAATTCTATAGAATCTGGATGATCAAAATTTGTTTTTCTTCTCTCCTCCTTTGATAAATGTGATAGATCTTTGTAGTATGAGTCTTGACTTATTATTGAAGCTTCATTGTTTATTCGTTCTTTCAACTTTTTTGCTATAGTTGTTTTACCTGCTCCTGTACCGCCCGTAATACAGATAATAGTTGTAGCTTGTGCTGCTGTTATATTAATAACTAAAGTTAGTAAAATTATTATTTTAAGAAAAAAATTCATGAGCCCAGATTAATCAAATATTTATTAGCCAGAAGGATAATTTTTTAAAGTTTATAAGTCAACTTAAAAGAGTGGGGGTTATACATGCTTATTTGGACTACTTGACTTTATTCTATTATGATTCTAGTTTTAGAAGTTATTTATGTGTTAAAAGGTTTTTATATGGCTGATATAATCAGACCAGAACCATCTGTCAAAGCTACTATCATTGGTCAAGTATCACTTCTTATTTGGGCTCTATCAGCTTGTTGTGCAGTAGCACTCAGTTCTCTTCCAGCTTTTGAAATATTATCCGGAATTTTTATAAGTGGTTTTTTAGCTTCTGCGATAATGAATAGCATCCGTGAGAATTGGGTTTATGCTTTATCGCGCCCAAGGCACCTTATATTTGCTGGAATTTTCGGTATAGTTGGTAATGATATTTTTTATATATTATCTTTTAAATATGCTCCTGCAGTGCAAGTTGATTTGATAGTTTGCTTGTGGCCAATGATGGTATTAATTTTAGCATCATTAATATTGTCCGAAGAAACAAGAATAAACCATGTGCTTGCATGTGTTATAGCATTTTCTGGGGTATATTTCTTGCTTAGTTCTGGTGGAGAAGAAGATGGATTTCAAGAGCAATATTTGCTAGGCTACTTCTTTGCCTTTATGTCTGCTATTTTATGGTCAATCTATATTATTATTTCCAGAAAATATATCAGATCTACTCCAGAATTATTCGCGATATATTGTTTTGTAGGGGCTGTATTTTCTATTTTAATGCATTTTATATTTGAAAAAACAGTAATTCCATCAATTGATCAAGGGATTGTGCTAGTAGCTATGGGAGTAACAACTCATAGCCTGGCTTATTATGGATGGGATTATGCTATAAAGTATGGGCATTTTAAATTATTACATATTTTACCATATGGTAACCCTGTATTGTCAGTATTTGCTTTAATAGTATTTGGTTTTGCTGAGCTTACGCGAGAAGTGCTGTTTGCTACATTAATGGTGTTTGCTGCTGGTATAATTGGTGGAAAGAAGTTTAGAAAAAGAGAAAATAATGTACGAAAAAAACAACATGTTGATGTTGCAGATTTTTCTAGCTAATTCGCATATAGAGCGATACGTCATCGCAAGCATACGCTCTGCGATCCAATGTTTTTATATATATGGTTAAAAATTATAGAATTTTAATTTGCTAATCTCATTTGACCATCGCTAGTCATTTTTTCTAGCACATAGTTTTGAATTTTCTCAAAAGCTTTGTTCTCAATTTGCCTTACTCTTTCTTTCGAAATACTATACTCGTTACTCAGAGCATCTAAAGTAGATGGGGAGTCGTTGAGTTTTCTAGCTGTAAGTATTTTAATCTCGCGTTCATTTAGAACTTGCATTGCTTCAGCTAGCATTTTTCTTTGTTTGTTTAGAACCTGGCTTTTTTCCAGGATTGCTTCCTGAGAAGGTTTTGTCTCTTGAATTAGTTCGATCATTTCGCCAGAACTATCATCATCGCTGTCTATTGATCGGTTAAGAGACATATCTGATCCAGATAAACGCTGGTTCATTTCTCCAACTTCTTTTACGCTTACGCCAAGTTCTTTTGCGATATTTTCGTAATCGCCCTCATTTACTGGACGTGCATTTGTGCTGGTGATTTTATTCTTTATTTTTCTTAGACTGAAAAATAATTTTTTCTGTGCAGATGTAGTTCCAATTTTAACTAGTGACCATGATTTTAGAACATATTCTTGAATTGAAGCTTTGATCCACCACATTGCATATGTTGATAGTCTAAAACCGAGTTCTGGATCATATTTTTTCACTGCTTGCATTAAGCCAAGATTGCCTTCAGATACCAATTCAGTAACAGGTAGTCCATAATTTTTGTATTGCATAGCAATTTTTGCAACAAGCTTCAAATGGCTTTTTACAAGCTTATGCGCTGCATCAAGATCATGTTTTTCAAGATATGCTTTAGCAAGCATAAATTCTTCTTCTTTTGTAAGCGAAGGGATGTTATTTATCTCGCTTAAGTATTTACTAAAACCAGATCCAGCCGAAATTGCTGGTAATTTTGCTACATCTGACATAAATGTCCCCCTGTTTTTACTTGCTGCAATTATAGCACAAAATTATAAAAACATTAAACAAAAAATATTTGCTTAATCTAGTTTGAAATTTTGAAAGCTTATTTCTATTATTTCAAAGGCTTTACCGCCCTTAGGTGTTGTTACTTCAACTATATCTCCTATTGATTTACCTATTAGGGCTTTTGCAAGCGGAGATTTTGTTGAAATTCTTTTTTTAGTTATATCTGCTTCGTATTCTCCAACAATATGGTAAGTACTTTCTTCTTCGGTATCATCATCAATAACTTTTACCGTTGCGCCAAATTTCACACTATCTGTCGAAAGCTTAGATGTATCTATGATTTCAGATCTAGAGAATTTATCCTCTAGATCTAATATTCTTCCTTCTATGAAACTTTGCTTTTCTCTTGCGGCATGATATTCAGCATTTTCTGATAGATCGCCGAATTCCCTAGCAGTCGCAATAGCTTCAATGATAGCGGGTCTTTCAACATGCTTTAGTTGTTTTATCTCTTGCTCCAACTTATCATAGCCTTGTTGTGTGATTGGGAATTTGTCCATATTATTATGTCTTGTTTAAATTAAGTTTTGAAAGTATATTTATACAGGTATAATTTGTCAAACCTAGCTAAAAAGCCTATGACTAGTGAAACCCTCAATTTTGAGATTCAGCGCAAGATATTTCATTTATGCAGCCTTGTATTCCCTATAATATATATCTTTCTTTCTAAAATTACTATGGGTATTGCATTGACAATTGTCGCTGGAATTACCCTCTACTTAGATATATCTAGGCATTACAATCCTAAAATTAAAGGGTTTGTGGATAATTTTCTTGGAAAATTTCAAAGAGTTGAAGAAAAAAGTGGTGAATTTGTGCTTAGCGGCGCGAGTTACATGGCGTTTGGTTTTTTGATAACATGCTTATTATTTTCCAAAGGGTTGGCAATTACTTCTTGGTTAGTTCTTATAGTTTCTGACTGTATTGCAGCGGTGCTGGGTATGAAATTTGGCTCACCTTTATTTAATGGAAAATCTTATATAGGGTCAGCTTCATTTTTCTTTTCTGCTATGCTTATAAGCATTATGTCATATTTTGTAATTGGGTATAATACAAGTTTTTCTATAATAATGATAAGTTGTCTACTTTGTACGGTTGTGGAGTTCTTTTCAGACCAAATTAATATTGATGATAATTTATCTATACCTCTGACATACGCTTTATCTACTTTTATCTTCGGGCTGATTTAATACTTTATGAGAATTCCTCTAGAATTTTATAATCATTTAAGAAATACAATTAGAATTTCAGATATTGTAAGGCAACGTTTAGTTTTAACCCGAAAAGGTAATGAGTATCTGGGACTCTGTCCCTTTCATGATGAAAAAACTCCATCATTTACCGTTAATGATGCCAAGAGGTTCTACCATTGTTTTGGCTGTAGCGCGCATGGAGATGTTATAAGGTTTGTATCTGAAACAAATGGAATTAGTTATAAAGAAGCAGCAATTAAGATTTCTAATGATAATGGAATTGAGTTGCCAAAAATGTCCGCTGCTCAAGAGCAGAAATATGAAGAGGCTGATCAGATTTATAATATACTAAATTTGGCTGCTGAATTTTTTCAAAAAAATATAGATAAGACAACAATTGAATATTTAAAAACAAGAGGTGTAACTTCAAGCTCAATAGAAAAATTTTCTATTGGTTTTGCTCCAGGTGGTGGTTTGCTTGAGAAATTTTTTCAACAAAAATCTGTTCCTCTTAAAGACCTATTAAAGTCTGGTTTATTTGGAAAAAAAGAAGATGGAAGAATATACGAAGTGTTTAATAAGCGTGTGATGTTTCCAATACGTAATGTCTACAATAAAATAGTAGGTTTTGGTGGTAGAGCTATGAATGATGCAATGCCAAAATATATTAATTCCCCTGAAACTATGGTTTTTAAAAAATCAGAAGTAATGTATGGAGAAAATATAGCAACGGGTCAGTCATATAAGGATAATTACTCCATAATTGTAGAAGGCTATATGGATGTTATTGCTTTGCATCAGGCCGGGTTTAAGCAGGCAGTAGCTAGTTTAGGCACATCAGTCACCGAAAAGCATATTCAAAAATTATGGCGTTCTGCAGATGAGGTAATAGCTTGTTTGGATGGTGATAGTGCAGGAATCAGGGCAAGTGGCCGCTTAATTAATATGGCATTGCCACAAATATCTGCGGATAAAATCATATCATTTATTGAAGTACCAAAGGGCGTTGATCCGGATGACTTAATAAAAAATAAAGGATCAAGTGCCTTTAAATCACTGTTAGATAGACGCATAGGTCTTTCTGAAATGATTTGGAAGATGGAGTTTAGCGGAAAGAGTTTTAGGACCGCGGAATCTAAATCTTTATTAGAAAAAAAACTAAATGAGTATAGTTTTCAGATTCAGGACGATTCACTAAAAGCTAATTTTAGACGCTACTTTAAGGATATGATATGGAATAACCTGGTGCGTAAAAAAAGTAAAAAGGAATCTGTTGTAGGTAATAGTAAGAAATTATTTGATTCAAAAAAATACTCTGAAATTGAATATATGGAAAACGCTATATGTTCATTTATGATTAAATTTCCCAATTTAATGCGCAATTTAGACCATAATATTCAGTTTCAAGATGCTGATTTAGATGAATTTAAAAATTGGATTGTAGAGTTGATAGAAGATCATGATGAAGTTGATAAAGATCTAATTACAGATAAAGTAAAAAATACTAGATTTTATGATAGATTTTTAGTATTATCTTCCTCTGATATTTTGTTCATCGATTATGCTTTTTTAAATGATAAGAGTATAGATCGAGAGCAGGTTTTTGAATGGTTGCATAAAAAGCATTACTTATTACTCCTAAAAAACGAGTATGTCAACGTATTAAATAGTAGTGCTTATGACGAACAATCCAAGACAATGTCATATTTAGAAGAGATTAGGCGAGTTACCAAAGAACTTGATAACTTAAGCAGTAATTTCATAAATAATCAATAAGATTAAATTGATCACCAAACATGAGTTTTATGGAAAAAAGTAAGTCAAAAGAAAATACTAGCAAAGAAGAAGCAAAAAATCTTGAAAGCCTTGTTACAGAAGGTAAAAAGAAAGGGTTTGTTACATATGATCAGCTGAATAAATCTATTTCGGCAACTAAGAAGCTATCAGTTGAAGAGTTAGAAAACGCTATATCTAAATTTTCTGATGCTGGGATAGATATCATTGAGGATGAAGGTGAAGATATAAAGCTGGATATCAATGTAAACGAAGAGCTAACAGTTAGTAGCCGTAGTTCGGATGATGAAGATTCTAAGGATAATGAACCTGAGAATTTAGGTTCTACTGATGATCCAGTAAGATTATATTTGCGTGATATGGGAGGGGTAGAATTGTTATCCCGTGAGAATGAAATTGAAATAGCAAAGCGTATTGATGCTGGTAAAGAGTTAATGCTTAATTCGCTATGTGAGAGCCCGTTTGCAATTAAGCGTTTTATCAAATGGTATGAAGATCTTGTTAATGAAAAGATTATGCTTAGAGATCTTATAGATCTTGATGCAAATCTCGGTAATGATGAGCCATTAATGGAAGAAGAAGCAGAAGATGCTCCTGAAGTTGATAGCCAAGATGAAAGTGAAGCCGAATCAGACGAAAGCAATAGCGAATCAATTGAAGAAGAGGAGCCTGTTTCACTGTCAATCTCTGCTATGGAGGCTGAATTACTACCATCAATTATGGATAAAATGGAAGTTATTTCTCAAACATGTGAAGTGCTTTTAAATGAGGCAAATAGTCATTGCAAGGGTACCAAAAATACTCCTTTAAAAGATAATAAAAAATATACAGAAGCTCTTAATTTTCTTGTCGGTGAAATTAGTTCAATGCATTTCAGTTCAAAACGTGTGGAGGAGATGCTTTCTGACATATACGAGGTGAATAAAAATCTTGTAGCAAAAGAGGTCGAGTTACTAAAGCTTTCTGAAAAGCATAAAGTTAAAAGAGCTGATTTTTTAAAAGAATATAATAATTCTGATGCTGGTTTAATGTGGCTAGAAAAAGTTAGTAAGAGAAAAGAATCTGCTTGGAAATCTTTCTTAAGCGAAGAGTCTTCCAGTATTAATCGCATATTAAAAGCTATAAATACAATAGAAGTAGAAATAGGCCTTCCAATAGCTGAATTTAAGAGAGTTGTTGGAGCAATTCAAAAAGGAGAAAGGCAGGCTACCAGAGCAAAAAAAGAAATGATAGAGGCAAATTTGCGTCTCGTTATTTCAATTGCAAAAAAATATGCAAATCGAGGTCTGCAATTTTTGGATTTAATTCAAGAAGGTAATATTGGTTTGATGAAGGCTGTTGACAAGTTTGAATATAGTAGAGGATTTAAATTTTCTACTTATGCAACATGGTGGATTCGTCAGGCTATTACACGATCCATTGCAGACCAGGCTAGAACTATTCGTATTCCAGTGCATATGATTGAAACTATCAACAAAATCATTCGTACTACTCGCCAGATGATGGGTGAGCTCGGATATGAACCAACGCCAGCAGAGATAGCTGCTAGATTGTCAATGCCGATAGATCGAGTAAGGAAGGTGATGAAAATTGCAAAAGAGCCAGTCAGTCTTGAGAATCCAGTAGGTGATGAGGATGGAAGCTATTTAGGTGATTTTATTGAAGACAAGAATGCTGTACTTCCAAGTGATGCTGCATTTCAATCCAGTTTGCGTGAGACAACTACAAGAATATTGTCAACCTTAACGCCAAGAGAAGAAAGAGTCCTGCGTATGAGATTTGGTATTGGTGTAAACACAGACCATACTCTTGAGGAAGTGGGGCAGCAATTTAATGTTACGAGAGAGCGTATTCGTCAGATCGAAGCTAAAGCACTGCGTAAGCTGAAACACCCTACTAGATCAAAAAAGATGATTAGTTTCTTGAGCGGTACTAGTTCTAAGCAAAGTTCTAACTAGTATCTGTAATCTTTTTTGTTAGAGTCATTGTTAACAACTGTAGAAATTTTTGAGTTTTTCAGGGGTTATAAAGAGATTTTTGATTAAAAAGGAAGCCATCTATTTGATAGAAATACATCTTATGCATAGATATAAAATCATTTTGGAATATATTGGTGCGGGCTATTGTGGTTGGCAAAAGCAGAAAGAATCACTGTCGTTGCAGCAGATCATTGAAGATGCAATCTTTTCTTTTAGCAAAGAAAGAGTAACAGTCACTGTTGCGGGTCGTACAGATTCTGGTGTTAATGCTTATGGCCAGGTTGCTCATTTTGATCTAGAGAAGCATTATGATCCAAGACGCTTAATGCAATCAATTAATCATTTTTCCCGGCCAAATACAATAGGGGTTATTTCTGCAGAAGAAGTAGATTTAGAGTTTCATGCTCGCTTTTCGGCAAAATCTAGACATTATGTTTATAAAATTTTAAATCGGCCATCTATAAATATAATTAATAATGGTTTGCAGCATTGGGTTAGACATGATTTAGATACGGAAAAGATGCAAGAAGCTGCAAATTTTCTTTTAGGCAAGCATGACTTTAGTTCGTTTCGTGCTAGCGAATGCCAATCTAATTCACCCATGAGAACACTAGATAAGATAGATATTTTTCGGGATGGAGATAATATTGAAATTCGAATTTCTGCATTATCATTTCTACATCACATGGTCCGAAATATTGTAGGTAGCTTAATTTTAGTTGGAAGTGGTAAGTGGAAACCTATTAAGATTAAAGAAGTGTTAGAAGCAAAAGACAGGAAAGAGGCTGGTCCAACTGCTCCTGCTTGTGGTTTGTATTTTTTAAGAGTGGATTATTAATGTTATGCAAGTTCGTGAAGCTTTGAAATTAGCTACTAAAAAGTTCAAGGAAAGTTCAACACCAAGTCTTGATGCAAGATTATTGCTTGCACATGCTTTGAACTATAGTCAAGAAAAGTTGCTAATAAACTATGATAAAGAATTAGAGCAAGATATTGAAACTAGCTTCTTTGAATTTGTAGCAAGAAGAGAAGAGCAAGAACCCATAGCATATATTTTAGGAAGACAAGAGTTTTATGGTCTAGAATTTGCGGTTAATAAACACGTACTTATTCCAAGACCTGAGACAGAGTTAATAATTGATATATTAAAGGAAGATAGCGCGCGAAAAGATCAGAACGATAATATTGATATTCTCGAGCTTGGAATTGGAAGTGGTGCAGTTTCTGTTTGTTTAGCAAAAGAAATACTATTAGCTAATATTACTGCTGCTGAGGTAAGTGATCAGGCTATAGAGATTGCTCAATCTAATATCTCAAAGCATAAAGTACAAAATCAGGTTAAAATACTAAAAAGTGACTGGTATTCAGCGTTAGATAAGGGAAAAAAATACGATTATATAGTTAGTAACCCACCATATATTTGCCGTAGTGAGATTTATCAGATGTCTAAAGAAACTATAGATTTTGAACCAGATCTTGCATTATATGCTGATAATGAAGGGCTTTCTTCCTATCAAGCTATTATCCAGAATGCTAAGAATTTTCTAAAAAATGATGGTAAGCTTGTGTTTGAAATAGGATATTCTCAAAAGAATATGATATTAGATCTTCTTAAGCGTGCAGGCTTTGAAAATACTTCGGTTAAGCAGGACTTATCAGGTTTAGATAGAATAATTATTGCTAACTAAAATGTGTTTTAAATACACATTAGTAATAAAATTAGATAAAAATACTGAAATTAAAAGTTAAAAATCTATTAGATTACTCAATCTGAATTTACACTTATTAATTACGGGTGCTATTATATGGATATTAGAAGTTCTTAAATTCATATTTGCCCTTTTATAATAAAGATAATGGTAAATTAAATGAAGAAAGTAAAATTACTTGCTACAGCTTTTGCAGCCGCAGCTTTTTCAATTGGAAGTGCAAATGCAGGTGCTCCAGATGGTATGGAGAAATGTAAAGTTGTAGATAAAGATGGAAAAGGATTAATTAAAGCTCACAAGGGTGAATGTGCTACTAGCAAACATTCTTGTGCCGGTCATAACGGTCCAGGTGATCCAGAAGCTTGGATCCTAGTACCAAAAGGCGAGTGTGCTAAAATCAATGCAGGTGATTTCTCTGGTGTTGATGACAAAATAAAAGACAAAATTGAAGCAAAAAAATAGTCTTTATTCATAAATTAATGGGTTATCTATAAGTAATTTATATATAGCCCATTTTTGTTTACAAAGTTAGTTTGTACCAAACTTCAAAATGAGTATTTATAGTATATAGATGTATTTTTATTTCAGAAGATATAGTTTAAATACTTTTATATAAAGACGTAGTTGTCTATTTCACTCGGGATAACTGCGTTTTTTTATGGAAAAGAAATTAAGATTAGTATGATTTTAGGTAATATATGGCAAATTCTTTAGTTGGTATAGGCCTTAGATATCCTCATCTAAAACAGTTTGTTTCTGAAAAACCAAATATTGGTTGGGTAGAGGTGCATAGTGAAAATTTTTATTCACTGGGAGGTGCTGATTTTGACTGTCTAGTTAAAGTCAGGGAAGATTACCCAATTAGCTTACATGGCATAGGCATGTCTCTTGGCTCAGGTGATGGTATTGATAAAAATCATTTAATGATGGTAAAGAATTTAATCAATATTATAAATCCATTTTTGGTTTCAGATCATTTATCTTGGAATAGTATATCAGACAAATTTCTACCAGATCTATTACCTACTCCATTTAACAATGAAGCTCTCGAAGTTTTCATAAATAATATAGACGAAGTACAGTCATATCTGGGTAGAGAGATATTAATAGAAAACCCATCAGCATATTTTGAGTATGAAACCTCCACAATGCCTGAATATGAGTTTTTAAATATTCTATCTGAAAGAACAGGTGCAAAAGTAATTCTTGATTTAAATAATATCTATGTTTCTGGTCTTAATAATGGCTGGTCACCTGAGGAGTATATTAGCAACCTAGATAGTTCAATTGTAAAAGAAATACATTTGGCTGGTCATTTTGTTAAGGAAACTAGTAATGGTCAGAAGCTATATGTGGATTCGCATAGCACTTATGTGAGTGACGAAGTTTGGCATTTATATGGCTTAGCTATACAAAAATTTGGTGAAGTGCATTCATTATTAGAGTGGGATGTAGATATCCCAGATCTTTCAGTATTACTTGATGAATCAAGGAAGGCTGAAAATTATTTAGACAAGAATTTTAAGAGACAATATGCGTAATTTAAAAGAGTTACAGGATAACTTGCTAAATAGGATTATAGATAATGATCTAGCAGCAGATTTTATAAAGAAAAAAGGTAATATAGATGTATCTGATAGGCTAATGATACATCGTGAGACGGTACTAGAAAATTTGATTTCCGGTCTAAAAATTACATATCCTTATATTTGGAAATTATTAGGCGAAGAATGCGCTAGAGGTGTAGCTCTTGCATACTCACATAATATAGAGAATTTGATGAGTCGGGATAAAATAAATTCATTTGGCGATAAATTCCCTGAATTTTTAAGAAATTTTCCTTCTACCGCTGATATAGGTTATTTACCTGATTTTGCTGAATTAGAATGGTTAAGATCAAAAAGTTATGAGTCAATAAGAGAAGAGTGCTTGTTGCCACAAGATATGCAAGAGTTTTTTATTAATGGTGATGGGAATGGAAAACTGGTTTTTAATTCATCAGTATATTTTTTGAAGTCAAAATTTCCATTAGATAGTATTCAAAGTTTTTTGGATAACCCAGAAATAAAGGAGTTAACTTTAGATAATTCTAGTTCGAATATAATTGTGTGTCGTGTACAAGGAAAAATAGAAACTTTATATTTATCGAAGAATCAATGGCAATTTTTATACAATCTTAATAATGGTGATGCTATTGGTAAAGCAATAGAATGTTTTTCAAATGAAGAAGTAGAAGAACAGCTTTCGATAATGATTCAGCTACTATTATCAAAGCAGATGGTAAAAGAAATTGTGGAGTAAATGTTTTTATGGTTGGGTTTATACAAAATTTACAGAATAGCCTGATTGGTAAGATTTATTTGGCATTTACAAAATTTGCAAATAAATATCTATTTTCTGCTTTAGTATTTTTTATGAGATTTTGGATAGCTAAGATTTTTTGGTATTCAGGTCTTACAAAAATTAGTAGCTGGCAATCAACGATTTATTTATTTAAATATGAATACGCTGTTCCAATTATTCCAGCTGAACTTGCTGCAATTTTGGCAACTGCTACTGAGCTATCCGCCCCTATTTTATTAGTAATAGGTTTAATGACGCGCCTCGCTGCTGTTCCGGTGTTGTGCATGACGGCAGTAATACAATTTACCTATCTTGACTTAATCGACCATTTATATTGGGCTCTTTTATTGTGCACAATAATATTCTATGGCCCAGGTAGATATTCTTTGGATTGCCTTATATCCTGTAAGACAAAGAAGTAGTTTTTGTTGACTAACATTTTTAATCTTTATGTGTTATGTTTCTATATAGCTCCATGAAAAACAATTTTAGTTTATAGTAATTGTACTTTAAAGCGCTCCAAATGTTCTTTTCGAAAGTACTACGTAAATATTGCTAGCTTCTTTTTCAATTAAGTCCTGTAGTTGTTTTTTACGCTTATCGTAGTCGTTTATATTTATCCTATGCTAATTCTTGTAAGCGAATATATTTATTAGTAATTCAACATATATATTATATACAATGTCAATGAGATGTTAAGTTATTATGTTCGCAATTTTTTAGTTCTAAGCGTACATAGGATTAATATAGATTCTGTTATTTCAAGCCGGTTCAATAATTTAATATACTAACCAAAGTTGCTTGCGTAGCTTTTTTTGGGGATTTTGGCTTTTTTGGGTTTTATAACTTCGTATTGATATGATTTTTTTTCGGCGAAAGCTATTGCTTCTTCGAGTGTATCGAAAGATATTTTAACTTCGCTCGACATATCAGATGACGAAATTCTTCCCATTACAGATTCTTTAAAGCGTCTTTCAGGCTTTTTTACAAATTCTAGTTGCCAACGAATATCACCATCGGCGGATTGCATCGCAGATTTTGCTGGCTTTGAAATTCTAACTTGCATATCAAAAACAAATATTGTTTAATTGGCTTAAAAAATATTCTACCCTATGACTAAGCCGAAATCCATTGAAAAGATAAGTTTTGAAGATGCTCTTGCAGAACTTGAAGAGATAGTAAGAAAAATTGATACAGGTCAGGAAAATTTGGCTGATGCGGTTGATAGTTTTGAGCGTGGTGTACTACTGAAAAAGCACTGCGAAAAGATGCTAAAAGACGCAAAGTTAAAAATTGAAAAAATTACAAGCTCAAGTGAAGGTAAAATAAACACTACTGAGGTTGATCTTTAGTGCCTTTTACAAATCTGTTGAAAATCAAACTATTTATTTTGATATCAATTTCTTTTGTAGTCATATGTATTGCAAACATTCTCGGCGGATATCTTCTTTTGCCTGGTAATCTAGATGAAGAAAAAATAGTAATAATCAAGCCAAGGCTATCCATACACAAAATCAGTGTTCTTCTTGAAAAAGAGAATGTAATCAAGAATGCTAAGCTTTTTGAAGCGATTAGTCGAATATATTCCCATTTTGAACCATTAAAGAGCGGAGAGTATAAATTTACAAAAAATATTACTCCATACCAAGTTCTGCGTGTATTGGTGAATGGCAAGTCTATTGTTCATAGAATGTTTATTCCTGAAGGGTATACGGTAAGTCAGATAATTGACATTGTAAATTCTGAAGAGAGGCTAACTGGAAAGATAACTGGTAGTATCCCAGAAGGGTATTTAATGCCTTCAACCTATTTCTACACATATGAAGATCAACGAGAGAAGTTAATTGACGAGATGCGAAAAGGGATGTCTAGCGCTCTAGATGAGGTAATGCTGAAATTGTCAAAGGATTCACCACTAAAAACACGAAAAGATGTTTTGATCCTTGCATCAATAGTTGAGAAAGAGGCTGGAAATGATGCAGAGCGACCTAAAATAGCGGGTGTTTTTATTAACCGTTTAAGAAAAGGTATGAAATTGCAAGCTGATCCTACGACAGTTTACGCAATAACTGAAGGTAAGGAACCTCTTGGCCGAAGCTTAAAAAGAAATGATATGAGAATTAAGTCTCCATACAATACATATCACGTTTATGGACTGCCAGTTGGTGCTATTAGTTGCCCTGGTCGTGCATCCCTTGAAGCAGTCGTGTCACCAGCAAAAACTGATGCTTTATATTTTGTAGTAAATGGTAAGGGAGGGCATAGTTTTTCTAAAACTTTAAAAGAGCATAATCGCCATGTACAAAAATTTAAAGCAAGATTAAGAAAGCAAAGATTATCCAAGAAGAAAAAGAATTAGCTTTCTACTTAAGTATAGTCACTTTTTCTGATAATAACTTTGAATTTGGTATCAAGTGTTTTCCAGAATCGTCCTCAATAGTCGTGTATCGCATATCTATATCAATGACTGTGCCTTCAACGCCCATAACGGAGATTTTTGCCTTCATTTTAAATGGTTGATAGAAAAGAATTAATATTCCTGCAACGCTGCTCGCAAGAACATCTTTTAGAGCAAAACCCATAGCAAAGCCAGTTAATCCAAGTCCGGCAATGATTGAGCTTACATCAATTCCCCAAACGCCAAGAAGAGTAATTATTGCAATAATCCATATAATAGTGCTTATAGTTTTAGCTATAAACAAAGCTACATGATTTTTAAGTTTTATAGATTTTTTATCAAAGATCTTAGTAATGATTGCTTTTGTAGTTACCCATAATACTAAAAATCCAGCGATAATTATAAGGCTTAAGATAAACAGAGGTGCAAAGTTAATTATTGAATCGAAAAGAGATATAGTTTTGTCCATTAGAATTACCGCTTTTAAGTAACAATATCTAGGATAATAGCCAACTGGAAGAATGTAAAATTATTTATAAATTCCTGGTAATTTTTGTTTTAGTCTATTATTTGCTAAGTTACTCTGATGCTACGGATTTAGCGCAAGATAAAATCAATTTTATTGCCAATCATGATGTCAATGCTTTCTGTCGATGGAGGAGCTGGTACAAACTCGGTTTTTACTTGAATAAATTGGCTGGGAGACATATCAATATTAGTATGATCGTCAATCAATGATTTTAGAATTCTATCGCTCTTATCGAAGAGCCTAATTCTTACCAAAGGCATTTTAAGAGTTTTTAGAGAATTATTCAGTACCTTATAGCTCACCGTAATCTTATCTATTTCTTTATGATTTTCTATTCTGATATCTTTAATACTCAATTGGTTGCTATTGAGTAATGAGTCGAAACCAAGGTTATTTGGGAACAGCATTACCATCATAAATATAATCATACCAATCATCAGAACTGGAAGTGCATACAGGTATGGCTGAATTTTTACAGGGAGTAATGCGGGAAGGTTTACACCGTTTCCAAGAGGTGTTACTTCTGAAGGAGCTGGTGCCAATATTGTGGGTTCTATACGAACGGGATTATCAAGTTTTTGATGCCAAATATGAGAGCATTTAGAACATTTTACTTTTCTACCGTGCTTTCCAATTTGCTCTGGTGTTACCACAAATTTTGTGTCACATTCTGGGCAAGCAATATACATCTTCTTGATATCCTAAAAATTTTAGTTGTTAAATACAAAAAACTATTTACGTCGCTTAAAAATATAGCTATTTATTGCTATATTCAACAATTTTTATCAATAGTTCTAGCTATAAGAGTCAAACATGCAAAATCATATTACAGCAATTGAAGAAATTTGGCAAATACGCGATTCAATAAATGAAGATTCTCCAAACTTTATAAGTTCAAAAAAAATAATTGATGAGGTTATTTCTGAACTAGAAGATGGAAAAATATCTGTATGTGAGAAAATTCAAGATGAATGGAAAGTAAATGAGTGGATAAAAAAGGCTATTTTGCTTAATTTCCGTACTTCCGAGATGAAAATCTATGATGGGTCAAGTATGCGCTGGTATGATAAGATAGATCCCAAATATTCTGAAAATGATGATAAGAAATTAAAAGAATCTGGAGTGAGAATGGTTCCGGGCGCTTTTGTCAGAAAAGGCTCATATATTGCCAATAATGTTGTAGTCATGCCGTCTTTTATTAATATTGGTGCATATGTTGGTAGTGGCACTTTAGTTGATACTTGGGCAACGATTGGCTCATGTGCTTATGTTGGTAAGAATTGTCATATTTCTGGTGGTGCAGGTATAGGAGGCGTGCTTGAGCCTCTGCAAGCAAAGCCGGTAATTATTGAAGATAATTGCTTCATTGGAGCGCGATCAGAAATTGTTGAAGGTGTTTTAGTCGAAGAAGGAGTAGTTATCAGTATGGGAGTATTTATTGGATCTTCTACGAAGATTGTTGATCGTTATACTGGTGAGATATCTTACGGTAAAATACCAGCATATTCTGTAGTTGTGCCGGGTGTATTGCCTGCAGATAAGCCAGGTCTTCCAGGTCTTTCATGTGCAGTTATAATCAAAAAAGTCGACCAAAAAACGAGAGCAAAAACTAGCATCAATGAGTTGCTGCGAGATTAAAAAGTTATATTTCTAAAGTGATAACAATTTGATAGACAAGAATCTATCACAACTCAATGATTTTTTATTTTTTACACCATAGAATCAGTAGTAAAATCTGTGTATTCTTCAAGTACATAATTGATGCCAATTGCTTCAATGGCCTGCTCTGTATCTGTATAATCATATAAAAATCAAAGAATCATGAATATCGCATACATATTCAGGTGGTTCATCAGACCTACTCGAGCTAAGAAAAGTATATTCAGCTATCCCTACAAAAGTTAAGCCAGCATTTTTGAATACATCAAAACCCCATAATGCATTCATCATAGTTCCAGTTGCAATACTGACCAATGATGCTCCAGCTACCAAAAAGAATGTAGATCCAATTACATACTTTACCGATTCTGGATTTAACGATTCAGGGTCGTAATAGTTTTCCGGATTAATATCAAAGCTAATACCGTTATAATGAACTCTTCTCATGTACACTTAAATTTTTAGTTTATTATCTTAATATTAAACATCTAAATTTGATACATTCAGAGCGTTAGCATTGATGAAATCACGTCTAGGTTCGACTACCCCACCCATTAGGGTCGAGATGATTTCTTCGGCGTCATCAATGTCACTAACTTTTACTTGCAGTAATGTACGCTTACTATGGTCTAGTGTAGTTTCCCATAGTTGCTCAGAATTCATTTCACCAAGTCCCTTAAATCTTTGGACAGTCAAACCTTTTTTACCATTCTCTATGATAAGATTTAGTAAAATTGTTGGACGATCAACTTCATGAGACTGGGTTTTGATATTTAAAATACATTTGCCGATGAAACAGCTCTCTAATTGCTGTCCAATTTTGTTCAGCGCAATAAATTCTGGAGATTCTACCTGCTCAAGATATAGTGTTTTAGTAATTTTCACACCTCGAACATATCTAAAGAACTCAATGGAGTCTTCGCCTATATTAATTTCCCAATCAGTCTTATCAGGCTCAGCATCACCAAGATTTAGCGGTGATAGCGCTGCTAAAATCTCAGCTTCTTTGTTTTTGTTTAAAACATCTGTATGTAGTAGATTATTAATTGCTAAACATTCAGCAATTTCAGCATCAAATCTTTTTGCAACTGATTCAAGGGTTTCTGAGAATTTTCTTACTTGATCAAGCAATTCTTGAAGCTTTAATTCAGATATTTCTTCTCCGCTGCTAAGTTTGATAGAGCTGTCGCTTAAAGCTCCTTTGATTAGGTGTTCTTGCAGAGCTTGCTCGTTTTTTAGATAAATCTCAGAATTACCACGCTTGACTTTGTAAAGAGGTGGCTGAGCAATGTAAAGATAACCTTTTTCAATAAGAGGCTGCATGTGGCGATAGAAGAATGTCAAAAGTAGTGTACGTATATGAGATCCATCAACATCAGCATCCGTCATAATTACGATTTTATGATACCTGACTTTATCTACGTCAAAATCTTGTCCGATTCCAGAACCAAGTGCTGTTATTAATGTGCCAACTTGTTCAGAGCCGAGCATTTTATCAAAACGTGCGCGCTCTACATTAAGAATTTTCCCGCGCAAAGGTAGAATTGCTTGAGTCTTACGATCTCGTCCCTGTTTTGCTGTTCCACCCGCGGAGTCTCCCTCAACTATGAATAATTCAGATAGTGCTGGGTCTTTTTCTTGGCAGTCTGCAAGTTTTCCCGGAAGATTCGATATTTCTAGTGCTGATTTACGTCTAGTAAGTTCCCTTGCTTTTCTTGCTGCCTCACGTGCACTTGCTGCTTCAACAATTTTGCTAATAATTGTTTTAGCTTCATTAGGGTGTTCTTCAAACCACTCGAGTAATTTCCCGTAAACCGCTGATTCAACAACTGGTCTTACTTCCGATGATACTAACTTGTCTTTTGTTTGTGACGAAAATTTTGGATCTGGTACTTTTGCAGATAGAACACATGCTAGACCTTCTCTTGCATCATCACCAGAGATCGCTACTTTCATTTTTTTGGCCAAACCACTTTTATCTGTGTATGAGTTAATAACTCTTGTTAGTGCGGATTTAAAAGCCGAAAGATGGGTTCCACCATCTCTCTGTCTTATGTTATTTGTAAAACATAGAATATTTTCGTGATATGAGTCGTTCCACTGCATTGCAAAATCAACTCCTATTCCTTTGGAATCATCTTGAGCAGATAGAGAAATACAAGGATGTAAAGCTACTTTACTTCTGTTATTATACTCAACATATGCTTGCACACCGCCTTCATATAAAAATTCAGCTTCTTGCTTTTCATCTCCTCTATCATCTACTAGGAGAATGTGTACACCTGAATTTAGGAATGCTAGCTCACGTAATCTATGCTCTAGTGTTGAAAAGTTAAATTCGATTGTTTTAAAAATAGACAGAGATGGCATGAAAGTAATTTCAGAACCTTTTTTATCTGTGTTCTCGCTTTCAACACGCAAAGGAAATTCCGAATCACCATCTTTAAATTTAATAAAATGTTCTTTTTTATCACGCCAAATTCGAAGCTCTAGCCAATCGGAAAGTGCATTTACAACAGATACCCCAACACCGTGAAGACCACCAGATATCTTATATGAATTTTGGTCAAACTTACCACCCGCGTGCAATTGTGTCATAATTACTTCAGCAGCAGATATCCCTTCACCTTCATGAATATCGACAGGGATTCCGCGACCGTTATCCTTAACAGATACTGATCCATTCTTATGTATAGTGACTGTTACAAGGTCACAATGTCCAGCTAAAGCTTCATCAATAGCATTGTCTACGACTTCGTAAACCATGTGGTGCAAGCCTGATCCATCGTCAGTATCACCAATATACATACCGGGTCTTTTACGTACCGCTTCAAGTCCTTTTAAAACCTTAATTGAATCAGCTGCATATTCTTCAGCTTTCACTTCTTCTTCTATGTTTGACATGTGCACCTTTAACGTGATAAAAAATAATGGATCTATCATACAATATAACTGTGCTTTTTGAAAGCAAAACTTAACTAAAACCAGGAGAGAAAATGTCCCAACTTACCTATAAACACCTTACGGATGCGATTCATGAGTATGATGTGATTTTGTTTGATCTTTGGGGTGTGATTATTGAGGGTGGAGACACTTATCCCGGTGTTGTTGATGCTGTTAATGAAATTATGGAGAAAAAGAACGTAGTTTTTCTTTCTAATGCTCCACGTCCTGATTTTATAGTTGCAAGGAATCTAAATAATTGGGGCTTGCGTAATGTTGATCCCGAGAATGTTCTAACGTCTGGAGATATTGCAAGACGAATGGTTGAAGAGAGAAAACTTTCAGTCGGTAAAAAATCACCCCTTGTCTACCATTTAGGAGCTGATAGGAATGATGACATATTAATCGAAATAGAACATGAATTGACGGACGATATAGATAAAGCTGATATATTGCTTATGAGTCTTTACCGCGATGATCATGAAGATATAAATGAGTTTGATGACCTTCTTAAAAAAGCTGCGAGGAGGTCAGAAATGCTAACACTTTGCTCAAATCCTGATACAACAATTCCAAAACATGGTGTACTGCGATATTGCGCTGGACATTTCGCAGGAATTATTGAAAAATTTGGTGGTGAGGTAGTCTATACAGGAAAACCTAAAAGTGTAATTTATGATGAAGTGCTAAAAAGAAATAGCACAACTAAAAATGACCGTATTTTAATGGTAGGTGATACTTTTGAAACTGATATACTAGGTGCAAATACTGCGGGTATTCATTCTGCGCTAGTTATGACTGGTAATGCAAATAATTTTCATAAAATGCATAATAAAATAGAGGACAAACTAATAGCGCTTCATGATCGTGCAAAAGAGATGAAAGTTATGCCTACATTTGTTACAAAAATTGTGTAATAAATGAATAATAGAATTGCAGAGCATATTGTTGTTAATAATGAAGAAGAGTCAAAAAAATTAGCTCAAAAGGTTGCCTCTAATATTAAATCTGGAGATGTAATAATTTTTGAAGGTGATTTAGGTTCAGGAAAATCATTTTTTTGCCGAGAAATAATAAAGCACTTATGTGGGAGTAATACAAAAGTTACTAGCCCAACTTTTAATTTGCTTCAGACATACGAATCTAAAAATTTTATAATATATCACTATGATTTATACAGAGTAGAGCATATATCGGAGTTATATGAGTTAGGGTTTGAAGATGCATTATCTGGTAATGTTACTTTAATTGAATGGCCAGATCTTGCTCTATCCTTGCTTCCAGAAAATCTTAGTTTTATCAAAATCAAAATAATTGATAAAACTACAAGACAAATTTTAATTAAATAATATTGACTTTTTATTCTTTTGGTAAGAATTAATTGAAATACATATTAAAACTTACTACCATTAGTTATTAGTTAAAAATTAGTGGGAAGCTTATGTCAAAATCAAATAGTCAAATTGAAAAGGAAAGCAGAGTTAGAATTGCAAAACTTCACAGTGAGGTAAAGGGTGCGTTAAAAGCAAATCCAGAACTATTTGCAATAGATAATATGTTATCCGAAGAATTGGGCGTAGATGGTGAGTATAGGGTTGGTTTGTCAGAGGAGCAATATGATCAACTGCATTCTAAAATTTCTGATCTTTCTCCAGATTCTGCAACGAAAACTGTGGTTAATGAAATAAGTTTTGGTCTTAGAAAGTTCTTAATGACTAATCATATAGAGGAAGCGAATAAAAGACCACTTGCGGTACTTGAAAATGAGATTATTGCACTTGGTCAACAAAAAAATGAATTAGTTCGCAATAATCCTAAAAATACTAAAAAAATTAAAGCAATTGAAAAAGAATTCTTTAGCAAAGCATTGAAATTAAGCTCTTTTCCAGTTGATGAAGATAGATCAGAAAGAAATCATGCTGAATCGAATATAAAACAAAGCCTTAGACATGGTATTAACAAGAAATATGGATTTAATGTTGATACAAGTAAATTTTCTGCTCCAAGCGATGCAATGGTTAGGGGAAATAGATATCCAAATGCATCAAAAATTATTGAAGAATGTATAGCTGCGGAGGCAATTAGAGAAGATAGTTTAGACGCTGATATTGCAAGGCTAACTCATCGATTAGAGAGTGCATTTGAAACAGAGTTAACGGTTCAATCTGCTGTTTCTACTTTGATTGAAGATCAGGGGTTAGATATCACTCCTAAGCAATACAAGGAAATTTCATCAACTTTCCGTCAAAGTATGATGGGTGTTGATCCAAAATATATCAGAGAGCATCAAGGTGCAATTACCTTAGAGATTAAAAATGCTCTACAAAACGAAATGTCAGGTAAGAAAATCAAGCAACAAGATTTTACCGAAATATCTGATAATCTTGCTCAGAAGTATAATTTAGCAAAAGAAGATGACTTAATAAATGATCTGAAGCAATTCAGAGGATACTTTGATATTACTATCAGCCAAATGAAGGAAAAGGCTCAAAGAAAAGGGCTTGATGTTGATTTTACTCAATATGAGGAGCTTCAGGAGCAGTGGCATAATTTGTGTGATGATGCACTTGCTAGTTTTGATAAAACTTCAGGGGCAAAAATGACTCAGCAAAATATTAACGATATAGTTAATGCTATGGGTCAAATGAATAGAGGAGTTAACCGTGAGCATATAAATTCTTATCTAAAAAAACCAGAATATTATCGTGAAAGATGGCAAAAATTAATACCGGAAAAGGGTAAAAATCTAGTTGATGTAACAGCGAATGTAGCTTTTGAGCAGGATCTTGCATTGCAGCGCATGTCTGCTGAGGAAATAGGCGAGTATACTAGAGTTACCAGGCTCCGCCATTTGATAGGTTCAATGGTAAAAGAGTATCCTGATTTGCAAAAGATAGAAGATAAATTATCAAAAGGGCATAACGCAAAGAGAGGTAAGTATGATATTGGTCTGAGTGTAGATCAATATATGGAGCTTTATGAATCATGTCAGAAGATTAAAGATGGCAGAGTGAATGCTGCAGAAGAAGTCGCTTCAATGAGGAAATCTATAAATAAAACATTGCCTCTTAGTCGCAGAATAAAAAGTGCGTTTTCACGTAAATCTAAAAAAGGCAGAATGGATCCTGATTCTGATATAAGCCCTGAAAGCCTATCTAATGAAGATATGGAGCAAATCTCGGAAGTTCTTGAAGAAGTAACTTCACAAAATAGATCAACTCATCAGAAAATGATGTCAGAGATTGAACGTGCTAGAGGTGTTCCATCGCGTGCTAAAGATAATTCAGCAGTTAGACGTGAAGTTGAAAAGATTGTAAAAAATAGCGATTCTCCTAGTTCTAATCCTATAGTGCAAGAAATAGAAGCACGAAAACAAGAAAAAGCAACGGGTATTAAAAGAATAGAAGCACCTAAAACAGTTGTTGAGCAATCACCGGTGCAAAAACAATTGGTTGTTGTATTGCATGATAATTTAGAAGAGGAACAAGAAGTAAGAACTACTCTAGATGTGGTTCAGCAAATTTCTACAAGGGATGACACTTCTCATAAGAAATTAATGTCTGAAATTAGAGAAGCAGCGGGCAAACCAAAGAAGAAGCCTGAAGTTAAGCCTAAGATAAAAACTCATACTGAACCGGAAGCACGCGATAATGTGATTTTTGGTGATGGAAGTGGATCTGCAAAGCGCAATTCTTCTACTCATAGTACAAATGTCCATGGCCCTAAAGTTAATGTTAAAGTTAGTGATACTGTTGATCCAATTACTCAGGCAATTAGAGATGAAATAATCACACGTCAGCAATTATATTTGCAGCAAGAATTGGCAAAAGAAATGCATGGCCCAGAAAGGGAGAATTTCTTAGATCAAGATCTTTCAAAATTTAGAAGTTTTATTGCTACGGAAGAGGGAAAAGAATTAGTTGAATCAGCTACATCTAAGCCCCAAGTACAAGTACAATTGCATACTATGGAGAAAGCTGGATATAAGGCAGTTCATAGTCAATTTAGTGATAGATTTCACGATGTTGATTGGCAAGCAAAGGCCGGAAAAGTTAGAGCAACTGAAGTTAAAAATGGAGATGGTGAGCATGTTTGTACCTTATCTGAAACTACTTTCGATTCGCAACCACAGAATGTTGTTTTAAGTGATGGTACAGGACGAGTTATTAGAAGTTATAGGCAGATAGATTTTCCGAAAGAGCTTGAGACTGGAAACGGTCCAGTGCATTTTTCAATGGCAGTTAAAGATGAAAATGGAAAAAATATATCAGAAAAAGAAGCGGTTTATTTTACAGCGCATTATGATGAGTCGGGTAAATTAGAAGAAGTTAGTTCTCCAGTGCCGGTAAAGTTTATGGGCAAAGACGACAATGCAATTGGTTATATTGAAAGAAATGGAAAAGTTTATACTCTTCCTGTGACTCAAGGTAAGTATAAAGAAATGATGAAGGAAGTTGCTAAGAATAATGGTATGAATGTTGATGTTTCGAAGTCTATTGAAAAAGAAGAGTTGGCTTCGGATATGGTTATTACAAATTCACGAGATGTACCAGAAAAACTAGCACAAAAAGTTAAAAAAATAGGTGGTGGTTTAGAGGCAACTAAAACAAAAACAACCGGTCATGTTTCAACTCCGCTTGTAAAAACTAAAAGTGATATAGGTAAGAGTAATACAAGATAAGCTAATTTAAATTATAATGTTTGGACTAAAACACAAAAACTAACTTTTTAATAAACGTTGACGGTTAATGTAGCTCTGGATAAGTATTTAGTTGAAAATTTTTATAAAACTGCGTTACCATTAATTTTATAAGTTCTTATTTTAGGGTATTTTTGATATGAGCAAAGGCAAAAAAGACAACAAAGGAGAGAGAAACCCTCTTGAAGGGGTAACATTTGATCAACTTTCTGACAAAGAAAAGCAGCTGGCTAGATTGATATTACAAAGTATGGAAACTGAAGTTGAGCAAGATGCAGAACTATCTTTACCAGATGCAATTTTAAAATATGCTGAAGAAAACCCTGATCTAAATTTTTCAGAAAAAGAAAGGCAACTGATTGATAAACTAAAGTCAGAGAAGTCTGGAGGACAAGTAGACGCTGAGAGTCAAAAGCCAACACTTGCAGAACAATTGCGAGAAGGCAAGAAAAACCTAAAACATGTTGAACAAACCGAGAGACCAAAGGCATCTGGTCCTTCATTTAGTGAGTTAATTGCAGATAAAGCTGCTGAAATGCGGGAAAAAAGAAATGCAAATCAAAAGAAATCTAGCACTGTAAAAGACGATTTTCTCCAAGTAACAGAAAATGAGAGCGGAGTTTCTAATAGTAGCCTTGAAGTATCCGCAAATAAACCTAAAAGTAATGAAAAAAAGGAAGTACAGAAGGATACTCCTGAAAATAGATTAGCTGCGGTTTTAGGAAAATATGGTGTTACACTTTCTGTTGAAGATAAGGCAATAGTAACAGAGATGATTCATGCAGTTGGTGTAATGGATGGTAGGTCTGACAGAGTAATGGGAAAAGTAGGTACAAAACTAGTTGGAGTTAGTAGGCTTATAAAAAACTATCCTGGATTAAAATCTAATGCAGATGAATTCTGTCAAGTTTTTGAAAGTGCAGCTAAAAATCCTAAAACTGTAAAATTCATGCAGGATAATTACTTAAATGAAGTTAGGGAAGAGCATGATGCAAGTACTTCAAAGCCTAAGTTAAAAACAACTAATAAAAGTTCTACACTTGCAATTACGGATGGCTTGGAAACTCAACAGGTCAATCAAGAGCAGGCGGTGGATAGTGTAATATTCTCTCCTAGTAGTAAAAGTAAGGGTGGTGCTAAAAATATTACTACTAGTGATGCTATTGACCCAATTACGCAAGCGATTCGCGATGAAATACTCAAAAAACAACAAGAATTGCTCAAAGAAAAAATTGCTGAGACCTTGGAAGGTCAAGAGAAAGAAGATTTCTTAAAGCAAGACTTAACAGCAATTCGTTCTTATTTGCAAACGGAGGAAGGTAAGCAGGCAGTTGATAATGCAATGAAGAGTCCTGAGCTTCGCAAACAAATGCATGCAATTGAGAGAGAGGGGTACAAAACTGTACACACACAATTCCAGGACAGTTTTCGTGATGTTGATTGGGGAAGAATAAATGAAGATAAAGTTCGTGTAACAGATGTTAAAGATGCAGATGGAAATCCAGTTTGTACACTTAAAGAGACTACTGTTGATACTAAACCTCAATCAGTTACCCTTGCTGATGGGACTACACAAACAATAAATAAATATAGAAAGATTGATTTTCCAAGAGAGCTTGAGACTGGAAATGGACCAATGCACGTATCCATGGCAGTCAGGGATGCAAATGGAAAACCTATTTCTAAAAAGGAAGCGGTATATTTTACCGCCCACTACGATGATAATGGAAAATTAACAGAAGTAAGCTCCCCAACTCCTGTTCATTTTGCAGGTGATGGTCCAGATGCAATCGGTTACATTGAAGTAGACGGAAAAGTATTTACCTTGCCAGTTACTAGGGAAAAATATCAAGAAATGATGCAAGAGGTTGCAAAGAATAATGGGCTTGAGACGCAAATAAATCAGTCGGTAGTACAAGATAAAAGTAAGCAGAATACATTAGCGTTAGAGAATAGCCCACCGAAAAAGACATTAGCAATAGAGGACTCTCCTAGTAAAAAGACGAAAACGCAGACATTAGCAATAGAGGATGCTCCTAATAAAAAGCCAAAAGTTGTTGAGCAAGAATCTGTGCAAGAGCAAACAGAAGCTCAGAAGCTGGCTGATAAGATGAGAGAGAGCCGTAAGGCAAGAGATAATGAGTCGGCTGAGCCTGAATCAAGAGGTGGAGGCAAGCCGGTTAATGTTAATACTAAAAAGCCAAAAGTTGTTGAGCAAGAATCTGTGCAAGAGCAAACAGAAGCTCAGAAGCTAGCTGATAAGATGAGAGAGAGCCG
>sequence17
ATTGCTTTTGGCTTTAGGCGCTTTACAATATCTTTATTAATTTTACCACTTGCTATACTTGTTATCAGCTTTTCATAAGTTGGCAAAATTTTCTTTATACTATATTTCTGAATTATAGTTTTGCGGCCATTTTTACTAATTTTCTTACGCAAAGACTCATCATCGAGCAGCTTTGATACTTTTTGCGCAATATCTTCTGGCCTAAAAAAATCAGCAAATAGCGCATTCTCATTATCTTTTATTACTTCAAATAGTGGCGATGTTTTTGATGCAACTAAAGGACAACCGATAGACATTGCTTCTAAAACTGACCAAGATAAAACAAACGGAACTGTCATATATATATGAGCCATAGAATGGCTTAATAGGGCTGTATATTTATCAAAAGGTAACTTACCATACCAATGCAGTCTTGATTCATCTAAATTAAGTTCTTCCAGCATCTTTTCCCTATAGGTCTTGTCATTTGCTAGCTTTGCTCCATAGCTTACTCCATCATTACCTATCATCAAAAAATGCGTTTTAGGTCTTTGCTTCATTAATATCTCTATGGACTGCATAACTTGCTCAAAACCGCGATATGGCTCAAAATTCCGGGCAACATAGGTAACTATTTCAGTATTTTTTGGTAATTTACTCCCATCAGGTAATTGAATATCTACTTTAACTTTTACAGGCTTTAAAAGGTCAGTATCAATTCCTTCATGTATTACTGAAAATTTGTGGTGAAATTCATGTGGATGCAAACTTGTTTGCCAATGAGTAGGACTAATAGCCCAATCACAAGCCTCAAGATTCAGTAAATTGGTGGCATTTTTAAATCTTATCCTAGCCACACGATCTGGATTTACAACTGAATTCGGATGAAAATGCACATCTGCTCCAAATGCCTTATAGTAAAACTCCATATAAGCAATAAACGGCACATCAGGGAATATATCTTTTAAAAGTATACCATCTCCCCAACCTGGATGAGCATAGATTACATCTGGAGTAAAGCCCGATTCCTTTAATTTATTACAAATTCTCCACATGCTTTGAGCAGCATAAGCAGATTTTTCAAAACTTTTTAAATATTGATGTGAATTACTATTCTTTGGTGGAGTATTGGGCTTGGATAATATTACCTTGACGCCTTCTGGAGCTTGCTTGTTATAATGAGTTGTAATAAACACAACTTCATATTTACTTTTTTTAGCAAAGTGTCTTACCAAATGCTTAAATTGACCAGGAAAATTTGGATGTGCAAATAGTATTTTCATTTACGCCCTCTTGGTTCATACAGTTTTATATATAAATCAATCTATATGATTATATATCGCAAGTGTATTTTTAAGCATTTTTTCAAGAGAGAAATTTTCTGAAGCGGTTTTTCTTGCATTCATTGTCATGTTCTTTTCTTGCTCAGAGCCAATAAGAGACAAACAATGCTCTATCTTTTGTGCAAGTGCAATACTATCATTAGGTTCCACGTGAAAACCATTTAATCCATCCTGAATAGTCTCACATGCACCACCAATATTGGTAGCTATAACTATTTTTTCCATAGCTTGAGCTTCAATAATTGTTCGGCCAAAAGCTTCTGGCTCTATAGAAGTTGAGAGAACAATATCCGAAATACCATATAAACTTATAATATCTGGTTCATTACCAAATAATTGAATATGACTTTGCAACTTGTATTGATGGATCTTTTCTTTAATACGTGAAACATATGTCGGATGCTTAGCTAAGTCACCAGCCATGATACAATAAAAATTCAAATGCTTTATTTTTTCTAGCGCATCAATTAGCACCATATGCCCTTTCCAGCGCGTCATTCTTGAAGGCAGTAAAAGAACGGGTGTATCGGCTGGAACTCTATATTTTTCTCTATATTGATTTAACTTATCTTCAGATAGTTTCTTTTTAGAAAATTCATTATGATTTACCCCTCTGTGAATCACTGTAATCTTATTTGGATCAACTTTATAATTATCTACAATATGTTTTTTTACAAAATTTGAAACAGCTATTACACTGCGGCCTTCTGTCATCACACTATTATAGAATTTTTTAAGAAAATTTTTGAAATTATAAATGCCGTGAAAAGTAGTTATTAATTTTACGTTTGTAGCTTTAGCTGCCATATAGCAACTCCATGCAGGAGCTCTTGATCTTGCATGCACAATGTCTATATTTCTACTACGAATAATATTAGCTAACTTGCGTGCATTTTTCCAAATCGTTACTGGATTCTTACTGGCTACATTTAGTGTAATATGCTCCGACCCACTATCCTCAAGAGACTCGACCATTGGACCACCCGCCGAAATAACGATTGAGTTATGACCAACCCTTACAATATTTTTTGCTATTTCTAAGGTTCCCCTTTCAACCCCACCGGAAATTAAGGCAGGCACAACTTGCAGAATAGTTTTTTTCTGGTATTTTTTATCTGTAGACATAATCAATCATTCATATGAAGTTTTTAAACCATGGATATTCTATATACCGATAATAAAGAAAAGTTTTTAGCATATAATAAATATAAAACTGCAAAAAAGAAAGCGCCTTTTATCATTTTTCATCATGGATTGATGTCTGATATGAATGGAAGCAAAGCAATGTGGCTTGAAGAACACTGCAAGGTGAATGACTATAATTTTGTAAGATTTGATAATTACGGTCATGGAAAATCTTCTGGGGAATTCTCTAGCCAAACTATAAGCGATTGGCAAGAAGGCTTAAACCTTATTATTAACAAATTAGCCAAACAGCCAATTCTTCTAGTTGGATCTAGTATGGGAGCTTGGATAACGCTCCTAGCATCTATAAAACGCCCAAATGACATTATTGGCATGGTTGGCATATCATCTGCTCCAGATTTTTCTGAAGAACTTATATGGGATAAACTAACTGAGAATCAAAAACAAAAAATGAATACTGACGGTATTTGTGACGTAGGAGGAACAGATCCAAACTGCGGACATGTGTATCCGATTAGTTTTGATTTAATCAAAGATGGACGTAAGAACTTACTACTAAACAAAGATAAAATAAATATAAAGTGCCCAGTACATCTAATTCATGGGCAGCAAGATATTGATGTTCCTTCAAGTATTTCTATGAGAGTATTTTCTAAAATATCTCATGATAATGTTTCCATTAAACTAATAAAAGATGGAAATCACAGCCTTTCTAGAGAAAAAGACCTTAGGATAATCTGCAACTCAATTGACGAAATAATAAACTCATTATAAATCAATATTATTCTTTTAAACGTACAATACCACCTAGCTACCAAATACAACTTTTTCTATATCTTTAGTATTGTGCTTTATCATATCTTTATCTATCTCTTTACTAACTAGCTTGGACGTATTATCAGTTAAATTATTTCGTAAAGCTCCAAGCATTTTAGCGTCAGCTACAATTATAACTTCCTTATAATCACTGTTATATGATAGTTGTTTCTCTATTAACTCAGAAGCTGCTTTTGATGATTCTTGATATTCAATATCCTTTGTCTGAGTATGCGGATCATAAAATACACTTTGTGTAGACTTTTTCTTGTTATAGCCATCATGCTTTCTTTCATTATGATCAGTCTCTGAGTGTATCTTACGGCTCTCTAATTGTCTGACAATCTTCACTCCCTTTGCTTCAAAAAGCTTTAAAACATTTATGTCTGAAACTATAATAAGTTTACTTCCTAAATCACTTCTCATTAAACAATACCCATTTCTTTTATAAAAATTTGTTTTGATTATAATTTAAATATACTAACACCTTACTACAAAACCAAATGGAATTTATTTTCCTTTTTCCAAAAGTGATCTAAACTCTTCGATCACTTGCTGATATAGCTTTAGTTTAAACGGTATAATATCTACAAGAAGCTGGTCAAAATCCACCCACTTCCATTGATCAAATTCTGGATGTTCTGTATTAATATTGATGTCAGAATCCTTACCGGTAAAACGTATTAAAAACCATTTCTGTCTTTGTCCACAATATTTTCCATCCCATAATTTCGGAATTAAAAAATTTGGTACTCGATAGCTATACCATTTCTTACTTTCAGCTATAATCTCACCACTGCCCGAACCTATTTCTTCTTGCATCTCACGAAGAGCTGCACTACTTGGAGTTTCTCCTAAATCAATTCCCCCTTGAGGCATTTGCCAGCCATTCACTTTTGAATCAATTCGTTTTCCAACAAATATCCTATCATTCTTATCAAGAATCATCATACCAACACCTTGACGAAAAGGTAATTCACTAACATCAATTTTTGCTGCTTTTGAACTCATGAATTATACTCCTTTAAGAGTTCCGACACAGGTACAAGTTTTATTCCCTTACCTTTCAATGCCGGCGCCCATTTTCTTATCATTTCAATTGTTAGTGTAAAACCTTGGGCGTATCCAAGAGCTACCCCTTCTTCTTTAGCTACTCTAATTAATTCATTTAGCTGAGCTGAAATTGACTCTTTATCAGGTTCTTCATCAATGATTATATTTGTTGGTAAAATATTATCATGTGACTTTATATGATCAGGAACTGGATAACCAACCCCTTTACCCAATATAAAAATTAAGTTTTTATCATCAAGATGATCGAAAACCATTTCTGATGCACGCACGTTATCAGTAAAAACTTCTTTATAACTAGAATAAACGCCATCATATCTAGCATGAGAATTTAATATAACATTTAAACGCAAAGAATTTTCCTCTTGAGCTAAATTATTCATCAAAGCATATCTTCCAGGATTATCATGAGATTTACTAGTCTGCAGAGGCAAATATAAATATATCTCATGTCCATTTCCTTGTGCTCTATGTAGCAAAGGTTTTAAACTCTTCGTATATGGTAAGAATCCTAAACCACACTGCTTTGGCAATGTTAAAGCAAGCTCAGTTGAACGACGATTTAGACCTAAATTCGTAACAATAATTGATATTTTAGGAGCGCCTGAATATTGCCTCTTCTTTTTAGGTTTTCGTAATTCTGAAGAGTTCTTTGTAGTCAAAAGCTGATTTGTTTTTTCTAATAATTTATTCGTATCCTCAAGTAAATCGCTAGTATCAGAAAAATCAACATCAGGTGGCTCAGAATCAATAGCAGCTAATTCTTGCTCTACTTGGCTTATCTCTTCAGTAGTATCTGCTACAGCCTGTTGCAAACCAATATAATCTGGTTTTATTTGGTTATCGCCTAACGGTAAATTATCCATTGTATAAAATCTATACTGGCCAAGCTGAATTGCTTGATCAATTTGACTCGGGCGAACGGAAGCTACCCAGTATACTATTAGCGAAAACAATACGACACCTAGGACTATATTTAATCCTATTAAATATCTCTTAATTTTAGCTCTAAGTTGCGTATCTTTTATCATGAATTATCTATTTTGAATGATTAATAATCAAACCTCTAATCAAATCATATGCTCTAGCATATTGATAATCATCTTTATACTTTTGAGACATCTTATGCTCCTTAACATCAGATACCTCTTCAGTTTTTTCATCATTATTATATTTTTTCAAATAGCTTTTGATTGATGAACTAGTAAATGACTTTTCGTTATCTTCTTTTTCTGAAAATTCTACCTTTGCATTCTCAATATATATATCTGGTTCAATCCCTTTTGCATTAATTGATCTACCACTAGGTGTATAGTATTTCGCTGTTGTTAGTTTCACCGCTTTACGCTTACCAATTTGAGTAAATACTTGCACTAGCCCTTTACCATAAGACGTAGTACCAACTATAACTGCTCTTCCGTGATCTTGCAGTGCACCAGCAACGATTTCTGCTGCTGAAGCAGTACCTGAATTAATCAAAACAACTAGTGGAACTTTTGGCGCTTTTGCGACAAACCTACCAGCAGAAGTAACCGTATCATCACCGCTGTTTCTTCCTTTAACTGAAACAATCACCCCATGATCTATGAAATATTCACTAACAGCTGTTGCTTCGTCAAATAAACCACCAGGATTGCTTCTCACATCAAGGATAATGCCTTTTAGATTTTTCTTTTTAGCTTTTAATTTTTTCTCAATATCAGCAATAGCTTTTTTCAAATCTGTACTAGTTTGGTGATTAAAGGCTACAATTCTTACATAACCAACCCCACCGAAATCTTCCTCTTCAATCTCATATTTAATTGGTTTTATTTTAACAATTTCACGTTTTAATTCGATTTCTTCGGTTTTATTTTCTTCTTCTTTTACTACGAGAAGATTTAGTTTTGTTCCAGGTTCACCACGCATTTCTTGAACAGCTTTATTAAAACCAAGGTTAGAAACCAACTGGCCATTAACACCAACTATATAGTCGCCAGCTCTAATCCCGGCTTCATACGCCGGAAGATCGTCAATTGGCGTAATTACTTTAATTGCTCCACTATCTGGTATTATCTCGACACCAATACCACCGAACTCTCCATCGGTTTGATTTACAAAAAAATCAAAATCATCATCTGTAAAATAGCCAGAATAAGGATCGAGAGATCTAAGCATCCCGTTTATCGCTTCATTTGTCATCTCTTGACGCTTTGGATCCTGAATATATGTTTTTTCAATTCTTTGGAATACATCTTGAAACTGTCTAAAATAGTAGCTATTTGGGTGTTTATCTTCTTGTTCTTCCTTAGCATACGCAGAATTAACAACACTAAATAGCAATGCAAATTGCACAGCCAAGAATAATTTAAACAGAATATGTTTAGTAATAAAATTATACATATAACTCAATCTCATTTTTGTCTTGAGCAAGTACCCGTTCTTGAATAAACTGAAACCTTTTTTCCGGCTTCTTGCCCATTAAATTATCAACTATTGTATCTATATTTTCAAAGTCAGCCACACTTACTTTATACATCATACGAGTTTTTGGATCCATTGTGGTCTCTTTCAACTGTTTTGGCGTCATTTCTCCAAGACCTTTAAATCTTCCAACTTCAATTTTTTTACGATCTTTTGACAGTTCTTCAAATATTTTATCCTTTTGTTCTTCATCAGCAGCATAATGTGTTTTTGACCCTTGCACTAGTCTATACAGAGGTGGCCTCGCTAAATATAGATGCCCATTCTCTATTAATTTTCTCATACGCAGGTAAAAGAATGTCATCAATAATGATGCGATATGAGCGCCATCAACATCAGCATCTGTCATAATCACTACTTTCTCATAACGTAAGTTTTCTTCACGATAATTACCCAGTGACCCACAATTTAATGCAACTTCTAGATCTTGTATTTCTTGATTTGCGGCAATTTTACCGGAAGCTGCATTAGCCACATTTAAAATTTTACCGCGAAGTGGCAAAATAGCTTGTGTCTGGCGATCTCTTGCCTGCTTTGCAGATCCACCAGCTGAATCACCCTCAACCAAGAATAATTCAGTTCCTTCTGAACTAGTTTTACTACAATCTGCAAGCTTGCCTGGTAATCTTAATTTTTGTATTGCAGTCTTACGATTTACACTTCTCTCATTTTTACGACTTAACCTATATTCTGCATTATTAATAAAATGCTGAATTAAACTATCCGAGGATTTTTTATTACCACTGAGCCAATGATCAAAATGATCCTTAATGCTATTTTCTACGTGTTTTGCAACCCCTCTTGAAACTAGCTTTTCTTTAGTTTGTCCTTGAAACACTGGCTCTTTAATAAAAACAGAAAGCATAACACAAGCTGATTCTAAAATATCATCAGCAGTTACTTGTGATACTTTTTTTAAGCCAGTCATTTCGCCGTAAATCTTAACACCACGCGATAAAGCAGCTCTTGTACCTTGCTCATGTGTTCCGCCTTGAGGAGTTGGAATTGTATTACAGTAAGATTTTACAAAATCAACATTCTCATGCCAACACATGGCCCATTCAATTTTTATATGTTCTGATTTTATTTCGGCACTACCTGAAAAAATCTCTCCACCTATAATCTTATTTTTATCTAGTTTAGAATCCAGATAATCCTTTAAACCATTGGGAAAATGTATTACGTCACTAGTTGGAACATCTTCAGATTTCACAAGATCCGGAGCACAAACCCAATGGATCTCAACTCCTTTATATAAATATGCTTTTGACTTAGCTAAATCATAAATCTTTTTAGGTTTCAACGAAATTGATTTATCAAAGATGCTATAATCAGGGCTAAAGGTAATTTTTGTACCTTTAAGTTTTTTAAGAGCCGAAGCTTTTTCTAACTTTGTCTGAGGTATTCCTTTAGAATATTTTTGGGTATAAGAAGTGCCACTTCTGAAAACCTCAACTGTCAAATTCTCTGACAATGCATTTACAACTGAAATACCAACCCCATGCAAACCACCAGATGTTTGGTATGCTTTATCGGAAAACTTACCTCCTGAATGTAGAGTAGTTAAGATAACTTCTAAAGCTGATTTTTTAGGAAATTTAGGATGGTTATCAACTGGTATACCCCGACCATTATCTCCAATTGAGATAGACCCATCAGCATACATCTCTATGGTTATTTTAGAAGCAAAACCAGCAACCGCTTCATCCATTGAATTATCAAGAACTTCTGAAACAAGATGATGCATCGCCGATTCATCTGTACCCCCAATATACATACCAGGGCGCATGCGAACAGGCTCAAGACCCTCTAGGACCTCGATATCGCTAGCTGTATAAGAATTATCTTTGGCACTAGGTTTTTCCGCAGCACCAAAGCCAAATAAATCTGACACTAATAATGTCTCTATGTATTTAAACTTAAGTTATGAAACTACTCAATTTCAGATTAAAAAGCAAGGATTAGTAGATGTTAGGCTAATAATTAAAAACTGATATAACTCTATCTGTATTAATTAATATTTTTACTTTTTTTTTAAAACTTCTAGGCAATTACTACTTAAACTTCATTTTCTATGCAAATATTTTCGTAAATAATTTCTTACTCTAGATATATAGCGTCACTCCCCCTCTTCTACTACTACGTGCATATCACTTAATCACATAATTATGGTCTTTTACCGAATATCTTAATTTTCCTTAACCAGGCATATTTTGCAACTGAGGACGTATTTGTCACTCCACAAACTGAAATAATAAATTTGGAGAAGGAAAATGAAAAACATTCAATTTATAGAGAAAATAACCTTTGAAGAAGTAAACCTGGTTTTACAATTAAATAAGGTAGCAGATTTTGAAGCAGGAGTATTAAATAGCGACCACGCATATAGAATAACTCCTGGAATGCTAAGTGAAAATCAAAGAACTGTAATAAGAGAAGCAATAGCAATAATGGATTCTGAAGATTTAATGAAAATCAGCCAAAAAGATGGTCTTTACAAGATATTCCGTAGCTATGCAGATACTTCACCAATTGGCTACTTATTGTATAGAGCAAAAGGTACAGAAGGAATATCCTATTCTTTTAGCGATAAACTAAAGATACTTGCAAAAAAGAATATAGAAAATCCTCAAATTAAACTTGAGCCTCTACAAATTTTGCCAACTGATTGGATTAAAATGAGGAATGAAAAATATAATAACGCAGAGACTGACCTAGATAAGGAGTTTGTAGATAGAACAAATTTTGAAAACTTTACAGTAGATAAGCTAACTGCTTTAGAAGAGAAATTATCTAATGCTCTAAAAATCAGCCCAAACAACGATAAACTAAAAGCTCAATCTGCAACTTTGTTAATGCAGAAACTACCAAATCGAGAAAAGCTAGAAAGAGCATTTGAGTTGTTTGACTCGATCAAGAATGAAGAAATTCTTGAGGAATATAGTGAAGTGAAAGAAACTGTAATTGATATGCGGAGACCTCAGCCTACAAAAACTACTATCACAAGAGTGAATTGGGGGGTGTTTAACAGATGTCCATTAACTTGCCGTGGTTGTTATAATATTTTTAATTCAGATGTTATTGATATTAATCAATGCAAGGAAATATTGGATAAAATTGCAGATGCTGGAACAACAGAGCTCATAATATCAGGAGGAGATCCACTACTTTGGCCAGATTTAGTTGAGTTTTGTAAATACGCAAAAGGCAAGGGATTAAAAATTGGTATTGATACAGTAACGTATAATCTGAATCCTCATCTTTTATATAATTTGAAAGATTTAGTTGCTTACATCGGTGTTCCCTTTGATGGAACTGACCAAAAAACGATTGAAACTTTTAGAAGAGGAAAGAAAGATTTGTTAGATAAACTTCTATATAGCTTATCACTGGCCGACGCGTTTAGTGTTCCAATAAGGCTCAATACAACTGTAAGCAAAAGAAATGTTGATGCTCTAGACGGCATTGCACAAATAGTAGAAAAGCATAAATCAGTTCAAACATGGTCTATATATCAATGGTGGCCTTTAAGATCTGGAGATAAGTTAGCCGACCAGATGATTTTAGAAGCATCTAAGTTTGAAAATGCAGTTCATATTATAAAAAACAAATATGAAGATATTAAAATTTATGATCGTGCAATTGAAGATCGTGCTAGAAATGCATTCTTCATATCTAGCAATGGAGAAGTATATACGTTTGGTAAAAGTTCACAAATATCAACTATTATTCTTGGGGATATCAAAACTCAGAGTATAGGAGATATTTTAAAAAACCCAGCATTAAAGAAAACTTCTCAGAAGTTTAAATCTATTGCAAGATTCAATTCTAATGCCTTAGAAGCACCTAAAAAATTGGTTGCTTAATACTAAATTTTCCTGCCAGTTCAAAAAATTATTTACTGGCAGGATTATTTATTTTTTTGCCTTTTCTTTTTTAGCCGCAATAATCTCTGTAGCTTGATCAATCTTTACCGTAAATGGATCAATTGATTTTGGAATTGAAGTAAACTTATTTTGGTGCTTTAAATATGGACCAAACTTACCAATTCCCATAAGTATTTCTTCATTTGTTTCAGGGTGTTTACCAATAGTCAGTGGCAAATCCAGAAGTTTAAGAGCTACGTCTATTGTAAGAGTCTCTGGATTAATTCCTGCTGGAACTGGACTACGCTTAGGCTTTTCCTTCTTTGATTTTGCTTCTCCGACTTGGACATACCAACCATACGGCCCTTTCTTTAAATATACATCTTCTCCATCTGGATTCTGTCCAAGCGATTTTGTATTGTCAGTAAATGATTGTCCAGCATCTGCTAGATCATTATCACTTTTTGAAACCTGCTTCTTAAATGTACAGTCTGGATAGTTACTACATGCTAAAAATGCACCATATTTTCCAAGTTTAAGACTTAATTCACCATCAGAGCAAGATGGACATTTCTTATTCTTTTTATATTCTTCTGAGCCTTCCTCACCATATAAGTGGAACTCAAGAGATTTTTCAACATAATCAATAACATCAGCAATCTTTTGATCACTCACTTTATCCACATTTTGATTAAATCCAGTCCAGAAATTACCAAGCAAATTTTTCCATCCAAGTCCACCTTCTGCTACCTTATCAAGATCATCTTCTAGATCTGCAGTAAAGTCATACTCAACATATTGCTCAAAAAAACCAACAAGAAATGCTGTAACTAAGCGCCCTAAATCGTTAGGGAAAAATCTCTTTTTTTCAACTCTAACATAATTTCTATCTTGAAGAACAGATATAATAGATGCATAAGTTGAAGGACGACCAATACCAAGTTCTTCCAGACGCTTAACCAAACTTGCTTCAGAAAATCTTGGTGGAGGCTCTGTAAAATGCTGCTGAGGATTAATCTTCTTAGTATCAATCTTTTCACCTTCGTAAAGCGGTGGAAGCGTTTTATTCTTCTCCTCTTCACTATCGTCTCTACCTTCTTGGTAAATTTTATAGAAACCATCAAAAGTAATGGTTGATCCAGTTGCTCTAGCTGTAAATGCCTTATCATCTGAAATAAGATCAGCTCCAACCATATCGACAACAACACTCTCCATCTGACAAGCCATGGTACGCTTCCAGATTAAATCATATAGTTTTAATTGATCTTTATCTAAATTCCTCGAACACTTCTCAGGAGTTAGAGTAATATCAGTAGGGCGAATTGCCTCGTGAGCCTCTTGAGCATTTTTCGATTTTGATTTATATGCACGCGGACTCTTTGGTAAATATTTATCTCCATAAAGCCGATTAATTAGCGACCTGATACCAGTAATCGCATCACCTGATAAGGTTACTCCATCAGTTCTCATATATGTAATAAGACCAACTGTTTCACCACCAATATCTACGCCCTCATATAGTTTTTGGGCAATCTGCATAGTTTTTTTAGCACCAAAACCAAGCTTTCTTGAAGCCTCCTGCTGCAGTGAAGAAGTAATAAATGGTGCTGCTGGATTTCTCTTCTGCTGCTTTTTAGTAATTGAATCAATACTGAGTTGCTTTTCTTTGAGCCTGTCAACTATAGCAGAAGCCGCATCCTTATTTGCAATAGAAAATTTCTCAAGCTTCTTACCGTCAATATGAGATAATTTTGCTATAAAAGGCTTTCCTTTACTATTTAGCACATCAAGCATAATATCCCAATATTCTTGGCTTTTGAAACGCTCAATTTCATCCTCACGCTCACAAATCAAACGCAAAGCAACAGATTGAACGCGTCCAGCTGATTTACAACCAGGTAACTTGCGCCATAAAATTGGGGATAGAGTAAAACCAACTAAGTAATCCAAAGCACGCCTTGCCTGCTGTGCATTGACCAAATTACTATCTAAATCTCTAGGCGCAGCTACCGCATCTAAAACAGCTTTTTTAGTAATTTCATTGAATGCAATACGTTTAAATTTTGAATCTTCAGTAATGATCTTTTTATTTTTTAGCACTTCAACAACGTGCCAAGAAATTGCTTCACCTTCACGATCCGGATCCGTTGCTAGATAAACTTCATCGGCTTGTTTTGCAGATTTTAAAATCTCATTCACATATTTACTAGATTTATCAGAAATTTCATATTTCATCGAAAAATCTTTTTCAGGAAGCACCGAACCATTTTTTGATGGCAAATCACGAATATGACCAAAAGATGCAATAACCTTGAAATCACTGCCTAAGTATTTATTAATGGTTTTTGCCTTTGCTGGCGACTCTACAATTACAAGTTTCATATAAATTCTAATATATTAATGATATTTTATTCCCTGGATGCCTAATAATTCTTCCAGCTAGCTCTAATTCTAAGCAGATTGTATAAATCACTGGAAGAGAAAAGTTTGTCTCATCTGCAATCGATTCATACGTAACTGGGGAAGATGAAAGTAAACTGATTATAACATCTCTATCCGTATCTTTAATGTTAACGCTTCCTCCATGAGAAGAAGCTCTGAAATTATTACTACAGTTTTGCGAATCTTCAAAAGATTTTTTTAATTTCTTTATTGAAGTTACATTAGCTGTAATATCTTTGCTTGATTCAAGCAAGTATGCACCGTCTTTAATTAACTTATTACTTCCCATGCATCTAGGATCCATTGGAAAACCTGGAACAGCGAAAACATCTCTGTTTTGCTCAAGCGCAAAATTTGCTGTTATTAATGAACCAGATTTTAATCCCGCTTCAATTACAATTGTAGCAATAGATAAGCCAGAAATAATTCTATTTCTCTGAGGAAAGTGTTGACTAAGTGGTTTTGATCCAACAGGAAGTTCTGCTATTATAAGCCCCTGATCTGCAATCTTTTCGTATAGCTTTTTATTCTCAGGTGGATATATATAATCAACACCCCCAGCTACTACTGCTATGGTCTTACTCGTATCTGCTTCGTGAACTGCTGTATCAATTCCCCTAGCTAGTCCAGAAACTGTAACATATCCTTCTGAAATAAGCTCCTTAGATATTTTTTTTGCAAATGTTCTGCTATTAATAGAGCTGTTTCTTGCTCCAACGATAGCTATAGTTTCATTACTCAACAATTCAATATTGCCTTTGTATGTGATAACAGGCGGAAAATCATGAATTTGCATAAGTAAATCAGAATATTTTATATCCTTGTATGTAAGCAAAAAAGATTTATTCTTTTCCAAAGCTTCAATTTCTTTTTCAGCATCACTAGCAGAATATGGCTTTATTGGCTTAGCTCTACCACCTTTTACTGAAAATTCTTCAATATTCTCAAGCGCAACACCTGCTGATCCAAATAATTTAATAAGATTAGAAAAAGTTTTCGGCCCAACATTTTGGCTACGAATAAGACGCAAGATATCGATTGTTTCTTGCGAATAGGCAGGGGGCTTTTCCCTAGCAAGCAATGTTTTAAGCATCAGTTTTAGCCCCTTACACTATTAAAATTTATAGACTTTCTGCATTTGAAGTTAAATAATCAGAAACACCTTGCTGAGTTGCTTTCATACCTTGATCGCCTTTTTGCCATCCTGCAGGACACACTTCACCAAACTCATTATGGTGATCAAGAGCATCAACCATTCTAAGCGTTTCATCAACATTTCTTCCAAGCGGCAGGTCATTAACTACATAATGTCTTATATTAAAATGCTCATCAATTAAGAAAGTAGCTCTGTATGAAACACTCTCCTCATTAAGAACATTATATGCTGTTGAAATCTCTTTATTTAAATCAGAAACCAATGGAAACTGGATATTACCAATACCACCTTTATTTACAGGCATAGCTTTCCATGCATGATGCGAAAAATGCGAATCAATACTAACACCTATAAGTTTTACTTTTCTTGCCGCAAATTCACCAATTCTATTATTAAATGCAATAATTTCTGATGGACAAACAAACGTAAAATCTAGAGGATAAAAGAATAAAACTCCTTTTTCACCATTTAGATATTTTTTTAGATTAAATTTATCTTCAATAACATTATCAGGCATTACTGTTTTTGCAGTAAAGTCATGTGCCTCTTGACCAATATATGGGTTCATAGAAATACTCTTTTTTAATTTAACAAACTATTTAGGTTTATAGTCAGATCATACAAAGATTATATTTTAAAATCAACAATCTCATTTCTAATTATAGCTAAACTGATAAATCAGCCCCTTCGATAATACCTACTGGTTTACTTGCATAACATTCTAAAATTTGCAACTTTAAATTGCAAGAGACGATTAATATTAAAATTTATAAGTAGCAGAAATAAATTGTGCAACCCGGCCTTCTCTAATTGCTTTTGTATGATATTTCGTTTGAACATATCCGGCATGCGGAATCAAGAAATCGTCTACAGTAATTTTAAATTCCTCATCATTTTCCAAAATTGACTTAGCAGAATCAAAATAATCATCTATATCAGATGCAAATGAAACAAACCCTCCATTTTTTAGTTTCTGCTTGAATAAAGCCAATCTTTCGACATTAAATAATCTTTTTTTGAGATATTTTCTTTTATGCCAGGGATCTGGAAATAAAACATATATCCCATCTAAAGATCTATCAGGCATCTGCTCAAGCATCGCATCTAGATCATCTGGCCATAACATATAATTATCGCCATCATAATCTTGAAGCTTTTTCAAAACATTAGCAACGCCATTTAAATAAACTTCTGCTCCGACATATAGGTGTTCTGGATTAGATTTTAACTGGTTAAGAAAATGTTCGCCCATACCGTAACCAATTTCAAAAAATACTTTCTCGTATTTTGTTCCCTCTAGCTTTTCCGGACTATAAATTACTTTTGGTAAATCATTTTCTAAAACGGATTTATTCAAATCCGACAAAGTTTTACCTATTCTACGAGCAAATGTCCTATTAAATTTATTAAATTTTTTCTTTTCCATTACAAAAACAACTAGTTCAAATACCCTAGCAATATAGCATATATGTTCTTGCAAAAAAGCTAAAATTTTATATACTCATGACCACAAACTTATAGTTCTTATCTTGGTTAAACTAAACATAAATTAACCATAAACTAGATCTAGTAAACCTATATGGGGTCATAGCTCAGTCGGTAGAGCGTTTGAATGGCATTCAAAAGGTCGGCGGTTCGATTCCGCCTGGCTCCACCAGGTTACAAGAATTTACGGAACTTTTACTGATTTGACTTAGAAAAACAAGTATGAACAAATAAAACAGTATTATCAAACCCTAGGATGAAAAATTTAGCAAAAAGCTGTTGGAGAATATTTTTATTTTGTGTAACAATTTTTGGTATTTATTATAGCATCTACTCTCATGCAGACAATATCTATACAGATGAGCTATCTAGACTAGAAAAAAAGATAGATTGGGTAATAGTTCAATTGGATAAAAGTAATAATGATTCAGTTTGGAGCAAACTTCCTTACATACAAAATATCCATATCCCCGTCAAACCAGATTTATTTTCACCATACTCCATTTATCTCTCATTATTTGGACAAGAAGAATTAAGCGGAGAGCATATTTATAGAATTAATGAAATAGTACAGCAAAACAGGGATAAACTTACAGGCTTGACATTTCAAGGACTTATATTAGGCAAACAAGTAAAAGTAACTAATAACTATATAGAAGACGATCATTATAATAAAAAATATCCAGAACCCAATTTTTATCTTGATTTTACAGATTCAAATTTTTCTAATACACGTTTCAAAAAATCTATAGTTAGTCAATTGAATTTTACAAACTCAAACTTCCAAAACTCTGAATATGATGATGTAATTATAGTATCTAGTCGATTTACCAATTCAAATTTTTCTAATACACGTATTAATAAAAGTTATTTCAAAAAGGTTTATTAACAGATACTGAGTTTAATGGTTCTATAATGCTAAACTCAAGCTTTGAGTCTTGTGATTTACATCGTTCAAACTTTGACAAGACATCTATAATCAATTCATCATTCTTAAAAACAAAATTAACAGGAACAGATTTTAGTAAGTCTAATTTTTTCTATAATAATGCAGATATAATTAAGAAGAGCTTTTTTGCTTCACTATATAATTCTAAGCCTATTATTGCTTCCGATGTGTATAATCTGACAATTAAAAATGCAAGCAATTATTGCGCTAAACAGCAAGGCAAATATGATCTTGAAGTTTGCATTGAAGCAATAATGAAAATATCAGAATCTCCTGAAGTAACTAAATTTCCAAATACGTTCGATGTTTCGAAATATAATTTAATTGACGCATCTGATTTTATAAAATTCTTTAAAGAGTAGTACACTGAATTTAAAAAAGGTTTTCATATGATTATTGCTAACACCTAACAAACTCAAATTACTTCTTCAAAAGATGTGAGATTATTTCCTCATCAGAAACAGAATTATTCTTAGTTTCTATAAGATATGTTCTGACCGTCTTTAGAACTGCATCAGTAAATTCAGCGCGCATTTGGTCGCTAGCTCTTTCTTTTTGATTATCAATAGATTTAATTGCTGAATCTTTCTTTCGAGCCAGCATCAACTCCATTTCTTTTGTTCTAGTTTCAACTAGCCTCTGAGTACTAGTGTCCGCACTTTCCAATATGGATTTTTTTCTTTCTTCAAAAACTTGCATTTCTTGCTTTATTTCGTCTAAAAGCAGCTTTGCATCTTTTTTAAGCTCTTCAGTCTCTGCTAATTTTGTTTTAATCTCATCGATTCTTGCATCAAGAGACGCAACTATTGCTTTTTTTACAGGACGATATGCAAGATATATAAAGAAAACAAAACATAAAGCAATTACAAAGCTTTCATCAAAAAAATGTATCATTATGCCCTCGAATGTATTTCCTTAAGCAGCTTTTTATCCGCTGGCTTATCTGTAATTTTCTCAATAATGAACGCCGCCAAACTTACGCACGAATTTGGCTCGTCTGCATGAAACTTATCAACATATTTTTCAATTTCAACCATAGCTGTTTTCTTTTTGTGATCAAGGGTTGAAGATAGCTCTTCTCTTTGCTTACTAAAATGAGATTCAAGCAATTTCATTGCTCTTTGCTGCATTTCTTCAACCCTTGCATTAACCTCTACAAGTTTTTCTTGCTTTTCAATATCAAGCGTTTTTGCTTTCTTTTTATAATCTTCAGCATAGCTTATATTCTCTTCCATAAAGCGATTTCTAGCTGTTAGGATAGATTCTGCTTTTGGGGCAATAAACTTGCTGACAATAAAGTACATTGCAGCAAATACAACCGCTAGCCAAAATAACTGAGAGCTAAATGAAGATACATCAAATTGAGGCATAATATCGTTTCACTATTATTATTTTTAAGTAAAAATTAATAGCATCGCAATAACGAATGAGAAAAGCCCCATCGCCTCTGCAAGACCAGCGCCAATGAATGCCATTCTCTGTAGCTGATCACTAGCTGATGGGTTACGCGCTATTGAATTTAAGAGTGAACCAAATATATTACCCACTCCAATTGCAGCACCAAGCATACCAAATGCCATAAGGCCAGCGCCAATAAATTTTAAAGCCATTCCTTCCATAATTTTTCTCCATAAGAAGTTAACAATATTTCGAGTTTTTACCATCCAAATTCCCCGGTAAAAAACTCAACAAAACCTTCAACCAAAATAGTTTAGTGAAGATTAATCGCATCATTGAGATATACACAAGATAATATCGTAAATATATATGCCTGCAATACCGCAACAAATATTTCAAATCCTATTAAAACAACAATAAATGGTATAGGTAAAATTTTCAAATATATAGCCATTGAAACTACAAAACCCGCCATCACTTTTAATAATACATGACCTGCTACCATATTCGCAGCCAAACGAAGAGACAAGCTAACGGGTCTTGCTAAATATGCAAATAATTCTATCACTACCATCAACGGTGCAAGCCACCAAGGCGTACCTGCTGGCAAAAACAAAGAGAAAAAATGTAATCCATGTAAATATAAACCAAGCAATGTAACCAGAAGAAAAATCATCATTGCCATAGCAAAAGTTACAGAAATATGGCTAGTAACCGTGAATCCGTATGGAATCATCCCAAGCAAATTACACGTTAAAATAAACATAAACAACGTGAAAATGAGTGGAACAAACTTACGACCGCCTGAGCCAACATTTTGCTGCAGCATATTCGAAATCATTCCGTAAATCAGCTCTCCACTGAGCTGTAATCTAGTTGGTATAAGTTTTTTACCTTTAAAAGCAAATGTAAAATATAGAAATATAAAAGCACCCGCAATCATCATGAATAGAGATGAATTAGTTACGCTTATATCGTAGCCAAATAGCTCTATATCAACTATTTCTTTAACTTTAAACTGATCTAATGGACTGTGTGACATTGCTAATTAATATTCTTTTTCCAAATTGACCTAAAAGCTGCAACCATTGCAAGTATTATACAGATTATAAGGAAGATGGGTTTCGAATCAAACAAATTATCAAAAAACATCCCCATTATTAAACCAACGATTGCTCCAGCAACCATTTCAACAGCAATATTAAATGCTTTGTTACTATTATGAACAACTTTATCGGAAGTAGATTTTTTATTCTTAAATTTATCTATTCTCTGTTGAATATTACCAAATTTATCCTTCTTCATTACCCCTAAGTACTGAATTTATAGCACTCGACAATTCCTCAACAGTATATGGTTTTGTGAATTGCTTTCCATTAATGAAAAATGTAGGTGTGCCAATAAAACGTGGTTCTTTTGCTACAAGTTTAGTATTTTCTATCAGGCCTTTGATTTTAGATTCATCATTTAAACACATGGCATATTGCTCAGCTGAAACCCCACCCATTACTCCAATATTAGTCAAAATTTCTCTATAGTTCTTACTGTATGCCCAGTTGTCCTGCTGTTCTAAAATTATATTCATAAATTTAAAGTAAATATCCTGATCATCAGAACATCTGGCTAGGACAGTTGCATCTAAATCCTGCTTATTACCAATAAATTCTCGCATAATGTATTGTATCCTTCCGGTATCAATAAATTTCTTTTTAATTTCTGGAAATATGCGCTTATGATAGTTTACACAATGCGGACATGTCGGCGAAAAATATTCAACTAAAACTAACTTCGAATTATTGTTTCCAAGCACAATATCGTCAGGCTCAGCTGTGAAATCTCTTCCAAAGACTTGCTTTTTTACTGCTGCTTTAGCTTTTTCAGCTTCTTGCTCAGATTTTTTTTCAGCAACACTATCCTTACAATCTTCAAGCTTTTTACTATATTCTTTTATCTGCTCCTTGGCTGGAGAATCATCTATATTCTCTTCTGGTGAGCAAGCATATAGTAAAAAAGTTGCAAATATAAGCAGTAGAAAATTTCTTAACATAACTTAAGCTCAACAAATTATAAATTGTAAAACCATTTTTTATCATAAGAATACTTTCGAAGTATAGATAATTATGATTTATAAGAATTTTATAGCATATTAAATTGCCTTTTTCCAACAATGTTGACAATAGACCTATATCACCATACCATATAGTGAACTTAATAATACTTATTAATCAGTACAGGAGATAATATTATGAAAAAAGTTGTAACTCTAATCGCAGCGCTAACACTACTGGTAGGCTGTTCCGGAAATTATGGTAGTAATCATGATCATAGTCACGATAAGAAGCTACACAATAAAGGTGTAGCAATTGAAAACCACGCACCAAGACATATGAGCGACGTAACTAAAGAAGTTGCAAGACGCGCTTCATCTGCTACTACAAAGGCTCCATAAGAAAACCTTTATTTTATATAAAATTAGGAGGTCAAAATAAACAATGACCTCCTATTTTATATATTTTGAAATAATTCTACATTTACCTTACAAATTACATTTTATATTACCTTTCAATTATTTTAATATTATTCTGCTAATAGACGTTTTTTAATTTCTTTGTAAGACGACTCTTTGCCGGCAAAGTATTTATCCTTAAATAAGATCCTCTTTTTACCCACATATATTTCTCTAACCCCTTTTATCCAAAAAAATTTATTAAACTTTATCCACATACCACTCCTTAACCAAAAGTTGAATTTACCTTTATAGTATAATTAATAAACTTGAGCTTGTTAATATGTATAAAATACTTAGTTTATCTATATGTAGCGTACAAATACTCATTACTGCCCCTTAGCATACTGGCAATTTATAGTTGTATTTTTTAATTTTAATTTATAGACTATGGTAAAAAGGAGTGTAATTTTAAGCGGCATTATGGGGCAAAAAAATCTAATAACTAGCTATAAAAGAATTTCAATATTAGGAATAAGTAACTTCGTGGAATATTTTGACCTTGGAATTTTTGTTTTCATGCTCCCACAATTAACAAATGCTTTTTTCCCAGAAACTAGAAGCTTTGCGCCTTATATACAGGGATTTTTGATGGTTAGTATTACCTATTTGGCAAGACCAATCGGAGCAATAATATTTGGTTATATAGGAGATGTACATGGAAGAAAACTCGCACTTTTATCAAGTATACTCTTACTTAGCACAATAAACTTCATTATTTTCTTTCTACCTACATACAATCAAGTAGGATCGATATCTACTTTGTTACTAATATTGTTCAGAATATTACAAGGAATTTCACTAGGGGGAGAGTCATTTGGTATAATATTACTTGCTAGTGAGACAAATAATTTTTCACAAACCCCTTTATTCCTATCTTTGATTACTTCTCTTGGTCTGCTTGGATGGATCGTCTCTCTATATTGCACAAATTTATTAAGTGATATTAGCATGAATTTACCATACGAATCGTGGAGATATCCGTTTTTAATTGCCGGCACCGCAGGATTATTCTGCTTCTCTCTTAGGCTAAAAGTACTAGATAGTTATGAACTTAACAATAATATTCACTATTCACAGCAAGCAAGGAAAATAACTACTATATTAAGAGCAATATATAATAATCACCTAAAAGACTGCCTAGTATTCATAGGACTAGTAGCAACTTTAGGAACTTATTTTTACTATTTTTGTATTGGAATAAAAATATATCTAGCAAAAATATCATCGACAGATCAGCAAGTTGCATATAGTTTAGCCAATTATGCTCTATTCACATATATGTTTTTTTTACCAATATCAGGATGGATAACTTGTAAAACCAACACAATTAAACTCATTAAATATGTACTCGTATTAGCAATAATTGCTTCCCCAATACTAGTATTTAATATGTTTTCTGCAGTATTCCTATCTTCTGCATGCGCTGCAATAATTTTAGGAATAATCATGGCATTTTATATGTCACCGATGCTAAGTATTGTATCTGGCATTTTTCCAAAAGGCATTGCTTATACTGCTGGTTCTATTTGTTATAATTTAGCGTTTAGTTTCGTAGGAGGAATAGTTCCTTCTACTATGTATTTTTTAGAAACAGAATATCCTGGAATAGCAAGCTCTTCTTATCTATTATGCATCGCCTGCATTATTTCCATTATCTCCATCTTTCAACTAAGCTTTAAAATAAAAAATGGTACTAAGCAAGAGTCAAATTCGTCAGTCTAACCTGATCAAGGATATAATGGATTCTTACTGGAATTACAAAGATTCTTCCGTATTAAGGGAAGGTAATTTTTTTGATCATTTTTCTATTCTTAGCCCCATAAGAAATGAACTTAGTATAAACAATATTGAATTTGTCGATAATATTTGGAGATCTTGGAGAGACGCCTTTCCAGATTTGAATGTGGAATTTAAGGATATTGAATTTTATAATAACGTTATCATAGTAGATTGGACAGGAAAGGGAACTCAGCACGGAGATTTCCAAAACTTAGAACCAACAGGCAGGAGCGTTTTCTATCCTGGAAAAACTATGTGGACATTCAATAATGGAATGATTACACATTATATGTGCCAAATTGATCTAATGAATATTTATAAGCAATTAGGCTATTTCTTAGTTCAAGAAGAATATCCTCAACAAGAAACTATTAGAAAAAACAAAAACATTCTCGTAAGCAGATTAAGCTCCGTAAGACTATATAAAAAATATTATTTAACTCCAAGGGAAGTAGAAGTTCTTAGCCTGTGGTTACTTGGCTTGCAGGCCAAAAAAATCGCAGCATGTTTAGACATATCATATAGAACTGTTCAAACAAATATTGCAAACATCTCGTATAAATGCGATTGCATTTGCAAATCTCAACTACGAGATTATATAATTTCTAAAAACCTACTACACATGTTTATCGATCTATCATCTTTAATATTGGATCAAAAAAACAACTAGTTCTAGATCTTATCTATAGTATCATAAACTATCTAGCTGCCACCAACCCTCTAATTAACCGGAGACACTCGGATAATGTGACCATCAGGATCTTGAACAAGAAATGTACGACCAAAAACTTCTGTAGTTGGAGGCTGTAATATTTTTATCCCATTATCATCTTTCCACTGGTTATAAAGCTGATCTACATCATCATTAGTTGGAAGCATTATACCTACTTCTGAAAATCTAGGTGCATCAATATCAGGAGAAGTAGCTCCGCTCCAAATAGCAAATAACGTTTCAGCTCCAGCTGGAAACGCTACGTATCTAGGGCTTGTAAAAACTGGATCAGTTTTAAAAAGATTCTTATAGAAAGCCGTTGAACGCTCTATGTTAGATACGTAGACAAGCTGTAAATTTGGTTTTGGTGATACAACCATAATTTAAACTCCTTATTTTTAAACTTCTCTCATCTTAATATACTTATCCTAAAAAGTAAGGTGTTTCTTATCTTAATTTTAGATCAGTCAAAGAAATAAGTACTATCTTAATATCTTTTTAAGTTAAATAACCTAGCCAGGTATTAATCTATAAAAAACCCCGTTGACATAGAGCTATACTAATAGCAAACTCATATACTATATGTATAGCATATTAATTAGGTGTAGATTATGTGGATAAGAGAATATAGCAAAATTTTTCCAAACATTAAACTGGAGGATATATGGAAAACCTGGATTGATATTGATAATTGGCCAAAGTGGCATACTGATCCAGACTATTGCAAGCTAGAAGGGGAATTTAAAACAGGCACTCATTTTATTCTAAAACCAAAAGGAGTTAAGGCTGTTAAAGTTACTTTGAAAGAAGTTAATGATGGTCAGAATTTTACAGATTGTACCACCTTTCTCGGCGCCAAAATGTATAATACCAATAGTGTGGAGACGAAAAATAATGGCGTTCTTTTATCAAATAAGGTAGTTGTTACAGGGCCATTAAGGTGGCTTTGGATAAAATTAGTAGCAAAAAATGTAGCAGATACTGTGCCTAATGAAGTGGATAGTTTAGTTCAACTATGTTAAAAAATAAAAATTTATGACTAATCCACCATTTGGTTTTGATGCTCCAGAAGATAGCCCTGGTTTTTTGCTCTGGCAAACAAGCGTCAGTTGGCAAAGGAATATCAAAGAATTTCTTGAATCATACGAAATTTCTCATTCTCAATTTGTAATTATGGCCTTTTTACTTTGGTTTAATGGTAAGCAAACAGATATTACGCAAACTGATATTATTAATATGTCAAAACTAGATAAGATGACTGTATCCAAATCTTTGAAAAAATTATCTGTAAAAGAATTGATTACTCGGGGCATTATTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTATAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTC
>sequence18
ATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACTTCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTCGTTATTTAATAATGCCGAACATAATATCTTAGATATTTTTACAAAATAAAAAAAATCTGATATATCAAAAAATATATAGAGCAAAATGCAAAAGAATTTAATAAAAAATATTTTGAACAGAAATATTGATAAATGTTGGTTTAAAGATATGGGCTATTTGTAAATATTTAGCTGATTATACTCAATCTCTTTTCTAATGAGGCTTAACTGCAATTACACCAACATTTTCACGGCCATCATATTGCCAAGTTTTTGATACATACTGCAAAGGAGTTTCTTTAGCAGAGTGTATTTCAAAGCCTGCTTTCTTAAAAGCCTTCACTAAAACCCTTGAATCTAAAAACATAAAATGACCTTTATGCAAATTTTCCATTTGCTTTTTTGTTGTTACTGAAGGATCAGCATATGGTGCTAAACTCTTTACAAAACCAGGATAATCATCTCCATTATCAAAATTCTTTTCATATTCCGGGATGAAAGAAGCAAATCTTTTAACATATGGAGTGATGGCAATCGTATATACCCTTCCACCAGGCTTTAATATTCTATAACAGTCAGCAAGAGTTTTTTCTATTTCATATGGTGAAAAAAAGTGCAAAACCCTAGATATCAATATTGCATCAAATTCTTCATCGGGCAGATTTATATCATCCGGGTATTCCCCATTAATAAATTTAACAAACGAAGAAAATTGGGAATATTTACTCTTGATTTCTAACGCTAATATTCCAAGATGTCTTTTGTCAACATCAACTGCAGTATAATCCTTATTCCCTGCCTTTAAGGCTCCAATCACTGATACTAGACCATAGGACGAACCCACTTCAAAAGCTTTTCTGTTATTTTTGGACGCATAGCTGATGAACTTCTCTGTAACCCAATCTAGCCTTGGTGACATAGCACCTTTTTTATTCAAAGTTTGAATTCTTCCATCTGAAAGAGGTTTGGGCAGAGATAAGTTATGCTTCTTAGCATATTTAACCATTTGCTCTATAAGAAAAATATCCTGTGCATTTGCACAGTTTGCAAATAAGCTTATAAATACTAATAGTACAACACTTATCCTCATAGATTATTCCTTGATTTTTGTCCAGCTTATATCCTTACCTTCTTTTACTTCAACAGAAGAACCTGGAAATTTATTATCGTGAGGTATAAATCTTCCTCCAGCAAAATTAGCCAAAAACACTTCTGCATTTGCATACATTGATAATCTATTTTCTGGACGAGCAAGCCCATGCCCTTCATCAGGATAAAGCAAATAGACGACAGGTATAGAACTATTTTTCATCGCTTTTACAATTTGGTCTGATTCAGCTTGCTTAACTCTAGGATCGTTTGCTCCTTGAACAATTAATAGTGGCTTCTTTATATTACTAGCATATGTCAGAGGCGATCTTTCCTTAAGCAACTTACGCCCTTCTTCTGTCTCGTAAGACGCACCCATAATTTTAGTCAAATGTGCCATATGAGGTTTCCAGTATTTTGGAATAGAACGAAGCAATGTCTCTAGGTTAGACGGACCAACAATATCTATTCCAGCGACATATAAATCTGGAGTCATAGCTAAACCAACTAAAGTTGCATATCCTCCATAACTTCCTCCCATTATTGCTACTTTATCCTTTATAGCAATTTTATTTTCAACGGCCCAACTTACAGCATCTTCTAGATCGTCCTGCATTTTTCTTGCCCACTGCCCGTCACCTGCATTGATAAACTCTTTACCAAAGCCAGTAGAACCACGATAATTTACACTAATAGTTGCATATCCACGATTTGCAAGCCATTGAGCATCGGGTCTATATCCCCATCTATCTCTAGCATTAGGCCCACCATGAACATTCAGAACCATCGGAATTGGTTTTAAAGGAATACCATTTCCATTATCAAGCCATCTTGGAACTGTTACATAACAAACAAGATCTAAACCATCTCTAGATTTTATTACTACTGGATACATCTTAGCCAGTGGCTCCTTATCTAAAGAAGAATTTGAGACAAACAAAAAATTCGCTTCTTTCTTTGTTCTATCATAAAGATAATATCTATAAGGACCATCGCTCTTTAGATAAACAACCATCCATTTATCATCTTCTGCACTTCTTGAAACAATTTCTACATCTCCATCTTCAAGCTTCATTAAGTAATCTAAATCACTTCGAATAGATTCATCAACTATTGTCCATTCTTTACGCATGTAATTGATTGCAGATGCTTGAACCATCTTAGTCTTTACATCAACAATATAATCGTCAATATCAGCTTTTGGTGACTCGTGTATCACTTTTCTCTTCATAGATTCAAGATCAACTTCAACTAAAGCTGAAGTATTCTTGCCAACACTATCAAGCATGAAGAGTTTTTTATTGTCTTTTGAGATATGTAGTGCAGTTGTATTCAGCATATCTTCAACAGAAATTTTTTCAAAAAGTTTTGGAAACTTGATATCACCATTCTCAAATAGGTAAATCTCCCCTTCACCACTCGGTAGCATCTTATAACCTACTCTAATATTGAAATCATCATCAGCAATAAATGAAGAATAATTTTCTGTGTTTTCGTATATTGTTTCTAGCTTTCCAGTTTCAATATTTACTTTATGAATGTCAAAATATTCTGGAACTCTAGCATTCAAAGAAATCAACATTTCGTTTGGAAACTTATCACTAAGTTTTAAAACAGAAGCCCTAACATCATTAGACGGAGTAAGATCTTTTTCTTGTAAATTACTGATATTCACCGAATATAGTCTCCAGTTCTCATCTCCTTTTTTATCTTGAGCATAAATTATATACTGACTATCTTTTGACCAAAAATAGCTTCTAATCCCACGCTTTTTATCAGATGTTATTAGCTTTGCATTTAATATATCATCAATTGGTGCAATCCAAACATTTAGGACTCCTTCATTAGGAGCTAAATAACTAATATATTTTCCATCATGGCTTATTTTCACTCCTGCTTTCTCAGGATTGCCAAACAATATTTCTCTTTCTATAAGCTTATCTTCCATTAATACCACCTCTTTATTGTTGCCTAATATCATTTGACTATTAAAAATTAAAAAAATTGTTATAAGACTCTTTAAATTCTTCATACTTTATAAATCCATTTAAAAGCTACTAATTGCATTATAAACATAATAAATGTAATCAAACAGAATATAGGAAAAGCATAGTCTGAGGAACTACCAGGAATGCCTCCTAGATTCACACCAAATAAGCCTGTAAGAAAACTTAATGGTAGGAACACTGTTGCAACTACAGACAATTTTAAAGTATTTTTGTTTAGTCTATCGGTTAGATGATTATTCATCTCTTCGTGAACAACCTGAACTCTCTCTTTTGCAGAAACTATATCTTCAATAAACCGTACCATTTTATTATGACTTTCTGATAAATCAGTATTATCAGCTATATTAGAATTAACAAAATTTTTCAACAGTAGCAATCTATCAATTACATCATTATTAGGAGCAAGATATCTTTTTAAAATAATCATTTGTCTTCTAAGATCAATTATTCTTTGCCTAATATCTAGATCAGATTTCTGTAAAATTGCTTCCTCTAGTTTATCAACCTCAATATTTAAATCATTCATTATTGATTCTATTTCTTCACAAATATACTTAAACAATCTTGAAACAAAGCTATAAACATCAATTGGTGCATAGCCAAAATCTATCTCATTTCTAAGCTTAGTTACAGCTTTTAGAGTTCTTAACCTACAACTTATAACTTCATGCTTAGTAATATATAGCCTTATTGATACCATATCTTCAGGTTCATCTTTATTAAAACTATTAATCCCCCTCAAGTTAATTAAAATTGTTTCAGAATCTATTTCAATTATTCTTGGCCTACTTTCCTTTGCAAGTAAAGCATCAACCCAAAGAGGCTTTATATTTTTTTTGTTTATCAGCCAATCTCTTGTCTCTAAAAAATTTGCATCTAAATGCGTCCATCTATAACCTACATTTTTTTGTTGAGAATTATTTTGTTCTAAATTTTCTACGAAACCTTCTCTACTAACTTGATAAGAGGCTATCATCCAATTGCTTTTTTCTTCCATAAAAACTACCTTTCTCTAGTAAAAATCCTCCCTCTTATAAATTGTTGAATTCATCTATTGATTTATCTCCTGCATCAATCGAAACTATTCTTTCATTATAAATTGATGCAACTGTTTTAAATCTTTGATAGATTTTATTATGAAAATCTATCTTTTTTGCCTCAAACTTATTAGCATCCCCACGTTCTGTTGCTCTATTTAAACCTATCTCTGGTCGTACATCCATAAAAAATGTCATATCTGGCATTATTCCTCTAGTAGAAAGTTTATGAACATCCAGTTTTGACTCACTAATTTTATCAAATGCATCAGGTCTATAAGTCATTAATGTTTCGTGCAACTCATATATATCTTCTATATTTAATCCTGACTCATCCGACTGATAACATGCAGTTGAATCTATAAATCTATCACAAATTACCCACTTACCTTCTATAAGCGATGGAATAATAACTTTATTTATATGCTCATAGCGCGCGGCCATAACAAGCATTAATTCAGACATTGGTTTGAGCTCAGAATAAATTATTAAATGTCTGATTTTTTCAGCTTCAACCGTACCGCCTATTTCACGCGTATGAATTGCAGGAATATTTTTTGAAAGTAGGTATTCATGAAGCAATTTGCTTTGCGTTGATTTACCGCAACCTTCACCACCTTCAAAAGTTATAAATTGAGGTTTACTTAAGTTCATCTCCTACTTGCCTTTTATCAATATTTGAGTAATCTTTTGAATTCATTTCATTTAACCTTGAAATAGTACGCTTAAATTCAGCTTTTTTATTTCCAGCAATATATATTTCTTCTGGGCTACTATCAATCTCTATAAACAATAACACACGATTAAAATAGGCATTATCGATAAAATTGATAAATCTTGTTGCAATATTATTTTCACCTTCTGAAATTGCTCTTACCGATGAGAGGATTATAATCTCAAATTTTTTAGATATTGCAACATAATCTCCATATCCCAAATCTCTTTCAAAAAGCTCAGCAAAATCTGTAACTAAAATATTGTTATGAGTTTGTTTAAAAATTAGCTCTCTGCCAAATACTTCGATACTAGATTGTGATAGTTCTTCTTTTTTACAAATTTTTGATTTAATTCTAGAAAGCTCTTTTGAATTAGTCTCATTGATTGGATACAGTATTCTATTTTCTACATCTGCAACAACATCAAATCTATAATCTTTTTCTGTATCTAAATGAAGTATTTCAAAAGTCTTTTTAACCTTTGCAATAAAAGGAAGGAAAGCACTTCTTTGCAAACCATCTTTATATAAATTATCTGGCTGAGTATTTGTTGTTATAAAAATAAAAACGCCATTTTGCTGCAAATATTTAAAAAGACGCATAATAATCATGGCATCTGTTATGTCTTTAATTTCAAATTCATCCATACACAGTACATCACATTGACTTGCAATATCTGAAGCCACTATCTGTACTACCTTGTCAGTTGCTTTATTTTGTAAGTCATGTATTTTTTTATGGATATTTTGCATAAATTGTTGATAGTGAACCATTCTTTTTGGAACATCTACAGCATCATAAAACTTCTTCATAAGCATAGTTTTACCACGCCCTACACTTCCATGAAGATAAATGCCTTGATAAGCATTTTTCTTTGAAAGCCTCTTAAAAAATTTATTAAAAAAACTGCTGGGTTTTATATTTGATGCTATTTTTGAAAATTTTTTAGCAAGATACTCCTGTCTATGATCTAAAATCATTTTATTCATTAATTTTAAACCAATTACCTGATATTAAATTATACATCTCCTTCATAGGAAATAAGCTTAGGTTCTTTTAGTTTCGTAATCTTTTCAATTAACCCCAAATATGCTGCAAGAGCTAGAAATAATGCTGGATATTTGGCTGGCTGGGCAATACCCGCAAGAGTACCGTATATTGCTTCAGCTGATCCTGTTGCACTATCTGCATACATTCTTGCAACTTCAAAACAAGGATTAGCAGAAAAAGCCGCCCTTAGAATTTTTAAAATTGCTACAGTATTATTCACATTTGTTGAAAGCTCCGTAAATAAGTTCAAAGCTTCTATATAAATCGGATTTAGTTCTAGAGCATATTCTAGGAACTTCAATGCTTCATCATCAGAACCACTTTGTAGATATGATTTAGCAGCTGCATAATAGTAACTTGCAATCTCTTCAGCATTTTCTTCAATCATTTTCACGTCAGCTCTTTGCAACTTTGACACAATGAATACTAGTTTTGGCCACTCTCCTAGATTTGCATAAATTCTAATTAAAATTAGCATTAACTCTGTATCCGTATCATCTTCATTAAATGCTCTAACTGCACACTCCTCTGCTTGTTTATGGTGGGTATTTTCATAAAAAATCTCAGCGAGCTTCTTCGATGCATAGACGCTATAGTTCTTTTTATCAATCAAGTTTCTATAATACTGAATCTTTTTATCAAAGCTTGGCTCTGCTTCAGCCAATACTAAATTAATTACTTCTTTATTATCTTCATCAATATCATTAATTATACTATTAGTTTGAGATAAAGATTTTTTTCGATTTCCCATTAGCAATTCAGCTAATACGTATAAAAGTTTTTTATTAATTTTTATCAATTTACGCTTATGCCATTTCTTTTTAATTATTGACGGAATATCAAAAATTAAAAATATAAGCTTCAAAACAATCATTAAAACTAGCTGAGTTGCAATAAAAAATGCACCAAACGTAAATAAAGTTGATTCTATCTCATATCCATAGACTGAAAGTTGTAGATTAGAATCGAATTCTCCTATTGCATTAAAAGCTAAGTATAGAAGAAAAAAAACTGTACATAAGATTAAAAATCTAATCATATTTGTGCTCTTTATTTTATTATTACTTTACCAAACTATCTTGTAACTTTTGCGAATATATATAATTCGTAAACACCTCAAGTCTCTTATCAATATCTGATTTAATTTTTACTAATTTAGCATCTACAGGCTCTATCTTCTTTATTTTCACAAATTTTTCTAATAGCTTCACCTGAATAGAATCTGATTTATTTTCGTCCGCATTATCCAAAGAATCATTCTCTAATAATGTATTATACGACTCTAGTAATTTTATAGTTTCGTTTATGTGAGCTGGATGAATATGCTCTTTAAAAATTTTCAACTCTGGTAGAAAAGACTCTCCAAGCTTATATTTTTCAATCAGTCTATTTGCATTACTTATATACATTCTATAGTCATTAAACTTACTTTTTAGTGCTGAACTATTAAAAGCTTTAGCTTCCTTATCAACAATTTCATGATATGGGTTAATTTCCTCTTCTTCATCCGTCTCAATATCTGCACCGTCTGATTGCTTATTATTATTATCAAGCGATTCTAATTCTTGCTGAATAACATTGTTAACTTCTTTATTTTCTTCAGTATTATCAAAAAGTTGCATAGGAGGTTCAGGACCAACAGAATAGCTATCATCTATAGCTTCTTGTACGAGTTGCTTATCATCTTGAGATGAATTAGTATTTGATGTCTTGTTAGGATAAATATTCTCAATTAAATCTGGTCTTGATTGCATAACCAAATATACTCCAAAAACAAACAGCAATGTAATGAGTAAAAAAGATTTTAAAAATTTCCCATTACCTTTTTCTTCCTTTTGTTTTTCTTCACTTTTATTATTCTTATTAGTCATTCTATATTTTCCAAAAATTCTATTATTTGGTTACTACCAGTACAATTTTTAATATTTTTAAAGTAATCTTCTACTACCCTACCAACCTTAAAGCTTATAGCAACAATTGTTGTATTTTCTAGATATTTCAATAAATCATTTTCTAGTAATAGTTGCAATAGGGTTTTTGCGCAATTCTCGGAATAAAGCAGAATATAGTCGATACCAAACTTTATTCTTTGTATTTCTAGTTGCGATAGAGATTTTTTATAGTCAGCATTATAAAAAATTATGCGCTTTATATTCGTTGGCATGTCTATTGTAATATTATTCCCAGATAAATAAATTGCTTTAATATGATTATTTTTTAGCAATTCCTTTTCCAAGGTAATTGCATCCGGAGCGCAAAATTTAACTTTATAACCTTTATCCTTCAGTATCTTTTCAGAGTTTTCTCCAACCACCCAAACGTATTTAGAGCCATTACTATTAGGCAAATTACTGGCTGCAAAATTGCTAGTAATAACTATATTCGAGTATTTGCTGAATACTTCCTCATCAAGTGGTAGTAATTTATGCTTAATCAAACTACATTCTACTAAATCAAAACCACGTGGTATTAACTTTTCTCTTAAAGTTAAATTTGCCGATTTTGCTCTAGTCAGTAAGATTGATTTGCTCATTTTTTCTTTGCGTAAGGATTATCAGATTTTACAAATTGTATACGAATTGGCACCCCTGGCATATCAAAATCACCCCGGAGTGAATTTATTAAATATTTCTTGTATGCATCTGTTATACTTGAAGGGTCATTAGTAAATAATTTAAATGTTGGAGGTCTTGTTTTTGTTTGTGTTATATATTTAATTCTTACTCTTCGACCTAGTTTTTTTTGAATAGGAAGAGGATGTTTTTCTAGTGCAAATGAAAGCCAGTCATTTAACTTACTTGTAGAAATTTTTTTATTCCACAATTTATATATCTCTATACATTTATCAAGTACAGATAGTGTTTTATTATTATCAAGTGCGGAAAGATATACAACAGGTACATCCTTAACCTGAGGAAGATGGGTACTCAACTTATATTCAAATTCTTCTTCATATTCTCTTCTCTTTCGAACAAGATCCCACTTATTTACAGCTATAACTAAGCTTCTTCCCTGATCAATAACATAATTGGCTATAGTTAAATCCTGCTGCTCAAGAGCAATAGTTGCATCAAGCATTAAAATAACTGTGTTTGCAAATTTAATACTACCTATAGCATCTCCTGTAGACATCTTTTCTAAGCTTTGCTTAACATTAGACCTCTTTCTAAGACCAGCCGTATCAATAAGCTTCATATTATGTTCCTTATACTGCCAGGAAATTTCTACAGACTCTCTTGTGATTCCAGCTTCTGGGCCTGTTAGCATCCTCTCGCTACCAACAATTGAATTAACAAAAGTGGATTTACCAGCATTTGGACGACCAGCTATAACTATTTGGATATTATCACCAGTAAAAGGATCAGAAACTTCATCACCTTCTTCTGTGTCAATTTGCTCAGATATCGCATCGTATAAGTCAGCCATACCTTGACCATGCTCTGCAGAAATTGGCACAGGGGATCCAAAACCTAGCTTATAATATGCTTGATCATGAATAAATTGTTTTTCTGACTTGTTAGCTATAAGTATTTGTTTTTTTGAATATTTTCTAACAAACTCTGCAAAGAATCTATCTGTTGGGGTGATGCCTGATTCATTATCTATTATAAGACAAACAAGATCAGCTTCTGCAATAGATATCATGGTTTGCTGCATCATACGATGCTCAAGCTTACCTTCTTCTGACTCCTCTAAACCGGGCGTGTCAACAACGGTAAACTCCATTGGACCTATCTTAGCATCAGAATATTTACGGTCCCTTGTTACTCCTGGCTTGTCGTGAACTATTGCTTTTTTTCTTGTACTGAGCCTATTAAATAGCGTTGATTTACCAACATTAGGCCTTCCAATCAAAGCTATAATTTTCTTTTTCATTTTATTTAAGATATATTTTATTACCTTGCTATATTTAGCATGATTTGCCTTTGATATAAACAAAAAACTACTAAATATGCATAACTCATATTAGGTATAATAAAAACAAAAGAATATGTTTACGATAATATCTAATATGTGTAATATATATCCGAAGAAAGGTCTATAGCCTCACTCATTATTAATCAAACCTAAACTATACACAAAAAATTATGGCATTAGAAAGTTCAGAGCAAGTTGTAACTACTGCAAGTTCAGCTGTAGATTTATCTATTTTATCATTAGTATCATCTTCTGATTTTGTTGGAAAATCTGTGATATTAATTTTAGTTTTTGCATCTGTTTGGACATGGGCAATAATCATCAGCAAAATGATTCACTACTCTGCTCTAAAAGCAAAAATGAAATCATTTGAAAACTTATTCTGGTCAGGTAAGGTTTTAGATGAACTATATGAAAAAGTTAAAAAGTCAGTAGACAATCCTCTATCAGCAGTCTTTGTTAGTGCTATTAACGAGTGCAAAAAAGGCAAGTCCTCAGAGGTAAAAAAGACGGAAACTCTTAAAATAGGACAAAAAGATCGTATAATGGCTTCTATGAACTTATCTAGAAATAGAGAGATTGAAGAGCTAGATAATAAATTAGGTTTCCTTGCAACTGTTGGATCAGCTGCACCTTTTATAGGATTATTTGGTACAGTATGGGGAATTATGCATAGTTTTCAATCAATTGCAGCATCAAAAAATACTTCTCTAGCAGTAGTAGCACCAGGTATTGCAGAAGCATTGTTAGCAACAGCAATTGGTCTCTTTGCAGCAATACCTGCAACTATTTTCTATAATTATTTAACTTCAGATGTACAGAATATAGAGAATAAAATAGATAATTTCATTGGAGAGTTAAATACACTAATTTCACGAGCAATTGACGAGGAGAAGATGTAAATATGGGAATTTCGTCTCAAGGAAATAGTAACAGAAGAAAAAATAGAAGATTAATGAATGAGATTAATGTCACTCCGATGGTTGATGTTATGCTTGTACTTCTTATAATTTTTATGATCACAGCACCAATGTTAGTTGCTGGAATTGAAGTTGACCTGCCCGAAACTGAATCAGCACCTGTATCTGGTCAGTTTAAGCCTTTGGTAATTAGTATAGACAAAAACAACGATATATATATTGTTGAAACTAAGATTGATCCCAAAGAATTAATCCCCAAGCTTGAAAATATAACTAAAGAAAAAAAGGATACCAGGATTTTTGTAAAAGGAGATAAATCTGTACCATACGGTATAGTTGTCGAAACAATGTCTCGCATACATAGTGCTGGATTTACTAAAGTTGCACTTATTTCAGATATAAAACATAAATGAAGAACAAAGAGAAGAAACAGTTCCAAGGAGCATTGATTCTATCTGCCTTACTACATTTTATTATAGTGGGATTGTTCTATTTTGGCCTGCCCTCTGCATTTGAAAAACTGCCTCAAGAAAAGGATGTACTAACTTTTGAAGTAGTTCAAATAAGTGACCTAGCTAATATCAAAACAGAAAATAAATCTAAACAAAAAGAGAAAGTTGCTAAAAAATCCAAGCAAGTTAAAGCATCAAAACCTAAACCAAAGAAAAAAGCCCCTACTCCTAAAAAACCAGTAAAAAAAGAAAAACCAAAAAAGAAAAAAGAGATCGTACCAGTAAAGAAGAAGGAAAAGCCTAAGAAGCCACCTCCTAAGAAAGAAGAGGTAAAGAAACAAGATGATGATCCAATGGAATCTATTTTAAAAAATTTAGAAAAAGAATCTAAAGGTACAGCAACTAAAACGCCAACTAAAAGCCATGAAGCAAAGGAACAAAGCAATAAAACGGCTAGGGGTGCTGAATATAATGAAGATTCACCTCTATCAATAACTGAGAAATTACTCGTCAAGGGGCAGATTGAAAAAAATTGGAGGCCACCGGTTGGATTAGAACAGCTTGCAGATGTAAGAGTATTACTACATATGACCCTTGAAAAGAATGGCGAGATAAAAGAAGTAATTATTAAAAATGTAATTTGCCCTTTAAACTCAGAAAATACATGTAAATTAACAGCAGAAAGCGCTATTAGAGCTGTAAGACAATCAAGCCCTATTGAAAACTTACCATTAGATCGTTATGATATATGGAAAGAATTTGATCTTATTTTTGATCCAAGCAATATAGCGCAATAAATCTAACTCATAAAACTAGTTCTAATATGCAAAGCAAAAACTTAATTTTATTCTTAATTACTATAGTTTTTTCATTAAACACCCAAGCTAAAAACTCGATAAATATAACAAGTGGAAATTCCGACCCTATACCACTTGCAATCAACGATTTTGCTGGTGTAGATCCTGCTGACTACCAATTAGCGAAGAAAATTGTTGCTGTCATATCAAATGATCTCAGATGGTCTGGGATGTTCAGGCCAATTTCAAAGGCGGCTTTTATCGAAAATAAAACTGGAACTGCTCACACGCCTCTCTTTGCAGCTTGGCAACAGATTAATGCGTCACTTCTTGTTAATGGAGATGTATCAAGATTAGCCTCCGGAAAGCTACAAGTAAAATTCACACTTTGGGATACTATCTTAGAGCGTGCAATTATAAGTGAAGCATTTGAGCTATCTGAAAAACTATGGAGAAGAGTTGCGCATAAAATATCAGATAAAATATATAGTAAAATTACTGGATACCAAGGATATTTTAATACAAGAATCGTTTATGTTTCTGAGTCAGGTCCATATTTAAAAAGAAAGAAACGCCTAGCAATTATGGATCAAGATGGAGAAAACCATCAATATTTGACAAATGGTACAGATCTAGTTCTTACTCCTAGATTTTCGCCAGATGGAAAAAAAATATTATATCTATCCTATAAAAACGGTATACCACAAGTTCATATGCTGAACTTAAAAAACGGAAGAAGTAGGTTAATTGGAGACTTTCCAGGAATGTCCTTTGCCCCACGCTTCTCTCCTGATGGAAAACATGCAATTATGTCTATAGCCAAGGATGGTAATACACATATATATGAAATTAACCTAAAAAATAAAAGGAGAGTTCAACTTACAAAAGGAAATAGTATTAATACCTCTCCTAGCTATTCCCCGGACGGTAAAAAAATAGCATTTAATTCTGATCGTCATGGTAGCCGTCAAATTTTTGTTATGAATAGAGATGGCTCGTCTGCAAAAAGAATTAGCTTTGGTGGTGGGTCATATGCAGAACCAGAATGGTCAAGCAGAAATTATATAGCTTTTACTAAGATAAACAGAGAGCTCGGTTTTACAATTGGTGTACTTCATCCTGGCGCTAACGAAAAACAAAATACAGAAAGATTAATCACTCAAGGATTCCTCGTTGAAAGCCCTTCTTGGGCAACTAATGGAAGAGTTCTTGCATTTACTAAAGGATCTCCACCTTCAAAGAGAAGAACAAATGGTCTAAATAGGATATATACTATAGATTTCACTGGACATAATGAAAGAATTATACCAACTCCTCATGATGCTTCAGACCCAGATTGGTCAGCTCCAATAGATTAATCTATAATTTTAGTAAAATAACTTTGTATTAGCGGATTTATATTTATTTTAATCCATTGTTTTTTCTGCTAGCTTTTAAATTAGCAAAAAAATTCTATTAGGGTTAGAAATATGGGGAAAACGAAGACACAAGAACTGTTATCTGATAAAACTCCAAATACTAAGCATTTATATGAAAACTATGAAGTGCAAGAAGTAATCCAGGCATATACTAAAGATTTAGAATTATCATCATTAAACTCAGATCTTGGAACTGGCACTAGATTAAAAGAGGTTGTTGACGGCAGCCTACTCTTAACGCCCAGAGATATAAATAAAGAAAAAAATACTTCTGCAGGTCATGACTTTGCTAACAATGCCACCAGACAAATATTCAATGATCAAACTCTTCAAATGGAAACTCATGTATTAGATAATCTAACTCCACGTCTTGAAGAATTTCATGAGTTGACTCAGTTAGAAGCCATAAGAAACTCAGGAAAGAAAGTTAATTTTGTAGTACCAATGGTAAATGATGGTGGTTATCACTGGTATGGAGCTATCATAACCTATGATCCCAATGCCGCCACAGAAAATAAATATAGCTATACTTTCATGGATTCCATGAAAACTGAAGCTGGTCACTGTCCTGCTGACATAAAAGCAAAAATAGAAAATACTTTTGGAGCAGATATTACCCATAATATTGAAACTAAAGGCTTTTATAAGCAACCTGTAGGATCTCTTTCTTGTGGGGCTTGTCTATCAGCAAATCTTATGATGAATACTGGGGTTATTCCGGGAAAGCACGAAATAGATGTAGACATCGAATTGAGAAAAGAACATTTTCGTATGGTACCCGAAATAGGCTGGAGAAATCAGCCACCAACTGAAGCTATAGCAGATTCATTATTTTTATTAAAATCCAAAGAAGCTAAAGCAGAACTGTTAGATGCAGCACAAAATGGCACTAGAGATGAATTTGTTAAAACCTGTTCAAAGTGGGAAAAAATGTTACCTGATCAAAAAGATTTACTTGTGAGATTTAGAAGTACTACCCACTTGATCTGTTTTGATTCCAGATATAATAGAATAGGAAAGATTAATCAAACAGCACTTGATGAAAGATTGGATCAACTTAAGCTAGATTTAGAGCAAGAAAAAAGAGTAGATAGCATAGCTAAAAAGTTTGTTACTCACTTAAATGGTGCAGATATCAGCGGAGCACAAGACGCTCTTGCCTCTACTAATCTTAATGATCTGAAAAAAATACAACAAAGCAAATATTACAAAGAAAATGTGAACTTAAATTCTCCGGAAGGAAAAGCTGTAGACAATATTGTAAATTCTTATATCCAAGACAAAGCTAAACCAACAGCTATTTCTAAAGAATCAATTACACAATCCGTCAATAATTTATCTAAAATCCATGAATCTACTCTGAATCCAACAATTAAGGTAGAACCACAAGAAAAGAGAATAGAAAACGCTGCAAAAAAATTTGTTATGCATTTAAATGTTGCTGATCTTAGTGGGGCCCAAGACTTTCTAGCAGCAAATAGCGCTGCTGATTTAAATAAAATTCTGCAAAGTAAATATTATAAGGAAAACGTAAATCTAGATTCTCCTGAGGGAAAAACTATAGATAACTTAGTAAGTAGCTATATACATGACAAAGTAAAGCCAACTAATAAAACTAAAAAATCTTTATCTCAATCATCTAAAAATTTGACAAAAACTATTGCAAAGAAAATGAATAGTATACTTAAAAATCCACCTCCTAAAACTAATAAATCTGTAGCTACGCAGAATAACAGAAAAAGAAAAGGTGTAGACTCTAATGCAATAGGTATATAAAAAATTGCTGATGGACTCACCTGTAAGCCGTAAAGCAAGGCAGTAATCTGAGTGCTGAGTATTACATGACATATAACCTCTATCCGAGACAAAATGGATCACCGCGCTGACGCTCGTGATGACCAATGTTGATGGACCAACTTATAAGCCGCAAAGCAAGATAGAAATCTGATCACTGGATAGAAAATGAATTTATACTCATTTATTTAGATCATCTTGAATATTCTTAGACATTCTGTAGTAGACTGTATTATATTCTTCGTCACGCTGAGCATATTTTCTTGATCTAATTGAAAGACTACCAAATCCTCTCAGCTCAAGGCGATTACCTTTTGCTAATTCATCTTTTATGTAATCCAAAATACAATCAACAGCAAACGCAGCATCTTGTTGACTCAAGTAATTAAGCTTCTTAACTAAATTATCAACTAAATCCTTTTTTGTTGCCATTTTAAGTGCCTACATAATTGATTTTAATCCTTTAAAACTACTACTAAAAAGATTTGAAACTGTTGAGTTTAAATCTTCAAACAACATATCAATAAATTTTTCGTGAGGTCTAAGTTTTATATCCTGAATTGCAAGATCTTTTGAGATTTCTTTCTCTTTTTCAAGCCAATTCCTAGCTGTGTCTTCATTCCCAATTGCATCTACGAGCTTCAAATCAAGCGCCTGCCTTCCGGAATATATTCTTCCATCGGCTAATTTCTTAACATATTCAATATCAAGATTACGTCTTGCTGCAACTAATTCAATAAAATAGTCATATACCTCATATATACTATCCATTGTCGCTTGATAAGCCTCTGGAGTCAACTTTTCTGTAAAACTTGGGTTCGCTTTTAATTCATCTGACTTAAAATTTGTAAACTTAACACCTACGAATTCAGCTAGTTCTGTTATTTCTGCGGACTGCATAAGAACACCGATTGAGCCAGTTATTGTTCCGTTATGTGCAATAATATAGTCACCGCCAAGTGCTGCCATATATCCGCCAGATGCGGCCACCGAACCCATTACTACTGCTATAGGCATAGTTTTTGAAAGTTTACTAATACTATTATACAACATCTCTGAACCAACTACACTTCCACCTGGAGAATTGACGTGTACAATTAGTGCCTTTATTTTTTTATTATCAGCAATTTTTTCTATATTTTTAATTCTTTCTAAATCATCTGAGATAATATCATTAATTTTAATTCTTCCAACCACCTCCGCCCCTTGCAAAGAAGTAGAAGCAATATTTAAATCTGAAGAATAGTTCTTTCCTACAAAAACTACTAATGCAATAATTAGTAGCAACGAAAAGATTTTCCATTTAGCTAGTTGCGTTTTATTTCTTTTTCTTTCAATTAAATAATCTGGACTTAAATTCATTGCTTATCCCTAATTAAACGTCCTTGTTCTTTTTGCCAATCTTTTTCTTTTATGGACTGTCTTTTATCGTGCTGTTTTTTACCTTTCGAAAGACCAAGCTCAATTTTTATAATATTTTTTTTATTAAAATACATACAGAGAGCTACTAAAGTGTAACCCTTTAATTTTATTTTACCAATAATTTTTTGTATTTCCCGCTTTTTAAGCAGTAATTTTCTTGGTCTTCTAGTGGCATGATTAAACCTGTTCGCTTTTTCATATTCATTAATGTGACAATTATAAAGATATAATTCGCCATCATCTTGAGCAGCATGACTATCAGCCAAAGCGACTTTTCCTTCGCGAATCGCTTTTACTTCACTTCCTGTTAAAATAATCCCAGCTTCAAACTTTTCATCAATAAAGTAGTCAAACTGTGCACGTTTATTTTTTGCAACAATTTTTAAGATATTAGACATTTTCTTCAATATCCTTTAAGCGTTCTAATTCAATATCAATTTTATCTCTTGTTTCTTTACTAGCAAAAGTTAAAGGTAATAAAATTTCATCAGAGCATAAACCAAGTTTATATGCCGCATATTTTATTCCAATAGGATTACTTTCAGCAAAAATAGCATTATATAGTGGCGTCAGTTCTCTCTGAATAATAAGCGCCTTTCCGACACTTCCATCCTTCCATGAACTATCAATTTGTTTACATAATTTTGGAAAAATATTAGATATAACAGACACGCAACCTGTTCCACCGTTTGCGTAATAAGATAAGGCAGCACTATCATTTCCTGTAAGCATATTTATATCCGTTTTCGAAAGTATGCGCAGAGGCTTTTCAAGATCAGAAGTTGCGTCCTTTATAGCTACAAATCTCTCAAGTTCCATAATTCTAAGTATTGTATCATCTGAAAAATCACAAGCTGTTCTTCCCGGGTGAATATATAACATTAATGGTACATTAGTTGCATCATGAATTGATTTAAAATGTTGAAATAATCCCTCTTGTTCTGGTTTGATATATTGTGGTGCAGTACTCATTATTCCGTCTATATCAAGACCCGATAATTTCTCAAGTTTTTTTAAAGCTTCATTAGTACTAATCGCAGTAATTCCAGCAAATATATTGACTTTATTACCTGCATACTCAGACGCAGCTTTTACCAATTCAAAATGCTGATCTCCAGTAATGCTACTTCCCTCACCTGTTGATCCACCAATTACAATTCCGCTAATTCTAGATTCTATTTGCCTATCTATTAAGGATTCTAATGATGCAAAGTCTATTTCTTCTTTGCTAAAGGGAGTAATTAATGCTGTAATAGTACCATCAAATATATTTAAATTCATAGATTTTTACCTACTAATTTCCCATACTCATTTTGTAGTTTACTTACCAACTCTTGATTTGGAAAATTTATATTCCCAGAACCTGTATTAATTTCAGATACACCACGAATTTCAGCTGAAGTTCCAGTTGAAAAACACGCATCATATTGCCCTATATCTTCAAGCATCAGTCTTTCTTCTTTAACTTTCATACCCATATTTCTTGCCATTTCAATAACTGTTTGACGAGTAATACCATTCAGGAATCTATCTGCTATTGGAGTAACTATTTCGCCTTCTCTACCAAAGAAAATATTTGTCGTGCTGCATTCAGCAATATCATCAAATCTATCAAGTATTAAGCAGTCATCGTAACCCTGATCTTGAGCTATTTTTTGAGAAATAGATAACATTGCATAATGCGCAGAAGATTTACTTTGAGGTGGCATTGCATCGTCCCCTACTTTTCTCCAGGGGGTAACAATTAACCTAACTCCACTTTTAAATGCTGGATTTGATTCTTGCGCTAAAACTAATAAATTCGTTGTCAAAACTGGATTATATGCACCTAAAGATTCAGCACCTCTCCATATTAAAGGCCTGACATAAGCATTTTTTAAATTATTCTTTTTTAAAATATCTTCAGATGCTTGGCTAATCTCATCAACTGAATAATTTACCTTCAAATGCATTGCTTCAGCTGATTTAATTAAACGGCTACTATGTTCAATTAACTTAAATATTTTTCCATCATAAGCCCTTTCTCCTTCAAATACTGCTCCCGAATAGTGAAGACTATGAGTCAAAACATGAATATTTGCATCATCCCATGGAATCATGTTTCCATTTATCCATATATAATCTGATAGTTTCTCTGATAAATTAAAGTCCATTTTCTCTACTCCCGTTGAATCTAATAATTACGTAATAAAGAGCTAGTCAATCACTCGAATAAAGTTTATATTATTTATTGAAGCTTATTTTCAACATTAATAAACTAGCATTATGAGTAATAAACCTCATATCCTTGTTGTCGATGATGATAACAGAATACTAAAACTTTTGAAGAAATTTCTTTCTCAAGAAGGCTTTTTAGTATCCACCAGTACATCAACTAACGAAGCAGTGGAACTACTTGCAAATTTCAACTACGATCTAATTATTTTAGATGTTATGATGCCAGAGATAACTGGACTCGAATTCGCTGCTAAAATTAAAGAGAGTGGAAGCATTATGCCAATTGTAATGCTAACTGCCTTATCTGAGCCTGAAGATCGTATAAAAGGACTAGAATCTGGAGCTAATGATTATTTAACAAAACCCTTTGAACCAAGGGAATTACTACTTCGTATACATAACCTTATAAATTCACATAATCTTTATAAAAAAGAGCAGCAGCTAATTCGCTTTGGAAATAATAGCTATAATCTAACAACAAAAGAGTTTATTCAAAATAACGAAAGTATCAAACTTAGTTCATCGGAAGAGAACTTGCTCCATATTTTAATCTCTGCAAATAATAATGCTATCTCAAGGGAAGAATTATCAGAAAAATTGGGGGGATTAAATTTAAGATCAGTTGATGTTCAAATAGTCAGACTAAGAAATAAAATTGAGTCAGACCCTAAAAATCCGCAACACCTTAAAACTATTAGAAATAAAGGGTATGTTCTCTATACATAAGAATTTTAAAAAACGTTTTTTTCCAAAAACTCTGCTCACTAGATTTGTTCTAATAATTATTATCCCTATTCTTATTGGGCAATCAATTGCCGTATATTTATTCTATCAAAGACACTGGTATAATGTAGCGCAACATAATAGCGGGTTCGTAGTAAAAGAAATAGAGTCACTGCTTCAGTCTGATGAATATTTAAAAGTTGAAAATAAAAAAAGAAGATACTTAAATCTTGAATATAGATTTATTAAGAATGCTGTAATTCCAAGTAAAAGTCAAAAATATACAGAAGAAATAAGAATCTTTGCAGATATTTTAAAACGCATTACAGGAAAACATGGTAATATAATTATAGATAGTGCTGCAGACATACGTTTATATTTGCAACAAGGTAAAGATGTTCTTATCATTCACCTTCCATACAAATCTATCCTTAATCCAACAACATATATTTTTGTTCTTTGGATATTTTTCCTAACTATATTGCTGCTTACTGTATCCTTAATTTTTTCAAAAAACCAAATTAAATCTATTATTGAACTCACAAAAGCTGCGGAAAACTACGGAAAAGGAAATAAAGAAAATACGTATAAACCTACTGGTGCAAAAGAAATCAGAAGAGCTGGACTTGCATTCCTCAAAATGCAAGATAGGATTGAACGCCAAACAGCAAAGCGTACGCAGATGCTCGCTATGATTTCACATGATTTAAAAACACCACTTACTAGAATGAAACTACAAGTTGAACTAATGGATGAATCAGAAGAAAAAGAGGAACTATCATACGATATAAATAGCATGCAACAAATGATTGCATCCTATTTAGACTTTGCGAGAGGAGAAGGAGGAGAAGAATTTAAAAAAGTAGATATAGGAAAGTGGATTTCAGATTTTATCAATACCAGATGGTCAGGTGATAACATAGCCATAAATATAAAAAATAAATCTGTTAAAACAAATATAAAACCTCATTCATTTGAAAGAGCTATTGCTAACATAGTAAGTAATGCATTAAAATACTCTACAAAAACAGAAATTTCTGTATACTCACAGAAAGACAATGCAATTATTGTAATTGAAGATAATGGAACTGGCATTAACGAAGAGGATAAAAAGCTAGTCTTCAGGCCATTTTATAGAGCGGATAAATCCAGATCTTTAGATAGTATTGCAAGTGTTGGACTTGGACTTGCTATTACTAAAGAAATTATAACTGGTCATTTTGGATCAATTAATTTAGAAGATAGTAATAAACTTAAAGGTCTACTTGTACGAATTAAACTACCAATTAAATCATAAGAAATGCAACATAATCTTACTCACTTAGCGATTATCATGGATGGCAATGCTCGCTGGGCAGCTAAAAATGGTAAGACAAAGTCTGAAGGGCATAATATTGGAGCTGAAAATGCAAAAAAAATTCTGCAACATGCGCTAAAACTAAATATACAATACCTAACCTTATATGCTTTCTCATCAGAAAATTGGAGAAGACCTATTAAAGAAGTATCAATGCTAATAAGCTTACTAAATCACTATCTTAAGAGCGAAACAAAGCTACTTCAAAAACATAAAATAAAACTTCAAGTTATCGGAGACTTAAGCAAGCTCCCCTCTCCTCTTGTAAAAAAAATTGAAGAAGCAATGGAAGCTACTAAAAATAATACAAAGATGACCGTAAATATTGCTTTTAGCTATGGTGCTAGAGAAGAAATTGCTTACGCTTGCCAGAAGGCAATTAATTCAGGTGCAAAAAAAATCACTGAAGATAATTTTAAAGAATTCTTATACGATCCTAAAATGCCCGATGTAGACGCACTAGTGAGAACAGGTGGCACGCATAGAATCAGTAATTTTCTTCTATGGCAAATTTCGTATGCTGAAATATATTTTCTAGATAAATTTTGGCCAGATTTCAATGAAGAAGATTTAAATCAAGTTATTGAAAATTATTCGCAAAGAACAAGAAACTTTGGAACAAGATAATTATGGACAAACAAAATTTACTCAAAAGATCAATATCTGGATCAATACTAGCAATAATATTTTTAGCCAGCATTTTTCTGTTTAGGCCAGCATTTACTGTGCTAGTATATATTGTAGCTGCTCTTATGCTATTGGAGTGGTATAATATGACAAAGAATGAAAAATTATATATATATAATTTTATTGGCCAATTTTTGATTATCATCCCTATTAGTTCAATATTAATTATATCCAGTATAGATGATCACGGGTGGGTATTACTGACTTTATTTGTATGTATATCTACTGTAGATATTATGGCCATGTTTGGAGGAAAACTTATTGGAGGGGTGAAACTTGCCCCTAAAATCAGTCCCAACAAAACCATAAGCGGACTTCTCGTCGGCACCTCCTTCGCGTGTATAGCAATTAACTTACTAACCTTAATACCAAATTATGAGTTACCTGGAATGCTGCATAAAAATAATTTTGCTCTTACTTTGTATATCTTTTTACTTGGAATGATAGCGCAAACTAGCGACTTACTAGTATCTTGTTTTAAGCGTAAATTTAAGATAAAAGATACAGGCACAATTATCCCAGGGCATGGTGGCACACTCGATAGGTTTGATAGCATTATACTAACAGCACCACTTGTACTACTATATTTAGCTAGTAATTTATAGTTTCTAATTTATAATATAGCTTAAATAATATAATATATAAATGTAAAAAAGAGCATGACCGCCTCGATGATACGTAAATCACAAAACTCCTTTAAACTCACAAGAAAATCAGCATTTAATGCTGTTATTTTATTGATGCTTTTGTATTTTGTGTTCCACTCAATATACGGCAGCAGAGGAATTATTGCATATTTTAAACTTCAAGCAGAGCTAGAAAACTCTCATATAAAACTTGAAAAACTTAGAGCGGAAAGGCTTGAAATAGAAAATAGAACAAAATTACTTCGCCCAGGATCTCTTGATAAAGATATGCTGGACGAAAAAATTCGTAATGTTTTAGGTCTATCAGAGCCTAAAGAGAAAGTATTTAAAGCTCAACCAGTCGATAATAGTTCTGAATAATATTAGAGGAGTAAAATGAAAGTTGTAGTATATCATAATGACATTCCAGATGATTTCCATTTACCTGGGGATCTGGCAATTGACACCGAAACAATGGGATTAAAGTTCCATAGAGATAGATTATGCGTTTTACAAATGAGCAATGGAGATGGGGACAGCTACCTAGTGCATTTTGATGGTACTGATTATAGTGCTCCAAACCTAAAAAAACTGTTACGTGATGAAAACAGAGGTACAATTTTTCATTATGCTCGTTTTGACGTTGCCGTTATAAAAAAATATCTTGATGTAGATATTAAAAATATATTCTGCACAAAAATAGCGTCGAAGCTAGTCCGTACATACACAGATCACCATGGACTAAAGGATCTTTGTCGTGAATTACTTGGTATTTCAATATCTAAACAACAACAGTCTTCCTACTGGGGAGCACCAGAGCTGAGCGAAGAACAAAAAGAATATGCTGCAAGAGATGTAGTATATCTTCATTCGCTTAGAGCTATATTAAGCGAAAGGCTGGTAGAAAATAAAAGAAGTAAAATGGCGCATAAATTATTTGAATTTCTACCAACTAGAGCAGAATTAGATATTATTGGTTGGAATGATATAGATATCTTTGCGCATAATTAAGATTTTTGTACAAAAATCTCACTTTTCTCTCAGAAAATAGTAAAATTTAGATTGCTATGTCGCTTAATCTCCTCGCAGTGGTATGGACAATTAGTCATAGCGAGCGAAGCGCGGCTATCCAGATCTTTATTACCACAAAAATTCACTTACTATTTAGCCAAACAGATTGCAACATAGTTTAAACTACTCGCAACCGCGTGGGATAATTCGTCATAGCGAGCGAATGCGCGGTAATCCATTGTTTCAAAATGTGCATATTATTGGTGTCTTAGTCACTGGATTACCGCGTCGCTTCGCTCCTTGCAATGACAAGTAGCTAACTATCGGTCATAGCGAGCGAAGCGCGGCTGTCCAGATACTTTATTACCACACAAATTCATCTACTATTTAACCTAATGGATTGCAACAAAACTTAAACTCCTTTTACAATGACGTAGCATAATTCGTCATGGTGAGCGAATGCACGGTGATCCACTAGTTTCAAAATGTGTATATTCTGGAGTCTGCTCACTGGATTGCCGTGTCGCTTCGCTCCTCGCAATGACAAGTAGCTAACAAGTAATAAACTGTAAAAGTAAAGAACTGATCTGACAGTTAGGTATTGTTGGGTACGAAAATATTAGATAAGATCGTAGCCGGCAATAATTTAACAACTCAAAAAAAGATTATAAAGCCAAGATTAGGCTTACTAGAACTAGCAAAAGAATTAGGCAATGTATCACAAGCCTGCAAAGTAATGGGTTACAGCAGAGATACTTTTTATCGCTATAAAGAGCTCTATGAACAAGGTGGACA
>sequence19
CTCTCATCAGACATTATCTTGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCAGTATTATATTGCGTTATAATATTGTTTGCTTCTTTATGATTGTATTTGGAGTTATAGTCAATTTTTGGTGTGCAGTGTCTTATGAGTAATATCATTACTTAAAACCTAAATCCGTACCTGATTCCGATATCTGTAAGTCCTGGATTTGGTTTTCTAATATCAGCGCTTGATATATGATCGATCATTACTGAAATTGAGTGAGTTTTATCTATTAGGTAGCCAATAGAGAAAGATTCACGAAATAATAATTTTGAACCTAATGCGCGTTTTTTCTTTGGTTCTAGTCTTTCTGCGTTATTTATGCTTGCACCGAGAGTAGCTTCTATAATAAATATGTCTTTAATATCAAATTGCCAAGTAAAGCCAGTATATATGTTACTTGTATATCCTTTATTATTGATGCTTGCTCCTATATGAGGGAATGCTCGAAGATGGTTTTGCATTTTATCGAATAAATACTCAATAATAATATTTTGCCCTTTTTCGTATCTATGGCCAAGTTTGGTATCAAAATCATGTTGCATAAGTCCCAATTTTATTTCTTTGGCATGGGCGGTTTGTAATATTGAGAAAAGCATAATTAGTATTTTGATGAATTTTTTCATATTTATTTTTCCTTTCTTTCTAAAGCTACAAGATAAAATTCACTAGATTCTTTTCTACTAGATTCAGGCTTGAAGTGCTTAACCTTCTTGAAATTTTGTTTTACTAAGTCTAGTAAATCGCCTTCTGCGCCGCCCCTAAATATTTTTGCAACAAAATGCCCTCCAGGCTTCAGTATCTTTAAAGCAAATATCAAGGCGTTCTCGCATAAATCCATAATTCTTAGGTGGTCAGTTTGGCTATGACCTGTTGTATTCGCTGCCATATCACTGAGTACAACATCTACATATTGTCCATCTAGCGAATCAATTATTAAATCTTTTGCATCGTCTTCATAAAAGTCTTTTTCAAAGGAAGTGACTCCTCCAATACCTTCTATGGGAAGCAAATCTATTGCAATAAGTTTATTTTTTGCTTTCTCAGAATCTGATTTAATAATTTTTGCAGCAACCTGGCTCCAGCCTCCTGGTGCAGCCCCTAAATCAACTACATTAGCTCCAGGCTTTAAAATTTGAAACTTATCATTAATTTCAATCAATTTATAGGCTGCTCTAGAACGATAGCCGTCAAGTTTTGATTTTGCAACAAATGGGTCATTAAGCTGGCGCTTTAACCATCTTGTTGAGGATGTTTTTCTTCTTTTAGCAGTTTTAACTTCTGTAAATTTTCCTCTATACCCTGATGAAGATGACATAATTACCTACATTCTGATGCATATTTATCAAGTACCGAATTGACAAATCCTACTTCACCACTATCAAGCATATCGCTTGCAATATCTGTATATTCATTAATTATAACTTTGCTTGGCGTTTCGGGAAAATACTTAAGTTCACATACAGCAACTCTGAGTGTTGCAAAAAGAAGTTTCGGAAGATTTTGAATATTCCATTCATTTGTAAGATGTATTTCAATTATTTTATCAATTTCTTTAAGGTGTTCGTGTGTAAATTTCACCAACTCATTTAAGTAGTTGTAGCTTGGACGTAATTTCAGTTTACTTAACTTATCAAGCTCATAATCGCTTTTTAAATCTTTATCTTTATAAAAATCTCTTATTCTTAAAAGTAATGTATCAATATCTGAAGTATTTTTATCATTCTCAAACTGATAAATAGTTTGTACTGCAGCAATTCGAGAAATAGATTTTGTATTAATCTGAGTTTTTGTCATTAGGATAGGTTCCAACTATAAGAATTAGCTGAGTGATTTTATCAAAAAAAAGATCTTTGGTAAACAATAAGTTTTTTATAAATTTTAAAACTCCTTCTGTATACACGCGCTAATTCAACACAAATGACTATATACTAATAAGCTATGATTTTTTAGTTGTAATTTTTGGGGTAGATGGTATAAAAAATCAATTGTTTTCATAATATCTATCAAAGAGGTTTTCGTGAATAGATTTATAAAAGTAGTATTTTTTATTTTTACTATTATTTTTTCAAGTGTATCTGTAGCTGATAAAATTAAAACTATTAATATTAAAGGTAATCAGCGTATAGAAAAATCTACGATTAGAGAATATCTGGGCTTAAATGTTGGCGACAGTTTTTCTGGATCAATAAAAAGTGATGCTGTGAAGAGCTTATATTCTTCATTATTATTTGAAAATGTTAGTTTGAAATTTAATAATGGCATACTTGACGTAATAGTTAAAGAGACTCCTTTTGTAAGTAAAATTGAATTTAAGGGAAATTACAAAGTTAAAACGGATTTGTTGGCAAGAGAAATATATACGTCTCCTGGTGAAAGCCTAAGAAAGGCAAAGCTTAGAACTGATGTTACAAAGATTAAGGAAATTTATAAAAGATCAGGTAGATTCTCGGCAAAAGTTAAATCTCAAATCGAAACTCAAGAAAACAATAGAGTAAAGGTGATTTTTGAAATTGATGAAGGTCCAAAAACTGGTGTTAAGAATATATCTTTTGTAGGAAATGAAAACTATAAAGATTCTGAACTACGTTCAATTATTATGACTAAAGAATCAAAGTGGTTTAGATTTCTTGAAACAAATGATACTTTCGATCCTGATAGAATTGAATTTGACAAGCATTTGCTAAGTAAATTTTATAACTCAGTTGGTTTTGCTGATTTTAGAGTTATTTCTGTAACTGCAGATCTTCTTCCAACTAAGGAAGGATTTGCTATTACTTATTCTGTTGACGAAGGAGAGAAGTATAATTTTGGTAAAATAGCATTACGCAATAAGTTGCCTAATATTAACGATAAAGAGGTGTTAAAATTTATTGATAATAAAGATGGTCAGACTTATGATCACGGTGCAATGCAAAGAGTTTCAGAAAAGATTTTAGACTATCTTGCAGGTAAAGGATATCCACAAGTTAATGTAAGCCCTGAAATTCATACAAATAGAAATACTAGAAAAGTTGATGTTGTTATTGTCGTTGATCAGGCTGATAAAGTATTTATCAACAATATTAATATTGAAGGGAATTTAAAAACAGAAGATCATGTGATCAGGCGTCAATTACAAATTTCTGAAGGTGATGTCTTTAATAAAGCAAAGATTGAGCGCGGAGAGAGAAATATCAGGAATTTAGACTATTTTGGTAAGTTTGCACTTAAGATGGAACCAACTGAAAAGAGAGATAGGTACAATGTTAATATTAACGTAGAAGAAAAATCTACGGCTCATATTGGTTTTGATCTTGGATATAACACTGCTGGTGGACCGTTTGGTAGAATATCTTTCCTAGAAAGAAATTTAGTTGGTACAGGTAAGTATTTTAATGCTGGTATTCAAGCGGGTAGAAAAAGTATTTATTACTATACAGGCTTAACAGATCCTAACTTCATGGATAAGGATTTGTCACTTGGAGGAAATATATATAGAAGTGAAAATGGAAGAGGTAGTGGTTTTGCTAATGGTGAACAAAACTATTCTCTTAAATCGACAGGTGCTAGAACTTCTCTTGGTTATGATATAACAGATGATTTATCGCACTCTATTGATTACTCAATTAAACGAGATGAATTAAAGGCACCAAGCGGTTCAAATTCAGCATTTATTAAGGAGCAAGATGGGAAATTTACTACCTCATCAATTGCACATAGTCTGACATATGATAGAACTGACAGTATTGTTCTTCCTAAAAATGGTTATATAGTTTCGGGGACTCAAGAGTTTGCTGGTTTGGGTGGTAATACTAAATACTTAAAACACGAAGCGGACCTTAAAGCTTTCAAGTCTTTTGTCGATAATAAATATACAATAAAATTCTCAACAGCAGCAGGTATTATTAAAGGTGTTGGTAATAAGAAAGTAAGAATTTCAGATCGCTTTAATATTGGTGATTATAGCTTAAGAGGTTTTGCTCATGGTGGTATTGGTCCAAGAGATAAGGCAACGGATGAAGGTCTTGGAGGACAAAAATATTATACAGTTTCTACTGAGCTTAACTTTCCTGTTGGACTTCCTGAAGAGTTTAACGTAACAGGCGCTGTATTCGCTGATGCTGGTTCGTTATGGGATGCAGATTCCAAAGCTTCGACAGCAAAAGGTTTCTATAATAAAAAGTCACTTAGGGCTTCTGTCGGTTTTGGTGTTTTATGGGTAACAAGAATAGCTCCTATCAGACTAGACTGGGGTTTCCCAGTGAAAAAGGAGAAATTTGATGAAAAGCAAACATTCCATATTAAGTTTTCAACAAGTTTATAGGGCGCTATAAAAGAGTAAATGTAAAAAGGAGAGGGTTATGAAATATATATATATGATATTGTGTTTTATAACCTTTCTCTTTCCTCTTAATTTGCTAGCTGCAAATCTTGATAAATCAGAAGTCTATAATTCTTCCAATAAATTTGAAGCAAAAGCTGCTGTTGTCGATGTTGAATCTATTTTAGAGCATTCTAAAGCCATCCTACATATTAAAAAATCTATTAATATTATTAGTGAACAAATTCAAAGCGAATTATCTTCAAAAGAAGTTAAGTTAAAGCAGGCTGAAGCTGAGTTAATAGAGAAAAGAGGTGTTTTACCTAAATCTGAGTTTGATAAGTTGGTTGCTGCATTTAATAAAAAGGTAAGCTTAACTCAGCAAGAAATGCAAAATAAAAAATCTGCATTAGAGAGAGCTCATACAAATGCAATTGCTCAAGTGCATGAAAATACTATTAGTGTAATTAGTGATCTATCAAAAAAATATGGCTTTAATATAGTTTTTCCAAGCTCTCAAGTTCTGTTCGTCAATAATTCATTAAATATTACTCACGAGGTCATCAGTAATTTAAATGAGCGCCTTCAAGAAGTAAAAGTTAACTATGATCCAATGGTTGATAAAAGAGACTAAGCGCTATTAGTTAATTATTGTAACGCCTTATTTTTGCTTTTCTAAATAATGTATTTTTTACTGTCGTATAATTTTATCTAGAGTTTGTATACCAAATAAATTTTGTAGATATAAATCTTATCTAAATCTCAATGATTAATAAACTGTTGAAATGCAAATACAATTAATAGTTGTATTTGCTCTAAACCTATCGTATAAATTGTATTGGGTAGGCTACTAGGTAAAAACTACGTAGATAAATGTTCATAGGTCGGTGTAGAATGGTTTGTCCAAGTTAGTGAAATTAAATCTTAAGTTTAGGTTATTGTAAATGTCTCTGGAAATTAGTCTAAATAAAAAAAAAGATCTATATGAAAATTACCTAAGTAAAATTGGTGATATTAAATTTACTTTTCGTGAGGTAGATGTAGTTGCTTGTGTAATGCACAATCGTGGAGAAAAAAAGATTGCATCGCTCTTGCAAATATCTCCTAGGACAGTCGGGACACACTTACATAACATAATGCTAAAGCTTGGACAAAATTCACGAGAGAGCGTTATTGATTTTATAGAAAAATCTGGAAAATTATTATACATAAAAAAATATTATTTTCAGATTTTAATTAAATCATCTTTTGAACAAAGCTTAATTAAGATTGGTAAAACGATTAATAGAAAAGTCCTTGATTGTTCTATAAACTTAAGTCAACTAAGTAGTAATGAAAAAGAAAAACTCAGTAACATTACTAATCACTTAAAGCTAGCGAATATTAACCTCATAAAAAGTAAAAATCATTCTCTTGAATGCAAACATAATATAAATTTTATTAATAGCAGTTTTATTCCCAAAGCCGAAAAAGGAGACATTTTTCTTTTACTAGAGCAGACAACGGATAAAGAGAGTTTTGAAGAAATCAGTTATATAGATTTTAGTAGAGATCAAGATTACTATTCCGCTATCTTTGTGCTATTGAAAAAGATTCTTGGAGTTGATGAAATTAAGGAAATTAGTAATGAATTTTTTGCTGAATATCATGCTATAAGTGGATCTTGGGAAGGTAGAGATGATGATGCCAAAAATAATAAAACACAAGAAAATGATATTTATAAAGTAAAAAAAACTCCAAAGAAGATATTTGTCATACCTTTAATAATAGTTGTATGTGCTGCATTTTATTATATTTTTGACACAACAAGCCTATTTAAAGATGACAATAAAAGTCTATTGCATTCGGACTTATTTTTGCCTCAAAAAGGAATATTATTGGGTAGATCACAAATAGTTTCTAAGTTAAAGAAGTCCTTTGAAAACGCAAAAGGTATCAATACGGTTGCTTTAGTAGGAGTTGGTGGTTCAGGTAAGTCTACTATTGCTAGGAAATATGCAAAAGAATCTGGTGCTTCAATTATTTGGCAGATTAATGCAGAATCAAGAGTATTATTAGTATCTTCAATGAAGAAAATTGCCTATGCTATTGCGACAAAAAAAAAGGAAAGAGAAGAGCTAGATAAAATATTAGCCATAAAAGATATTTCGGAACGTGAGAGAGGTTTGTTGTTATTCTTGAGAGAAGAGGCAAAATCGTATCCTGGATGGTTGATTATATATGATAATGTAAAGTCATTTAGCGATATACAAGAATTTTACCCTCATGATGCTAGCGTTTGGGGAGAAGGAAGTGTAGTAATAACTACGAGTAATAATAATATTGTTCACAATAACAGTATATTACCGGAAAATGTTATTACAGTTGGAAGTTTAAATAAGAAAGAGAAGAAAGATTTATTTATTAGTATTCTTGGGGAAGATGAAAAAAAATATGATATAGATTATGATAAATGTCTAAATGGTATACCTTCGTTTCCACTTGATGTTTCAATCGCAGCCCACTATATCAAAGAAACTAATATAAGGTGTCAACAATACTCGCAATATTCTTCTTCTAATAATCAAGTATTCAGAAGAGCTCAACGCAATATTCTGCATGATGTTGGTGAGTATTCCAAAACTAGATATGATATTATTATTCTTCCTATACAGCATATGGTTGAAAAGTCATCTGACTTTAGAGATTTACTCATAATGATTAGCACTCTTTCTCCAAGAGATATTCCTAAAAGACTTTTAGCTTCATATAAAGGCGATATAATAGTTGATAATTTTATTTATGAATTAAAGAAATTTTCTTTAATTACAAAAGATCCAAGTAAAGCCAACAGGTTAGGGCAAGTGTTTTCAATTCATAGAAGTACCCAAGATGTAATTTTTGCCTATTTTGTAAATTCTCAACAATTTGCTGAAAACTCTGAACAGCTGCACAATATTGCAATGTTTTTGGAGAATTATTTATCAGATATTTTAGATAAGCATGATTATCCTAAAATACAGTCTCTGGTACCACATATGGAAAAATTTTTGAGAAAAGCGGATTTGTTTGATAGCCAAGATATTTCAAGGTTAAGTAAAAAATTAGGCGTTTGTTATTTCTATCTTGGTAGTTATGAAAGAGCAAAAGAAGTGTTTCAAAGTACATTAAAGATGTATGATCAGAGTGATAATAATTCGCAAATAAATCGAGCTAAAGTTTTAGCGCGCTTAGGGAGTGTTTATAGAAACATTGCAGACTTTGAAAAAGCTAAAGAATATTTAGAGAAAGCTCTTGAATCATATAAGAAATACTATGGTATCAATCATGTTGAAACTGCTTGGATTTCAACAACCCTTGGCAGTGTATATAGAAATATAGGAGATTACCCTAAAGCAAAACAGTTGCTTAAAAACGGTTATAATATATTTGTGCAACAATATGATAAGGATCATAAAAAAACAATTTGGAGTTTGTCATATTTAGGGCAGGTTTATAAGAATGTTGGTAACTACGTTAAAGCTAGAATAATACTTGAAAAAACATTGTCTACATATGAAAAAGAGTTTGGTAGTACTCATACTAAAACAGCGTGGAGTTTGGTTCATCTTGCAAGTGTATATCGCAGTATAGGATATCCAGATAAGGCAAAAGAAAATTTAATTAGAGCTATAAACATATATAAGTTAAGAAGAGGTGAAGAGAGTTTTGAATATGCCTGGAGTAGGACTCATCTCAGTGCAGTGTATAGAGATTTAGGTAATTTAGATGAGGCAATAGATCTATTAAAAGGAAGTTTAGATTTTTATAATAAGAATTTACCGAAAGAACACGTGATTCAAGGCTGGATAAAGTTTCATTTAGGTAGTACATATAGACACAAAGGTGATAGAGAAATGGCAATGAAATTACTTAGTGAATCACTTGCAATTAATGAAAAGCATTATGGTAAAAGCCATATTAAAACCGCCCAGATACTTAATAGTTTAGGAAAATTGGGGATTGTTTGTCAAACTTTTGAAAAGTCAAAAGAGTATCTAGAAAATGCTTTGAAAGTATATTCGATAGATAATCATCACGACCGATATAAAGTGTATGAATCTTTAGGAGATTTATACAATGAAATGTATAGAAGAGGTGATGGTAACAGATCTCTAATGTCAAAGAGTTTAGAGAATTTTCAAAAAGCGATTGTAGTTGTTGAAAAACATTTCCCAACTGATTCAACGCATATTGTTAGAATTAGATCTAAAATAGCCCGCCTTGAAATATAAATTGCGATAATTTTATCTACGTAATTTGCTCTTAGTTTTATATATAAGTTAATTTCACGCATTCTATTTATATTTTTTCATGTGTAGGATGACAATTGTAGATCGGTAGTGGTTTACGAAAATCCGCTCTATTTGTTGTATAGAGTTAAACTTTGAGGTGAAGGTATTATTATGGAGTATTTAGAAAATAAAGAATTCAGAATAACAGAAATGGAAATCAACGAAGTCGATAGACTACTAAATAAGTTTTGTGTGAAAGAGGAAAGGATAAGAAGTAAGTTGCGCCAGCTTATTGAAGTAGAGCATGACACAAGCTTAGTATTTGAACTAGAAAGTTTAATTGCTATATAGTTGATAGAAATTTTAAAGGTAGCCGCCCAGAATTTTGAATTTTCTAGATTCTATGATATGCAAATCGGAAAGGTTGAATGTAGCGTATAAGATGGAGGTGTTCGGGAAGCCTCCATCTTTATATTAGACATACTTAGATTTTACGCTTCTTCAACAAAATTCTCTTTGATAGTTTTGAGACCTATTTTTTCAAAGGCAATTTCCAAGCTGTCACCATTTTTTCTCACAATAATTCCAGTGCCAAATTTTTGGTGATGTACTTTGTTACCTGGTTTTTTTCCAGAATTATCAATTTTATTATTTTTTCTTGGCTTTATGGTTTGCATGGAAAAATTATGTTTTGATCCCATGTAGTTTAGTTTATTAGTTGATGAACTACGTATACATAAATTATCCGGTATTTCACTCAAAAATCTTGAGGGTATAGAATTAATTATTTCTGCGAAAACTCTTCTGCTTTCTGCGTATGTAATACATAAATCTTTTTTAGCGCGCGTAATTCCAACATAAGCAATTCTTCGTTCTTCTTCTAAGCCTTTTTCGCCTTCTTCTGATAAAGCCTTTTGGTGAGGGAATATATTCTCTTCCCATCCTGGTAAGAATACAAAATCAAATTCGAGTCCTTTTGCGGCATGTAGAGTCATTATTTTTACTGTGCCTCCAAAATCAGTTTCAAGAGATTCATTATCCATTATTAAACTAGAATGTTCTACAAATTCTGTGATGTTATCAAACTCATCAATTGCTCGTAGCATTTCATTTATATTTTCTATTCTTCCGCGAGACTCTTCTGTCTTTTCAGCTTTAAGAATGTTTAGGTAGTTGGATTCCTCTAAAATAAATTTAGTTACATCAAATGCAGATTCGTTTGCATATTTTTGTCCAGCAAGGGTAATTAGATCTACAAAATTACTAAGACTTTCTTTTGTTTTGCCTTTGAACTTATTTTCATCGATCATTTTCTTTAGTCCTGCGAAAACAGATATCTCATTCTCACTCGCAAAATCTTTTATTTTTTTTAGAGTAACATTTCCTATGGATCTTTTTGGAACATTAATAATTCTTTCTAGAGCAAGATTATCATTTGTATTAATGCTCAGACGAATGTAGGCAAGTACATCTCGAATTTCCATTCTTTCATAAAATCGCATGCCACCAATAATTTGATATGGCAGTGCATTGCTTATAAACACTTCTTCAAATGCTCTAGTTTGGAAACCTGCTCTGACTAGTATAGCAATTTGATTTGCATTATATTTCTGAGTTTTTATATAACTTTCTACTTCTGTAGATATGAATCTTGCTTCCTCTTTATCATTCCAACAAGAAATAATCCGTATTTTTTCTCCTTCCTTTCTATCAGTCCAGAGCTTTTTTCCATGTCTATTCTTGTTGTTTACAATAATATTAGAGGCTGCATTTAAAATAAAAGGTGTAGATCGATAATTTTGTTCTAGTTTAATTATCTTAGCATTTGGGAAATCTTGTTCAAAACGCAGTATATTTTTTACTTCTGCTCCGCGCCAGCTATATATTGATTGATCATCATCTCCTACACAGCATATATTTTTGTGTTTGCTGGCAATCATTCTTGCCCAAACATATTGTACAGCATTTGTATCCTGATACTCGTCTATCAAAATATATTTAAATTTATTTTGATAATGCTCTAGAATATCTGGATTTTGAATTAGAATTTGATTGCAATAGAGAAGTAAGTCACCAAAATCAAGTGCATTTGAGTCATGCATTTGTTTTTGATATTCAGAATATATTGAGCTTGCAATTTTATGAGCAGGTGAGTGGAAATCTGACTCAGAGAGCTTTTCTGATAACAAACCTTGATCTTTCCATCTTGAGATAATTATATGAATCATCTTAGGAGGATACTGCTTTACATCAACATTATTCTGTAATGCTATATTTTTAATAAGCTTTATCTGATCATCTTGACTGATAATTGTGAAATTACTTGTAAGTCCAAGATCAAGGAGACTTATGTGTGATCGAAGCATTCTGGCCGCAATTGAATGAAATGTCCCAATATTAAGTCCATCAGCATGAATGAGATTATTAACTCTCTCTTGCATTTCACGTGCAGCTTTGTTTGTAAAAGTAACAGCTAAGATATTTGAAGGGTACGCTATATTTTGCTCAATGATATGTGCAATCCTACTAGTTAGAACTTTTGTTTTTCCTGTCCCTGCACCTGCTAGAACTAGAAGAGGACCTTCTGTTTGATTGACTGCATCTAATTGTTGAGGATTTAATGTTTCTGATAAAGATTGTTCTATATCCATAAATTATAAGTACCAATTTTCTGCTTAATCATAGCTTAAGAAATAATATAGGTTCTTTTGTATTGAGTCGAGTATTATGATAATTTATTTCATACTAATTTCCATTATCTGCATTTTGTATGATTAGGCTGTGTTCACGTATTTATATAAGCTATTCAGCCTTGCTTTGAAATGCAAATCTCTAATTTGAAATAACAATTGGTATTACATTATGACAGATAGAAAATTTTTACTCTATCTTTTATGAAAATTATTTATTATAATCGGCCTTCAAGATAATCATTGATGTATTTTGATATGAGCACACAAGCATTTCATCAGCAACAAGCACTAGAAAAGAAAAGAAGTTCTGCCTTGCTTGGAGGCGGGGTAAAAAGAATCTCAGCACAGCACGGAAAAGGAAAACTTACAGCAAGAGAGAGAATAGAAGTATTACTTGATCCAGATAGTTTTGAGGAAACGGGGATGTTTGTTGAGCATCGTTGTGATAATTTTGGAATGAAAAGTAAGAAATTCCCAGGTGATGGTGTAGTAACTGGCCATGGTACTATAAATGGTCGTTTAGTATTTGTTTATAGTCAGGATTTTACAGTTTTAGGCGGATCTCTTGGCGAATATCATGCAAAAAAAATCTGTAATCTAATTGACTCGGCAATTGAAGTTGGCGCTCCAGTAATTGGTATAAATGATTCTGGTGGGGCAAGAATACAAGAAGGTGTTGATGCTCTTGGTGGTTACGGCGAATTATTCCATAGAAACGTAAAAGCTTCTGGAGTTGTGCCTCAAATTACACTTGTTATGGGACCATGTGCGGGTGGAGCTGTATATTCTCCAGCTTTAACAGATTTTATTTTTATGGTGAAGGGTTCATCATATATGTTTGTAACTGGTCCTGATGTTGTTAAAACTGTTACTGGTGAAGAGGTGACTCAAGATAAGCTGGGTGGTGCTAAGGTTCATACAGCAAAGTCAGGTGTAGCGGATCTATCATTTGAAAATGATATAGAGATTTTGCTTGAGACAAGAAGGTTTTTTAACTTCTTGCCACTATCAAATCGTGATAATTTACCAATAAGATCAACTAGAGATCCGGCTGATAGAGTTGATATGTCTTTAAATACTCTGGTTCCAACAATTCCTAATAAATCCTACGATATGAAGGAGTTAATAGAGCGTATAGTTGATGAAGGAGAGTTTTTTGAGATTCAACCAGATTATGCTAAGAATATTTTGATTGGGTTTGGCTATATGGAGGGTGCTCCTGTGGGTTTTGTTGCAAATCAGCCATTACATTTAGCGGGTTGTTTGGATATAGATTCATCAAGAAAAGCTGCGCGTTTTATAAGATTTTGTGATGCTTTTAATATACCAATAGTAACTCTTGTAGACGTTCCTGGTTTTTTACCTGGAGTTGAACAAGAATATAATGGAATCATTAAACATGGAGCTAAGCTTTTATATGCTTATGCGGAAGCTACAGTACCGAAAATTACCATCATTACAAGAAAAGCTTACGGTGGAGCTTATATCGTGATGAATTCAAAACATCTTAGAGGTGATTTGAATTATGCTTGGGTGAATTCCGAGATTGCTGTAATGGGAGCAGAAGGTGCTGCTGAAATTATTTTCCGTGAAGATAGTAAAGACCCTGAAAAGAAGCAGAAGAAGATAGATGAGTATAAACAAAATATTACTTCTCCATTTATTGCTGCATCACGTGGATATTTGGATGATATTATTAAACCACAAAATACACGTTGGAGAATTTGTAAGGGATTGAAATATTTACGAACTAAAAAAGTAAGTATGCCTTGGAAAAAACATGATAATTTACCGTTATAAGAGTTGACAATGAGTAAGCCATTATTTGAAAAAGTATTAGTTGCTAATAGAGGTGAGATTGCACTTCGTATCATGAAGACATTGCGTCTGATGGGAATTAAGTCTGTGGCAATATATTCTGAAGCTGATACAAATTCCGATCATGTACAATATGCAGATGAAGCATATTATATAGGAAATTCGCCAGCTACAGAAAGTTACCTCTCGATAAAAAATATTGTTAGCGCGATAAGATTAAGTGGAGCTCAAGCTGTTCATCCTGGATATGGATTTTTGGCAGAGAATTCTCAGTTTGCCAATATACTTAAAAGGGAGGGCATCACTCTTATTGGTCCAAGCGCAAAAGTTATCAAGAAGATGGGTGACAAGATTGAAGCTAAGAAAATTGCTATCGATTCTGGCGTAAGCACTGTTCCTGGTTATATGGGAACTATAAACAATCTTGAGCAAGCTAATCAAATTGCTGGTGATATTGGCTTCCCTGTGATTATTAAAGCAGCTGCAGGCGGCGGTGGGCGTGGTATGCGTGTTGTTGAGAATGAGAAGCAAATGGAAAAAGCTTTTGAATCAGCAAAGTTCGAAGCAGAAAATTGCTTTAATGATAGTAGAGTTTTTATTGAAAAACTTATTGTTGCTCCTAGGCATATTGAAATTCAATTGATAGCTGATCAATTTGGTAATGCAGTATGTTTAGGTGAACGTGAATGTTCAATACAAAGATACCATCAAAAAGTTATTGAAGAAGCGCCAAGCTCATTCGTAGATGAAGAGACTCGTCAAAAAATGTACGCAGAAGTTGTTGCCTTATCAAAAAAGGTGGGGTATTTCTCTGCAGGTACTGTCGAGTTTATGATGGATAATGACAAGAATTTTTATTTTCTTGAAATGAATACTAGGCTCCAAGTTGAGCATCCAGTAACGGAGTTAGTTACTGGTTTTGATTTGGTTGAACAGATGGTTAGGATTGCTGCGGGTGAAAAACTATCTTTCACTCAGGAAGATGTGAAGCTAAATGGTTGGGCTATTGAGTGTCGAATTTGTGCTGAAGACCCAACACGAGGATTCTTGCCATCAAGTGGTAGGATTTTAGAGTATCATGAGCCTCCGAAAAGCGCTAATGTCAGGATTGATAGTGGTATTGGAGCTGGTGGAGAAGTTAGTATGTTCTACGATGCTATGATAGCAAAATTATGTACTTATTCTGAAACTAGAGAAGAAGCAATTGAGTTAATGAAAAAATCATTAGGCTCATTTATTATACACGGTATATCTCATAATATTAGTTTTCTTGAGGCGCTGATTCACCATGAGCGCTTCGGAACTGGGGATATTCATACTGGATTTATCGACGAAGAATATCCTGATGGATTTTCGGGTGCAAAGCTAACTTCAGAAATTAATGAAGTATTTCTATCTACTGCAATTCTTGCATTCTTGACTGAGCAGAAAAGGGCTGTTTCTCTACCAAATCAGTTGACTGATCAGTCAAATAAGATTGGTACTAGATGGATTGTAACTATTGATAAAGGTCAATTTCCTGTAATGATTAAACCTGTCGAAGACGGCTATAATATAAGACACGGGTCAAGTAGGTTGACCATAAAAAGTAATTGGAATATCGGAAATCCTTTAATTGCTGCTATTATCAATGGGCAGAAAGTAAATATCAAAGTTGAGCGTATTTCTACTGGGTATAGGCTGACATATTCTGGAATAACTGTTGATACTTATGTTCGTTCACCAAGAATGTCAGAGCTTGAAGCTTTAATGCCTGATCGAGGTAGTGATGATGATCAATCAGAACTTGTCGCTCCATTGTCTGGTCAAATTGTTGGAATAAGCGTAGCTGAAGGGGATAGTGTTGTTCCTGGACAAGAGCTAGTAGTTTTAACTGCCATGAAAATGGAAAACATAATTACTGCAGAAAGAGCTTGTAAAGTTTCTAAAATTATTGTGTCTGAAATGGATAGTGTTTCAAGTGGCCAGGTTTTAATTGAATTTGAATAGATGTATTTAAATAATACACATATTGTTATTTTAAGAAACTGAAGAGGTTAAGCGATCTGTTGTTTCCATCACTTGCAAGAAGTGAAAGGTGGCGCAGTTATTCATATAATTATCTGTGAATATTTCTTTCATTGCGAGGAGCGAAGAGACGTGGCAATCCAGATCTCTTGAACCAAGTGATATTTTTTATGTGCTAAGGTGTCTGGATAGCCGCGCTACCGCTCGCAATGACGAGGTGTTATTAGTTTGTAAGATAAGTAGGTGTGATCTAGTCAGAAAATATTATAAATTTATAATATATAAAGTTATTAGAATTTATGAGAGATATTATTTTTAAAATTGTTATTACAACTACGCAATCTATTCGATTTTGTAAGAATATTCTAGTTTCTACATATAATTGTAGATTTGAGTTATTGTCAAAAGTTAAACTAGTATTACTATATCTATTCCTTTTTCTTACTGTTCCTGGGGTGGCTGTTTGTAAGTTGAGATCTGAGCCCGAGCAAGAAGAGAGAATGTTTCTCAGAATGACAATAAACGTTGCATACTACACTAAAGTTGCAATTTTAGTTATGTTATATTATATGTACGAAGGATGATTCCTAGTTATTAGCTGAAATCTTAATTTTCTTTCTTGGTGGAATATATAAACTTTCATTTTCTTCATTAAAACTGTCACTAAGTTCCATTATTCCAACATAATAACTTCCGTTTTTCACAAGGCTAATGATTGACCAGCCATTTTGCATGTCTTCATTAATTTTTTCTAGTTCAGGACTATTTTCAGTGAATGATACTAGTTTTTGTTGTAGATTATTTTTATTCATAATTTAATTAAAACAGCAAAATAAAAGTTAATATTTGTTTATACATCCATCATATAAAAAATGTTAAAAATTGCAAGTTAAATATAATATCCATCTATAAAAATTTTAAAGTTATTTTGTATATTAATGATATAGATATAAAATAATTATCTATATAGTTGTGAATTAAAGTTAGGAATTATAATCAAATAAAGTATAATCTTATTATTGTTTTGATTATAATGGCTCGTTTATTGACAATGATGATGTTGCGTATTATGGTCCCATCTTTATATGATAAAATTAAGTTTAGAATATGTTTGAACAAGGAAAATATAAACTAAAGCCTGCTGACTACATAGAATCATTTGAGAAGATGTTGCTTATTAGGCGCTTTGAAGAGAAGTGTGGGCAATTCTATGGTATGGGTATGATTGGTGGTTTTTGTCACTTATATATAGGGCAAGAAGCAGTGATTGCTGGAATTCAAAAAGCAAAACAAAAAGACGATAGTACGATTACAAGCTATCGTGATCATGGTCACATAATTATGTCAGGTATTGATCCAAAATTTGTCATGGCTGAACTCACTGGTAGAGCTTCTGGGTGCTCAAAAGGAAAGGGTGGATCAATGCACATGTTTAATAGTGAAGGGAAGTTTTACGGTGGTCATGGTATTGTTGGTGCTCAAGTACCAATAGGTACAGGCTTAGCATTTGCTGAAAAATATAATGAAACAAAAAATATATGTTTTACGTTTTTAGGTGATGGGGCAGTAAACCAAGGTCAAGTTTATGAAGCATTTAACATGGCTGCCCTTTGGAAATTACCAGTACTATACGTAATTGAGAATAACGAATACTCTATGGGTACTTCATTATCTCGTTCTACAGCAATGACTGATCTATATAGAAAAGGTGAATCGTTCGGTATTCCAGGAGTACAAGCAGATGGAATGGATATAGATTCTGTTTATAATGCCGCTCTTCAGGTTGCAGCTCACGTGAGAAAAGGTAATGGTCCAGCAATTATTGAGGTTAAGACCTACAGATATCGTGGACATTCAATGTCAGATCCAGCTAATTACCGTACTAAGCAAGAGGTAGAAGAATATAAGCAGAAAGATCCGGTTGCGGCTGTGAAAAAGCTAATTCTTGATAATTCTTACGCAAGTGAAGATCAAATCAAAGATATTGAAAAGAAAGTTAAAGCAAATATTGCTGAAGTTGTAGAATTTGCAACAAATGAGCCTCTTCCAAGTGAGGATGAGCTATATACAGATATATATAAATAGGATTAATTATGGCAGAAATTACAGTGCGAGAAGCTTTGCTTCAAGCCATGCAGGAAGAAATGCGAAATGATAAAAATGTTTTTGTGATGGGTGAAGAAGTCGCAGAATATCAAGGTGCATATAAAGTAACTCAAGGTCTCCTGGAAGAGTTTGGTTCAAAGCGTGTTATTGATACACCAATAACTGAGCATGGTTTTGCAGGTCTTGCGGTTGGTGCGGCTTTTGCTGGTCTTAGGCCAATTGTTGAATTTATGACTTTTAATTTTGCTATGCAGGCATTTGATCAGATTGTAAATTCAGCTGCAAAAACTAATTATATGTCAGGTGGTCAGCTTGGTTGTCCAATTGTTTTTCGTGGGCCAAATGGTGCTGCAGCCAGAGTTGCAGCTCAACATAGCCAAAACTATGCAGCAACTTATGCACATATTCCGGGTTTAAAGGTCGTTGCTCCTTATAGCGCAGAAGATAGTAAAGGTTTACTTAAAAGTGCAATTAGGGATGATAATCCAGTTATTTTTCTAGAAAATGAAATAATGTACGGTCAGAGCTTTGATGTTCCTGATAGTGTAGAGCCAATTGAAATTGGTAAAGCTAAAGTACTAAGGGAAGGAGAAGATGTAACAATTCTTGCTTTTTCAATCCAAGTTGGTTTGGCACTTCAAGCTGCTGATATATTAGCTGATGCTGGAATTAGTGCAGAAGTTATTGATCTTAGAACTATAAAACCTCTTGATGAAGAAGCGATAATTGAATCTGTAATGAAAACAAATAGATTAGTTGCAGTTGAAGAGGGGTTCTTTTTTGCTGGAGTTGGTGCGACTATAGCTTCAATTGTGATGAAGGACGCTTTTGACTATTTAGATGCTCCGGTTGAAGTTGTTGCGGGTAAAGATGTGCCTTTGCCTTACGCAGAAAATTTAGAAAAAATGTCGCTTCCAACTACTGAGGAAATAGTTGAGGCTGCAAAACGCGCTTGTTATAGAGAAGATAATTTATAAAAGGTAGATAAATGCCAGTAAAAATTTTAATGCCTGCCTTGTCTCCAACGATGGAGCACGGTAATCTTGCAAAATGGATTAAAAAAGAAGGTGATACAGTTTCTGCAGGTGAAGTTATAGCAGAAATTGAAACAGACAAAGCAACAATGGAAGTTGAGGCCGTTGATGAAGGTGTTCTCGGCAAAATAGTTGTACAAGAAGGGGCTCAAGAAGTTGCTGTTAATTCTTTAATTGCTGTTTTATTAGAAGAGGGTGAAGATGCATCTGCTATAGATGACTTTGTAGCGAAGAATAGTGCTTCCACACCCGCGCCGGCTGCAAAGCAACCTGAAACTGAAAGTAAACCAGCTCCAGCTGCAGCACCAATGCCTTCTGCTCCTCCAGCTAAAGCAGAACAAAAAATAGTAAGGCAAGGACCAGCTGGTAGAATTTTTGCATCGCCCTTAGCTCGCAGAATCGCTAGTAATGAAAGGATTAGTCTTTCTTCAATAGTTGGTACAGGCCCACATGGTAGAATAGTCAAAGCGGATGTACTGGCAGGTGGCAACGCAAGAGGGAGAGTGCAAAGACACCCACAGGAATATAATTTAGTACCAAATAATAATATGCGCAAAGTAATCGCAAAACGTTTGGTAGAATCAAAGCAAACAGTTCCACATTTTTATTTATCAGTTGAGTGTGCTATGGATTCTGTTCTTGAAGCGCGGAGCCAAATTAATGCGAGTTTTGGTGATGATAAGTCAAAGAGATTATCGGTAAATGATTTTGTGATTCTAGCAACAGCCAAGGCATTGAAAGATGTGCCTGAGGCAAATGCTAGTTGGAGCGATGAAGCAATAATGATGTATAATAATATTGATGTTTCAGTAGCTGTTGCGATTGATGGTGGTTTGGTTACACCAGTTATTAGAAATGCTGATCAAAAGGAGATTACAAAAATTTCGTCTGAGATGAAAGATTTGGCAAAAAGAGCAAGAGAAAATAGCTTAAAACCAGAAGAGTTTCAAGGTGGTGGATTTAGTATCTCAAATTTAGGAATGTATGGAATTAAGAATTTTAATGCGATAGTTAATCCTCCGCAAGGATGTATTTTAGCAGTTGGAGCCAGTAGTAAAAGAGCAGTGGTAATTGATGATCAAATTGCAATGCGAACAATGATGGATGTTAGTATTTCATGCGATCATAGAGTAGTTGACGGAGCTGTTGGTGCATTATTTTTGAATGCATTCAAAAAATATATTGAATCACCTGTATTAATGTTTATTTAAGAGCGATTTATGGAAAATTTTGATGTAGTTGTTTTAGGTGGTGGTCCTGGTGGTTATGTTGCAGCAATTCGTGCTGCGCAGTTAGGACAAAAAACCGCAGTAGTTGAAAGAGAGCATTTAGGTGGCATATGTTTGAATTGGGGATGTATTCCGACAAAAGCCTTACTAAAATCAGCTGAACTATACCAAAAAATGCTTCATGCTGAAGAGTATGGTATTAAAGCTCAAAGTGTTGAGTTTAATATTGAAAAAATTGTTGAAAGGTCAAGGGGTGTATCATCTAAGTTAGTTGGTGGTATTGCTGGTCTTTTAAAGAAAAATAAAGTTACTGTTATCAAGGGTGAAGCTAAATTTGAAAACTCAAAGCAATTAATCATTGATGGTAAAACTCAAGTAATGGCTAAGAACATTATTATTGCAACTGGTGCAAGAGCTAGAATATTAGATGGTTTTGAACCAAATGGAAAAAATATATGGACTTACAGAGAAGCTTTAGTTCCTAAATCCACGCCAAAATCAATGGTAGTTGTAGGATCTGGCGCAATAGGTATTGAGTTTGCGTGCTTTTATAATGCGCTAGGAGCTGATGTAACTGTTTTAGAAGCAGCGGAGAGAATACTTCCAGTGGAAGATGAAGAAATATCTAAAATGGCTAGAAAGTCTTTTGAATCTAAAGGTATAAAGTTTAAAACTGGTGTTAAGCTAATATCTCAAAAAGCAAGTAAATCTGGTGTTTCTGTCCATTTTGAACATACTGGTAAAAAGGAAAAAATTGATTCTGAAATATTACTAATGGCTGTCGGGATTGTTGGAAATACTGAAAATATTGGGTTGGATAAAACTAAGGTGAAACTTGATCGTGGGCATATTATAACGAATGGAGTGATGCAAACATCAGATAGCGGAGTTTATGCAATTGGTGATGTGGCTGGAGCTCCATGGCTTGCTCATAAAGCTAGTCATGAAGGGATTATTGCGGCAGAAGCTATTGCAGGTAAAAAGCCACATAAAATGACTAAAACAAATATACCGGGTTGTACTTATTCTAGTCCTCAGATAGCGAGTGTAGGATTAACTGAAAAGGCGGCAATTGATGCAGGTCATACTATAAAAGTTGGTAGATTCCCTTTTTATGCAAATGCAAAAGCTCTGATAGTTGGTGATGGAGAGGGACTAGTTAAGACAATTTTTGATGCAAAAACTGGTGAAATGCTTGGTGCTCATATGATTGGTTCTGATGTTACAGAACTTATTCAAGGTTATGTGGTTGCAAAAGAAATGGAAGGTACTGAAATAGATTTAATGAATACCATTTTCCCGCATCCAACGTTATCTGAAATGATGCATGAATCAGTATTGCAGGCCTTTGACAAGCCTATACATATTTAATTTATTAAAAGGTAGATAAATGCCTAAAATTATAGAATTATCACAATCGTTAAATGCTAAACTATGTCATGATTTAGCAGGATCTATTGGTACTGTAGATAATTGTTTAAGCTTAATTGAAAATGATAATGAGGAGATTAGTAATCAAGCAAAGGAACTAGCTATAGTTGAATCTGCAAACTTAGTTAAAAGAATTAAGTTCTTTAGAACTGCATATGGTCTCTCAGAAGGAGAAAATAAGTTTAGTCTGGTCAATTTATCTAAACTACTGCAAGACTTTTTTGTAGATACTAATATAGAACTTTCTATAGAGTATGCGACAGGTGTAATATATATTAATTCAATGACAGCTAAGGCTATAATATGTTTAGCAGTTATTGCAGGTGATGCTGCAGTTTCAGGTGGGGAAGTCATGATTTCTATTCCAGAATCAGATAAAATTCCAATTATCATAAAATCAATCGGAAAAAATATTGTAATTAAAGAAAGCAGTTTAAATGTCTTAAAGGGAGTTCCAAGAATCCCTGTTGCAGTGGGTAATTGCCGTGAGCATTACATTAATGCAATATGTGCTCATAGAAATTATGAGCTAAAAGTTGCAAAATCTGCAGATTCGTTGGAATTTAGAATGAATAAAAAATAGCGAGGTTACTATGAGTGAATACAGAATAGAGACTGATTCTATAGGTGAGATTAAAGTTGAAGATAAGTATTATTGGGGCGCTCAAACTCAGAGGTCGATTAATAATTTTAAAATAGCAGGACAAAAAATGCCAATGGAAATGGTAAGGGCTCTAGCTATTTTAAAAAGATCAGCAGCCAAGGTGCATTCTGATATCGCGGCTCTAGATAAGGATATTGCAAGCGTAATCATTAATTCAGCTGATAGAGTTTTGGGTGGAGAATTTGATAATAATTTTCCGCTAGTCGTGTGGCAAACTGGTTCGGGTACTCAGTCAAACATGAATATGAATGAGGTGCTTGCGAGTATCTCTAATGAAAAACTTACTAGTAAAAAAGGTGGTAAATCCCCGGTTCATCCAAATGATCATGTTAATATGGGGCAATCTTCAAATGATGTTTTCCCAACAGCTATGCATATTGCAACGGTGGTTAGTGTTAATGAAAAACTTATTCCAGCCTTAAAGAAAATTCATAAGAGTCTTGAGAAGAAGGCAAAAGAATGGAAATCAATTGTAAAAATTGGACGTACACATTTGCAAGATGCAACGCCAGTTACTCTAGGTCAGGAATTTTCAGGTTACGCTAAGCAGATAGAATTTAATCTAGAGAGAGTTAAAAAGTCGCTTGAGAACGTGCATTTTTTAGCTCAAGGTGGTACGGCTGTTGGAACAGGCATAAATTGCAAGCCAGGATTTGCTGAGAAATTTGCCGAGGAAGTATCAAATTTCACAGGTTATGGTTTTAAAACTGCTCCCAACAAGTTTGAGGCTCTTGCTTCTAACGATGCACTTGTAGAGTTTTCTGGAACACTAAATACAATTGCAGTGAGCATGATGAAGATTGCAAATGATATAAGATTGCTTGGATCAGGCCCGCGTTGTGGTATAGGGGAGTTGAATTTGCCAGCAAATGAACCAGGATCGTCAATTATGCCTGGGAAGGTTAATCCAACACAGTGTGAAGCGATGACTATGGTTTGCGCGCAAGTTATGGGTAACCATACAGCAGTTACAGTTGGCGGATCAAGCGGTCATTTTGAGCTCAATGTGTTTAAGCCATTAATTATTCAAAATGTAATACATTCAACTAATCTACTCAGCGATGCAATGGTAAGTTTAGTGGATAACTGTATCGATGGGATTAGGCCAAATATAGATAGAATAAACTCGCTACGTGATGAGTCGCTGATGCTCGTTACTGCGCTGAATCCGCATATTGGATATGATAACGCCGCAAAAATTGCTAAAAAAGCCTTTGCAGATGGCACTACATTAAAAGAAGCAGCAATAGAGCTTGGTATAATATCTGTTGAGGATTTTGATAAGTTTGTAGTGCCAGAGGATATGGTTGGGCAATAAATAGTTGTAGATCTAGTTATCTGTTTTTTTTAACTAGTGTCTTAAGTTTTTTATCAAATGTTAGTAATGATGTTTTGCCTATAGATTTTGCTGCAACTATAGAGTCAACAATGTGTATGTTGTGCTTTTGGTAAATATTCAATGCGTCTTGCAATAGTTCTTTTTCGGCATCAATTCCTTTATATGATATGAAAGAATTCATAGTATCTATAATTTTATTTTTTGGCACCTTGTAGAATGAAGACAAAACAAATATTACTTCGACAAAAACTGATTGTTCAAGAGTTACGCGTATATCTCCTTCCTTAGCTTGATCAAAAATATTTTTTGACTCTTTAAATTGTTCTTCATTGTCCGCAAGTAGATAGCGTAGAATAAAGTTACTATCTACAATATATTCTTCCACTCTTTATTTTCTTTTTTTATTGCTAGAATTATTCCATGCATCGTTGCGAATTTTATCAAAAGGTAAATTAGTTTCCTTATTGTAGTTTGAGATAGAGCCGGCTACATCAGTAATTGGAGAAATCACAGCGTGTTTATCATCAACTATTTCAATCACTATCGTGTTAGTTTTGAATAGATCCCTAAGCTTTTTTGGTAGTGTAATTTGCCCTCGAGGACTTATTGATAGAGTTTTACTGATCATTTTAATATGCTTTACTAAATTATTAATTCATACTTATTATTATATACATATTTTTTATAGAAGTACAGAGATTAAGTATCTTCATATTACAAATCAACATGTAAAAATATTGGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAA
>sequence20
AAACTCTCTCATCAGACATTATCTTGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCTTTAACCTTATAACTTGATTAATAATTTCTTAATACTTTCGGGAGTATACTGTATTTAGTAAGGCCAGTATAGATATGGATGAGATTCGCAGCCTTCTCCATTATATACTGGCCTACGTAATATCAATTATAATTATAAGAGATACTTAATTATTATGTATATAGTTACTAAATAAATCTGTAAATCTTATCTTTTTAAAAGTGTTTTTTGGGACGTTTTTTTGTGTAAAATGTTGTAAAAAGTTACAAATTTACATTCCTAAAATCATACCTATAGAATTTTTAAATTATCTAAGGCTGCTTAACTTATAATTATAGGTTTTATAATTATATCAGATGTAGGTAGAATTATGGCAAATAATATTAATATTTCTAGCAGTACAGCAAATATCTTAACAACTTATGTAGGTAGAGGAAATCGAGTAAAGGGTGTTAATGAATCATCTAATAAACTTAGTATAAATGGTATAAGCTTATATTTAAGAAGACATTCGTCACTCAATCAAATTGCAAGAGATATAAATGCTTATGAGAGACGTACACACGTAAAAGCTCTGGTAACCAAATATGGGAATCAAGAGAGGATTATATTAATGTCAAAAAGTCGTACTATCAACATTGTTGATTCTAGCAAGGTATTATTTAATCTATATAAAAATGGACTTATATCGACTGTAAACCTTAAAAATGCAAACGGTAATGGAATTATAAATTATAGTATTTGGAATGTAGCGCAATTATCGAAATCATTACTTTCAGATAGTACTATATATTTACTTTCTGGTAGTCCTCAGCAAGAAAGAGAGGAAGATCAAAGATTAGCTATAGTTGAGGCTAATGATATAAATGCTATTTTACTCAGAATGAATGAGCTTGAAGATACTGCATATTCAAGTGATGAGGAGGAAAGATTAGATACGATTGACGCTTATAAGCGAGATGCGATAATTCGGAGAATGGATGAACTTGAAGATGATGGATATACGAGCGATGAGGAGGAAAGATTGGATGCGATTGACGCTTATAAGCGAGATGCGATAATTCGGAGAATGGATGAACTTGAAGATGATGGATATACGAGTGATGAAGAGGAAAGATTAGATGCGATTGATGCTTATAAGCGGGATGCAATAATTCGGAGGATGAATGAGCTTGAAGATGCTGAATATTCAAGTGATGAGGAAGAAAGATTAGATGCGATTGATGCTTATAAGCGGGATGCAATAATTCGGAGGATGGATGAACTTGAAGATACTGAGTATTCGAGCGATGAAGAAGATAGAATGATGGAAGTTGACGCTTATAAGAGAGATGCGATAATTCGGAGAATGGATGAGCTTGAAGATGCTGAATATTCGAGCGATGAAGAAGATAGATTAGCTGCAGTTGACGCTTATAAGCGGGATGTAATAATTCAGAGAATGGATGAGCTTGAAGATGCTGAATATTCGAGCGATGAAGAAGATAGATTAGCTGCAGTTGACGCTTATAAGCGAGATGCGATAATTCAGAGAATGAATGAGATTGAGGATAATGAATATTCTAGTGATGAAGAAGATAGAATGATGGAAGTTGAGGCTTATGAGAAGGAAGCTATAGTGAAGAGAATGAGTGAACTAAAAGATGCTTATTTTGGCAAACGCTATTTGGATAATACTGGAATTACGGGATCACTAGTTTGGCTGCAATTATAGAAAATGAAATTGGTATTGAGAAATTTATACATTTTGACAATAATTAGTTGCAAAAGTAAATAATTATGGTCTTATTTTGGATAGAAAACATCTATATTCTTCATTGACTTTCTTTTGATAGTATTCTAGGTTCTGCACTTAAAATAAATTTAGAGTATTGTAAGGAATGAACAACGCGATAAAAATTTTCACAGACTATAGACAGTTTCAGATATTCATTTTAGGGATATTTAGTGGTATGCCCCTAACGATAATTTATTCTACACTAGCTACTTGGATGAAACAGATGGGAGTAGATATTGCTGTTATAACAACTTTTGCAATAGCCAGGGTTTTCTATTCATTGAAATTTCTATGGGCACCATTTATAGATCGTATTGATTTACCAGTATTGGGTAGAGTTGGGCATAGAAAAAGCTGGATGTGTTTAGTTAGTGGGGTTATAGCTTTTATTGCTTTTGGCTATAGCCAATACGATCCAACTCAGTCAATAACAGAAATTTATGTTTTGACCATTGCTCTTGGCCTGGCATCAGCAACTCTTGATATAGTTATAGATGCGTATAGAATTGACACAGTGGATCAAGATAAGCAATCTATCGCAGCTGCAAATACTACATTCGGATATTTGCTTGGTGGAAGGCTAATAGCAGGAGTTGCAGCATTTTATATTGCTGCTGAATATGGATGGGAATATTCATTTTTAATGATTAGCGTACTATATGTTATTGGTATCTTTTTTATGCTTAGCTTAAAGGAACCAAAAATCGAAAGAGAAGAGTTTAAAGCTCTTTCATTACAATCGTGGAAAGTAATGACTATTAATCCTTTTACAGACTTTTTGCAAAGAGATGGAGCAATAATTATTTTACTTGCGGTAATATTTTATAAGCTAGGAGATGCATTTCTTGGAGTTGTAGCTTATCCATTTTATTTAGATCTAGGGTTCACTTTAAAAGAAATAAGTTGGATAGTAAAAATCTTTGGATTGTCTGCGCTTGTAGTTGGTTCATACATTGGTGGTTTTATCATGTATCGTTACGGGAATTTTAAGGGTTTGATAGTTGGTGGCATTGCTCAGAGTATAACAAACTTTTCTTTTGTTTGGCTTAATCATATGGGGCATGATACAAGCGCATTGGCTATTGCAATTGCTATTGAGAATGTTGCATCAGGAATGGGAAATGCAGCTTTGGTTGGTTATTTAAGTTATTTATGTAATAAACAGTTTTCAGCTACTCAATATGCTCTTCTAAGTAGTGCTTCTGGCTTATTTAGTCACTCGATAGTGATGTATGGTGGAAGCATGGTTAAGCAGATAGGGTATGATATGTATTTTTCATTGACTGTAGTGATGGCAATTCCTGGGCTGATACTATTATGGTATTTAAATAAAAAATATGGATTATCGAATAATCCAAGTGTAGACCAGAAAACATCGGACTCTATTTAAAATAATGAGATTTAGATATATTTTAAGGTTTTATTTATTTTTGTGTTATTCTTATGGGGTGTAATTTGTTTTCTATTTTTGGAAGATAACAATGAAAATTAGACTTTTGTCAATTTTAGCTTTTTTGTTGATTGTTAGTATCGGTCTGACAATACCAGTTGCTGATGCAGCAAAACGTAAATCCAGAAAAAAATCATCTGGTAGAATCCAAACTAGTTTAGTTGTTGATGGTAAGACGGGTAAAATATTACATGCTTCCAATGCGCGTAAGAAAATATACCCGGCTTCTCTTACAAAAGTTATGACTCTTTACCTGATATTTGAAGCTTTAGAATCAGGTAAGCTAAGCTTAAACCAAAAACTGTATGTTTCTTCATATGCAACTAAAGCACGACCTTTGAAATTATATTTAAAGCCCAAAGAAAGAATAACGGTAAGAGATACAATTCTTGGTTTAATTGTTAAATCTGCAAATGATGCAGCAAGAGTTGCGGCAGAAAATATAGCCGGTTCGGAAAAAAGGTTTGCTGTATTAATGACAGCAAGGGCGCGTCAGCTTGGTATGAGGAATACTACATTTACCAATGCTTCAGGCTGGCATGATGCAAAACAAGTTTCAACAGCTGTAGATTTAGCGAAACTCTCAATAGCGATTAAGAGAGATTTTCCTCAATATTACCATTTCTTTAAGAAGACTAGTTTTAAATTTAGAAAAAAAACAATCAGAGGACATAACAGAGTTGTTGCAACATATCCAGGTGCTGAAGGTTTGAAGACTGGTTTCACTAATCCTGCCGGGTGTAACTTAATTACTGCAGCAACAAGAGGTAATAAGAGTTTAGTTGCAGTAGTAACTGGTAGAAGCAGTAGCGTAATTAGAAATAAAAGAATGGTACAGCTTCTTGACGAGCATTTCGGTGTAAGGCATAAAACAATTAAAAAAGCCAAAAAATCTAGAAATCGTAATACAAAAGTTGCTAATCATAGAAGGTCATCGCAGTCAAATCGAAGAGTGCGATAGTTAAGTCTTTATAAATATATTATGTATTAGTTTAGGTTTTCTGACATAAAAAGATTATGTTCTGCTTTGCGACGTTTAACTAATCCAGGTAGTATTTTACCCCCTGCATATACCCATCGTAGGAACTCTAATCCAGCATCTTTATACTGACCGTAATTTATTTTTTGTCTTATGGTGGATCTTTGTAGAGCTGATCCTCCCATATTAAATGTAAAAGATACAAGTGCTGCAAACTGATCATCGCTTAACACAGATGTAATATTACGCAAAACCGACTTTTCTGCGCATAGTAAGTCATTGCGTAGTATTGATTCTGCTTCTGAACGCGAAATATAATCAAATTTTTCATGTGCTAGAATTTTATGACCGAAACCAATAGTATTATGTCCACCTGAACAAATATATGGTTTCGATCTGAAACCTTCAAAAAATTTTATGAGCCTAATTCCATTTAGGTTAGTATGTCTATGCATAGTTTTATAGTTTATTTTTCCAGATTTTTCTAAAAGTTCTGTGACCATAATAGAAGCTGATAATGCCCGCAAAGATTGCTTGATCATCAACATTCCAAATTACTTCAAGATATTCAATAACATGTGCTGTGGAAGCTATAGCCTTATATTGAAGATACTTTACCCCCATATATAGTAGAAAAAAGCAATATGCTAGTATTGGCCGAACTGAGCCATTTAACGTATCAACCCATTTTATATCAGTTTTATATGTAGAATACAGCGATGCTTGCTCAATTATATCTTGAGAAATTTGTATTTCTTGTAGAGTCCTAGCTGTATTTGCATTACTAAATTTAATTTGCTTTTCTAGGATGTCTAGTTCATGCTTCTTATCATTTAAATCTTTAAAGTACTTTATTATTTCTGGTACGATTGACGTAATAAATCCGGCAATTGATGCAAGTAATGTAATCATCAGGTTTACTCCTTTTAGAATTTATGATTTTGTGAAATTATTTTTCCTAAGAAATGGTTTGTTTCAGGAAGACGAAATAGTTTAATAATATCAAATCTATTAGTTGTTGTAGTCATTACGTGAGCCGAATTATTTTCCCACAGTATATTGTCATGCCAATCTAGTGTTTTAGCTTCTTCGGCATTCTGCTTTATAACTAAAGTAAGTTCAGGTAAAAGTGTTTTGGCAAGAGTGATTGTACAGTCACCAGATAAATATAAATAGTGATTTGAAATATCAATTGGTGGTGTATATTCTTCATCTATTCCAGTGAATTTTTTAGGAATTTGACTAGATCCTATATTTATTTTAATCCAACTATCAGTATCAAATAGAAAAAAACATTTCTGTTCTTTGACAAAAACTATTGTATTGTCTTTGACTTTAAGAAATTCTATCTCTTTTGATTCATGAGATAAGAAACATACTTGGTTTTTTCTGTCTCCATCCGTGATTATAAACTTCTCTCCAACTTTTAAAGATTCTGGAATATCTTTAGTAAATCCATTGACACTATTGCTTAGAAATTGATCAATTAACAATATTGATTCGTTAAATACTATATCTTTTTCTGCTTGGCCGGGCACCATTAGGTTTATTGAGAAATTATTTGTTTTCATATTCTTATATTTTAAGTTTATTCAGCTATTATATTTATTTTGAAATCAACACTAAGCTCCAGCTTCGAAGTATCAATTTTTATCTGATTAGCATCAGATATATATTCATAAGAATTCTCTTTAGAAATTAGTGTTATTTTATATGTTTTTTTGGACTTAATAGATTCAATAGTCCATATTTCTTGTGAATGAGTTCGATCAATCCATTGAATATGTAAGATATCTTCGTTGATTGTAGAAGAAACTATATAAGGTTTTAGTTTTGCCTGAGACCTATCTTGAAAATTTATGATTTTTTCAATGTTTCCAGCTTTAAACGCTATTTGTTGTTTTTTTAGATTTTCAGATACTCTTATAATCATTGGGTTTCTTTCAAGTAGGATGAAAATTTCTCCGTCTCTTTCATCTTCAATTACTTTTTCTGTTCCACATAATCCGCGAACAAGTTCAGATATTTCATAAAGTCCATTTTTGAGTTTCTTTATATTTTTGAATTTTATTATTTCTTTTCCAGCTTGGGCATATTGCCAGTCGCTAGAAATATATTGTTCTAATCTTTGTCCAGCTACAATAAGTTTACTGGTCGTATCAATTAAAAAAATATTAGCTGCTTTAGACTGTTTAAAGCTAACTATTTCACAAATAGCATCTGATGGTTCAATATTAGCTATATGATTCCATTTTTTATCTAGTCTTTTTGGTAATTTTGAATATAAAGCAGTTTTATTTTTACCGCAGAAATATATTGATATATAGCTTCCAGAACTACCTTCTATATTCATTGGAAGATCAAGAAGAACTAAATCATTATCTAAATATGATTCTAAGCTATCGAACAAATAATTGGCATTTCCATAGCTTGAATAATTACTCTGTCCATCAACAACACCAGTTACTATCGACGTATCATTTGATATATTGATATCAATAACTCTAATAGTATATTTTTTAAAGATGTCTTCGAATTCAATAAAATCTGATGGTTTAACGGTGACTTTAGGGTCAAAAATTCTTAGACGAACTACTTCATTTTCATTATGGGCATTTTGTAATATAGATGAGCCAATAATTTGTGCTTCATATGAAGTTAGTACAATTGGAAGACTTAACGATATATCACGCGAAGAAGAGTTTAGTTCTTTATTAAATCGAACATAGCATGGATTATAATTATCATTATTATTTATATAATATATACCAAGATGGTTAATTTTTACTGTATCACTGGTTCTAGTTATTTCAGCAAAGCTATCATCGTTAAGTTTCATAGCTATGCTATTTATTGAAGCTGCATTTTTATCGCTGCCACGCTTTTTGAATGAAATAATATTTTTATGATGAGCGTTAATATCAAAAAAATATCCAGCTCTTAAAGTGTTTATTGCATCTATACCTGTTGGATTATTGCTAAAAATAAGGCCTTCAATTTTTTCATCTACAGAAGATACGTCTATTGTTTTAATATCAAGACCACAACGATAAGATATTTCTAGTAGGATAGATGCAAGGTTACTTGAGCCAAATTTATAATTAACCCAATGCCCTTTTTCCCATAAGCATCCGTCACTCCAAATGTTTGCAACTGGCCATGCTGGATATGGACGTGCATCCCAACACCACAAGAACATTTCTCCGATATATTCTTGAGTTTTCCAAAATTCAATAAAAGCTTTTATGGCAATGCGTTGTATTCCAAAGTTAGTTTGACCATTTGAATGTTTTGGAACTCCACCATCAACGCAATTGTCGTCAAAGAAAACGTTTGGTTGGTTTGTAGCTTTATCAATTGATGGAAATCCAAATTCTGTAAACCATATTGGTTTTGATTTAGGTTCCCATTCGGTTAGTTGTTTATCAGGATTTTTATGTGTATTTTCCCACCAATATTTTAGATTTTTCCATGCATATTCTGGATCTATAGTCTTTTTTGAGCTATTTAGTGGATCTATGTAATAATCGTATCCTTCGCCGCTTGAAAAGCCTTGTTGTATTTCTTCTTGCGAAATATCAGATGATAATGATTCTGTAACAGGAAAATAAGCATCAATTCCAATAAAATCTATATTTTTTGAAGACCATAAAGGATCTAGATTATACCATCCTCCATCTGTATGATGATATTCTGACCAGTCTGCTGCATAGGTGACTTTTACAGAAGGTCCGACTATGGTTTTTACTATTCCAGCAAGTGCTACTAGTTCCTTCACGGCAGGAAATTGGTTTTTGTGATTTATTCTAGTTAACCCTATAAGCTCTGATCCTATGACAAAAGCATCAACATGATCTTTTACTAAATTTGCATAGTGTATGATGAATTCATTATATCCGCCTTTTCTATTGAAGAATTTTGCTACATCATTTGGACTTCCAGTAACTTTTCCTCTCCAGGGTTTTCCAGTTACGTCCATCTGAAACATCGGATAGAACATGATATTTAATTTACGCTTTTTAAGCTCAATTAGATATCTGATAATACTTGCATCATTAATGCTTCCACCATATTGAGGATTGCCATACTTATCTTTTGTGATCTCATGTGCCGTTTCGCGAGTATAAGAAGATACTTTCCATATTTCGGAATAGTGAGAGTTTTTATCTTTAAATTCAACAGCTGGCTTGATTAGACAGTCTTTTATGTTAAGGCTATTACCAAACCAACATACTACGGGTGATACCCATTTGATATTAGAGCATGTGGATTTAAGTTGATTCAGACTATGGATGCTATTGGGGAGGTTATAGTGATTGTGGCTATTAATTTTCTTAGAATTTACTTTTTTTCCATGTTCTGAAAGCCTTGATTTTGTTTGGATTTTTGTATCATATACAAATTCGCCTGAACCAGGGATCATTACAATCGATTCAACCATATCTTCTACAGAAGTTTTGGCTTTAACGTTGGCTTTCCGCAAGACTTCAAAAGTGAAATTTGGTATTATGTCGCCAAATTCTGTAAGTGGTAATTCTTCAAAGACAACATAGGCAAGACCTCTATATGCAGGCGTTAACTCTCCAATTTTGCTTTTTATAGTTGGATCAGGTAATTGATCCTCGCTACCTTTATAAAGTCTGAATTTATATTTACTAATATCAATAACATCATCTCCGAACCATACTCTTTCTATATCTTCAATTTTTCCAAGACAGATTGACATAGCAAAGCTCAGAAAATATTCAAGTTCAGTCGTTTCTTTTGTTAGATCAATATTTGGTCCTTTAAGATACTTTTTAACACTGCTAGTATTTCTCTTTTCTATGATTTGATCCGCCCAGATAATTTGACCAGGAGTTTTTACTCTTCCAAAAGTTAGAGGAATAGGGTTGCCATATTTGGCCATTGAGATATAGAAACTATCATGGATGTTAGTGAATTTATGAGTTGTTTTATCTCTTTTAAACCATTTTTTTTCAAGATAATCACCAGCTAGCCTGCCAGTATATCTACCAATTGTTGATAAGATACCCCCACCAAAATATTTCCCAAGACTTCCACCAACGCTAGATAAAATGCTACCAATCATAACTTTCCTTCATAATAAAAATATCAGATGAAGGATATTAGCATTTAATAAGTCTTGGACTAATCCCAATAGTTGTTATAATTAACTAACAGTGTTTACTCAAAAATAAAAAAGTAAGATTATATAATGAAAGTAAGAACAAGATTTGCTCCTTCTCCGACTGGTTATTTGCATATTGGCGGGGCACGGACGGCTTTATTTAATTACTTATACGCTAAAAAGTATGGCGGTAAGTTTTTGCTTAGAGTTGAAGATACAGATTTATCAAGATCAACAAAAGAAGCAAAGGAGGCTATTCTTAAATCGATGGAATGGCTAGATCTAAAGTTTGATGAAGATATTATATATCAGTCAGAAAGAAGAGAAAGGCATTTAGAAGTTGCCAATCAATTATTAGCTAATGGAAAAGCTTATTACTGCTTTACTGATCAAGATGAGATTGCAAAGCTTCGCGAAGAGGCAAGGAGCAAAGGAGAGCATTTTATTTTCAAATCACCATGGAGAGATGCTGCAAGTGATGAGTATCCACAAAATGTAAAACCTGTTATCAGATTAAAGGCTCCAAGAGAAGGAGAAACAGTGGTTAAGGATTTGTTACAGGGTGATGTGGTGGTACAGAATTCACATTTAGATGATATGATCTTAGTTCGTGGTGATGGCACACCAACTTACATGTTAGCTGTGGTTGTTGACGATCATGACATGGGTATAACTCATATTATACGAGGAGATGATCATTTGAGTAATGCTCCAAGGCAGCAGCTAATTTATATGGCGATGGATTGGGATATTCCTAATATGGCGCATATACCATTAATCCACGGGCCTGATGGAGCGAAGCTTTCAAAAAGACATGGAGCACTTGGTGCTGAGAATTATAGGGAAATGGGATATTTACCTGATGCACTGAATAACTATCTACTCAGACTGGGATGGTCGCACGGTGATGATGAAATTATTTCAAGAGAGCAAGCGATTGAGTGGTTTGATATTGATGGGCTTGGAAAATCTCCATCAAGACTTGATTTTGATAAAATGAAAAATTTAAATGCCCAATATTTGCGTAGATGCGATGATTCTGTTTTAGCTGAAATGATATTTGAACATTATAAAGGAGAATTATCCAAAGATTCACAAAAAGCCATCAGCAAAGCAATTGAATCTATGAAACCAAGAGCTGAGTTGGTAACTGATTTATACGAGCTTGCCAAAATGTTTATAGTCGATAAACCCCTTGCAATTAGCGAGGATGCAAGTCAAATAATTTCTGAGTGTGATAAGTCTTTAATAAAGCAAGTTATAGGGACTATTGGAGAAATAGAAGAATTTAGCAAGGATAATGTTCAGGCTGCGTTAAAAGAAATTGCTAAGAATAATGATTTAAAACTAGGAGGTTTGATGAAATATGTTAGGGCGTATGTCGCAGGCCAAACTAACTCTCCGAGTGTATTTGAAATGATTGCTATTTTAGGCAAGGAAGAAACTATATCTAGGCTCGAAATAAATGATTGAAAAATATTTAGAACATCATAGCCAAATTGGTAGATTGCACTCAAGTTACCTGATAAATACTGATGATGCTGAGCGTGCTCTTTCTGAGGTAGAATCATTTTTAAAACAAAATCTCTTGGATAACTCGGATATAGAAAAATCTGCCGATTATTTATGTGTCAGGAGGCATGATAGCAAAGCCAAAAATATTGCGGTTGATCAAATCAGGGATTTGCAGAATTTTTTATATAAAACTTCAGTCATTTCAGGACAGAAAGTGGGTGTAATATTTGCAGCTGATGAGATGAATTTAAACTCTTCAAATTCTTGTTTAAAGCTACTAGAGGAGCCATCTTCCAACGCTCACATATTTTTAATTACTGAAAATGCTGCAAGTATAATTTCAACTATTAGATCTAGATGTGCTAAAATTAATCATTTTTACCATATAGGTGAGCAGAAGATAATTGATGCCGAATTTATAAAGCCAATCTTGAAAAGTGCTAGTACTAAAGAGAAGTTAGATTTTATCAAAAAATTTGCTTCAAAAGATAGAGATTTTTGGTCAGATTTTTCTAATTCTTTAGAAGAAATTATAACTAAGTTTGCTAAGAATGCTATTGGTACTGATGTTAATTTATCTGGATATGAGTTAGATTTATTTAATCAGTTAAAGAGCAGATCTCCACTGTATATACAAAGAAAATATCAGGATATAAAAGAAATTATTGATAATACCAATAATTATGATCTAGACTTACGAAGTAGCGCAGTTTTGCTTTTAGATAAAATGAGATATTAACTTCTTATGTATAACATTTTTTTTCAGCCTGTGAAATCCATAATCCCGATGAAGGAAACAGCTGAAAAAGCTCTTAAAAGGCTTGGTATACATAATTTAAGAGACTTACTTTTTTGTACACCATACTCATATAATATTAGTGATAATTCGTCAGATTTAAGAAATCTTCAGACCGGTACGTTAGTGCAAGCTGAAGTGACTATAGATTCTATTGATTTACCAAAGCTAAAGAGACTGCCGACTAAGATATACACCTCTAATGAAACTGGTGAGCTAGTTCTAGTATTTTTTAATAAGATTCCACCATTTATTTTTTCGCGCTTAAAAGAAGGTAGTAAATGTGTCGTTTCTGGAAAAGTACAAAAGTTTGATGGTTTTTATCAAATAAATCATCCTGAGTTCATTTTTAAGAAAGAACTAACTACGCCGGTAGAACCGGTATATCATCTCACATATGGGCTAATTAATAAGCAATTATACGGGTATATTCTTTCTGGAATATCTGCACTAGAGTCAGCAATTAAAGCTAGGGTTTCTTTTGGTAACATCATAGATGATAGCTCGCTTGAGATATTTAATGAGAAGCAATATATACAGAATTTATTGCAAGAGATAAAATCCTTGCATCTAGTTGGAGTAAAGGCTGATAGTATGGAAATTGAATCATCATTAGATGAATCTTCTAGAAGACTAACTGTCAAAGAATTATTTGCAAACCAAGTATCGCTAGCAAAATTGAAGAAAGCCGAGAAGCAAGTTTTGGGACATAAATTTTCTATAAATTTTAAACTTCAAAAGCAGATTTTAGATAATCTTGGTTTTGTTTTGACAAGTGCTCAAGAAAATGCAATTGAAGAAATTCAATCGGATCAAACAAAAGAAGTACAGATGATGCGTCTTTTGCAAGGGGATGTTGGAGCCGGAAAAACGCTAGTTGCTTTGATGACAATGCTCAATCCTATTAAAGATGGTTTTCAAGCTGCTTTAATGGCACCAACTGACTTATTAAGTGTTCAGCATTTTCAGTTTTTTCAAAAAGCTCTAGAAGGAACAAATATTAAATGCGCGCTCTTGACCGGTAAGACTAAATTAAAAGAAAGAAGAGTAATTAGTGCATCATTAGAAAGTGGAGATATTGATATTTTAATAGGTACTCATGCTTTATTTCAAGAGTCGGTTGAGTTTAAAAATTTAGGTTATGTTATAATCGATGAGCAGCATAGATTTGGTGTTGAGCAAAGAATGGAACTGATTGCAAAAGCATCGCATCCAGATGTTTTGGTAATGACAGCAACTCCTATACCTCGCAGTCTTACCCTGACTATGTTTGGTGATATGAGTGTTTCGTTGCTTAAAGCTAAGCCAAAAAATCGTTTGCCAATTATTACTACCATTACTTCCAATACTAAGAAAGATAAGGTTATTGAATCTTTAAATAAGAAGATCGAAGAAGGTCAGAAAATCTATTGGGTTTGTCCTTTGATTGATAAGAATGATAAATCATTAGAAGATGAAGATTTAGCTATTTTTGCAAATGTAATGGAAAGATATGATGAGATAGAAAAGTCGTATCCAGGTATGGTTGGAATATTGCATGGTAAGATGAAACCCCATGAGAAAGATAAAATCATGCAGAGTTTTAAAAATGGAGAGATTAAGATATTGATTGCAACTACCGTGATTGAAGTTGGAATTGATGTTCCGGATGCGACTCTTATAATTATAGAAAATGCTGAAAAATTTGGCTTAGCACAACTGCACCAGCTTCGTGGTAGAGTAGGGCGTGGGGTGTTGCAATCTTATTGTATGCTTATGTATAATCCCAAAAGACTATCTGCAATGTCGCGTAAACGTCTAGAGATAATGCGTAATAGTAATGATGGGTTTTATATTGCCGAGCAGGACTTAATATTAAGAGGTGGTGGCGAAATTCTTGGAACAAAGCAAAGCGGTGAACCGAATTTCTTTTTTGCAGATCTTGCAAGAGATATTGAAGATCTCATTAAAGTTAATAAGCTTGCAAAAGCAGCAGATATATCAGAATTTGTTGATTTTCAAACCAAGCTCTTTGCTCGTGATAGAGAGCACCTAACTAAGAGTGGTTAGTTTACTTGCAAGCTAACTTTCAAGTTTTTTATAATTTTGATTCTAAATAGAGTAGTATAACATGCCTTATACTACTCTTAGATAGCGGTTTTTTTATAACCTTATTACTCTATATCCGACGATCCGCTTAGAAGTTCTATATCGTCATCAGATGATTTGCCTAATAGTTCTAAGCCGTCAATACTATCTTCGTCTGAAATATAATAAATAGGATATCCAGCAGCCATACTTCTTACTAGACTTGGACCAGTTGGGTATCCTCCAAGTCTAAACGCTGTTATTTCGGTAGGAAGTGTTGGAGATTGCATCGGTGAAAGTATAGGTGCTCTAGTTAATAGTTCATTTGGTGAAGGTGGAGTTGGATCAAATTCAAGTAAATCTAGATCATCAAATTCTTTACTTAAGCTTCTCCTTGGTTTTCCAAACATAAAAATTCTCCATAATTAATTACATACAATAAGAATAGTAACTAATAACTTTTTGGATTACAATCACATTCTAAAAATTGCTATTTATTTACTATTTATATAAATTACTATATTATATTTAAGAATAAATTGTAATTTAGAATAGTATTTCTACTGTTAGATTTAAAATTAAATACACAGTCTACAATATTTTATATAAATATAATTAACTAGTAGCTTATTACTGAGGTTTGCAATTATCAGGTAAGTCTATATAATGAGCAGAATTTTATAATTATAAACAAAAAAGTAAAAATATGTTAATTAGTGCTTGATTATAGTATTAACATATGTTAGTATTTAGCATATGAAAAATTATATTTAATAACGAAAGGTAATAATTATGTCATTTTTAAGTTCTGTTTCTAGCTATTTTGGTGGAAGCGCGAAGCACTATAATAGTGCAACTAGCCACCTATCAAAAGCAGGTGATGCTGCATATAAAAGTGGTAGTAGCGTTTTAAGTGGTGCAAGTAATTTCTTTTCAACTACAACTGCTGTTGCTGGTGGAGCTGCTTGGAACACGTATGAGTGGATTGCAGGAAAAATTATAGGTGCAAATACAGCAACTCAATTTGCAAATGGTTTTGCTAATTTGTTTGGTGGTGTAAAAGCAACTGGTTGGCTTGCTTCTGCTACCGAGTTTGCTGCATTATCACTAGTAAAATATCCAGTTTCTTGCATGGCAGTATTGGTAACTACTACAATCGTAGCAACTCATCCAAAGGAAACTTTTGAAGCTATAAAAGGCTTTGGTAAAGCTGTATACAATTTTCTAGATGCGGGTTTAGAATTAACTGAAGCTGTAGGCGAAGCTGCTCTTGCTCTTGGCTTAAAAGGTGCAGAACTGCTAGATCCAATCGTAGATTCACTTATGGATACAGCTAGAGATACTGGTGTTGGAGTTGTTGATATTCTTAAGGATGTTGTTGATTCTGTAGATATTGAAATGGATACATTTAAAGAAACAACAGTTGACCCATTAGGTGGAATTGAAATTGTTACTGAATACGTATAATATTTTAGTTTTCTCCCAGTGCTAAAATAGGAAAAGGCCGCATGATTTTTTCATGTGGCTTTTTTTATTGTGAACTGAAATATTGTGATGCAAGAATTTATATTTTTATTAAATGATTAATTGTTCTGCAATTCTTGTTTCTTGAATGTGCTACTTAATATTTACGAATTACTTATCGGCAATGCGATGCAGATAAAAGACGATGCAGATAATTTTTATAACAACTTGACTTCTTATTAGATACATTTAAAATCAGAATTGGAACGGTAAGTTTACCGTTCTGGAGTGTAGCAACTCCTACTCAAGCGGTAATACCAGCCGTATAAATGGTGTAATCCTCGATTTTAGGGTCGGGGAGACAATAGACATGTCCAGGGAACGATGCTTGTGCATCGCACCTAAAATCTATTGTAGCTGTCTTGGGCGGTTTTGCTAACTCTCCCGACTTCCAAGGGGGAAACATTAATAATCCTTTTTTTGGTAGTTGAAAATATCGAGGTTCTAGAGAGAGCCTCTTTGTTTAATAGAAGAGGAGCATAAAAATGACATGTAAAAAATCAATATTATTTAAGCTTGTAGTTTTGTTATTACAGAGACAGAGCAAAATATCAATCTGCAACGGAGATAAACTAATAAAGGAGCGTGAAGTTACAGAAAATAATATCTTTGACACTTTAATAGGCAATTATATTCAAAATTTAATAATTAATAGAATGCTAGGTTATTATATGAGAGAATGTAAAAATGGAAGATAAGCAAAAAAACCTTATAGATGCAGCTAAGCTAGGGAAAATAATTGATATGTACAGGCTAATTGCAGACGGTGCTGATCCATTTATTTTTGATCAAGATGGTAAAAGTGCATTGCAGTATGCGGTAGAATCTGATCCAATTAAGGCGTATACATTATTGGATGATTTAAGACTAATATATACAAGTCCAGCACAACAAGAAATTATAAAATATTATAGCCAGTTAGCAATTACTCTTGGAGTCAATAATTCTTAAGTAAGTATAAAGTTTACGAGTTGGATTAAGTGTATTTTATACAAAAATTCATCTTACTTATTTTTAGCGCCAGCCTAGAACTCCACGCCAAGAAGGTTTTTCAAATGAATCAATATTTTCTACTATTTTGAGAAAATTTGTAATTCGTACAGTGAATGGTAGAACAATAAGTTCGTATACGACTTTTAATGCTGTCATAGTAAAGATCATAGATAGTAATTGCGATATTGGTAAAAATGCGCCAAATGCGATACTTGCAAATATTGTAGTTTCAATAAATGCTCCAACGCAGGTACTTAAGATTGCGCGAAAAGCAAAGTTACGACCATCAAGCATAATTTTAAGAGTTGATATAGCAGAAGCATTAAGCAGTTCACCAATGAAATAGCTTGAAAGCGATGCTAAAAATATCTTAGGAGTAAGTGCAAAGATAGTGGTAAATTCTTCATGTGTATGCGAGTGATCGCTAGGAGGAAGCTGGACAACAAGATATAATGTAAGAGTCATAAATAAATTACAATATAGTGCAATCCAAATGACACGTCTACTTGCTGAAAAACCATAAACTTCAGTTAAAATGTCATTCATAACATATAGAAGTGGGAAAATTATTATTCCCCCTGGGACAGTAAGTGAGCCGATCTGGACTAGCTTCGTTGCTGCTAAATTTGCAGTAATTAGGCAGATAACAAAAGTAAATGCGATAAAGTTATAGTATTTAAAATTTTTATTTTCTGGGATTTGAGTCATAATTATCCTTTTTATATAGGCAAGAAATCCAAGCCATTATTTTAATTAAGTTAATTTATACCTACATAAATAATCAGATACAATTAGTAGTGTACTAATAACATCTAACTGGCTGATTAAATACGTATTCCCAGACTTTTTCCCACCCGTGATTGTGCGAGATATCCTTAAATATTTGTTGTTTTACGCATGAACTCGACGCTTTTTGAACAAATTTATCTGCAATAAATGGGGGGATTATAGTATCCTTCCCACCTGAAATATGTAACTGCGGAATATGTTTGACTTGTTTTGCATAATCTATAGGGTTTAGAGAGCCAATCATTGGCGTTACATTATGATGCGTAGTAAAAGCAACATGATCCAAGTTACCACTAATTGTAATGATATCTTTAGTCATATAGTTTCTTGCTGCAATCAAGACAGCGATGCCACCACCTCCAGAGAATCCAACCAAACTAAATTTATGATTATTATTGATACTATTTATTACATCATTCATAGATTGTACGGAGTCATCTGATAGTCTTTTATCAGTCCAATACTGCATATTACATTTAGGATTAAGGTCCATAGGTGTATATTGGCAAGGTCTTCCTATGTAGACAACATTTGGTCGATTATCCATAGCAGCAAGCTTAATCAGCATCTGTCTTCTTGGGGTAGGGTTTCTAGAAACTCTATATTTTCCATTAAATGCAGCCCCATCACCTTCAATATAAAAAACATAAGGTTTATGTTTATTTGTAACTTTTTGATAAGTTGTTAGCCAAAAGTCCCCACCTTTGACAAGAATTTTTCTAAATCCATAAAGTTCACCGATTGTAGCTGGGTCTTGGCCATAAGTTATAGTTTTACAACTCTGTAATACTAACGCTGCTATAGCTAATAATATTATATTAGAAAGGTATTTCATCATCTAAATCACTATTATCAAAAGTTGGATTATTATTTTGGCTGCTAGGCTGATTTGGAGCTGCTTCGCCACGAGAATCAAGTAAGATCAGAGTTGAGTTAAAGTTTTGCAAGACAACTTCAGTTGTATATTTTTCTTGATTGTCATTATCAACCCACTTTCTAGTCTGGAGCTGGCCTTCTATGTAAAGCTTTGTTCCTTTTTTGACGTAGTTTTTAATTACTCGCACTAAGCCTTCACTAAAGCACACGATTCTATGCCACTCTGTCTTATCTTTTTTCTCACCTGTCATTTTATCTTTCCAGGTCTCGCTTGTTGCGATACTGAAATTAGCTATTTCTTTGCCATCATTAGTCGTTCTAATTTCCGGGTCGCGACCAAGATTTCCGATAAGAGTTACTTTATTTAAACTTCCTGCCATTACTCTAATACCATATAGTTTTTAAAAATTAAATACTAGCTATAGCATATCTTATCGATAGGCGAAACAAAAATATAATGAAATTTACTATTGCAATAAGAAGTTTTTGGACACTATAATACCTTGCATCAGTTTTTTCATATTTCAATAGATTTTTTATGCAAGAATATATAAAAGTACGCGGAGCTAAGGAACATAATCTGAAGAACGTAAATGTTGATATTCCTAGAAACAAATTTATTGTAATTACGGGTCTTAGTGGTTCAGGCAAGTCTTCACTTGCATTTGATACGATTTATGCTGAAGGTCAAAGACGTTATGTTGAAAGCCTTTCGTCTTATGCAAGACAATTTCTTCATTTACAAAACAAGCCTAATGTTGAGTCAATTTCAGGATTGTCGCCAGCAATTGCTATAGATCAAAAAACTACTTCTAAAAATCCACGCTCAACTGTTGGTACAATTACAGAAATATATGATTATTTAAGATTATTCTTTGCAAGAGTTGGTGTTCCGTATTCTCCTGCTACTGGTCTACCCATAAAGAGTCAATCTATTTCTGAGATGGTTGATATTGTTAATGCTCTGCCAGAGGGTACAAAGATATATATTTTATCACCTATGGTTCGTGGTCAGAAAGGAGAGTTCCGACGCGAAATTGCTAATTTAAAAAAACATGGTTATCAGAGATTATTTCTAGATGATGAGCTCTGTGAAATAGATGAACTACCCAAGATCGATAAAAATAAAAAACATAATATTAATGTAGTTGTAGATCGTTTAGTTATTTCTGATTCTCTAGGTAATAGAGTTGCTGAGAGCTTAGAAGCTTCACTGCAGATGGGTGAAGGAATTACATACATAGATATTGTTTCTCTTCCATCTAAGCACGGGACTAAGCATAAAGATGGTGATAGAATAACGTTGTCAGAAAAGTATTCCTGTCCAGAATCTGGCTTTCAGCTTGAAGAAATAGAACCTAGAATTTTTTCATTTAATAGCCCGTTTGGTGCTTGCCCAGCATGTGAGGGTATAGGAAAAGAATCTTTTTTCGATAAGCAGCTTATTGTTCCTGATGAAAGCTTAAGTATTCGTGAAGGTGCTATAGTTCCTTGGAGTAAATCTTCATCTAAGTTTTTTGTTGATACTTTGGAGTCCCTCGCAAAACACTATAAGTTTAAATTATCAACACCATTTTCTGAGCTATCAGATAAAGTAAAAGAGATTTTATTTTATGGTTCTGGGGATGAAGAAATAACTTTTGAATATAGCGATGATCGTAAAACCGAAATTATTGAACAATCATTTGCCGGAATTATTCCAAGTTTAGAAGAAAAGTTCCGTAAGATTGATACAGTTTGGATGCGAGAAGAACTTAACAGATTTAAGTCCAAGCATGATTGCTCTGTTTGCGGAGGATATAGACTAAAAAAAGAATCTTTATGCGTAAAAATTGATGGTTTAAACATTGGCCAGGTTTCTAAGAAGACAATTTTCGAGGCGCTTGAGTGGTTTGAGAATATAAATGATAAGCTTGATGCTAAGCAGCGAGTAATTGCAAAACGTGTTGTGAAAGAAATTCAAGAAAGGCTGAAATTTTTAAATAATGTCGGATTAGAATATTTAAGTTTATCGCGTGAGTCAGGTACCCTTTCTGGTGGAGAAAGCCAAAGAATTCGTTTAGCTTCTCAAATTGGTTGCGGTCTTAGTGGCGTATTATACGTGCTTGATGAACCATCTATTGGTTTGCATCAGAGAGATAATTCTCGTTTGATTTCAACTTTGAAAAATCTGAGAGACCTCGGTAATACGGTCATAGTCGTTGAGCATGATGATGAGACTATGCTTGAATCTGAGCATATTATTGATGTAGGGCCGGGTGCTGGAATTCATGGTGGTAAAATTATTGCAGAAGGGACGCCAGCTGAAATTAAAGAGTCTGAAACAAGTATTACCGGTCAATATTTAAGCGGAAAATTATCAATACCAGTTCCGGATAAAATTAGGTCAGGTCATGAAGGAAAAGAAATTATATTAACTGGTGCTAGAGAGAATAATCTACAAAATCTTTCAATAGCAATTAAACTAGGTACATTTATCTCTGTCACTGGTGTTTCAGGCGGAGGTAAGTCAAGCTTAATTATTAATACATTCTACCAGGCCGCGCTAAAACAACTTGAGCCTAAATCGAAAATTTATCCAGGAGAGCATGATTCAATTAAAGGCCTAGAGCATATAGATAAGATTATTGATATTAATCAATCACCAATCGGTAGAACGCCTCGTTCAAACCCAGCTACTTATACTGGTGCATTTACTCCAATCCGTGACTGGTTTACAGAGCTTCCTGAGTCAAAAATTCGTGGTTATAAAGTTGGGCGTTTCTCGTTTAATGTGAAGGGGGGACGTTGTGAGGCTTGCCAGGGAGATGGTCTAATTAAGATTGAGATGCACTTTTTACCAGATGTATATGTGAATTGTGATGTATGTAATGGTCAAAGATATAATCGTGAGACACTAGAAGTAAAATACAATGGTAAAAATATTGCAGAAGTTCTTGATATGACAGTAGAGGATGCAGCAAAGTTCTTTGAAAAAGTGCCTGCTATTCATGAAAAGCTGGCTACATTGAATGAAGTTGGTCTTGGATATATTAAGATTGGTCAATCTGCAACTACTTTGTCAGGTGGTGAAGCGCAGCGTGTGAAGTTGGCGAAAGAACTTTCGAAGCGCTCAACAGGGAAAACTTTGTATATTCTAGATGAACCAACCACCGGTCTTCATGTAGATGATATAAAAAAGCTTTTATCAGTTCTGCATAAGCTAGTTAATAAGGGTAATACTGTTGTTGTTATTGAGCATAATATGGATGTTATCAAAACTTCAGATTATATAATTGATATAGGTCCTGAAGGTGGAGATAAAGGCGGTACAATAGTTGTTGAAGGTGCTCCAGAGGTAGTGGCTGCATGTGAAGAGAGTCATACTGGAAGATATTTGAAACAATATTTAAAGTAATTTTTGTGTGAAATTAGTTTGATAGATGGATTGGATATATTTATTAATAGCAGGAATATTTGAAATTGGTTGGCCAGTGGGTTTGAGAATAGCTCAAAGCTCTGAGAAAATTACTGGTATATCTATTGCAGTAATATGTATGGCTTTTAGTGGTGCTTTTCTATATATGGCGCAAAAGACTATACCTATGGGAATAGCATATGCAGTGTGGACTGGAATAGGTATAGCTGGAACTTTTTTGGTTGGAGTTGTGTGGTTCAACGAGCCTAACTCGCTAATTAATTATCTCGGCATAGCATTAATATTTGCTGGCGTAGTAGTATTAAAATTTGCCAATTCTGGGGCTTGATTTATTGTAGATTTATATTATTAGCTAGGAACAAAGTGAAGCTTGTCACCAGTGATGAGTAAAAGTGACTTGGCAATCCATAGGTTGCGACAACAATTGATATGTTTATATATGATAAGGTGTCTGGATTGCCGCGCTTCGCTCGCAATGACAGGATGTCTGTACTAGCTTGTAAGAAACTAGGCGACTCGGTAGTTTAATAGTTTGATAGTTATAAATTTATTTTTTCTAAACAAATTTTCTCGTTGTTTTTTGGAGTTTTTCAATTTTGTCCTCTATATTCGATGTATGAAAATCTTCAGAATATTCTTTTTTCAGCAGAACTAGGATGTCCAGGTCACTTTCATATGAATATTAAGATGGAACCTTCAAACTATCTATCCCTAACCCATGTGCCTCTAGAATATGAGCCAAACAAAATAATTTTCGATATTTGTTTCTCAGCTACAGATAATATTTTCGCAATGATGATGGCTAATCTTTAATAATTAACCTCAACTCGACGTAAGGAAATCTATAAAACTAGGAACTAGAGTTTGAATCAAGATAAGTAAGGAAGTAGAGTGCAAGTTTGAACTTAAGAACCAAAAGAGGTTATAATGCTTGCACCCATAGAAGATATATTCTGCGATATTGATGATTATTGCAAGGAATTTTATCAAAAACAATCGGAATATTTACTAGCAAATTTC
>sequence21
AATTCTCCATACATCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTCGTTATTTAACAATGCCAATAAATTATTATATTGCTTTAAGGTTTTTCTTGAAGGTAACAAAAATTTTATAGTGAATAAATTATCCAGAAACTACTTTATTTCTGCCAGTTTCTTTTGCTTCATAAAGTGCTTTATCAACTCTAGATATGAAATCTTCAATTGTTTCTTCGCTATTGTACTCCGCAATTCCAATTGATGTAGTTTTCTTTAATGGTTCTTCATGATCAGGGATAACAAAATCTGTGTTTTCTATTGCTGCCCTTACTTTCTCTGCAATTTTGAGGCCTTTATCTAGATCAATATTATTTAGCAGCACAACAAATTCTTCTCCTCCATAACGAGAAATCAAATCTGTTACTCTAAATGATGATTTCAGTGTGCTTGATAGAGTTTTAAGTACTGCGTCGCCAGCTGGATGGCCGTAAGTATCATTTACTTCCTTAAAATGATCCATATCGAACATCATCATACACATTTTTTGGTTTGTTTCGATGGATTTTTCAGCCATTTGTTTAATGTGAATATCGAAATATCGTCTATTAAATAATCCTGTTAGTCCATCTTTTGTTGATAGATCAACGCTTTCTTCAAGTTCAGTACGCAGATCATCTTGATATTGTTTTTTTCTAAGCTGCGTTTTGACTCTTGCTTGCAGTTCACTTCTATCAACTGGGTAAATGAAGTAGTCATTAATACCAATCTCCATACCTTTCATGACCATTGGTATATTATCTTCTTCAGCAAGAAGCATTAAAGAAGCATTTTTGAAATTTGGTTTAGACCTAAGCATTACACCAATTCTTAGTGGATCATCAACATCCATTTGACAGCTGATAATAACTAGATCTGGAGAAAAGGAAGCAAATGAATCAATCTCATCGGGTGAAGATAAACCATATATTTGCTCTGTAATATCAGTTAAGTGAGCTTTGAGGTTCTTTGCTTGAATTATATCATCATCTAGAATAAGTATTTTGCATTCTGTAAAAGTATCTTTAACTTCAATTACATTTCCTCCGAGCTCAGCAGAAGTTTTATTTCTTAGCTTTAACTCATCAATCACTGTTTTCATTCTAGTTAGAGATTTTACTCTAGCAAATAAAGCTGTATCGTTAATTGGTTTTGTAAGAAACTCATCAGCGCCAGCTTCAAGTCCTTTAACTCTATCTGCAATATCAGATAATGCAGTGACCATCACTACTGGTATATGCGTTGTTTCTGGATTAGATTTAATTTTACTGCAAGCTTCAAATCCATCCATTTCTGGCATCATTACATCAAGCAAAACTAGATCAATTTTATTCTGCTCAAGTGCTTCAAGAGCTTTTATACCATTGTTTGCAGTGATGACTGTATAATATTCACTCAGCAATTTTGCTTCTAAAAGTTTCACATTTTGTTCAAGATCATCGACTACTAAGATTGTTGCTGTCATTATATTTCTCTATTGGGGAGGTTTAATAAATTTATTAATTGCACTAAAAAAATTATCGATTGAAACTGGCTTTGATATATACATATCGCATCCAGATTTTGAGATTTTTGCCTCATCACTTTTCATTGCAAATGCTGTGATTGCTATAATCGGTATATGTTTGGTTATACTATTTTGTTTTAATAGTTTTATAAGATCAATTCCTGAAACTTCATTTAGTTGTATATCCATTAAAATAAGATCGGGTTTTTCCTTTGTAGTGATATCCATTATATTTAGTCCATCCTTGGAAATTACAACGTCATATTGTTGGATCATTAAAAGATCATGAAATAGTTTTAAGTTCAATTCGTTGTCTTCAACTATGAGGACTTTGCCCATAATAAAACAAAACACATTTATTAATTAACATTCACCAAACGCACGAGCAACCCGTAAGTTCTACAACCATAATGAACATTATATCATAAATATAGTCAGTGCAAGATAGTGGTGCAGTAGTTCTATAATATTTGTTAAGTCCAGATGTAAATAATGTTACAGTACGTGATCTTTAATTAACTAATAGGAGACTCTTGCCAAGTGCCTCTGGGGTCTTTTATGAAGTAACTGATTTCAGAACTGCGAATTTTACTTTTATCAAATATATTTTTTAATTCAGTTGCTTGAACTGAATTAGTTTCATCAAACACGAAAATAATTTTTTCTATCTCATCAAATGCAATCTGGCTATGTTCTGCTATAGATTCTAAAATTATTTGTTTGTTTGGGTTTACAAAAACAATAATTTCAGCGCTATTTAGGTTTTCAGGTTTTGTAGTTATTAGAAGTGATTGATCACCTGGCCTAGGATCATTTATTGTTGCGTGAGGGATGAAGTGCTTTTTAGAATATGTCCATAGCGATTTATCTAGACTGTTTGAATAATCTTCATTTTCTGTAATAACAAGAGTATTCAAATTGCTGTAATAACATTTTTCAGATATTTTACAGAAAGTTTTTGCTAAATCTTCCGATTGTGTTTGATAGAAGCTTATTTTTGTCATTATTGTGTTCTATGATTATAAATTTAAAGTTACCGATGTAGTGTATACTTGCATATATTTGTTACTGAAAGTATAATGATCTAATTATCAAAAGCTCTTTTGTTTATCATTATTTTAGAGCAGTTTTATGAGTAATATAGCATGTTAAGATGTACCTACATAGTCCTTATTCAAAATGATGAGGATAATATTCTAGATTTAGTGAATTCATTAAAGAAGGTTGATGGAAATTTTCGCAAGGAATATATTTTTGTTGATGATGGAAGTACTGACGAATCTCTTAGTATTTTAAAAATGGCTGTGAATGATTTGCCAAGAACGACTATAATTACTCAAAGCAATCAAGGACCAGCAGTTAGTATTAATAAAGCATCAAATCTTGCAACGGGAGATTATATTCATTTTGTAGAAGGTTCAGAAATACTACATTCAGAATCGACCTCGGTATTGCTGGAGTTATGTTTGAATTTTGGTGCGCAAGTTGCTCTAGGTGGAGTTGCACCAAATGCTTTTGTTGAAAAAAAGATTACTGAAGAAGGCTATCTGATAGAAAAACCCATTGAGAGTATTTTATTATGGAAATCTCCAGATATTTGCAGAATTGGAAAATCAGGTACATTAGTTAGTCGTGATTTGCTAGACAAGGTGGGTAAGGCCGATAGTAGTGTGTATTCACAGAACATGTCTTTATCTCTCCGCTGTGCAAAGAATAGTAAATTTGCTTACATTCCTGCTGATATAACTTATATAGCTTCTAAAAAACCTTCTGAGGATGCAAAATTTACTGCTTACAATAACTTAAAGTCTATTTATAATTTTGCTAAATCAAATGAAGAGTTTTTCTCAAAGTTAGTTCCACAACTGTTAAAGTCTTTAAGTCGTCAGATGATTTCTAAGGGTGATCAGGTTGGTTATTCACTTAAGTCTTTTACAAGTAAATATTTAAAAACTTCAAACCTGCGCAGCGTTCTTGAGGCATACAAAAAAGAGATTGATAAATTATTTTAATTTTTTTCCTAAAAGTCACTTGAAGTAATTTTTTCTGTGCATATATAACTCATACACAAACAGATTTTCAATTTAAAATAACATAGTGAGGTTAGCAATGAATTTTAGACCATTACACGATCGAATCGCGATTAAACCACATGCAGAAGAAGAAAAAACTTCAGGCGGAATTATAATACCTGATACTGCGAAAGAGAAGCCTATGAAGGGTAAAGTAGTTGCAGTTGGTAGCGGCGCAAGAGACCAAAGCGGTAGCGTAGTACCACTAGAAGTAAAAGTTGGTGATACAGTAATGTACGGCAAATGGGGTGGAACAGAAATTAAAGTTGAAGGTGATGATTTAATCATTATGAAAGAAAGCGATGTTATCGGTATAATTTCGAAATAAATAATAAATATTTTTAGATAGGAGATAAAAATAATGGCTAAGCAAATAAAATATGGAACAAAAGCTCGCGAGGAGATGATCAAGGGCGTGGATATACTTGCAAATACTGTGAAAGTAACATTAGGTCCAAAAGGACGTAATGTTGCGATTGAACAGTCATTTGGAGCTCCAAGAGTAACAAAAGATGGTGTGACAGTTGCTAAAGCTGTTGAGCTTAAAGATGCAAATCAAAATCTAGGTGCTCAATTAGTGAAATCAGTTGCAAGTAAAACTGCAGATGTTGCTGGTGACGGAACTACAACTGCTACGATTTTAACTCAAGCTATTGTAAAGGAAGGAAATAAGTCGGTTGCGGCTGGTTATAATCCAATGGATCTTAAACGTGGTATTGATATCGCTGTTGAAAACGTACTAAAAGCAGTGAAAAAAGCAAGTAAGCCAATTAGCACTCAGGAAGAAATTGCTCAAGTTGGTACTATTTCAGCAAATGGTGATAAACAAATTGGTGAACAAATTGCACTTGCAATGGAAAAAGTTGGTAAAGAAGGTGTTATTACTGTTGAAGAAGCTAAAAACTTTGGTTTTGAAGTTGATGTTGTTGAAGGTATGATGTTTGATAGAGGTTATCTATCTCCTTACTTTGTTACCAATTCTGAAAAGATGACCGCTGAACTTGATAATCCACATATTCTAATTTTTGAGAAAAAACTTTCAAGCTTACAGCCAATGCTGCCGGTTCTTGAGGCTGTGGTTCAGTCATCTAGACCATTACTAATTATTGCGGAAGATGTTGAAGGTGAAGCTTTAGCTACTCTTGTGGTAAATAAGCTAAGAGGTGGTTTAAAGGTTGCTGCTGTTAAGGCTCCAGGCTTTGGCGATAGAAGAAAAGCAATGCTTGAAGATCTTGCTATCTTAACTGGCAGTCAGCTTATTAGCGATGATTTAGGTATGAAGATGGAGAATGTTGACTTATCTATGCTTGGTAGTGCTAAGAAAGTTAAAATTACTAAGGAAGATACAGTAATTGTTGACGGTGCTGGTAGTAAAGCTGATTTAGAGTCAAGATGTGCACAAATGCGTCAGCAGATAAAAGAGTCTACATCTGATTACGATAAAGAGAAATTGCAAGAAAGATTAGCAAAACTTGTTGGTGGTGTTGCTGTACTAAAAGTAGGCGGCGCAACTGAAGTTGAAGTTAAAGAAAGAAAAGATCGAGTTGATGATGCTCTTCATGCCACAAGAGCTGCTGTTGAAGAAGGTGTCGTATCAGGTGGTGGTACTACTTTATTCTATGCTGCAAAAGCGCTTGATGGCTTAAAAGGTGCAAATGAAGATCAACAATCAGGTATTAATATTGTAAAAAGAGCTCTACAAGCTCCAATTCGTCAAATTGCAGAAAATGCAGGCGTTGACGGTGCAATTGTTGTAGGAAAACTTGACGAAAGCAAGTCTACATCTATGGGATTTAATGCTCAGGAAATGGAATTTGTTGATATGTTCAAAGCAGGTGTTATCGATCCAACTAAAGTTGTAAGAACAGCTCTGCAAGATGCTGCATCGGTTGCTTCACTTATCATAACAACTGAGTCTATGATAACAGAAGATCCATCAGCAAAAGATGATGCTCCAGCTGCTCCTGTTGGCGGAATGCCAGGAGGAATGGGTATGGGTGGAATGCCAGGTATGGGCTTCTAATATTTCCATTATTACGAGTATTTAGTATTGTTCGGGTCGCTTCAGGCAGCAATTAGCGCTGAGGCGACCCATTTTTGTAGTTAGACAATAGGTGTGATAATTAATTGATATTACGCAAAGATCTAATTTGGTTTGATATCTTAAATTGATTTAAGTTTATTTTTCTTGAGATTTCATCCCCGCGTACCAATTGCATCCCTGCGTTTCAATGTCATTCCCGCGTAGGCGGGAATCTAGTGATGCTTAACGCCATATAGATTGCTGCTTACGCGGGAATGACATCAGAAAGGACTATGCATAACATCAGTAATTAACTAATAGTGTTTAACCACTTTATTCGAGTAATAATATAATCAACAAGCAAGAGATATTATTATTTTTTATAATTTGTAAATTTATTATGTCAAAATTAAATAAGATTCTGTTCCACCTATTTGTGTTTTCATTAATTCTTGGAAATATAAATTCTACTTATGCAAAATCTAGACAAAGCCCACTTCGTAGTTTTGGTGATTATGCTCAAATTATTAATCCAGTTTTAGCAGCAGGTTTTGCTTCTCAAGAGAAAGGTTTTGGACATTTTGCAATTATTTACAGTCAGAGCTGGATTACAATGCATGGTATCAAACTGGTTTCCAATAAGGCAAAATGGGGGGCAAGTAAAAGGCCTGATGTGCGTGATAAGAAAGATCGCTTCGATGGCATGCCATCAGGACATACTAATTCTGCATGGGTTGCTGCATCCTATCTTCGAATATTTTCAGATGATTATAAATATGTTTCTATTCCATTATATGTAACAGCAGCAATCACAGGTTACAGTAGGGTGCATGCAAAAGAACACACTACAGCTCAAGTTATAGCAGGCGCAGCACTTGCTGAAATCGTTACATACATAAACAGCAAACTTAAATGGAGCAATGAATACCGCTCAACAAATTTTTACTTTGGTAAAAACGAAGTATCTGCTGGCTTTACGTTTAGATTATAGAATTTAATTGTTCTACTTATTAATCTCTGCTGAGCAAATTTTCTGTGTTGTTTCTTTAAGTTTTTTAACACGATTTATTAGGTAGTCCAGCTGTTCTTTTGAGATGGAATAGTTTTTATTGTACCTGGCATCAACATATGCAGCACAAAGTAGCTCAAAACATTCTCTTCTTTCCGGAGTGTCAATTGGAAATATTTTTAGTAAATCATCATGATAGACTCTAACCATACCACCAAGCTTTTCAAGATCATGTAATTTGGGTTTATAGCCGGCGAATACTAGGAGAATTGCGTTATATAGACTCTCTGTTGATTGATGGAGATAAAATGCGGCAGTGTTATAATCACTTCTTTTTATTGGACTAGCAACATCTATAAAAAAACCACAACCTCTCTTGAACCAATATTCATAATCATCTTTAGCTATTTCGCGTTTTTCGCTTTTACTTAGGTTTCTAGCTTCAGATAGAGGGGTTATGCCATCATCATATAGTAATATTCCATCTTTTTTAATGTCTGAGAAGAAATATTGATTTTTTTCCAGCTGTTTATTAACGTACATAATAGGCTCTGTAATCAGTGTAATCCAGGGATTTTGATGTAAATTTTGCTGATCAAGGAGTTTTTTAATCTTGTCCTCTATATTCGATTTATGAAAATCTTTAGAATATTCTTTTTTCAGAACAATGAGAATATCCAAATCACTTTCATAGGAATATAAGATGGAGCCTTCAAAATATTTATCTCTGACCCATGTACCTCTAGCATATGAGCCAAATAGAATAATTTTCGATATTTGTTTCTCAGCTGCAGATAAGATTTTAGCAGTAATAATAGCCAATCTATCCTTTATAATTAAACTTCTTTCTGGTAGCTCTGATTTCATAATTTTATATTGCTAGAAAATATTGGCAGGGTCTTCAAATATTTGTCAAAAATATTATGTTATGATAACTACTAAAAAGCAATATTTTTATATTAGACATAGCTGGTAAAATTAAATTTAAAATAAATACCTATACTCTACTTACATCTATAGCTCTGCGCGATAAAATCTAGTGGGTTTACGTGTTTGCCATCTGTTCTGATTTCAAAATGTAAGTGCTCTTTTGTTGTAGATCCGGTACTGCCTTGGCGACCAATAGCGATACCTCTTGGTACTATTTGCCCTGGTTTTACTTTAATCGTGCTTAAGTGAGCATATACGGTTTTGATTTTCGAATTATGCTGAATTTCTACAACATTACCGTAGCCATTTTTTCTTCCGGCAAAAATTACTATTCCTCTAGCTGCAGAATATATTGAAGCACCTTGCGTTCCAACAAGATCAATGCCACAATGTACGACTCTTTTCTTTTTTAGTGGATGTTTTCTAATCCCATATGGACTACTGATTTTTGGTTTGTAGATTGGCAGCATGACAGGGATGGTCTTGATAAGACTATCAAGTTTACTAAGTTCATTTTTAATATTAATTTTTCTTATATCGGCTTTTGAGAGTCTTTTTACGTATTGATACTGATGATTGGAAAGTATTTTATGCTTCTTATGAATTTTTAGAAGTAATTTATATATACGCACGATTTTATTTTGCGCTTCTTTTTTTATGATAGTTGGAGATTTGAAGTTTTCTTTAAATCTCTGTATGTATTTTGAGGTATAATATTTGTCATTAATAATTAGCCCAAGATCATTAGAATATATGCAATTAGTATTATCAATTTTACCAAGGTCATATACAGCGACTAGGTCACCTCTACTTAGATTATATGATTTCTTCAGAGAAGCTCCGATTGTTCTATATGAGTTAATGGAAAGATTACCCGAAGTGCACCCTTGTAATAGTGTTGCTGCTCCAATAAGTAAATAGAGAAGTGTAATTTTTTTTATATTTATAGTCATTTTACATATTTATAAATTCTAGTAGTGGGCCTAGAATCATCAAAGGCATAAACATTATAGCGCCGACGAGAAGTACGGTCACCAATAAGAATATACTTAGTTCTATACTAGATTGAGTTCTTTTGCTAATTATATTTTTAATTCTTTGCTTTTCTGCAAATGATCCGCTAATTGCAAGTGAAAAATATATTATCGGATATCGACCAATGAACATCGCAATTGCTGTCATATAGTTGAAGTAATCTGTAGATGTATCTATTCCAGTGAAGTCGGATCCGTTATTAGCAAAGCTAGAAGCAAAATTATAAGTAATATCTGTCACTGCCTGTGATCCGTGATAGATTATTAATTCTTGTGAGTATGGTAGTAGTAAAGTGATACCAGTGAATACCAAGACACCTACTGGCATTACTAGGAATACTATAATCACATAGTTGATTTCATTAATTGTAATACGTTTACCAAAAAAATTAGCGGTCTCTCCTGTGATTAATCCTCGCAAGAAAACAGCGACAATTAGGTAAGATAACATTGCAAAAAATCCAGATCCAACACCTTCGATTACAAATTTGCTCATAATAAGATTGAAGAATAAAATAAGTGTACTTAAAGGAGAATAATTTTCTAAGCACGCATTTGGCGAGCCATCTGAGCTAAGCGTGATGGATAATATCCACATTAGCGAAGGGAACTTGTCATATATTAGTTCTTTTCCCGTGTAATTAAAATTATCACCTAGTGTTTCTTTATCAAATATGAAAGGCAGGCCATATGTAGTTTCTCCTAGGTTCATGATGAATAGTGATGTGATCATAATGATAATGACTACTCCATATAATGCCCAGCTTAAGCTTCTTGCATCAACCAAATAGCCATAGGTGAAAATCATTGCGACTGGCATAAGGACTATTAAAAATAAGTTTAGCATTATTGCTTCTCTTGATGGAGATTCAAATGGATGTGCTGAAGCACTAGCAAATAAAGACCCACCATTTGCAACTAGATTTTTAATTGCTACTTGACCTGCAACTGGCCCCACATTTAGATGACTAGAATTACCTGCTAAGTTTATATATTCGATGCTACCAGTAAAATCATATGGAGTACCGTATCCTATCAGCATAATCGCAACTATTGCAGACATTGGTAGCAGAATGAATATCATAGATCTTAAAAAATCATCATAAAAATTACCAATATATGGATTTTGACTATTAATAATGCCCCGGATAAATGCAATAAAGACTGCAATTCCTGTTGCTCCTGATAAAAAATTTTGCATTGTTAAGGCAAAAATATGAGAAAACATTGATAAATCACTTTCTGGATCGTGGCTTTGCCAAAACGTTCCGGTTGAAAATGATATGGCAGCATTTATTGCACTAGATAAGCTAATCTTATCAAGTGATTCAGAATAAGTTGGTAGATATTCTTGAAAATAGATAATAGTGAATGTGAATATTATACAAATAATATTAAAGCACATCAAGCTGCCAAAATATTCTTGCCAATTCTGACTTTGCCAATGCCCGTGATTATCTTTTAGCGCTTCATGTTCAACAAAACTATAGCGAAAAACCCAGGCGATGTATTTGCCAAGAATAGGTGCAGTTAATGTGATTAGTGCAAAAAAGATAAGAGACGGTGAAATCATTTTCTTAAGCGTATCTGATGTGAACCATTATTATCAACTTCAAGAGTTAATGGTTTCTTTACACCACAACTTGCTAGAGTAATTGATATCATAACTAGCATTACAACATTTTTCATATTGTTTTTCGAGATTATTAGTTTATAGAATCAATTATAGAGAATTTTAAATGAGTAGGACAATATAAAGTATGAGGAAAGTTTTTAGTAAAATTATTATATGGCTAATAAGTCTAAATATTCTGCTTTCTATAGCGTCTGTAGCTTATGCAGAAAAATACTCTATTGATAGACACGATAGATATTTGGATAGTGAAGTTAGTTTTTTTGATGGTGACGGAAATAAAGTTTACTTAGACCAGTATGAGGGTACTAATATATTATTGGTATTCTGGGCTACATGGTGTGGTACATGCGTCAGTGAATTGCCTGCTCTGGATAATTTACAAAAGGACTTTCGAAAATTACCTTTCAAGGTTATAGCAGTATCTCAGGATTATAAAGGAGTTGAAGTCGTAAAGAGTCATTTTTTTGCTCATGAAATAAGACATTTAGGGGTTTTTCATGATTATAAAAATCAATTATTCAGAGAGCTTGCTATTGTTAGTCTTCCTACTGCATTATTTATCAATGCGGACGGTAAAAATAAACTCGTTTTCAAAGGAAGAATTAAATGGCATGATGATGATGTACGAAATATCATTCTATCGGAAATAGGAGGGAATTTAGAGCTTCCTAAAAATACTTATAAGTTCGCCGCTCTTAACAGAAATGTTATGCAAAAACAAGCTGTAGGGCAGATTGTAAGCTCGGAAGAAGAGAAAGAAGAAGAGATAGATAAAAATACGAATAAAGATAAAAATACAAAAGCTAATAGCTCTGAACCAAATAAATCTATAGAAAATCAGGTTGAAAAATGAAATATACAGACCTAACAATCGACCAAATAGACGAAGAGCTAAAATCTAAATACTTCGTAAATGTTCCAGTTGAATTTACTAGTAGGCAGATTAATTCAGCAATGGCATCATTTGAAAAATTCTTAGAACTTCCAGAAAATATAAAGAATCACATAGATTTTTCTATTTCAGAAAAGCATAGACATGGTGATGTTGGGTATAAAAGTCGAAAGCCTGAAGACGATATCTATAATGATAGTAAAGAATTTTTTCACTATCATCCTGCAATATTAAAGAAATATCCTGAATATATTAAGGAAAATAAGGTAGTAAAGAGTTTCTTAGATGAAGAAGATTCTATATGGCGACATATAGATTTAATTTTAAAGCATATATTTTCTGAGTTTGATAAAAAATTTACAAGAGTGTATAGTAGTATATTTGATACGGAAAACCCGCATATAGTTGTTAGGTTTTTACAGTATAATTGGAATGAGTCGGGTAAATTTTTAGCAAAACCACATTTTGATGCAGGGGCATTTACCTTTGCAATTGCTTAAAGTTGTCCTGGTCTTAGGATTGGTATGTCCGGATGATATTGAACTAGTAAAACATCAAGAGAGTAAAGCAATTTTTATGTTATCAAGTAATTATATTAAGTTGATTGACGATAACGAATTAAAGCCAGCTTGGCATGATGTAGTTCAGATGGATGAAGCAAATATTGGTAAAGAATTTGCCAGATGGGCTATAGTTGCATTTATTGATGCTCATGGTGTTGAGGCATTATCTAGATCAGAAACTCATAAATGGTATAATGATGAAGTTTGATATAAAGATTATTAAAGAGGTTGTTAAATATGAAGGTAAAGCAGAGTAATCATAGTAGTACTATAGCTGGTCAAAGACCTGTGATTTCTAGACGTAAAGCTGGAAGGTTTGATAACTTATTATCGGCTCTTCCGTTTGGAATTGGTGGGAGTAAACCAGTTGTCGCTATATTTAGGTTAGAGGGGGTAATAGGTAAAGTTGGTTCAATGAAATCAGGACTAACATTAAACTCGCTGAATAAGCTTATTGAGAAAATGTTTAAGCTAGAGAAGTTAGATGCTGTTTGCCTAACTATTAACTCTCCAGGTGGATCTCCTGTTCAAGCTGAAATTATTGCCAATAGAATTATTAATTTGGCAAAAGAAAAAGAAGTACCAGTCTATAGCTTTGTCGAGGATGTTGCAGCTTCAGGCGGCTATTGGCTTGCGTGTGCTGGTGAGAAAATATTTGCTAGTCAAAGCTCAATAGTTGGTAGTATTGGTGTTATTTCTAGTGGCTTTGGTTTTCATGAAGCAATTGAAAAGCTTGGAGTTGAGAGAAGGGTATATACTGAAGGCAAAACAAAATCGGTTCTTGATCCATTTAAGCCTGCGAAAGATTCAGACATAAAGATAATTAAGAAGATTCAAAAAGATATTCATGAGCATTTTATCAGTACAGTAAAAACTAGAAGAGCGGGACGCCTTACGCAGAATGACGATATATTATTCAATGGTGAGTTTTGGGCTGGCCAAACAGCCGTTGATTTTGGCTTAGTTGATGGAATCAATGATGTGTACTCGTTTATTAAGGAAGAATTTGGTGAGAACGTAAAAATTGAACATATTGAGCATAAGCAATCTTGGCTTAAAAAGCGTTTAGGCATGAGCCAAATATCAAAAGAAATATCTTCAGATATTGTTGGTGGTCTTGTTGAAGCTGTTGAAACAAAGTTGCAGAATAGTAAGTTTGATTTGAAGTAATTGTTTTTTGACGATTTATTTAAGTTATTTTTATTTATATCGCTTGTGACATTAAAAAAAATTAATATTTTTGTTGTAAAATTGTTAGTTTTATATATTGTTCAGCATAAACTAAAACAAATAACTATATGTTTAATCTAAGTCTAATTCTTATTCCACAAGAATTATCAAAATTAAAAATAGAGGGCTTTAAGGAATTATTAAACACAAATGCTGAAAATGCTGAAATGCATTACGTCGTATTTTGTATGATGCTAGAGGTTTCTATTAAAAATGGTTTATTAGACCATCAGAAATTTTTGCAAAAATATTTATTAGATAAAAAACTGGAGCTAGAATACGATGATTTAGCGGATCTTTTTGTGAGAGCAGTTGAATGTAAGCAAATTAATTCTATAGAATGCTTGCTTGAGTTAATTAGTGGTGAAGAAAGGCATGAAATAATGGAGGGTATAAGCTCTATGCTTTATAAGCAAATAGAGGAAACTGGAAGCAAAAGAGTTCGAAAACTATTTGAGAAGTTAGTGCCTAAGAAGGAAGATAGAGAAAAGTTAAGCTTTGCTCATCTAGATTCAGCAGTATTAAAAGATGAAAATGGGAAAATTCTTAAGCCACTGAAAGTTTTAAGTATGCTAGATCCATCATACCAAAAATGGCTGTCATATTCATCAGAACAAGGTGTTAAGAAAGTCCTTGAGCCATATTTAAATATAGTAAATCCTGGTTATCTCAAGGTTATAAGTTTTGCAGTAGGTAATTTGTTTCGTAAGGGTATGGGTGAAATTTCATCGAAGAGTGAATGGAAGCAAATTTTTACGTCTGATAATGAAATTATACTAAATATAGTTGAGTTTTTCTCTGGAGGATCAGGCAAATACTTGCAAGTAGTAATGCCGTCAATACACGAGGCACTTGGTATAAATGAGAAATTTATAGATTTATATGACGCTAAGTTAAAGAATCTAGAAGTATCAGGTGGTGATACTGGTTTAGAATCTTTAGATTAGTATTTTAGTATTACTCACCAGAGAGTGCTTTATTTCTTTTTCTTACCGAAGATGTAGGTATTCCTATAGATTCACGGTATTTTGCAACTGTTCTTCTTGCAATGCTGATATTGAATTTTGATAGCTGCTCTGAGATATCATCGTCAGATAATATATTATCAGCTTCTTCGCTCAGAATAATCTGTTTTATGATTTCTTTAGCCTTGGTGCTTGAAACGTTTTCTCCAGCGGCGCGTGTTGTTCCAAGGCTCGAAGAGAAGAAATATTTAAGCTCAAAAATCCCACTAGGTGTTGAAATATATTTATTGGCAGTCGATCTGCTGACGGTGCTTTCATTAAAACCTGTAAGTGCTGCTATTTTGTTAAGCGTCATTGGGTTTAGATACATAACACCTCGAGTAAAGAAATCTACTTGCTCTTCAACAATTGCTGTAGCTACTTTGAGAATAGTATGGCTTCTTTGTTCGATGCTTTTAACAATAGTATTAGCTGCTTCAATTTCATTCTTGGTAAATTCTTTTTCTTTTTTATCCTGCATTGAGTCTTTGATTTGCACGTAATATTCTTGGCTAACTCGGAGTCTGGGCATTGATTCAGGGTTTGATTCAAGCTTAGCAGTTCCATCTTCAAGAAAGGTAAGAATTACATCGGGAATTTTATAACTGGTAGGTTCTACATAAAATCCATTTGCTGGTTTAGGGTTTAGCAACTTAATTTGTTTGATCATATTACTAATATTAGCAATATTAACATTACATAATTTTGAAAGTTTTTTTAGATTCCCGGACGCAATTAAATCAATATTCTTTACTAGAGTTAAAAGTGATTGGTCCACATGCTCTTGGTCATTGAGTTGGATTAATAGACATTCTTTTAAATCACGCGCAAAAACTCCAGCAGGGTCAAATGTCTGGAGTGTTTTAAGTATATCTTCTACAACTGATTGTTGACATTTTAATATATCTGCAGCTTCTTTTGTTGATATATTTAGATAACCACTGCCATGCAGAGAATCTAATAAGAAGTTTGCAATTAACTTATCTTTTTGATCTTCGAAAGAAAGGTTTATCTGCTCTATAATATGCTCTTTTAAAGATTTTTCACTAGCAACATTTGATATATAATCTTGACTAGAATAACCGGAATGTGAAGATGTTTGAGTGTTAGGTGTATTATCTTTCAAACTATCTTTTGAATCTTTACTTGATTCTTGTTTTTCAACACTTACTGATGCATCCTCAATAAATGGGTTTTTATCCAGCTCTTGCGCAGCAAATTCAGCTAGTTCTATATTTGACATTTGCAATATAGAAATGCTCTGATGCATGGATGTAGTCATGGTCAGAGTTTGTTTTTGCTGTAATGTTTGAATCTGCTTTGGCATTAGTTGTTTTCGTAAAATTTTGCTCTATTATATCTCCTAGAAATTAAATTTTATAGAAAATAAACCATATGACACCAATTTTTTATATTAAAAGCGGAGATCTTAGCTTTGCAGATAAGTCTGTACTTGAGAATTTGGAATTATACATTTCGAAAGGAGATAGAGTATGTCTAGTAGGTAGAAATGGTTGCGGTAAATCAAGTCTTATGAAAATTATTGAAGGTGAATATGAGCTTGATAATGGTGAAATGTTCAAGAATCCATCAATTTCTATAGGTTATTTAAAGCAAGATATGAAAATAGAGTTAGGTGGTGATATATATAATTTTGTTTTATCTGCATTTGATGATCCTGAAAGTAATAAATATAATGCCGATATAATTTTAAAACAGCTTGGAATAGACGGGAATATGCAGCTAAAATCTTGTTCTGGGGGGCAGTTGCGAAGAGTTTGCCTTGCAAGATCATTGATAACTCAGCCAGACATTCTGCTTTTAGATGAACCAACAAATCACTTAGATATTAAAATCATTGAATGGTTGGAAGATTATATTAAAAATTATCCCGGAGCTGTTATTTGTATCAGTCACGATAGGGCTTTTCAAGAGAATATAAGTAATAAAGTATGGTGGATTGATAGAGGAAACTTAAGGAAGTCTAATAAAGGATTTAAATATTATGACGAATGGCGTGAAGAGATTATTACTTCTGAAGAGGCTGTTCTTCGAAAAATGAATCGTAAATTAGAAGCTGAACAAAATTGGTTGCATGGCGGCGTTACTGCTCGGAGAAAAAGAAATCAAAAAAGATTAGCAAATCTGCATCGTCTTCGTGAAACTCTTAGAGCTCATCAGTCTAAGTTAAAAAACGCAAAAGCAAAGTTACAGATTGAACTTGCGGAAGAAATGAAAAAAACTAAATTTATTATTGATGCAGAAAATATTTCATATACTTTCCCAGGCACTAATTTGTTTAGTAATTTTACATTTAAAGTAAAAAAGGGTGAAAAAATAGGGGTGATTGGTCCAAATGGTGCCGGAAAATCTACTTTAATTAAAATCCTTACTAAAGACTTAGAGCCCGCAACTGGTAGGGTAAAGCATGGGACAAACATAGATATTACTTATTTTGATCAACATAGAACTGAACTTAACCCACAGCATAGTCTAAAGCGTACACTTTGCCCTGGAGGTGGTGATCAGGTGTTTTTGCAAGATCGTTCAATGCACGTCGCTGCATATTTAAAGAAATTTATGTTTGATCCTAAAGCTCTCGAAAATAAAGTTGCTACTTTATCGGGAGGGGAGGCAAATCGTTTATTATTAGCTAAAGCTCTAATTAACCCCGGAAACTTCTTTATTTTAGATGAGCCGACAAATGATCTTGATATGGATTCGCTTGAAATGCTGTTAGAAATTCTTGCAGATTATAAAGGTACTCTAATAATAGTAAGCCATGATCGTGACTTTCTTGAGCGTTTAGTAACAAGGACTTTAGTTTTTACTGGTGATGATATTATAGATTTATATGGTGGTTATGAAGATTATTTGAAATATCATAAAAAAGAAGAGAAAATTGCAAAAACAGTAAAATCTATCAAGCAAGAACCTAAAATAAAGAAAAATCCTCAAAAGTTAAGTTACAAATATGCTAGGCTTTTAGAGGTTTTGCCTGATGAAATTAGTCAGCTAGAAGATAAGATAATAGGTTTAGAAAAGTTATTAGCTCAGCCAAATCTATACTTGGAAGATAAAAAGAAGTTTGATGAATATTCAGTGCAGCTTCAAGAAGTAAAAGATAGCCTTAACAGCAAGATAGAACAGTGGTTAGAAGTTGAGGTAATGCAAGAGAAGCTGGAAAAGGGCTCAAGCTAATCGGAAAAAGGTAGTTATGAATAAATCGATAAATTTATATGTGATATTATGCAGTATTTTTTGTACTATCATTGTTACAGGTAATTTGATTTTTCAGAAATTTATTCAATTAGATTTTTTTGGCTATGTTTTTGAGGTTTCAGTAGGCGTATTACTTTATCCTATTACTTTTCTTATATCTGATCTTGTTACAGAATTCTACGGCAAACTATATGCAAAATTGATGATTAAAGCAGCTGTGATATGTAGTATAATAGTTTTAGGTGTTATAAGTCTTTCAGATTGGTGTTTTGCTACTTCTTGGTCAGTGGTAGATGATGAGACTTTTCATAAAGTATTTAATGTTTACGGTATTGGAGCTGGAGCATCTATAATTTCAAATTATATTGGTCAGAGAGTAGATATACAAATTTATTCTTATCTAAAACAATTAACATCTGGTAAGCATTTGTGGCTGAGGAATAATGTAAGTACCTTTTTGGGACAGTTTGTTGATACTATTACAGTTATTTCTTTACTAAGTATACTTGGTATTATCCCAATTACTCAGTTTTTCGTTGTAGTAGCAAGCAGTTTAAGTTTTAAAATTCTAGCAGCCTTGTGTGATACGCCATTCTGTTATCTAGGATATTATTTGATAAATAAATTTGATTTGGCTAAAACTACATGATCCTCTGTTACTTCTGGAAAAAACTCTTTTGTAAAAGGATATATTTCGGTACCTGAGCCATTAGAGAACTTGATTTCAACAAGGTCTCCTGCCCCGAAGTTGAATATTTCAGAGATAATTCCTACTTTTTTTCCTTTTAGGTTTAGTACTTGAAGATTTTTTAAATCCTCAAAATAAAATTCTTCTTTATCAGTTTTTGGTAGGTCTTCTCTCATACAGTATAATTTTGTGCCTATAAGTGATTCCGCTTGATTTCTGTCATGGCAATTACTATGCCTGCAAATTATAGATCCTTTTGGGGTTGCTCGAATCTTTTTAATAGGGAAAATGACATTTTTATCATCAAATAATTTTAGATTTGCGATGTTATCAATAGGGTCTGTATAGGACTTGACTATTATATCTCCTTTTATTCCGTGAGCTGACGATATTACACCTACCAGAATTAATTTATGATCTTTTGTCATTTTATTCCCATCTATTTGATCTATTTAATAAAACATACTATCATTTTCTCAAGATCACTTTATTAAAATATAGCGCTCATAATATTATGAAAAAATTACTTCTAAGTTTGTTGATTGTTTTTGGCCTTGGAGGCGGACTAATTTTTGCATCCATTACTATTACAGATTATGAAGGAGTATACAAGGAGTTTGTAAAGAATACTAGAGCAGATATTAGCTCTATCAAATCTAGTAATTTTACGATTAATAAGTTTCCAACGCCTTATTTAGTAATTGATGAGATTGATCATGAAGGTAAAGTAAAACTAAAAAATGTTGAAATACATTTTTCTCTTTTATCATTGATAAAATTTTCTCCCAAAATAACAAGCCTAGAAATTGGAGAAGCTAAACTCTATCTCAATCATGATGATGTAAATTTACTAAGTCATGATGAGTTTATTTCTGAGCTAATATCAAAAGATGCATTATCAGTTGAAGCTAAGATAGGTAAGCTTACATTTGTTGAATCTGACAATGATATTCCTCTAGAAATTATGGATTTTGTTTTTGCTAGCAGTAGTAATAAAACTTCGTTTACAGGAAAAGTTGATGACGTAGGTAAGTTAGAAGGAGGTTTTGAAAAGTTGGGACAAGATGTAAAATTTAATCTATATCTTGGCGATGATTCATACTCTTTAAATTTAGTTGAGAATTATAAAAATGCAGTTCTAGAGAGTGGTAAGGCTGAAATTAAGACAGCTAATTTGTCAAATCGAATTGCAAAATTGATTCCAGATATCAATGACCTAACAGATAAAATAAGTAGTAGTGAAGAAGTAGAAATAACATTTGATATTGTGCCAAATCAAAATTGGATGGATATAAAAAATATTGTTATTAGTTCTGATTCAATTGAGGGTAAAGGTGAGATGAGTTTAAGCAAGGACTCGACTCATCAGAGTGATATAAAAATTTCATTTAGTAAAATTGATTTAGTTAGTTGGAAAAAAGCCAAGCCTGCTGAAGGAAGAAAAACATCAGTAAAATATGGGATTGGATCAAGATTTGACTTTAATAAAAATAAAATGAAAGCAAACATCTTTTTTAAGGATATTAAAGTTGACGATGATAATTCACTCAGTGATGTTGGTGTAAGAATAGCTATAGAAGGAGGTAAGCTTTATATCCAAGATTTAGCAGGGGGTATTGATCGCGAAGGTGAGTTTAGAGTTACGGGTGTGGTCACACAAAATGCTTTCAGAAGTCTCTTTAATGGTAAAATATATCTGAATCATAAAGATTTAAATGATATAGCTGAGGCTTTTGGGGGGAAAACAATAAGAACAGCAGAGCCAATTCCTTTTGCACTATCTTCGGATATAAAACTCAGTTCAGTTGATATTTCGCTTCAAAACCTATTAATTAAAACGAATAGTACTGATGTAATGGGTAATTTGTCGACAAAATTTATCGGCCAGTCAATGCGAACTAATGCCGACATGAAATTTAGTTCTATTGATGCAGATAGTGGTAATTTTCCTGCTATAAAACAAGCTTTTGAATATATTGCAAGCTTATCAGAAGGAATGAAAGAGGAAAATTATCTGAGCAAGTTTATACCAATCAGAAAGATTGACTCTATAGGTAACTATGATATTACATTTGATCGTCTAAAAGCCGGAGAAAAAGTTTATGACAATGTGAATTTTAGCCTTGGAGCCTCTCCCGGTAAAGTATCATTAGAGCAACTTTATATTCAGGATGAAAAAGATTGGGTTGATACAAGTGTTACATTAGTTGCACAAGGAATTAGGCCAATGCTTTCAATTCTGATTCATAATGGTTCTGTTGGTGTGAATTTTTTGTCTCCAAACGGAATGTTGAAATTGCGCAAGAGGCTGCTAGAAGACTATGATTTAAGTAAGATTGATATTGCAATGAATTTTGCAATGAAAAGAGTTTATGAAGGTGATTTTGAGCTTGGAAGAATTAGGTTTAGAGCGCAAAATAATAAAAATTTGTTTGATATAGAAAAATTTGATGCAGACTTGTTTGGAGGGCGTATGCAGTTATCTGGCAGTGTACTACTAGAGCCATATACTTTGAACTTTGTATACGCTCTGAACTCAGCAAGAATTGCGCAAATTGCTAAGTTAATGCCTCCAGGCTTTGTTAATAGCGGAGGTGCACTGAGTGCAAGCGGTATGTGGTCTACAAACGGCGAAAAGATTGAAGAGCAATTATATAATCTTTATACAAAATCTAACGTTATTACAAAAGATATTACGGTCAGTAATATTTCAATAGATGATTTTATACAGCTTCTTGGTGTGCCAAACTATAATATAGCTAGTTTTTCCTCTGACTTAAAAAATGCTTTGCTAACTGGTAAAACAGATATTAGTGATTTGAAGACTTCTCTTGAGCTTTCAAAAGGAATTTTTAAAATGCCAAATCTAACTTTTAAAACAAAATATTCAGCGGGTTCTGGTTCAGCCACATTTGATTTATATAAGTTTAATCTTGATGCAAATAGTATATTTTCTTTCTATTTAGCAAAGCCTAAATATGGTAGAAGCTTTACAGATTATGCGCCAACTAAGATGACATTAAAAGCAGTTGGTAATTTATTTTCACCTAAGAAAGAAGCTGATACTAAAGAGCTACTTGAGCTACTAAACAGCAGAGTTCAACAATAACTGAAGATATAAGATATGATTTAGATTAGAGAATCTATCTTTGTTTACAATCTTAAAAGGAAGGTAGATTTCATTCCTAGAAGGTAATTGTATTTAACCTGGCATTGTTAAATAGCGAATGACATAGAATAATAATTGCGCTATATAACCAAG
>sequence22
AAACTCTCTCATCAGACATTATCTTGCTAAGTTCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCAACATATGAATACTATTTCTTAGAATTAAATATATAAAATTTTTGAAAATTATGCTCTTTGCTTCTAGATGCTGTCAGTTAATTATAGGGACATCATATAGAATTTATTACTTTTCAAGCTCTTATCATTGTGAGGAGCAAAGCGACGCAGCAATCTATGGATAAGCGATGTTGTATTCGTAATTTCTATCTGGATAGCCGCGCTTCGCTCGCTATGACGTATGGGGGCTATACTTGTCAGATAGCCGTCATTGCGAGGAGCAAAGCGACGCGGCAATCTATGGATAAGACATGTATTCACAATTTCCTTCTAGATAGCCGCGCTTCGCTCGCTATGACGTATGGGGCTATACTTGTCAGATAGCCGTCATCGCGAGGGGGAAAGCGACGCAGCAATCTATGGATAAGCGATGTTGTATTCGTAATTTCTGTCTGGATAGCCGCGCTTCGCTCGCTATGACGTTGATCTGCTTTCAGCGCCTGAGAGAAGTAGACTCGAAAATCAGGTAGTGCCTAATATTCTAGGTATGTAATGACTTGATGCGCTGGATAGCAGCAACTTCACCGTATATGGCGTATTAACTTTGTTAAGTTATCAAGTGATTCAGCAATCTATTAGCTGATATATCGAAAGAACATAATCTGGTATCCTTTGTTTACTAAAGGTCTATGCTTTTATACCACTCAAACGGATACCAAACTAAATAAATCTAATTTACTTTACCATTTCTAAATCATTATTGGCTGCATTCTCTTCTTGCAGAAGACCACCATGATTTTCTTCGTAATCTTTTAGCATATATCCACGTCCCCACACTGTTTCAATGTAGTTAGTTCCGCCAGAAGCTTTTGCAAGTTTCTTACGAAGCTTACAAACGAACACATCAATGATTTTAATTTCTGGTTCATCCATGCTGCTATATAGGTGATTTAAGAACATTTCTTTTGTAAGAACAGTACCTTTACACATAGCAAGTAGTTCAAGGATAGCATATTCTTTATTTGTAAGGTGAACTTGAACACCGTCAACTTCAACTATTCTTGTATCAAGGTTAATTGCAACTTTATCAAATCTTACAACTGATTCAGAATGTCCTTTTGAACGACGAACAATTGCTTGAATTCTAGCAACCAACTCACCTCTATTAAATGGCTTAGTTAGATAATCATCGGCACCAAAGCCAAGCCCTTTAATTTTTTGATCGACCGAAGAAAGTCCAGATAGAATTAATATTGGCGTTTTAACTTTCGCTGAACGTAAGCGTAGTAACACTTCATATCCATCAATATCTGGCAACATTAAATCAAGCAAAATTATATCATAATCATATATTTTACCTATTTCAATACCATCTACACCAACTTCGGCTGTGTCGCAGATTATACCTTCAGCTGCTAGCGCCAGCTCAATTGATCTTGCTGTTGAAGAATCATCTTCGATTAGTAATACTCTCATTTTTTATGCATCTCCTTAACAGATTTTTACTTTTTATGATAATCTCACTATATTCATTAAAAATCAAGTGATTTTTACACTTTTATTAATATTTTAGGTAATAAGTATTTTTACTAGGTATTACAAGCTAATTTTACCACCTACAATAGTAATTGTTCCTTTACTTTTATCTTGAATATTTCTCTTTAAATCAAACCCTTTAGTCTTATAATATGTTACCTGTGCATAAGCTTTGATACCATTAGTAATTAAATAATCAAATCCAAGACTTGACGCATCAAGTTTATTCTTCTTATTATCACTATGAAAGTGATTTAGACTTGCAGCGCATTTTTTACTTAAAAAATTATATTTTATTCCTGCTGAATAAATACCAGTATTTCTTCCTCTAGTATCTATGCTTGAATTTGTCAGGCTTTTATTATAATTCATATAAGACCCTGCTACACTAACTTGGTTATAAGTAATTTCACCACCAATATTATATGTATTTAAATCTTTAAACTTTACATCTGACTTTGAATTATCAGACTTATTATAGGCAATAGGCTTACCTCTTTCACCAACAAAAGCTAATTTAGCAGATAATTCATCACTGAATTTACCTTCATAAGTAGCGCCATATGAAACACCATCTTTAATAACAAATTTAAAGTCAGATGCTCCAACAGGAGTATGTAAATTATTTTCATCTATATGAGCATGTCCAGCATTTGACGTATCTGGTACATATGAAATACCAACTTGGAATTTATGATCTTCACTACCAAATTTAGGAGTAAAATACGTCACTTTACGCGAATAATCTGTTAAACGACTAGTTCTAGATTTTGAATCCAAAAAACTACAAAAATTAGTTATATAAGCTATAGTAGAATTATTATCAACTTTAGGTGAAGAAATAATAAATGAATCCCAACCATTACCAGTTGCACAAGATGATTTGTAACCCGTGATTTTCATCTTCTTACCGGCACTTTTGTCCGACCCAAGCTCAAACTTACCAAAGTCTGACTCAATGTATATCCCAAAAGGTGCGCCTCTATCATTTCTTGTAGTTTGCTCTATACCAATTTTTGCACCGTATTTCATACCGCTATCGGCAACTAATTGATAATCTACTAAAAAATTTCCAGAAGAATAAAGACCATATTTTTTCTGATGGGTAGAAAGCTTTTGCTGCGAGGAATTGCCATTATTGTTATTGTGAATTCCCTGTACTTGTACAACTGCACCTAGCTTCACAACATTTTCAGCTGCAATAGCTCCAGAGAATCCTAAGCAAAGGACACTTGCACTAGCTAATAGAATATTTCTAATTTTCTGTTGACTTGTCATGCTCAGCTGCCTCCATCATTTTTTTACTATATAGAACGCCAAAATCCACTGGATCAATCATTAATGGCTGAAATCCACCGTCTTGAGTTACATCTGCAATAATTTTTCTTGCATATGGGAAAATTATTGCTGGACAATGAACAGCTAATAGCATTTGTATCTGATCCTCAGGGATATTTATTAAGTTAAATACACCTGCATATTTTAAATCAACAATAAATAATGTAGTTTTTTCACTTACTGCTTTTGCATTGATCGAAATCTCAACTTCAAAATAATCTTCTTCAGGCATTTTTTGAATATTTAAATCAAGTGCTAGATCTATTTGTGGTGTACCGCTCAAATTTGCTAAAGTCGCTGGAGCGCCAGGATTTTCAAATGAGAAGTCTTTAATATATTGTGCATTTACTGCAATATGTGGTGATTTTGGATTTTCTGATGATTCTTTTTCCATGTTATTTTCCTAAAATTAAAAATATTTTTATGTTCTTGGTAGAGTTACTCCAGTTTGTTTCATATATTTACCAGCTCTATCAGCATAAGACGTATCACACCTTTCGTTCCCTTCAAAAAATAAAAACTGACACGCCCCCTCGCCTGCATAAATTTTAGCTGGAAGTGGTGTAGTGTTAGAGAATTCAAGAGTCACATGCCCTTCCCAACCAGGCTCAAGCGGTGTGACATTAACTATTATTCCACATCTTGCATATGTAGATTTTCCTACACATATAACAAGCACATTCTCTGGAATTTTAAAATACTCAACTGTTCTAGCTAAGGCAAAGCTATTTGGAGGAATAATACAAACATCTGTATCTTTTTGCACTAAACTCTCACTACTAAAGTTTTTTGGATCAACTATTGCTGTATTGATATTTGTAAAAATTTTAAATTCGCTCGCTACTCTTGCATCATAACCGTAGGAAGAAACACCATAAGAAATTATTCTGTCTGATTCAGAGTTTTTCACTTGCTTCTCTACAAATGGAGAAATCATTCCATGATTCAAAGATTTATCTTTTATCCACTTATCGGACATTATTGACATATTAAACAGTCTCTTTACTTAGGTTAGTTTTAATTACGCTATACATAAGCTATATATAGTAGCGCTAATTTGTTAGCAGCAGTCTAGTTTAAAAAATAAAAATTTCAACCCAATATACTCAAAGGTTAATTTTACTGATAATTATGTTTATATAGAAAACAAAACTGCGATATAAATAACACGGTTTTTTTTTACCAATGCATTTTTTTTTTGCACCGAAATTAGCAATTTGACTATCAGAGATGCAAGTGCTAGCTTGTACGCTAAATTTTTAGCAATTTTAGTTGATAAATTTATTACACACTAATAATGTAAAAATCTTTTGCAAATTAAAAATTTAAGCACATAATAGTATGCAGAAAATTTGCATTTTTTTATGCTAAAAATTATTTATACATATTTTATGAGTAGTTAGGACTATGAAGAATCTAAAAAAATTATTACTAGTAACAGCAAGTACAGTTGCTATAAGTGTTTCTGCAATCGCTTCAGATTCAAAAGTTTCATCAGCAAAAATGCCTGTTGTTTCTGATTTAGAAGTAAAGTTAAGTGGCTTTGCCCACTTTCAAGCTGGCCATAGAACTCAAAGTAAACTTAAAGGTTCAGAAAAAAATGTTTCGCAAAATAGAAGAACGTTTGCGTTCTACAATGATGCAGCAATGGTCGCAGAGATCTCGAACAAAGCAAATGACATAACATATGGTGGTAAAATTGTTTTAGTTCCTACCGCAAAAAGAAAAGGATCACCTAGCTACAATGGATCACACATCTTCCTTGAAAGTGATTTTGGTAAAATTGAAGTAGGTTCTCCTATCTCCTCAGCATCAAATATGATGATTGATGGTGGTACAATTGCTGCTGCTACATTTGATGATTGGGGCAGATATGCAGAGTTTTCGCCTGCGCACTTAATGAAGGACGGCTCGAAAGCAACACCTACTTTTTCCACTTTTGCTGAGTTCTTTCTAGACAGTAAACTTACTACGTCACTTGAAACTAGGTCTTATAGTTCAGAGCCTGCTAGAAGTATATCTTTCTATACACCAAAGTTTGCATTTAGTGATTCTACAAAAGTACAAGCTGGTATAACATATACTCCTGACTCAAGCAATACAGGAGCTGATAATCCGGGTACTAACTCCAGTGGAGTCGATAAGCGCACTATAGAAATAGCAGCTACTCCTAATAGTCCGGCTATTAATAGATTTGACATTGATAGAACAGTAAAGGATGCAGTTTCTGCTGGTGTTACTCTTGAGCAAAATTTTGCCGATGGAGTAGACTTTAAACTAGCTTTAACAGGTGAGTATGGTAAAGCTGCAGGAAAAGCAAAACAATTTACTAACAAAGATGACACAACTCCTGCAAATGAATTCAAACTAAGCAACTTGAGAACTTACAACATTGGCGCGATCCTAACTGTTGGCAATTTCTCATATGGTGGTTCATTTGGTTCGTTAGGTAAAAGCTTAACTACTCCTGAATTTCATAAGACAGGTCGTAAAACAGATTATTACACAGGTACTGTAGCTTATAAGCAAGGACCTTTTGCAGCATCTGTTTCATACTTTAAGTCTAATCAATTTAAAAATACTGTAGATGCAGTTTCAATTGGAACTCACTACTTACTAGCACCTGGTTTCAAACCATATGCTGAGATTTCAGGATTTAGCCTAAAAGGTAGACCTGAATTCCACCCAGAAGTTTCAAAGAAGAAAACTCGTGGTACAGTTGCTTTAATCGGTGCTAAACTAAGCCTATAATTTAATGAAATTAATTCATCTTTAAACCGGTATAAGACTTGTTCTTATACCGGTTTTTTGCTATTATTGGAGAAATTATATAGAGCTGACTCTAGGAGATATTACCAAGGTATTTTTTAACTTTTTTGCTCTAAAGAATAATAATAACAAAGACTGTAAAACAGTGACGCAAGCAAGCGGAATAAATAGAAATATTATAGCAGTTAGAATGTATTTAAAAACAATATTACATTAGTTTATAACATTACTAATTCAACAAAACTAAATATTAATATACATGAAACAGAACATTCTAAAGAACTTCAATAAAGCTATTGCTTCAATTTTGGTAGCAAGTGTTCTAGGCCTCTTCACTCTAAATACACATGCTAGTGATATTGATCTACAAGATATTGAAAAAGCTCTCGGAGTAAAAGTAAAATCAGAATGTAAAAAACCTCCATGTCCGGTTGATGTTAATGCTCTACTTGATAAGCTAACTCATGAACATGCTAAAGAACATAAAACGTCAAAATTGACAGACACTCCTCAAGCAATAGAAAGCAGTAAGGATTCGCCATTGATGAAGATGGAAAGAGCAGAACTTATTGTATTAAATAAAATTACTGCAAAATCAGTTAAGAAATCTTTTAATCTTGGAGAGGTACAATTCTTCGGAAATCTTTCAATTGAAGTTCATAAATGCATTAAAAGCACAGACCCATTTAATGCAAATAATCTTATGCTTCTTACAATCTTTGATAATAAAATAGATGATGATAATCTATCTGTTTTTCATGGTTGGATAGTTTCTTCAAACCCTTCAATATCCACACTTGAACATCCTGTATATGAAGTTATTGCAGTAGATTGCATATCCAAAGACAAATAAAAATTTCACTAAAAACTTGTATTTATGACAATATTAATTCAGTCCTTACTAATAATAATTCCAATAATTGGTCTTATAGCAGGACTTTCTCTAAGCTTCACTATTCCACTTTTCTTACTTGCATCTTTATATATAATTAAAGATCAAGCAAACTTTAGTCTCAAACATGCTAAAGTAGAAATATGCTTCACAATTTGGCTGACACTGAGTTGTTTTTGGTCCGTAGATATATTAAATAGCATGTTTGGTTTCTTAAAAACATTCAGTGTAGCACTTGTTGTTTATATATTAATTTCTAATAAAGACGCACTAATTCCAAAAATTTCATTATCTACCTTTTCGCTTTTTTCTGCGATACTTGCCTCAATTGCATTATTTTATTTTGAGTATTATAGCGATGGATATATAAGCAGTTTGTTTCGAGAGATTGTTCAGAGAAAAAAAGATTCAAGTTTTTACTTACATTATTTAGATAGAGGTTGCACATTGCTAGCATTATTTGCCTGGTTTGTAATTGCAGTTTTAATTAAGCATTATAAAAATTTACTTGCACTAATAATATTTATTGTCACTGCTTACACACTGTATCTTTCAGATAGCTTAGCTGGCTTTGTTGGATTTGCTCTCTCTGGATTAGTATTTATTACTACAAGATATTGGCCATTTAATAATCCAAGAATATTATCTGCTATTTTGATTATATGCTCTGTGTTATTTATCTCCGGTATATATGCCATGCAGCCAAGGGAACTATCCGATAATCAAGCAAAATCACTACCAATTTCAGCTAAACATAGACTATTTATTTGGAATTTTGCATTTGAAAAATTTGCTGACAAACCATTTGTTGGTTACGGATTCAACTCATCGAGAAAGATCAAACTAGCTGAAAAAGATTTTATTGAGTATGAGAAACTAAAGCTCAGCCCTCTTCCATTACACCCGCATAATAATTTATTACAAATTATGCTTGAGACAGGAATAATTGGGCTAATATTATACCTTTCATTAGCTGCAAAATACTTAAATAGTTGGAATTTGTGTTTTAAAAAAGCTATCACTCACAATATACTAAATATCAGGGCAGCAGGTTATGCCTGTTTTAGCACATTCTTCATTATATCTATGATCTCTTTCAATATGTGGCAAAGCTGGTGGCTATGCTGTTATTTGTGGATTGCTACTTTATTTTGTCTGCTTATTAGTGACAAAGATTAGGGACTATTAGCAAAATTAGAATAATCGGAATTTTGTTAGCAGCTCCTAATTATTTCTCCTAAAAGGAATAGTAAGAATCGCCAATAATCCTGTTTTTTTATAATCTTGGTATTCATTAAGACCGATATCTATCTGTACTTGCGATTTTGTGGCTGAGTATTTATATGTTCCAAATACTCGATCCCAGCACGATAAATTAAAGCCATAATTACTATTTGTTTCATTCTTCAATACAGAATGGTGGATTCTATGCATATCTGGAGTGACTATAAGCCTCCTAAGCATCGTATCCATCTTACTTGATAGATTTATGTTAGCATGATTAAATAGTGAGCTAGCATTTAATATGATCTCAAACATAACAACAGCTTCAAATGGTACCCCCACCACTAGTACAACCAAACATTTAATTAACATCGAAAATATTATTTCAACTGGATGGAACCTTATACCAGAAGAAGTATCAAGTTCCTGATCTATATGATGAATCTTATGAAACTTCCAAAAGAATGGTACCATATGAAATACTCGATGTTGAAAATATATAATCATATCTAATAAGATTATACATAATATTATTGATACAAATTTCGGAAGCTGCAGATAATTTAATATTGCATATTCATTTTCAATAAGTGCTACTGACGCAGCCGAAATAGGTAGTAAAAATCTTAATATCAAACTATTAATTATTACTAATGAAAAGTTTCTATACCATCTGGACTTCTTTGATAATTTCAGCTTTCTTCTTGGATAAAGCTCTTCAGCTATAGCAAAAAAACATAAAATGCTAATAAAACTTCCAACTCTAATAATTAATTCAGATTCAATCATAATCATGACAATTCTAGTGACGCTTCTTCAAGTGCATTAATTTGATCGCGAAGTTTTGCAGCTTCTTCAAATTCTAAATCTTTTGCTGCTTTTTTCATATCTGAACGTAACTTATCTATGGTTTGTTTTAGTTTTTTGGTATCCGAAAGCAATATCTTTGCATCATCTTCATTACCTACTACTTCTTCGACTTTCTGAAGCTCTGATAAAACATGAATTTTTGAAGTAATCGTTTTTGGAGTAATCCCGTTTTGCTTATTATACTCAGTTTGTAAGTCTCTACGCCTTTTTGTCTCAGCTAAAGCTCTCTCCAAAGAACCTGTCATCTTATCCGCATATAATAATACTTTACCTTCACTATTTCTTGCAGCTCGTCCTATTGTTTGAATAAGCGAGGTTTCTGAGCGAAGAAAACCTTCTTTATCAGCATCAAGAACAGCTACAAGCCCACATTCAGGAATATCTAACCCTTCACGTAATAAGTTTACTCCAACAATAATATCTATTTCTCCAGATCGTAGGCTTCTGATGATCTCAATTCTCTCTAGTGTTTGTATAGTTGAATGCAAGTAGGCTACTTTATGCCCCTGCTCTTCTAAATAGCTACTTAAATCTTCAGCCATTTTTTTAGTAAGGGTCGTAACTAAAACCCTAAGACCTTTTGCTACTGTATTTTGAATTTCTCCAATCAAATCCTCAACTTGCGTAGTGGCAGGACGGACAATACATTCAGGATCTAATAAGCCAGTTGGCCTTATAATAAGCTCAATTACTTCTCCTTGGGTTTGTTCTAATTCAAATGGCCCAGGTGTTGCAGATACGAAAATTGTTTGTGGTCTATAATCCAACCATTCTTCAAATTTTAGTGGCCTATTATCTAGCGCTGAGGGTAGCCTAAAACCATATTCTACAAGAGAGGTTTTCCTAGCTTTATCACCATTATACATAGCTCTTAGCTGTGGAACCATCACATGCGACTCATCAACAAACAACAATGCATCTTTTGGCAAATACTCGAATAATGTTGGAGGTGGCATACCCGGTTCTCTACCAGTTAAAAATCTAGAATAATTTTCGATTCCTTTACAAGAACCAGTAGCTTGCAGCATCTCCATATCATACTGAGTTCTCTGATTCAATCTGTGTGACTCAAGCAACTTTTCTGATTCCTTTAAAAATAGGAGCCTATCTTCAAGCTCATCTGCTATTCCTGAAATTGCCTTTTTAATGACATTATCTGGTGTAACAAAGTGCGAATTTGCATATAGAACAGCCTTGTCAAGCTTTCTGAATTTTTCACCAGTTAATGGGTCAAATTCACTAATATATTCAAGCTCATCACCAAAAAATGATAATCTCCAGGCTCTGGTTGCATAATGCGAAGGAAAAATATCGATACTCTCTCCAATTACTCGAAACGCACCACGCTCAAAAGCGATGTCATTTCTTTCATATTGAAGATCAACCAGCTGATTTAAAAAGTCTTTTCTTTTATATTCCTGACCTGATTTTAGAGTTAAGGTCATCTGCGAGTATAGTTCAGGCGATCCAAGTCCGTATATACATGATACTGAAGAAACAACAATCACATCTCTTCTTTCCATTAGCGATCTTGTCGCCGAGTGCCTTAGCAGATCTATCTGTTCATTGATAGAAGAGTCTTTTTCAATAAAGGTGTCAGTTCTTGGAATATAAGCTTCTGGCTGATAGTAATCATAATATGATACAAAATACTCTACAGCATTATCGGGAAACAAATCTTTTAACTCAGAATATAATTGCGCTGCTAATGTTTTGTTATGCGCCATGACTAAAGCTGGACGTCCAGTTTGCTCAATTACATTAGCCATTGTAAATGTCTTACCTGAACCTGTAATTCCGAGTAACATCTGATCTTGCTGCCCTTCTTTTAAACCATCCACTAATGCCTTGATTGCTTTAGGTTGATCGCCATTTGGCTTATATTCAGACTTAATTTTAAATCCACTCATTGACTTATATTTGAAACTGTTTTAAAGATAGTATTATAACTTTATAAATTAGGAATCACTATGAAAAAAATCGTTATTTATACTACAAGCGTCTGTCCATACTGCGTAAGAGCAAAAGCACTACTTGATCGTAAAGGATTCGCATACGAAGAAATCAATGCCGAAGATGAAAAAATAAGAGACGAAATGATCGAAAAATCTGGTGGCATGCGCACTGTACCACAAATTTTTATAGGAGATACACATGTTGGTGGATCTGATGATCTATACGCACTTGATAAAGAAGGAAAACTAGATGAAATAGTGAAATAAAATATTATGTCAAAATTTAAAAAAGGAACAGCCGGACAACATATTGTAACTGATGCAGCTCTACACATGCGTAAGACTCAATACGCGATAAATAAAGAACAGAATGAATTATTAGATAGTATAAAAGGCTTTCAAGAAGACTCTACATATGCAGATTTTACTTTTGATAATTTACCTACATTTGTTAGGAATGTATTGAAATCTGAAATGGTTTCTGCTGGCAATCTTGGTAAAGTGGTCGCAAAAAATAAAGAATCTGGTTGCTTTGCAAATTATGGTATTAGGACTAATAAATTATCAGAAGCACTAGAGGGAGCACTTGATATCGCTACTGATCGTAACATTTCGGGTATTCTAGAAGGTAAGCTTCCATCTGGCTTTGACAATAATGTAGGAAAACCCCTGCCAATACTTGGTGCAAAAGAAAGCTTTTGGGGAACATCAAAACCTACTTTTTTAACAACACTTCTACAAACAACATATCGTTCAGTAACTGAGGAAGCATTAGATAGTAGCTCATCCTCTATATTGCATACATTCAACACTCCTAAAGGTTTTGATAGCTTTGATTTAGAAGGTAGCATGTTTGTAAGTGTTGGAGATACGTTAAAAGTAACGGTTCCGCATTCAGGGTATTCATTTGGCGGAGATCGTCTAAATGGTAAAGATTTGAGACCACATGATTGCACATCTTTCCTAGAAATGTCTGCTCAGCTTACAGCCGGTGGTGCAAGTACTGCTGATTTATATCTTGCAAAACGTGTACTTTCAGAGCAAGACTTGGTAGTTGTTAATAAAAGCTGGCTGAAGTCTGCTGGGGGCAGTATGGTATCATTGTTTGATATTAATACAAGTACTCCAAAACCAGGTGATGTTTGGGCTGTACGCAAGTTCAGTGAGTCAAAAGCAATCGACTCATCGCTCGGATATAGTGGACATGCGGGGGTTTATCTTGGTATGGATAAAGAAAATGTTGTAACTCTAGCATATAACCGCGACATGCCACATATAGAAGGTTTTGGTTTAGAAATTAGAGAATTTGAAGATAATTCTGAAACAAGAGATCAATTTTGGCTAACACGGAATAGTAAAGGCTTTAATCCTACTATTGATGCATATACATTTAATGACTTAAGTGATTTAAGTGGATTAGCACGTTATGTTGATTCTCAGATAAAAGATGTAGAATCAACATTATCAGGTGACTTAGAGATAAACGATAGTGAAGGGTTTTAGACGAACCCTTCACTAGCAAGCACTATACTCATTGGTATCTTAATAAGAAGCATAATAACTTGCCGAACTATTGACTTTATTTCTATAAATGTAACACGTTAAAACGGCGAAACTCCGCGCATATGCTTGAAAATGACGGCTTTATCACCAGCAAGGAGCAAAGTAGAAATTCCGTCACCAGCGAGAAACGAAGTGACGCGGCAATCCAGTGACTAATACTCCACAGAACTATACGCTTTGAAACAGCTGATGGCAGTGCTCGCTCAAAGGTAACGACTTTCTCACTTGCAAGGAGTAAAGTAGGAATTTTATCATGGCGAGGAACAAAGTGACGCAGCAATCTAGAGAATAGTACTGCAAAACTATACGCTTTGAAACAATGGATCGCCGCGCTAGCGCTCGCGATGACGAGTGATATAGTTCGTTGAATTTGTGGATTGTTGTGCATACTCTCATGATAACAAAAAATAAGCACCCACATTTTTAAAAATCAAACTCAACAGGCAAATCAGATTTTATTTTAATTTTTTTCCCAAATACTGAATTTGCAATAATTAGCTCTTTTGCATGCAATAACATCCTAGAATTCTTCTTACCGCCATATTTTTCATCACCAATAATAGGGCAACCTAAAAATTTAGAATGGAATCTAAGCTGATGCATACGCCCTGTTTTAGGTTTGAATTCAATCATTGACTGGCCATCTTCAAAACGAAGAACCTTATAATCTGTTTCAGCCCTTTTACCACTCTCTTTCAGCTCTTTAACATTTTCAAAAGTTCCCAAACGTTCTTTGCCAATATAATGAACTAGATTTCCTTCCGGACTGCTCGGCACTCCAAAAACAATAGCTATATAAGTTTTCTGAATTAAATGTCCAGAAAAAGCCTCTCCTAGCTTTGCAGCATTTGTATATCCATCTGCTATAAGCAAAATTCCACTTGTCTCTTTATCAAGCCTATGAACAATTTTATACTCTGTGTCTTCTGTTTGGTTAAGGTAGTTAAGTGCCTCATCAATAGATAGGTTAATTTTACTTCCCCCTTGAACTGCAAGACCAGATGGCTTATCAATTGCAATAAATTCTGGTGAAGAATAAATCAAATATTCTGACAATAATTTCTTAGCTAAAATAACTGTAGCTTTTGAAAAAGATTTACTAGAATCTCTACTATCCTCAACGATAATGCTAGATACAAAAGTAATTTCATCGCCGTCTTCTACCCTAACATTAGCTTTTGATTTTAAACCATTAAGCTTAATTTGTCCTTTTCTAAGAGCTTTCTCTATTATACCTTGGGTGATAGAAGGAAAATATCTTCGAATATATCTATCCAACCTCACCAGTGCAGCAGTCTTGACTATAACTTTTTTAAGCTCACTCATCCTGAGCTTACCAAAAGAAAGCAAGACCACAATAAACAAGTTAGCAACAACATAGCTCCAAATTGATGTAGTAAAGCAATTGGAATTGGCACCATATAGAGTATAGTTATAATACCAGCGAGCATTTGAATAAATAGAGCAATGACTACATAAAATATCGAGGTAGAAAATTTATTATTCTTCAACTTTAATGAAGAACAGCAGAATATAGTAATGACAACAAACAAAATATAGGCAAACATTCTATGGGTAAATTGTACAAAAACTGGATCTGAAAAACTAGCAATAGAAAGGCCAAGATTAGATACTTCATGCGGAATAAAACTATCACCCATTAGCGGAAAACTATTATATACAAGACCAGCATCTAAACCAGCAACGAAAGCACCAAAAACTATCTGTATAAATAACAAAATGATTGAAGCAAAACACCAAAATTTTTGATAAGCAACAGATACATCGCTTGGCAATAATATCGGTTCAAACGAATTTTTCATCAATTGCCAAAAAAGGATACTATATAATAGTACAGCAAGCATTAAATGCGCCGCTAGGCGAAAGTGACTCACATATGGATCAGATATCAATCCGCTCTTAACCATATACCAACCCATCACTCCCTGACAAGCTAGCAAAATCAGCGCTAAAATATAAATACCTAAATCTTTTCGATTAATTCTTCCAGTTGCTATGAAAAATACTAATGGAATAAGATATAGAAGGCTAGTAACCCTGCCAGCAATTCGATGATAGAATTCTAAAAGATATATAGATTTGAACTCTTCTAAACTCATTCCAGAATTATGTTTTATATATTCCGGTGATTGTTTATATTTTCCAAACTCAACATCCCATGATTGCTGATCAAATGGTGGTAAAATTCCAGAAACTGGATTCCATTCAGTAATAGATAATCCTGAATCAGTAAGACGCGTTAATCCACCAATAAAGATCATAAATATAACAGCAATACACACGGCAAAAAGCCATATTGAAACAAATCTATTACTGCTACCCGATAGACCCTGCATTATCACTCCTTTAATATGATCTACTTATTGCAAAACCAACTAACTCTTGTAAATATTCTTTACTCTCATTGTTGGCACTGTTATCAATAGATGATAAAGCACCTTCAGCTTTTACTTTAAGCTTTTCTAGATAGGCTTCTACATCAGATTTTACGTCCAATCTTTGCATCAATTCTTGAACAAAAGCAAAATCTGATTCTGATCTATTATCTGCACCTAACATTTTGTTGATCTTTAATCTTTCATCAGAACTAGTCTTTTCTAGCAAGAAAATAAGAGGAAGAGTAATTTTACCTTCATAAAAATCATCCCCAACATTTTTTCCCACCTTCTCACTATCACTAAAATAATCTAGCGCATCATCAGCTATTTGAAAAATATTCCCAAGCCTTAGACCAAACTCTCTTAATGAATTTGCATCTGATTCTTTGCCTGCGATAATAGCACCAACACTACAAGCTGCTCCAAATAACTCGGCCGTTTTAGCATTAATAATCTTTAAATAGTCTTCTTCAGTAACACTTTGCTTAGTTTCAAGCTGAGCAAGCTGGGAAACCTCACCTTCCGCAATTATTGCAGATGCATTCGATAAAACATCCAACGCATAAAGTGATTTTGTTGATACGATAAGCTTAAATGATTGGCTAAAGAGAAAATCTCCTACCAAAATACTTGCTTTACTACCCCAAACAACATTGGCAGTTGGAAGAAATCTACGCATTTTACTGCCATCTACAACGTCATCATGCAGCAAAGTTGCCATATGTATAAATTCAACTGCCGCTGCAAGCCTTATAGCTTTTTCACCAGAGTAGTCATACATTTTTGCCGTAAGCATGGTTAATATTGGTCTCATTCTTTTTCCACCCGCAGAAGCCAAATGGTTACTGACAAGGCGTATCAAATCTTCATCAACTGATAAACTATCAATAATCACATTATTCATTGATTGTATATCTTCAGATAAATAACCGTGAATCTTTTTAATTAAATCCAACTTAATAACTCTCTTTATTATTACTTAATAGAAATTTTACTTTAAAATACCTTTTAAAAGCCCTTTACCAAGATCTTTTGGAATTGCTTTCTTAAGCGCATCTTTTGCATCTCCTGGTATTGCTTTTTTTAGCTCTTTTTCAATTGATTTTCCAATATTTTTATTACCTGAAATTTTTGGTAAAACTTTCTGTAGTAGTGGTTCATTAGGATCAATATTTGGTATTATTTTCTGCATTCTTCCTAAAACATCTCCTCCATGCCCTACTTTATCAAATAGCTTCTGATATAACATCAGGGTATACAATCTTCCTATTTGATCGAATTTAACACTACCAATTTTTGCACCTTTCAAATTCTTAGAATTAACAGAATATTCAAAACTTAAATCGTCAGAAGCTGAATCTGGATGATCTGAGATGTCTTTTAAGAATGCTTTATTAACATCAACATACAAAGCTCTGGCTTCATCCGCAAGGAATCTAAATTTACCAAATCTATATATATATCCAGAACTAAATTCAACTACTGATGGATAATTCTTGATAAATAGTGTACCATTTGCTTTCCAATTCTTCTGGCCTCTCGATAATGTCTCCATTTCATGTTGCAACTTAAAACCTGATTTATCAGAAAAAATACTTAAATCATTAATTTTAAAATGCCTTCTAGTTTTACTTTGTGATGATACTAGATCAAAACTATAATCATATTTATTATTTTCTAGCTCATTAAATTTAAACACTTCTTTATTATTAATGATGTATTTAATTTCAAAATTTAACATTCTACCAAATGGTGAAGAAGTAAGCTTAGGAGCAAACATATCATATCTTTTAAAGAGCTGATCAAACATACCTGTCTTAAAAAATATTTCAGAGCTCATATCAACTTTATAATCTCTTCCTTCCCCATCCATCCCAGAAGCATATTCAAACTTCATATCATTAAAATCAATAAATGGAGATAAACATTTTGCTTTTACTTTTACATCTAAACCTTTCTGTAGCTCCTTAAAATTATTTCCTTTTGTTTTAATATCAAAGTCTGCATCAACATCAAAACCAGATGGAAGTAAAGAAAAGCCGTAAAATAAACTAACAGGCAATCTTCTTGCTTGCGCATTATTTGGCTTTGTCTTAACTACATATTTTGCCTTTAGTTTTTGAGGTATATTATTTAAAAAATCTTGAATATTTTTATACTCTTTCTGAGGTTCAAAACTCATATAAAGTCTTTCATACTCTTTATCGTAAAATTTTTCTTTATCATTTAAATCAAAAATTTCTACAGATTTAGAGGAAGCATGAATATCACCCATATGATTTACAATTTCAAATGGATCCTCCATACTCTTTATTGTTGAAGCTAAGTCACTTGTTAAAGGCAAATCTACTTCTACTAAATAATTATTAACAACAAGACGCGCACCAAAATTATGTGATTCCGGCTTATACGATGCCGTTATCTCACCACTATATTCAATAAAAAGCTTTTGTAGTAGTAAGTCATATCCAAAATATATCGGAGCATGATATTTAATTTTTGCACTCCTACTTTCTTCAGACCAACCGTTAACTTCCCAGGAAATTTTATATGGAAAACCCGATGGATTAACTTTGCTAAATTCTACAAAATAATCGCTTTCATCAATTCCTTTTACAGGCATTTGCTTTCCAGCATATTTATCATTTAACTCACCTGCTACTTTAAATGTGACGTAATACCATGCACTTCCTACTGCAACTAAAATTAAAATAATAAATGATATAAGAAACTTTATTAATCTCATTATTTTTCCCCTTTTAACTTGATATACTCTTCATTCAAACTACGCACATTCCATATCCATATCATAATTACTACAATAAAAATCCCAAGTAAGTATACTGTCACAGAATCAAAAGTAGCTAATGGCATCAATATAAACATAGAAGATTGTATAAATGCCCCAAGCGACTTACCAAACTTTAAACCAATCACTTCAACTGCAGCTTTACCTTTTGTTCTTAGCTCCAATGATAGCGGTATATATGCCATTTCTTTTGTAGAATCAAATAAAGAATATTTTGTAGATTTACTCAAAATATTCTGAATTGCACCAATGATTACCGCAAAATATATCGGATTAAACCAATCACCAAGAAAATCTATATCATTAGCAAAAATTACAAATATAAAAAATATAAGACCAGTACAAACCAACATAAATGGAGTAATCAACGCAGATATTATCCAGGAAAAACGCCTTAGTACATTACTACCAATCACCATAAAAGTAACGCATGACACACCCATCCAAATATTAAATTTACCCATAAAATTCAAATAGTCAATTGTATTAGGGTATAACTCTTTTACACGTGCTTTCCACGGACCTTCCAAAATGTTTATTACTAGCCCATAACAAAGTACAAGTAATACTATGTGTCCGATGTATTTTGAACTAAGAAGCAATTTGATACTTTCCATAAAAGATAGTTTAGTCTTTGTTTTCTCACTTGCACCGGCAAATTCCTTTTTTAATTTTTTGCTTTTCAAAACATGACGGTCTATATAGCGATACAAAACCATTGCCAAAACACCGGAAAATATAATTGCTTTCATAATTGGCTTTAAAACCATCTCACATTGGTATGAAGCGTTGTTTGCGTATGAATCCAAAATATTCGCATCAGAAATACCAGAAAGATCGGAAAAAGATACTAGTACATTTCCAGCTATAATAAGTCCTACATTTCCTACCATACCCAAGAAAGGATAAAATCTTTTAGCTGAATTTGTATCAAAAATATGATTTGCATACTGCCAGAATAATAAATTAATAATCACAGCACTCCAGAGCTCACAAAAAATATACATCAGAGCATAGCTCCACTTTCCCACTATATGAATAAACCATTTTAAATTTGGATATGAGTTTGCAAGTGAATATATAAACTCTTCATTTGGGTGATAAAGCTCTTGATTTGGAAATACCACATATGTAAAAAGCACGAAAAAACCAAGAAAAAAAGAAATTATCAGGTAAAACAAATGCTCATAATCGAAGATATTACTGAGCCTAACATAAATCAAAGTAAAGATAACAGTAGATGGCAGAACAAACCAAAGTTTTAAAAAACTAATCACTTCAGCACCAATATTTGGCACAACAAGACTATCCTTAATTGAACGAAGAGCACCGAAATTAAATAAGACACATAGCATCATTAGTGCTAGAGGCGCAAATAACTTAATTTCTGACTTTTCAATTGGCCAAAAAATATCTTTCAGCTTTGCTTTGAAGGAAGAATTTTTTAAGTTAGACATTTATTTTTTTTGAAACTGCTTAAAACAGTATTCACATGCCGTGTAAATACCTAATAGTTCTAATTCATATACTATTCCTTGTCAATAAAAAAGCTCAATTGCTGCTATTGTTATTGACTAGGTCTGCTTTAAATAAGATACTACGAT
>sequence23
CAATAGATCTGAGCACTAGAGTTTCTGGGAAGATATATGCCCCCAAATGATCAAGGATCATAGTAAAGATCGCTATTGTTTTTAAAATATCTTGATAATTTGAAGCTCTATTCATGATTTTAGAAGTAGAATTTTATGTATCTTAAAAAAATATGCAGATACAATAAAAATTACAATAGCAAAAGCTATAGTGCCAAGTAATGATGCGGCTTTTATGACAAAAATACTTGAGAAGAATAACTCGCCAAAATAATGGTTTACAACTAGGATAAAACCAGACATAACAAGGCCACAAACTAGGATCTTAAATGCAAACTTTTTTGTATCACTAGTTATCAAAAAATCTCCATATTGTTTGGCATGCTTATTTAATAGCCAAACATTAATCCAGGCTGCTATGGAAGATCCAAGAGCAATACCTACATGGCCAAAAGGTATCATTAGCAATATATTGAGAGTAGTATTGATAACTAGAGAATATACAGTGATTTTAAAAGGAGTTTTAGTATCAAGATTCGCATAAAAAATAGGAGTTAAAATTTTAGCTAAAACAAAAGCTGGTAACCCAAAAGAAAAAGCAGCTAATGCATTTGCTGTTAGAAATGTGTCGTTTGAGCTAAATTCACCTCTTTCGTATATTAAGTGTATAATTGGCTGTGATAGAGTGAGTAAGCCAAGCATTGCAGGGATTGATATTGTGAAGGCAATTTTGATGGCTTTATTCTGAAGAAAATTGGCCTCAGTATAGTCTTTTTTCTTATAAATTTTTGATAATTCAGGAAGTAGAATTGTACCAAAAGTTACTCCAATTAATGATAAGGGAAGCTGATATAGACGATCTGCATATGATAATATAGATACTGCTCCTGGAAGAAAACTTGCAATTGATTGTGAGATGAAAAGGTTTAACTGCTGAGCACCTGAGCTCATAGTCGCTGGTCCCATTTTTTTTATCAATTTTTTAACTTCAGGATCTTTTGGCTTAAATAAAAGTGGGAATTTTAATCCTGCTCTAATTAAGCAAAAATACATAAATAAAACTTGCATTATTCCAGCAATAATTAAAGCAAAAGAGATACCGTAATGCGGTTCTACAAAGTCCTTTGAAAAATATGGAATAATGATGACACAAATATTCATTAAAATAGGTACGAATGCAAATGCGGCAAATTTGCGGACTGAGTTTAGCATTCCTCCAAATAGAGCAGTTATTGAGACAAAAATAACATAAGGTATTGTCAGTCTACATAAGGTAATTGCTAAATCATATTTTTCTCCGCTATACATAAAGCCAGGAGCAATTAGAACCATCAAAAATGGCATAAAAATTTGCAGTATAACCGTAAGACAAGTTAGGGTTATAAAAAGTAAGATAAAAATCTCTCCACTAAACTTTTTTGCATCTTTTTTTGAAGTGACTAGCTTTTCGCTATACATTGGGATAAAAACAGCCGATAGAGCGCCTTCACCAAAAATTCTACGAAATAAGTTTGGAAATTTAAAAGCTACATTAACGCAGTCAGCTATTTGCGTTGTGCCAAATGTTGCTGCAATAAAAAGCTCTCTAGCTAACCCAAAAAAGCGGGATAGTAAGGTGAAAAAAGCTACAACAACGCCGGATCTAAGTAACATAGATTTAAGTTTTTAAATGTTAGTATTATTTGTCAGCAGCGCCATAGCGTTTTTATTCAAGGCAAAGTTTTTGTCTAAATAATCATTAATTTTCGCTTCGCTAATGTACTTCGCAATGACGAGTTCAATGTTTCGTCTTTGAAGAACTTTAGTGATATGGCAACCTAAAGAGACTTACCGCTATTGTCCAATGACAGTTTATTTGTAGTAGAATATGGGCGCTATAACAAGCGAAATTAGCTATAGAAAGAGCTATTTAACTCTATCTATAGCTTCCTCAATTGTTGTTCTTGCAGTTACAGCGTCTTTCCAGCCCACAATTTTTACCCATTTACCTTTTTCTAGCTCTTTATAATGCTCAAAGAAATGTTTGATTTTGCTTTTTAGCATTTCAGGTACATCATCGATATCTTTAATTCCATCAAAAGTAACATCTAGTTTTGATGTAGGTACTGCAAGGATTTTTTCATCCATTCCTGATTCATCTTCCATCATGAGAACTCCAACTGGACGAACTTTGATGATTGCTCCAGGAATTATTGGATAATGAGCAATAACCAGTACATCAGCTGGATCTCCGTCATCTGATAGAGTATTTGGGATGAATCCGTAGTTGCAAGGGTAGGACATTGATACTTGCATAAATCTATCAACCATTATTGCTCCAACTTCCTTGTCAAATTCATATTTAACAGGGTTATCATTCATTGGTATTTCAATAATTACATTGAAATTTCCATCTTTCGTTTTAGGTTGTATTTTATCTACGAACATTATTATCTCTCCTTGAACTTATGCTATAAAGTAGTTATTAATTTTTTAGTAGCTCTAAAGTCTGATCAACTAGATTATCAGTGACTATTTTTAAAAGAAAAATCAAAGGAAATCAAGTTATTTCGATGAAATCTGTTTAATGGAGGGATGTTCAGTCCTTAAGCAATTTTTCTATATTCAAAATAAATTTTTCTCACAGAATATATCCAAAGAATACATACTCCAATGAAAACTATCATAAGCACTGGAGCAATAGAGCCATAGGTTGCCATTGGTAATATAGTAAATATCATTGATTGAACCAATCCACTAGCTGATTTACCTATTTTAGGGCTAATAACGTCAACAGCAGCTTTACCTTTTGTTCTAAGCTCTGGATCAAGAGGGATATACAGCATTTGTCTTGAAGTATCCCAAATAGAGTATTTTGATCCCTTAGATAGAACGTTTTGTACCGCTCCAACAAATACAGCTAGAACAAGAGGTGACATTAACACTACCCCTTCAAACAGTGTAACTATTTGTTCGTCAAATACAACTAAGATAAAAAATGCAGTTCCGGTTGTAAGTATGATTACAGGTGAAATAACAGCCGCTGCGAACCAGCTACTATTTCTCATTACATTATTTCCTATAACTGTCATGATCATGATAGTAATACCTGTCCAAAGTATATACATACTGTTAAATGCAGCATAAGCATTGACAGTTGGATAAAGCTCCTTAATTTTTGATTTCCATACGGCTTCAACAAGATTCATCGATAGGCCAAATGATGCGGTACAAATCAGCATCAGCCATAAATATTTTGAACGAGATATATACTTAAAACTATCAATAATTCCCATTTTTGGCTTTGGCTTGCGTTCAGATTTGGCTCCAACGTTATGTGTTGGATTTGTCATAACCCGCTTTGTAATATGTCGTACTAGTAAGCATGCGACAACAGAAGAAATTGCTACTAATGATGTAGAAATCTGAGTTAAGAATATTTTATCATCAGATGTAGTGAATAGTTGTTTTAAGGCATTATCACTCGATGATAAGCTTGTCATCATAAAGCCTACTACAACAAGAGCAGAGTTTCCAAAAAGAGAAAATAAGGTGTAAAAACGTTTTGCTTCGTTAGTTGCAGTAATTTCATTAGCAATCTGCCAAAATAATAAAACATAGAATATATTAGGCCATAATTCGGAGAATGAATAAAATAATACATAACTCCAATTGCCAATGCACGCTATATACCATTTTAGGTGAGGGTGCTTAATCATAAGGCTATAAAGCAACTCTCTATTCATATGAAACGTATCAATTTCTGGGTATAATATGAATGCAAATATTACATAAAAGGCAGTAAATATACCTGCTAAATAGTAGAATATCTTTTGAAAAGATAAATGGTTAATTAGTTTTGCATATACAACAACAAATATTACCGCCATAGGTGTTACGCAATAAACTTTTGTAAAACTCGTAATTTCTGCACTAACTTCTGAGATTAAGATGCTGTCTTTTAGAATTCTTAGGACATTTTGGTTGAATAATACGCAGAACATCAAAGCTGACATTGGAATAAATTTTCCAAGTTCAGAATTATGGATAGGCCATAATATATTTCTTAGCTTGCTTTTGAATGGGTTTAATTCCTGTTCTGACATTTTGCAATATAACCTAATAGACAAAAAAAAAACTTAAAAAGTCATTTCTTAGTCGTAGGTCTGCAAATATACTGGTGTGTCCAGCTTCTTATGGATATAAGTTATTTAGCAGTAACTAATACTAATTACCGGCGCATTATACCACAGTAAGCCCTAATAGTCAATTGGTTATAATGTTTAAAATCTTTTTTTGAATTATCTATACTTTTTCTATAAAAAATACTAAGTTCAAAAAAAGATCATGCTGGAGGTAAGAATGCAAGAAGTATATATAACACACGCAAAGAGAACAGCAATTGGGAGTTTTTTAGGAAGTTTGTCTAATATTCCTGCCTATGAACTAGGGGCACTCGTGATAAAAGCTATCTTAGAAGAAAGTAAGATTGATTACAAGGCGATTGATGAGGTGATATTAGGTCAAGTTATTACTGGTGGATGTGGTCAAAATCCTGCAAGACAGTCAGTTGTTAAAGCGGGTTTGCCTATTAGTATTCCTGCTATGACTATAAATAAGGTATGTGGATCTGGCTTAAAATCCGTTGCTCTAGCTGCAAGTGCAATTAGAGCAGGAGATGCAGATGTAATTATTGCAGGTGGTCAGGAAAATATGTCTCTTGGTATGCATGGAAGCTATATGCGAGGTGGTAGTAAGTTTGGTGATACTAAGCTTATTGATTTTATGATGTACGATGGATTAACTGACTCTTTTTCGCAAGAAACAATGGGTATTACTGCTGAAAATATTGCAGATCAGTTTAGTATAGATAGACAAGCTCAAGATGAATTAGCTCTTGCTTCACAATTAAAAGCATCAAAGGCCAGCAAAGATGGTAAATTTATTGATGAAATAGTGCCAATTGATGTGACTAAGAGAAAAGAGAGGGTAATATTTGATACTGATGAAGGGATAAGAGGTAGTTCAACTATTGAAGGTTTAAGCGCCCTTAAACCAGCGTTTAGGAAAGATGGTTCAGTTACTGCCGGTAACTCATCGACCATTAACGATGGTGCATCTGTTTTACTTGTTGTATCAGCAAGCGCTTTAAAAAAATACAACCTTACGCCAATTGCAAAAATAGTGTCTTATGCAAGTGCCGGAGTTGAACCAGCAATAATGGGTACTGGTCCAGTTCCGTCCTCAAAAGCTGCTCTTTTAAAAGCAGGTTGGGATGTGAAAGATTTAGATATTATAGAAGCAAATGAGGCATTTGCAGTCCAAGCCGAATATGTGAATCGTCAGATGCAATGGGACATAAATAAAGTTAATATTAATGGAGGTGCAATTGCACTTGGTCATCCGATTGGTGCAAGCGGCGCAAGAATTTTAACAAGTTTAGTTCATGAAATGAAGAGATCGGATGCTAAAAAAGCACTAGCTACGCTCTGTATTGGTGGTGGAATGGGGATTGCAATGTGTTTAGAAAGGGTGTAGTTAAGATATTCTTTTTGTTACTTGTGATTATTAAAGCGCAGTAAATTAAATGATTAAAAAATCATTGTGTATTTTTATTGACAAGTTGGCATTATGTCTTACTTTAGCCGATATAACTAAAAACTGTAAAAGTGAGGTTTATTTTCAATGAGAGTTATAATACCTGGAAATTAAATATTTCTGACTTAAAATTGTGGGTGCATCTGGGTTGTTCCGAGCAAGAAAAACATCATACTCAATGTGTTTCTTTTAACGTAAGCATAACTTCATCTAGTAAGCTAAAAGCTACATATAGCGATAATTTAGACGATGGATTTTGCTATTCCAAAGCAACAAAATTAATCAAAGAATTAACTAGTAAAAAGCGTTATAACTTAATCGAACGTCTTGCTTGCGATGTGTATGATATATTATGGCAGAGACTTAAAGATTTGGGGTTTGCGGATAGTATATTATCTATAACGGTTACTAAATTATCTCCTCCTGTAAGAGATATTCATGGTGGTGTTTCATTTACTTATGATGGACCGGGAGGTAGCAGATGATTTATATATCTATAGGCTCAAACTTGGGTAATCGACTTGCTAATTTGCGAAAAGCTGTAGAGCTAATAAAATCTAATATACTAGAACAACCATATGAGTCTATTATTCTAGAGACAACAGCGCTTCTTAAGAATAATTCTCCGAAAAGTTGGTATAAGCCATTTTTGAATATGGTTATTGCTGGTAAAACTGAATTGTCACCGCATGATTTATACAAAAAGTTGGTTGAAATAGAAAAGCAAGTTGGTAGATCTTATAATAAAGAGAAATGGGCGCCTAGGATAATTGATCTAGATATTTTAATATATAATGATCAAGTTGTAGATACTCATGATATTAAAATTCCACATCCTGAGTTATTAAATAGAGATTTCTTAATACATTTGCTTGCGCTTATGCCAAGTAAGTATAGGCCATTTATTCAGACTCAAGAGCAAAGGATTCGTGTTGACGAATATGCTCATAACTATATTGATGGGGCAGATTTGTTTACTAAAGCTTTTGCTCTTGGACCTTCTGTTGTAGGAGTATTAAATGTGACGCCAGATTCTTTTTCAGATGGTGGAAAAAATTTTGAATCTGAGATAGCAATAGAAAATGCTTATAGGTTGGTTCGAGATGGAGCAGAGATTATCGATATTGGAGCTCAATCTACTCGGCCCGGGATTAGTGAAATTATTGGTCCAGAAAAAGAATATGAGAGACTTTCTCCGATATTGGATGGATTAAAAAGTATAAATGCTAAAATTAGTATAGATACTTATCATCCAGAATTGATCAGCAGGCTTTTGAAGGAGTACAAGATTGATTGGATTAATGATGTAACTGGCAATTTAGGTGGAGATATTTTACAGGAAATTGCCTTGTCTGGTTGTAAAATTGTTGTTATGCATTCACTTTCAATTCCACCAAGTAAAAAGAAAATATTATCTCATAATATACCTGTCACAGAATCGATAAGAATTTGGGGAGAAAAAATTGTTGAGAAGATGCAAAGATATAATTTTTCATTAGAAAATATAATAATTGATCCAGGCATTGGTTTTAGTAAATCAATATATCAGAATTTGGATCTTTTAAAAGGTACCCAAGAAGTAAAGAAACTTGGTGTTAAAGTTTTAGTTGGGCATTCTCGTAAATCTTTTATGACAGGTTTTGTTGAAAAGCCTGCGCATCAAAGAGATATAGAAACCATAGCTATTTCAGGGAATTTAGATTGTGTAGAAGCTGATTTTATTCGTATTCACAATGTACGCGAACATCATAGATTATTTGTTGCAAGTAGAGTTTCGAGATGAACAGAAAATTAATTGGAATTATGGCTTGTACTCATAGCGGCGTTATAGGTCTAGAAGGAAAGGTGCCATGGAGATATGAAGGTGAATTCAAATATTTCCAGGAAGTTACTGATAACAAGATAGTGATTATGGGAAGAAAAACTTTTGATGAAATGAGAAAGCTTAGCTTATTAAAGACTAGGAATAATATTATATTTACTCGAAACTTATCACTACAAAAACATTATCAAGCACCAAATATAAAATTTGTACATTCTCTATCAGAATTCAAAAAAATAATAGTTTCTGAACGTTCTGATGCATACATGATAGGGGGGCAAGAAATAGCTACAGTGTTTTTAGAAAATGATATGTTAAGTGAGTTTCTTTTGACCAAAATTCACAAAGAATATAAAGGTGACACATATTTTCCATTATCTCAACTAACAGATTGGCAGAGTGAAATAATTAGCTCTCGCAAAGACTATACAATACACAAATATATAAAAAACTAACTGATTACTATAAAAGGAGGAAGTTTATGAATTTTTTAAAAAAATTACACCAAGAGATTGATCAATATCATTTACTTAAGCATGAATTTTATCAGGCGTGGAATAGAGGTGAGTTATCTCTTAAAACATTACAAATTTATGCAAAAGAGTATTATGGCCATGTAGCTGCTTTTCCAAGATATATAAGTGCGATTCATTCATTATGTGAAAATATAGAAGATCGCCAAGTTTTGCTAAATAATCTTATTGACGAAGAGCAGGGAAAAGAAAATCATCCAGAGCTATGGTTAAAGTTTGCGGAAGGAGTTGGGTGTAAAAGATCTGAATGTAAGAAACAGCAGTTATCTTCTACAAGAAAATTAATTGATGAGTATTTTGATATTACAAGAAGTAGCTTTGCTTCTGGGCTTGGTGCACTATATGCGTATGAAAGGCAAACGCCATCTGTAGCTAAGTCTAAGATTAAAGGACTTAGGGAATTCTATAATATTGATAACAAAGATACTTTGAAATTTTTTGAAGTTCATATGGAAGCTGACGAATGGCATACTCAGGAATGTGCAGATCTTCTTAAAAAGTTAAACAAAAAGGATCAAATTTTAGCCCAGCAAGGAGCGGTTAGAGGAGCAAAGTTATTATGGCAATTTTTAGACGAGATGCAGCAAATTCACTTACAGAATGATCTAAAAATTCATTAATATTTTGTTTTGTTCTGCAAACAACTTGCTTGCAGCATCTTGCGCAAGATTAAGCATTTGCATGAGTTGATCGGTTGTAAAATCACCATCTTCCCCAGTGCCTTGTATTTCTATCAAGTTGCCATGCTGGTTGAAGACAAAATTTGCATCAACTTCTGCAGTGCTATCTTCATCATAATCTAAGTCTACAACTGCTTCTCCATTGTATATACCGCATGATATTGCGGCTATTTGCGAAGTTAAAGGGTTTTTGCGTAAGATCTTTCTATCCATAAGATTCCTAATAGCAAGATGCAGTGCAACATAGCTTCCAGTAATTGCAGCAGTTCTGGTTCCTCCATCCGCATTTATAACATCGCAATCAATAAGAATTTGTCTCTCACCTAAAAGATTTAGATCAATTGCAGCTCGCATTGAGCGACCAATTAATCTTTGTATTTCAAGAGTGCGGCCACCTTGTTTTCCGCTGATGGATTCTCTACGCATACGCTGATTTGTTGACCTTGGGAGCATGCCATATTCGGCTGTAACCCAACCTTTATTTTGACCTTTAAGAAATCTTGGGACCGTATCGTCAAAGCTTGCAGAACATATTACATGAGTACTGCCAAATTTGATTACACATGATCCTTCAGCATGGTTTAGTATATTAGTTTCTATTGATATATCACGTAATTGGTTATTTTTTCTTTTTGACGGGCGCATAAATATTTTTTCTTTTATCACTTGAATTATAGAAGCTACTAACTATATTCATATTAGTTACTTATAAGTGCTGTTTTAATCGAAACATAAAGACTTTGAAATGGAAAAACAACAAAAAACTAAAAAAGAAAATCAAACTAACCAAGTTAATGACGAATCTGTTGAAGAAGTTGTTGAAAGTGAAGAGGCAAAAGAAGCAGATCCTCAAGAGATTATTGAGAATTTAACTCAGCAGGTAGAAACTCTACAAGACAAATTACTTCGTGGGCTTGCTGAATCTGAAAATATTCGTACCCGTTCTGCTAAACTTGTTGAAGAAGCAAGAGAATATGCAATATTTGATTTTACTAAAGATTTGATGCCTGTAATGGACAATTTGCAAAGAGCTCTAGAGCATATTCCTGAGAATCTAGATGCAGAAGCTCGCAATGTAGTTGAAGGAGTTAAGATGACCAAGAGTCAACTTGAATCAGCTTTTAAAAAACATCATTTAGAGTCAATTGCGCCGCAGTCTGGTGATAAATTTGACTATAATATGCATCATGCTATATCACAAATAATGACAGAAGAATTCGCAGCAGGTAGTATTGTAAACACTATGCAAGTTGGTTATAAAATCAAAGACAGGTTGATTCGCCCAGCTGCAGTAACTGTTGCTAAAGCAACTAAAAAATAAGATAATCTATTAATGCAAGATCGCAGAAAACAGAGTAGAAGTGTTGCAGTAGACATGTCATTTTTGTTAATGACATGTCTATTTATGTTTACCTGGATAATTTTTAGTAGTACAAAAGCAAATGCTACAGAAAACGAAATTTCTGAAATATATATTGAAGCTTCAGGAAATAATAAGCATGAAGCTAAAATTAAAGCCCATGAAAAAGGTATGCAAAGAGCCTTATATCTTCTTGCGAATAAATTTAATATTCCAACGGATGGCTTAAGAACAATTCCCTATCATAAAATAAAGTCAGCTTTTACTCCCAAAGTAGTAATAAATGAAATTAGTTTGCTTGAGAAATATAGCGCTACTGTAACTTATGCCTACGAAAAAGGAAAAATATTTAGTCTTTTACTAGAATATGGTGACACAAAAGTTAATGATCTATTCTACGAAGTTGTAGTGCTTCCTGTTTTTAAGCAGAGAAGAACACTTAATATTTGGGATGATGATAAGAGGTGGAATGATTTTTGGAGGGATTCAAGGCAAATTCTAGATACGCATAAAATTTATTATCCTGAAAAGACCTTATTTTTATCAGAAAAAATTAAAGAAGATAATTTATTCGATTTAAAATACGAAGATTTTGTAAATATTTTTCACAATAAATTATTTAAGAATGTCATGATTGTTACTGCCGAGTTTTTCACAAATAGAAGAACAGGTGAGAGCATCTTGCATATTAAAAAATATATTTGGACTCCTGTTAGTGTAGAAGCACAAGTTGTTGAAGAGGAGTATGATTTAAATTCATGGGATGATATTCCTTATATTGTTGATTTGGTGATTGATAAGATTATTGATGATTATGGAGCAATAAGGCTAACTGAGCCTGAAGAAGATATAGATGATGGACATTTATTTATCGATGAAGATGAAAAAAAGCCAATAATAATGAATTTCGATGTATTTGATCAAGATGAGCTTGATCTTGTTATATCAAAGCTTGAAAAGGTTGAGCAGATTGATAATTTTGCAATTGAACATGATTATAATACAAGATATAAAATACTTATCTACACTTCAGTAAGTGAATATGAATTAGCAGAAGGTTTGTATCTTAATGGTCTGAGTTATAAGATACATGGAAGTTTGTATAATCTTATTGATATCAAGAAAGGTGGTTAGTTGTTTTTAGAACAGGGAATTTAGGTTAAGTAAGATCTGAGAATTTCAGGTTTATTCAATGCCTCTAAAAGCTTTATGTCATTCCCGCGCAAAGCGGGAATCCAGTAATTTACCTTACAACTCAATCGAAAATATCTATTAATGGATCCTTACCCGGCGCAAGGAGGGTGTTTAGAAAAAAATAATTAGTATATGCGGATATCTATGATGTTAGCAACTTAACTTCAACTCAATTTACTTTATAAGATTTAATCTTACTTTTTCTATTTATCAGAAAAATGATGATTTTATGAACATTCTGATTTCCATATTTCTTTATCATATAACCCTCTTAATCGATTTGCTTGAGGGTTTTTGCATAATCTGCCTTTTGCTTCTGGAAAAATGCCTAGAAAGTAGCGAGCGTTTTCAAAGTTTTGAACTTCATCACTATTTCTGTATCTCCGAAATTCTAGTACTCTTTTTTGCATTTTAGGTGGGTTAGGCTTGCCTTCTACATACCAATCTTCAAGTGATGGGACAAGGCATTTTTTGTTTTGATTTTTACAGTATTTTGTATGAAACTCAGAAATAAATTTTTCACTTTTTTCCAACTCTTCAAAGAATTTGGTTTTAAATGCTCTTTTGACTTCATCATTCGTTTGTCTATTTTGTATTATTTCTAGTAAAGCTATTTTTGCTGAAGAATTTTGGTTTTGGAAATGAAGTTTAGTTATTTCGTAAAACCCTTCTAAGCCAAATTTTTTAAGAATTAAAATGCTAGAACGGTAAACAGCAAATTTTGCTGACTCATTTAAGCGTGCAAGAAAATTATCAGACGAGCCGGTAATTGCACTAGCAATATTAACAATTTTATAGTTGATAGGTCCCCAATCTTGTTTTTCATCTAATATAATTGAAGACAAAATTTCTATATCGTCTTTTTTAAGTTTTTTATATGCTGACTCTATAGTTTTAGGTGATATAGAGTAGAAGTTGATTCTATTATTACTATCGTTAAATGTAAATTCAGTACTAGAAAGTATTTGGCTTGCTATTTCTGCTTTTCTTGTGCGATTGTAAAGGTAACTTGCGAAAGATATAGCACAAATAAGAATTGCACAGTAAAATATTCTAAGATACGCCCGCATTGTAATTAAATCCTATTTATTACATAACCTCATATTTAATAGTATGCTTTAGATAGTTTATAAAAAATAGTGTAAATTGAATTTTACTCTATGAAATTGTAGAAAAAGTTGCATTGGAAGTAGTTATATTCAGTATTTCGAAAAAATAAAACCTACAACTAGATATGCTTTGATTTACAAAATATTTATATACTCGTATAATCTTACAAGATGGGATTAATTAGGACGATTTCTTATGAATAGACTGGCCTTTTGGAGTGTTGTACTAGCTGTTGCTTGTAGCTTTATATACTTGGTGTCTGATACATTAGTACCATTTTTGGTGGCATTTATATTTGCATATTTACTCCAGCCTGCGATTGACACAAATTGCCACAAATTAAAGCTTCCAAGAGGAATAGTAACATTGGGTGTATTTACTATGTTCTTAAGCGGATTTGTAGCAATTATAGTCCTGATTGTACCGATCATATACCAACAAATAGCTGTTTTTGTTAGTAAAATTCCTCAATATAAGAGTAATTTTCAATCAGGAATAACGGCTTGGTCTGAGCGGCTAAATGATGTGAATCCTGAACTTTCCAATAAGGTTACAGAATCTGCTCAGAATTTTTTAGATAGTGCGTTTTCTATATTCGCAAGCTTTGCTAACCATATTTGGCAATATACTCTTGCAACAATTAATTTTTTTACAATAGTAGCGCTTGTTCCAATTATACTGTATTATTTCCTCCGAGATTGGCCTCAAATTGTTAGTAGTATTGAATCGATATTGCCTATGCGTGGGAAAAGTAAAGTAAGAGAAATTTTTATATCAATCAACGAACTATTGTCTGCTTATATCAGAGGGCAGCTTAACATATGTTTGTTGTTAGCGTTCTACTATATTCTTGGGTTGAATCTGATTGGTCTTGATTTGGCGTTGTTACTTGGAATTCTATCAGGTTTTTTAATTATTATTCCATTTATTGGAGCAATGATTTCTTTTCTGATGGTTGTAATCAGCTGCTATTTTACTTTTGGAGCTGGAGTAGAATTGATTTATGTTATAATTTTATATGTAGTAGGGCATTCAGTTGAAGGTTATATTCTTGCTCCAAAGATAATTGGTGATCGAATAGGTTTGCACCCAGTTTGGATTATATTCGCAGTTTTTGCTGCTGGCAGTGTATTTGGCTTTATTGGGATCGTATTTGCTATACCAATAGCTGGAATAGTAAAAGTGCTTTTATCGCATGTGATAGATTATTATAAATCTAGTAAAATGTACAAGAATTGAAAATTAATCCATGCAGCAAATAGCATTTTCTTTTACAAGCAGCGATGCATATGATTCAGATGAGTTTATTGAATCTAGTTCAAACTTATTAGCCTGTCGTGCAATTAATAATTGGCCAGATTCTTGGGGTGTTGAACCTTATCCGAAGGCTTTGATAATTCAGGGGCCTAAAGCATCGGGTAAAACATTTTTGGCAAAAAAATGGGCCAAAAACACAGATGCTTTATTTATAAAAAAAATGCATGAGATTACGGAAAATATACTTTCTGAACATCATGCTTTTATTATGGAAGATTTTGATTCTAGTTGGAATGAGGAAAAATTTTTGCATATATTTAATTTACTTTCGGAAAATCAAAAATATTTATTAGTTACATCTCAGGCGCTTCCAGAAATAAAACTCCCGGATTTGTCGTCTAGAATAAAATCAGTAAATCTAATTAACATACAGCAGCCGGATGATGATATGATGCAGATGCTGATTTTTAAGCTATTTTCTAATTACTCGGTCGTGATCAGTAGTGAAGTGGTAAATTTTTTAATTAAAGTTTTACCACGTGAATTCCCAGCAATAGTTGAGTCTGTAAGGATAATAAATGATTTTGCTCTAGAAAATAAGCGTAAAATCACTATACCTATTGTAAAACAATCTCTTGAACTATAATTAGCTAACAGTGTCTAATCTTTTTTCCGTCCATAGATAAAGAATATAATTAAAAGACAGGCGCCAAGGCTATACCAAGTGATCGCATATTCCATATGATCATTCCTTACCTTATTTAGGTGCTTGGTTGAAAGTGGTTTTCCACCATCTGGTAGATCTTCACTACCGATTTGCATCAGATAGAAATTAGTAACATTTATTCCTATAGTTTCTTTTGCCATCATTAGATCTATATTAAACCAAATATTTTTCTTTCTATCATTTTCTGGTACAAGAAAATTCTTCTTTTCATGAGGTAGGGTGATTCCAGTAATCTTTATAATATTTGTTTGTTGGTTATACTCAGAGAAATTATCTTTAGTACTTTGTGGAATCCATCCTCTTGAGATAAGTAGCACATCACCATTCAGTGTTTTGAAAGGAGATAGTAGGTAATATCCATCTTTTTCTGGGGAAGCTGATCTTCTACCATATAGGAAAATATTTTTATCCTTCAAGAAAGTTCCTTCAAGTTCAATTTTTGCATAATGATCGATATTATCAGTAATATTATCAATAACTATTGGTGGATTTTTTATATTTGTTTCAATGGTTTGTATGAAATGCTCTTTTTGAGATAATCGATCTAATTGCCAGTTTCCTAGAGAGATTAAGATAATTAGAGAAATTAGGACAAATATAAACGGTATTAGCTCGAATTTTAAGCCAAAAATTTTAATAGTTTTACGCATGAAATTATTAATTCTAGTTTAAGTTATGCTTTCGCATTCGCTAGATTCTATATTCTGACTTAATTTATGTCCAGGTTCATATGCATGTTGCATTGTAAAAATATTATGGATCTTCTTATTTGATATATTATTAAAGAATACTCTATATTTATATGCGACAATATTTTTTCCGGATATATCTATTTTCCCAAAATCTCCACTTGGATGCATTATTACTGCTGCAGTGCCAAGAAGTATGCATAATAATGTATTTGCTATAACAATGGCAGTAAGAGAAAATTTTTGATAAAATAAAGAATTCATAAGTATTAAGCTCAGTATTGCAAGTGCAACTACTCCATAATACAGTTTTTTAGTGAGCCTATGATGTGTTGATTGGATTAGGCTTGCTTTATATATTATATTGTTAACCCAACAATTTATTGGTTCAGTAATTGCGGATAATCTAAGAAATATCTTACTAATTTCATTATCGGGCTTTACTTGCCTTTTGTAACGAGCAACTCTTATTCTGAACTTAATATTTACCAGTAAATTGATAAGTCTCTGACCAAGAGGCTGCGCAACGCGTCCAAAACTAGTTTCAAATTCTTCACCATTTCTTTTTGAGCTCTTTATTAAATCCGTCGTTCTTGCATAAAATAGCTTTGAACATTCTGTTGCATTTAAAAAAAGATTATTTAACTCCTCATCTTGGCTGCATAAATCTGCATATTTGTTATGAAGTTTTTTTATCATTATAAATGAAGGCAGATTAACAACTCCATCACGATATTGTTTTATAAGCGATGAATTTCTAACGCTCATATAGTGACAAAGCTGGCTAAACCTATCATTTCCTGCTTCATATTCCTGTAAAGCTTTAAGATATTGCTTCATAGACCTCGAATAATAATTTAAAGAAATTTCATTAAATTAATATACTCCTAGAATATATTAAATTGATATTGAATCACAAAATAATTAATAAAAGGTAAATACAACTAAAGGTTTAAATTAGACGCTATTTTTACTGAGAATTTTAGAACTTACTATTAGTGATTCTACCTCTAATTGCTAATAGTGCAAGATACTAAAATTTAAAATTTTTTAGTAAGTAATTGAATGTATAAATATACTTGAAAAAATTAGAAATATAATTGATAGTATGTATATTCTCGTATATCATTATTTGGATATATGAATTGAGTTTAAAGCTAAATTCAATAAATGCTCAACTAGAAAATTTTAGATATAGGAAATAAAAAGGCTATGGGATTAGATATTAAAGCTCCTGAGAATGTTATTTTAAAACCAATAATTACTGTTTTTGGTGTAGGTGGTGCAGGTGGAAATGCTGTAAATAATATGATTAAAGCAAGTCTTCGTGGTGCAAATTTTGTTGTAGCAAATACCGATGCTCAAGCTTTAAAACATTCAGAAAGTTCAAATAAAATTCAGTTAGGAGCCGCCTCAACAAAAGGTTTAGGGGCGGGAGCTTCTCCTGAAGTTGGAAAAGAAGCTGCACTTGAAAGTGAAAGTGAAATTCGTTCGCATCTTGAAGGAAGCAATATGGTATTCATAACTGCCGGTATGGGTGGTGGAACTGGAACAGGTGCTTCACCAGAGATTGCAAAAATAGCCAAAGAACTTGGTATTTTAACAGTTGGAGTTGTAACTAAGCCGTTTCTATTTGAAGGAGCTAAGCGTATGAAGCTGGCTGATCAAGGCCTAGCTGAGCTTCAAAAACATGTTGATACATTGATTGTTATTCCAAATCAAAATTTATTTAGAATAGCTAATGAGAATACTACATTTCAAGAAGCATTTGAAATGGCAGATGAAGTTCTACATGCTGGAGTACGTGGTGTTACTGACTTAATTACTTCTCCTGGTCTCGTAAATCTTGATTTCGCTGATATTGAGACCGTAATGAGTGAAAAAGGAAAAGCAATGATGGGTACTGGAGAAGGAAGTGGAGAAGATAGGGCAATTAAAGCTGCTGAATCTGCGATCGCAAATCCTCTTCTTGATCAAAGTTCAATGTGCGGAGCATGTGGAGTACTAATCAATATTACTGGTGGTAAAGATATGACTCTTTACGAAGTAGATAGTGCTGCAAATCGCATTAGAGAAGAAGTTGGTGATAGTGATGCAAACATTATTTTTGGTTCAACATTTAATCCGGAGCTTGAAGGTACTATTAGAGTATCAGTGGTCGCTACAGGCATTGAACAAAGTGATATGGATTTTGTTAAAAGTGAAGAGCAAGTAGTTGAGATAGAAGATGAAGCTAATATTGAAGAAGTTGAGTCTGGAAATATTGAAATTGATAGCCATGAACCACCTTCATACAATGAATATGAGGAAAAGGTAAAAGAAAGTGAGGCAGAGTTGCAAGCAAAGCTAGATCAGCTAGCTCGTCAAATGGATTGGAATCAAGCTGAGCAGCTTGCAGCAATGGAAAAATCAGTGGCAACTGAACAGAAGACAAAATCAAAGCCTCAATCACTGCTAAAACGTATGTGGAATTCATTGAAAGCAAGCGATATGCAGCAAGAAGAGAAAATATCACATAATCAAGATACTATGCCACCTTCTATTCATGAAGGTAAATCAGATATACAAGATATTCCTTCTTTTATGAGAAAAGACAGGTAGGTATATCTATTTTGGTGATTGAGATTTAGCATTTCTGTGTAGCCGGCGAGCTGTTAATTATAGTTATGGTAATGAGGGCTACCAGTGCTTTAATTATTATATCAGTGGAATATTAATCCGATAGATTGCCATATAATTTCGATCCACGTTAGGTGGAGAGTTATTTTTGCTTTCAACCGTTAATCGGTTGACGTTATTTCGATTTATTCGCATGAATATTGGAATTGGTGAATTATTTTGCTATATCATTTGTGTTCATTGTACTAAACAAATATACACCGTCTTAGCAAGCAAAGCGCGGCTATCTATTTTTATCAAAGCGTATGGTTTTAGAGTTAGTCATATTGTCCCATGACTTTATTTCTTGTGGATTGCGGAATTTCTACTTCGTTTTATGGCATTATTAAATAACAAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCAGAGGGGGCGCAGAAGTA
>sequence24
ATTATAAGAATTTTCAAAAAAATCAAAAGGCTGTTGCGCTTGGATTTGAAGAAAAAGTTGATCATGCTCCAAAAGTGCTAGGTTCTGGTAACGGTATTATAGCAGAAAAAATTGTAGAAATAGCTCGTGAGAATAACGTGCCTATTCACAGAGATACTGACCTAGTGGAAGTATTATCAGTTCTAGAAATCGATGAATATATCCCTCTAGAAGTTTATTCTGTAGTAGCTGAAATTTTTACTTACATTTATGAACAAAATGAAAAAAAGAAACAAAATAGGTTAAAACGCTAGATGAGTAATAAAAAACTGACTTTTTCCCAAGTAATTCAGAAATTCGATAGTTTCGAGAAAAAATTCGCTAAAAATCCCGGCGATAAATCACTCCTCGAGTTTTTTGAAGTTTTTGGCAAAATAATCAATGAAGGCGATTATACATCTGAACAATTAAAGCAAATTCGTGATAGAATGTTGAAGCTAAGAGAAATATTTTCTGAAACAAGAAAAGCTCTATCAGAAAAAAGTAATGAAACATTAAATCGCCATAAAAGTGTTTCTCAATATATTAAAACATCACACATTAAGAACAAGTAATCATGGAATCAGAAATTATTTTCAAGGCGCTTTTATCTCTTGGCGTAGTTTTCGCTGCAATGTATGTAATTCTTAAGGTTATGCAACGATATAGCAATGTTGGTACTGGAGCAAAAAGATCTTCTAAAGGAACAGGTTTAAAAATTGAAAATATCGTGTATATTGATGAGGGAACAAAAGTTGTAAATATTAGCAATAAATCTGGTTCTAATTATGTTATTGCTGTTGGAAAAAATAATTCGTTCTTGGTAGATAAGTACAAAATCGACAAAGAAAAAGATGAATAAATCGATGAAATTTTTTAATTTAATTGCAGTCATTAGTATAATAATGCTGCCTGAATTAGTATTTGCAGAAGAGTCTTTTGCAAGCGAGCTAGAACATCTACTAAGCAGTAGCTCGATGACTAGCCGCTTGATGCAAATTTTCATGTTAATCACTATTTTAGGGCTAGCACCTTCAATATTGATTATGGTGACTTCATTTGTTCGTATCTCAATAGTATTATCAATAGTGAGAACAGCTCTTGGCTTACAACAATCCCCTCCAAATCAGGTATTGATTAGTTTGGCATTATTTCTAACATTTTTTATTATGTCACCAACACTGCAAGAATCCTATGATAAAGGGCTAAAGCCAATGCTGGAAGAATCGATGACGGAAGAAGAGGCTTTTCCACTTATCGCTCAGCCATTTAAAAAATTCATGGTTTCAAACACTCGTACTAAAGATTTAGATTTATTTATATCTATTGCCAAAGTGGATGCACCAAAGGAAATAGAAAATCTTCCATTAAGAGTTATCATTCCTGCATTCATGATTAGTGAATTAAAACGCGGTTTTGAAATCGGCTTCCTTATCTTTCTGCCATTTCTAATTATTGATATTGTTGTTGCATCAGTATTGATGGCAATGGGTATGATGATGATGCCTCCAGTAATGGTGGCATTACCGTTTAAAATAATATTCTTTGTTCTAGTTGATGGCTGGTACTTGCTGGCCGGAAGTTTAGTACAGAGCTTTGTAACTTAATGATAATTTATAGGAACAAACTATGACACAAGAAATAAATGATGGTGATTTTGAAAAAGAAGTAACTAGCTCAGCAGAGCCTGTATTAATTGATTTTTGGGCAGAATGGTGCGGCCCATGCAAAATGCTTACACCTATTATTGATCAGCTTTCTGAGGAAATGAAAGGTAAGGTTAAGATCGTAAAAATGAATATTGATGAAAATCCTGAAATACCTTCTACGCTTGGTGTTCGCAGCATTCCAACTCTAATGATTTTTAAAGACGGAAAACAAGTATCATCAAAAGTAGGTGCTCATCCTAAAAACAAGCTTGAAGAGTGGATTAACTCATCTATTTAGTAAAATTGATTCTCTTCTCTTTTCGAGCAATGCAATCTATATAATAGTTATAAATGCTCAAAACAAACATAAAATTTGCAGACTTAAACTCTCTATCTGGTCTTAGAAAACTAGATGAGAGTTTTTTGCAATATTTGTCAATCTACAATCCAAAACTAGAAGAACAGATCAACTATTATAGAGATATTGGATCAAGTAAATTAAGCGAATCTGCATACTCAAAATTCATTACAGAGCTTGGCCCACTACTCGATGATTTTATCGCTGACTTATTTCAAATAAATTCTGAAAATCTAGCGCAAAAAAAGAATTACGAAAAATTCGATGTAATATACGAAGCCAGGAGGAAATTTATCCAGAGATATGCGATCAAGAAATATACCAAAGATGATATTGATAAATTAAATTTTGCAAAAATCACTCTTAAGCTAAAATCAATAATTGGTGATATTACTCAAGATAGGCTTGCAGACTCAATTGTTACCTGGCAATTAGATTACGAAAAATATAAAGATGAATTAGATGCCGCAGCTCAATACTGTTCAATAATGTACTATAATAATAGCTCTCTTGAACTATTCGATATACCAAGACCAATAGATGAAAATAACCAAATAAGAGAACACCGAATTAAACAACTATCTAAAGAAACTTATATAGGCTTTGACTATAGAGATTATGTTTCTAGCGGCAAGGCAGCGATGCACACAAAATATTGTATATATTGCCATAAGCAAGGAAAAGACTCGTGCTCAAAAGGTTTTCATCATATCAACCCAGAAAAATATCCAAAAAAAGAGAAGGATGGCTGCCCATTAAAGCAAAAAATCTCTGAAATGAACTTCTTAAAGGATATGGGCCTAAATATTTCGGCACTTGCTACTATTGTAATCGATAATCCGATGGTAGCATCGACCGGTCATAGAATCTGTAATGATTGCATGAAAACATGTATATATCAAAAACAAGAACCTGTAAACGTACCATTAATTGAAACAAATATACTTGAAAAAGTATTGGAGCTACCTTGGGGAGTAGAAATCTATCTTCTACTTACAAAATGGAATCCTTTAAATATTGACTCACCATTACCAAAGGAAAAATCAGGTTATAATGTTCTCGTTGCTGGACTTGGACCAGCTGGATTTGCATTATCCCACTATCTTATAAATGAAGGACATAGTGTTGTGGCAATTGATGGTCTAAAAATTTCTCCGCTTCATTTTGATATAACAGAACCTATAAAAGATTGGAATAAAATCAAGATACCATTATCAGAAAAATCACCTCAAGGATTTGGAGGTGTTGCTGAATATGGAATAACTAATCGTTGGGATAAAAATAACCTTACATTAATCAGACTTATTCTCGAAAGAAGAGAAGCATTCAAAATGCATGATGGAATTAGATTGGGAAGCAATATCACAACAGATCAAGCTTTTCAATCTGGTTTTGATCATATTGCACTATGTCTTGGCGCAGGCAAACCTAATTACATAAATAAAACAGACTATTTTGCAAAGGGAGTAAAGAGTGCCGCAGATTTTTTAATGAATCTTCAGCAAGGAGCACCTCACTTAAAAAACAGCAATAGCAATATGCAAATTCGTTTGCCAGCCGTTGTTATAGGCTGTGGCCTGACCGCAATTGATAGCGCTGTAGAGCTTCTGCACTACTATCCGGCACAAGTAAAGAAGTTTGCAGAAAAATGGAAAAAAGCTGATCGTAATAATATTATTCTAAATGATGAAGAACATCAAATAGCTGAAGAATATATAAAACATGCAAATCTATTTGCAAAAGCAAAGGGTCATAGGGAAAAACTAGAAATAATACAAAAACTAGGTGGAGTTACAGTCTGCTATAGAAAAAATATTAAAGACTCACCAGCATATAGACTTAACCATGAAGAAATTGAGCATGCAATAGCAGATGGGGTTAAGTTTATCGAAAACGTATCGCCAGAAAAAGTTGACGTTGATGATTACGGATCCATTACTTCCCTGAATCTTTCAAATAATGAGAAAATATCTGCAAAAACTATATTAATTGCAATTGGAACGAACAGTAATGAGTTTGTAGATATAGATGGTCTTGATAATTTAGACTCTGATATTTTTAAGAATAAATCAGGTAATATTAGTTATTTTGGTGATTGTAATCAAAAGTATTCTGGAAGCGTTGTCAAAGCTCTTGCAAGTGCAAAAAATGGCTATAAGGCAATATCAGATACTCTTGCAAAGACTGCTCCAAAATCTCCTGAGATTACTGCTTTTGACTCAAGCTGCACTATCAATAAAGTTACCCAACTTGCAGATGATATAACTGAAATTACTATCCATTCAAAAACATGTGCTAGTAATTTTAGACCTGGACAATTTTTCAGATTACAAAATCGAGCAATAAACCTGCATGATACTATTGAACCAATAGCTATTACTGCCGCAGAGGTAGATCACACAAAAAATCTTCTAACTTTTATAATTCAAGATGTCGGTAAATCTAGCAACTTAGTTCACAAATTTAAGGAAGGTGATGATATTATACTAATGGGACCAACTGGCTTGCCTACGAAAATTGTATCAAATAAGAATGTTCTTTTGATTGGTGGAGGAATTGGTAATGCTTTACTTATCCCAATAGCGCAAAACTTAAGAAAAAATGGCTGTAATGTTACCTTTATCTCAGGGTACAAAAAACACTCAGATCTAATATATGCGGACAAAATTGAGGCAGTATCAGATAACATAATTAGATCTTTTCAACAAGACCCGGATAATCCAAAAACAATTATTGATGCGCTGAATGATGCCAAAACAAATAGTCTACTTGATGATATTGACCATATCTATTGCAACGGATCTAATATAATGATGGAAGCAATTCTTAAGCATAAACACTCATTATTTCCTAATATAGAAATTACATATAGCATTAACTCACCAATGCAATGCATGATGAAAGGAATTTGTGGACAATGCATACAAAAAACAAATGACAATAATGGCTACAAATTTTCTTGTACAGGTCAGGACTTTGATGCTGGCGCTATAGATTTTGAGTGCTTAAACAACAGACTATCTCAGAATTCTCTTTTTGAGAAGATATAGGCTCTGAGAGCTAATAACTACCATCCTCTTACTAGTGTCATTCCCGCGTAGGCGGGAATCCACCGCATCAACCAAGACTATTATAAAATATTTTCGTATAAATCATCCCAGTCAGGATTTTGCGCCTCTATTATACGCAATTTCCATTTTCTATTCCATTTCTTTATACATTTTTCTCTATGAAGTGCTTCGTTGATATTATCAAACTCTTCAACATATACAAGCTTACTTACATTATACTTTTACGTAAATCCAGCCACCAATTTTTCTTTATGCTCATAAACACAACAACAAATATCATTTGTAACACCGATATAAAGTGTACCATTCTTTTTAGAAGCTAGAATATACACAAAATAACTTTTCATAGATAATTATTTCTTTGTCTGGATTCCCGCCTACGCGAGAATGACATAGTAGTATAGTTTAAGCACCCTACCCTTGAAACTTATAAGGCCTGTTTTTATTTTCGAGATATTCTATTACTTTGTGATTATCTTCTGCAACCTCAATATAATTGATATAATTCTCAGGTAAAAAATGCCCATTTATCTCACGTTTTTTTGCTTGAGCGGCTTCAATTTCGTCCAAACTTATCTGGTTTGCTTGAGCGATTGCATGTATAACTTCCATAACATCAGCAAGTTCAGTTGTTAAATCTTCTTTAGAACTAGCCTCATGAACTTCGCGCGCTTCCTCGATTATTTTCTTCTTAAGTTCAGCTAAATAATCAGGTTCTGACAAGGAGTTTCTATTAACAACTACTCCTTCATCTTTCATACGCGAGGGGATTTTACTACGAATTAATTTATCGAATTGATATCTTTTCATCTAGCTAATTTTATTTTCAATAAGTTTGATAGTATCAGTAATTCCATATAATTTAAAGAATGATCCAAGCCTTGGACCTTGCGTTTGACCTAAAAGTATTTGATATATTTCCTTAAAGAAATCACGTAAGTTCTCATAGCCCGCTTCTCTTCCAATTGCATAAATCTCATTTTGAATTTCTTCACCAGTTTCACTGCCAGATAGGCTTCCTAGCATATCTGAAATCTGCTTTAGCAATATTTTGTGCTTCTCATTTGCAATCAAATAGTCTTTTTTGCTCTTTACGAAATCATTGTAATAATTTACCGCATAGCTTGTCATATGGTCAAGATATGCAGCATTTTCTGGAGTTGCCTCAGGTGCATACTGACTAATAAATCCCCAAAGTACAGATTTATCTTCCGGATTACATACAGATGCAAGATTCAGCAATAAACTAAAGCTAATACCATATGTTTCAACAACAGGAACATTACCATGATGAATATGATATACCGGATTTGCTAGTTTTTTCTGTAAATCCTCTTCTGCATGATATTTTTTATTAAAGGTAATATATTCATCTACGCTTTTTGGTAGTACATCAAAGTGCAGGCGCTTTGCTTTAGTAGGGGATTGGAACATAAATAGGCTCATGCTTTCAATTGGCGCATAATGCATCCATTCATCTACAGAAATGCTATTACCTTTTGATTTAGAGATCTTACTACCCTCTTCGTCTAAAAACAGTTCATAAAAAAACTGCACAGGCGGAGTTCCTCCTAAAATTTTGCATATCTTGCTATAAATCTCAGCATTAGGTCTATGATCTTTCCCATACATTTCATAATCAACATCAAGAGCAGACCATCGCATTCCAAAATCAGGCTTCCATTGTAACTTACAATGACCACCAGTAACTGGGACCTCAACTAACTCACCTGATTCATTTTTATAAGAAACGCTTTGGTTTTCTAAACTCACACTCTCAATTGGAACCTGCAAAACAACTCCTGTATCAGGACAAACAGGCATAAACGGAGAATAAGTTTTTCTACGCTCTTCTCTAAATGTTGGTAGCATTAGGTTCATTATATCATCATACTTTTCAATTGCTTTAACCATCATATGGTCAAATTTTCCTGAACTGTAACATTCCGTTGCACTATAAAATTCATATTTAAAACCAAACCTATCAAGAAATGAACGCAATTTTGCATTCATGTAATGACCAAAACTCTCTTTTTCGCCATAAGGATCTGGTATAGCGCTCAGAGGCTTGCCCAAATGCTCAGCAACCATTTCCTGATTTGGTATATTTCCAGGAATTTTGCGAAGGCCATCCATATCATCTGAAAAACATATTAACTTTGTTGGAATATCACATAACTGCTCAAATGCTTTCTGAACCATAATAGTCCTTGTAACTTCAGCAAATGTCCCAATATGCGGCAATCCCGATGGACCGTAACCGGTTTCAAATAAAACATAACCTTTCTCAGGTGTTTTACCACCGATTGCATCATAAATTCTCTTTGCTTCAACACAAGGCCAAGCTTTTGAATTAGATATTTCATCAAAATTTATTGTCATAATATAATTGTATGTTTAAGATAGTTTCTAGGTCTTTTTCCAGGTCAGTAGAATATTATGAATATTAAATTATGTCAATCAAACTAAAAGATCCTTACATACTACTATTACTACTTTCAAGCTTCGGACTTGCCTTTGCTTATGTCGTAGAATATATAATGAAACTACCAGCCTGCCCACTTTGCATATATCAAAGATTTCCGTATTTGATTTTGATAGTATTATCAATTATTTCTATATCAGGGCAAAATGGGTTAGGTAAATATTATATTGCCACGGCAATATTTGCTATTTTCCTTGCAACGTATCACACAGGCGTTGAAAGAGATATATTTGAAATGTCTGGGTTTTGTAAACCACTTGTCAAAATTAGAGATAATATGTCTGTATCGGATTTCACAAAAATGCTTTATAGCTCTGGTCCGCTAGGCCAATGCAATAAACCAGCACTGGTAATATTTGGCTTATCTATGACTGAATGGAATTTGATTTTAAATCTATTCTTACTTACAATGTTTATAAAATATAGAAATTATAAAAGTAGTTAAAATGCCAAAACCTTATTTCTCTAGTGCTAAAAAGATTCAGGAAATCATTCGCGTCGACCATGCTGGTGAATTTGGAGCTAAACGTATTTATGAAGGACAAATTGCTTATACTAAAAATGCAAATGATAAAAAGCTGATAAAACATATGCTTGATCAAGAAGCAGAGCATTTAGAATATTTTGACAATCAAATTAAAAAAAGCAATGCAAGACCTACAGTACTTGCACCTATATGGAATATGTTTGGCTACACACTTGGCGCAATAAGTGCAAAAGCTGGCAAAGAGCCTGCCATGCTTGTTACTGAAAGCGTTGAAGAAGTAATAGTTGATCACTATCAAGAACAAATTGATTATCTCAATAGCATTAAGAGCAAGAATCAACTACTAACTAAAATCAAAAAGTTCAAACAAGATGAAGCAGATCATATACATATAGCCCTCGAAAATAATAGTACAAATGCAAAGCTGCATGATACAATGTCTGCAGTAGTAAAAACTTTTTGTAAAATTGCTATCTTTCTTTCGAAAAAGGTTTAATTAATTTTTTAGAATGAGTTAGTATACAAAAAAATTAATATATGGGAAATAAAGTGGCTCTATTCAAATCATTATTTAATAAAAATTTAAAAAAAATTACAAAGTCTCCAGAAAAATATGATTTTCTCAAATTTTCAGTAGTAGGAGCATTTAGCATAATATTTTACTGCATTGAGAATACTTTTTACAAAGAAAATGGAGAAAATGAACAGCTAAAAATAACCGGACAAACAGCTGGTGAAGACTATTTTACCAACAACTATAATGATGTTTAAATTTATAGGATAGTAATATGCGATTAATGTTGATGAGACATGCTAAAACTGAAAATGGACAAGACAAAGAAGATTTTCAGAGAATGTTAACTGATATAGGCAAAGAACAAGCCGGCCAAGCTGCTGATTTTCTTCATGAACATCAAATTGATAAGATGCTTGTTTCATATGTTAAAAGAACTATGCAGACTTCCGCCATCATCGCCGAAAAAGCACCTGCTGAAGAATCAGAAATGGTAAGTGAACTATATGAAGGTGACGAAGAAGCTATTATTAATCTCATTGCATCTCAGGAAGATCGTAACAAACATTTGCTAGTAATTGGACATAACCCTTTAATTTATAATGTTGTAATGTCTCTATCTAATAGCAATTCGGATAAATATAATGAACTAATAGCCACTTCAATGCCAACCGCTAGAATAGTTATCATTGACTTTCGTGATATTGATAGCTGGAAAAAAATTCTTACCCAAAAAGGTGATATATTAGAAATATTTACTCCAGTTTAGACAGCTTATTCTGTCTATCAAAAATCATACTAATTCCACAAAATCAATTCATACGATTGAGAACAATAAAAATTCCTAATAAATATAATTTTATCTTCTCTTAACTGATCTTTAACTATTTAGATTTCATACTATAATTAGTAGGAGATTTTATCGAACTAAAATTAAGGTAAAATTAACTACTAATACTATTTAAAACATAATTAATCTGGGGGAAATTATTATGTCTAAAGCACGTAACACTACATCTGAAGCAGTAAAAAAACCAAGTCTATGGCCAAAGTTCACTAAATGGCTAGCATCGAAATTCACCTGTTTTGGCAAAGATATTCAAGAAGATATACAAGAGCATCTAGAAGATATAGGTGAAGAAATTCTTGCACCAATAGTAAAAACAGGAGCCGACGTTCTAGGAGATCTAGTAAATTCAGAAGTTCCTGGTATTGGCGGAAAAATTCTAACTAGTGTTGTAGATAGTGCTGGTGATACAGTCGTAGAAATGCTTGGAGGCACATCATCTGCAGATGGCGCTGCATCATAAATAGTAGGAATAAATAGTTCGTATTTTATCACTAAAATGCGAACTATTTATATATGCACCTATCACAATTTCATTATCCATGGGAATCATTGATGTCTAATACTAAAAAAGAAACAATACTCAAAGACCTTGAGCAACGTGTAGAACCTATAATTGACTTTGCCATCAATATTTTTGGTAGTGTTTTTAGATTTTGTATATCTCTTAAACCTGCTATATCAAAAATTGGAAAAAGTACATCTTCGTTTTCTTCGGTAGAAGATTTAATATTTTCTGATGCTGATAATACTAATACAACTAGTAAAGTTGATATAACAGGAGAAAAATCAGAACCTACTATAAATATTGGGACAGACACAGACTCATAATTTATTATATATTACTCTTCTATTTGCTTTTCTATATTTGGAAAAACAAAAAACTCATATAAAAGCCATGCTGATATTGCCGCAATTGTTATAATGATCGAAAAAATCAGCTGATTATCATCTGGTAAATATGAAAATATCGAAGCAAGAACAGCACCTCCCCCAACTTGCGTGGTTCCATATAATGCTCCAGCATATCCAGCCATATGTCCAAATGGTGAAAATGCAGTAGCAAATGCATTTGGCCAAATAAAAGAAGAACCGTAGAAAAATATAGCAATCGGAATTACAATTGACCAAAGCTCAAGACCAAAAATAAAATGTCCTAGAAATAGCATAACTCCACCTACTACCATCAACGACCAACCAAATCTAAGCATCGTTGGAATACCATATTTTTTTACAAACTTACCATTTGTAAAACCTCCAATTCCAAAACCAATAATTCCACAAATACAAGAAATAACACCAAATTCTGACGGAGTAATACCAATTCGATCAATTAATAGTACTGGACCAATTACAAACCAAGAAAAGAAAGCTCCAAAGCTTAAAAAGACAGCAAAAATTGTTCCCATAAATAGAGAACTTTTAAGCAAAATCAAATATTTCTTAACAATGACCTGAATTTTTATATTTGATATTTTATGATGCTTACTCGTTTCTTGCATGCCAACTACTAACAAAATAATTGAAAGCACAGCGTAACTTGCAATAAACACAAAGGTTGCCTGCCAACCAAAATAATCTTGAATAAAACCACCTAATAAAGGAGCACCAGGAATAACAAACATGACTACCATAGTTGCGTATGAAGCATATTGAGCTAGTTCATCACCCGAAAATGTATCTCTAAATATACTTCTCCACAAACAAGCACAAGCACTAATACCAATACCTTGTATTAGACGCCCTGTTATCAAAGTTTCAATATTACTTGCATATATGCATATAATGCTTCCTATAAACATAATAGACACTCCAAAAATCATTGGAGCTTTTCGACCAAAAGCTTCAGAAACTGCGCCGTAAAAAAACTGCATTACAGCTACGCCAAACATATATATAGACATTGTCCACTGAATGCTATCGATAGATGTACTTAGATCTCGTGCCATAGCTGGTATACTTGGCGCATAAACATCAGCGGCAAATTGGCTAAATAAACCAATCAATATAAGCACTAAAAATTGTACAGTCTTATAGCTCATCTAAATTACCACATAGATTATTGGTAGCCATAATTACTAGCGCACTGGAAGGACAAGCTCTAAAAGTTAGAACTCAGAAAATTCTCTGCTATTTTAGTTAAGTAACTACACTACAAAAACATCCCATCAAGGGTAATTATTGATAATACTAAAAATAAAATATGTTTCAATCAATTAAAACTCTGTTCTAAAAGTCAGAACACCTTGGTGAGCTCTATATTTTTTAGCAAATCTGAAATCATATGCAAAACCATATTCAAAACTCTCTTTTTTGATATCTGCTCCACCACCAATCAGATACGTTGTACGATTTTGTACAGCAGTTCTTGGAATAAGTACTGAAGATCTATCATTCTTAAATCTTATATCTACTTTAAATTTATTTTTTAAGAGATCATGACGAACAAATCCATGAGCTTCAGGAATAAATGTAAAGTCCGAACATTCAATAGATTTATTTATTTTTATTCCGCCAATAACTTCACCTCTATTATAAATTTTTCTCTTTACTGATAAATCCTGATTACCAGCGCCGTTTTCGTCATACTCAACCTTACCTAAGCTTGTAAACTCAAAACCAAGAAGAGGAGTTATTGTTGTAGTCTTGGATAATTTATGATTATAGCCACCAATAATTTCTGCTGTAAAACTACGAGCATTATACTTTGCACATGCAATAGAAGGATTTGGAAATGTTTGCCTTACTTCTTTATTATCAACATATGTTGAGCCAACAGATGTTACACCTTGAATAAATAAACTTTCTGATAAGCTCCTTGATCCATAAAGTAATAATGAAGCAGTATCCATATTGGTCTTATCACCCTGATTTTCATGCTTATGCCTGATAATATGATGCATATAGGAAGCTGCAAAACCGATAGTAGTATCTTCATCAATTAAAGTATCTATACCAACCATACCTCCATAATATCTAGAAAAATACCCTGGATTTGATGATCTTTTATCTTGCTTAGCAATACCATAAACCGGGGCAAACCAAGCGCCATAAGACCTAGAATCACTACCTGATGAAACACCAATCGCCTGCACTTGCTGAATTCTAGCACTAACTTTGCCAGTCAGTGTCTTGACATCACCTGAAACCATCTGTGATGCTGTCTCTAATGCTGCAGCTGCTGCCTCTGCGCCAAGAGCTATGACTGGCTGCAAAGCATTCAATACGACATCACCACCTGTATTACCTGTATTATCAACAGTTACATTATTTACAGCATTTAATAAATCACTTGCAGCAGGTGATGCTAAAATAATCTCGGCATTTTCAGTATCAGTCACATTATTTATAACAACTTGCTCCGGATTATCGACAAGCGTCTGACATAAAACTCCATTATCGTGTGTCCATTGTACTAAAGGTCTGTCTACGACATTTAATGTAACATTTTCATTATCAGTTAATGTAATTGTTCCTTCTATTATTTCTTCTCCTTCGCCTTCGCCTTCAATTTCAACATTCAACAGCTCTGCAAAAAGAGTAAACTTCCTCCCATCAGGTCCTGGAATAGAAGAAGTATCAGTTAAATTTATTGTTATTGCATCAACACCTGACATATCAATTGCAACACCTTCAGCAATTAAGTGTCCACCTGCTATACCATCATATGTAGTATTAAAAACAGGAGAACCAACAAAAGTCGTGTTAGCACGAGAAAATTTTGCTGAGTTTTTACCTAAATCAAAGGTAGTTCCATCAAAATTTGATAGTGCTGCAAATTGTACTGTTCCTGCATCAATGCCAAGAGTTGAATTGTTTGCATTAATTCGTCCTGAATAAATGTCATGATTCAATGATGATCTATGATTTGGATTTGTAGATGTAAATTCAACTTTAGAAACTCTACGAAACTCACTTCCTATGACTCCATTTATAGTAGTTCTCCCTTTGAACTCTATATTTCCAGCAAAACTAAATGCATCTCTCTGAATCGGAGCGTTTACCGTCGTGTTATCTTCAAAAATCATATTAGGTACAGTTGTAAAAATAGCTTGAGTAACATTACCAAAATATAGATGATCAGCATTAACTGTTCTACCTTCTGTAAAAGTGACACTTGATCCTTGAGTTACAGTAAGATCACCAGATAAATTAAGGTTTGTATCAAATATCGTTGATTCAATATCATTCTTAATAAAAATTTCTTTAACTCTACTACCAGCATTTGCATCGAAACTACCAGAAAATGTTGTTCCAGTATTTTCAACATTAATAGTACCATTGTCTCCTCCAGTACTTGTAAAAGTATTAGAGAAATTTATACCAGCAGATTGAATTATAAGTTTGTTATCAAAATTACCAAAATCAACACTTCTAAGTCCTGAATAATCATTGGCAGGAATTGCTACATTTCCGCTAAGACCAGATAAAGTTATATTTGAATTTGCACCTTTAAACTCTACGTTCAAACCGCCATTTGCACCAGGGTTTACAATCGAACCAATAGTTGTGTTCCTAAAAACCTGAAATATTCCAGAATTACTATCAAGATTAATCCCTCTTATATCATGATCTATCGCAATTGCAGCAGATGTGACTAAAGTATGATTACCTCCAAGCCGAACGTAGTCCGCCCCGCTTACAAAAGGTAGTAATCCATTATTACTACTAAACTCTGCGGGTGAACCTGTTGTTACTCTTTCAGTTGCTGATACAACATTTATACTAAATAGGCAAGTTGTAGCAAATAGGCCGACTTGCTTTAAGATTGATTTTTTCAACATAAAATTACTTTATAAGGTATAATATTCAACCTATAATATTTCAAAATCAGCGATGTAATGCAAATAATTATAATATATAAGTCTGTAATGAATGTATTGATGAAGCTTTCCAGTCATAAAAATAAACTAGCTTCATTTAGTCTTCAAACTACGATATATTATAATATATTTTTGTAAAAATTTATATTATATGAATCTTCTTCAAGTACAAGCATCAGATCCAAGTTTTTCTACATGGGTATCAGCATCAGCAGGCACTGGCAAAACCAAGATACTTACGGATAGGGTATTACGACTGCTACTACAAAATGCTGAATTTAGTAAAATACTTTGCCTAACATTTACTAATGCAGCAGCCGGAGAAATGAAAGAACGTATAGCTGATGCTTTATCAGACTGGGCAAATATAACCGAGGAAGAACTCAAAGAAAAACTATGCTCAACTCTTGGCAGGAAATGCACCTTTAAAGAACTCGAACAAGCACAATCTCTATATAGCAAATATTTAAATTCTGATGAGAAAATAAACGTACAAACGATTCATTCATTTTGCCAAAAATTACTAAAAAAATTTCCTCTTGAAGCTGGAATATCCCCTAGTTTTACTATTATAGATGAAACAAAATCTTACCAGATACTCAAACGAGTAAAAAACGAGTTGCTGAGTAAAAATGCATTATTACCAATTAACAATTATCTTAACGCGAATTTCCATGAAGTAACAATAGATGAAATAATTAGTGAAATTGTTGAAAATAAGACTAAATTCTTTAATTCAAATTATAAATATAACTGCATTAAATCTGAATCAGAAAAAATAATAGATTCTCTTAATAATTTTACTTCTTCAGAATGGGAAGTCATTGCATCAATCTCAACTATTCAAAATATCGTTGGATTAAACCAAACTCCTAAACAAATTAAAAAATTGTTCCTAACAGATTCTGGACAGAAACGTAAGAAAATTGTTCCGCAAAAGATAGCTAAGGAAGGCTCAAATCTTTATGCAGATCTTGAGCGAATTCAAGATAAGATCTTTATACTTGATCAAAAAGAAAAAACTAAGCAACTTGAATTACATTCAAAATTACTTTCAATACTAGGAAGTGCAATTCTATCTGAATATGAAGAATATAAATCAAAGAAAGGTTTGTTAGATTATGACGACTTGATTATTTATTCTAGCAAACTACTCAAAGCAAGCGATGCAAAAGAGTGGGTATTATATAAACTTGATGGAGGAATAGATCATTTATTAGTTGATGAAGCACAAGATACAAGTTTTAATCAGTGGCAAATTATTGAGGCTTTAATCGAAGAGTTCTATTCCGGTGATTCAAAAGAAACTCTGCAAGAAAGAACTGTTTTTGTTGTGGGGGACGAAAAACAATCTATTTTTAGTTTTCAAGGTGCTGACGTTCAGTCATTTGCAAAAATGAACTCTGAACTAAAAAACAAAATGCATTATGGAGGTAAAAATTTTCGAGACCTCCAACTAGAAATATCATATAGATCAGCAAAAGAAATATTAGATGGAGTTCACACTGTTTTTGACAATATATGCAAAAAAATGCCTGGGTTATTTAATGAAAGCATAAAACAATTATCTGCACATCGAAATATACACTCTGGTAGCATTGAAATCTGGCCACTTTGTACAAGCAATGAAGATACGAACGATTTCTGGCCTATAGCTGATAGTACAGAAACCAAAACACCGCAGATAGTTTTAGCAGAAAAAATAAGTCTATTCATCAAGAAACAACTCTTAAGCAAGCGCATCTTGCCAGCAACTGGTAAGGAAATCGCACCAAATGATTTCATGATTCTATTTCGTACAAGAGATGAATTAACAAATGAAGTAATACATGCTCTTAAGAAAAATGATATTGATGTAACAGGCTTAGATCGAATTTCATTATGTGATAGCATCGCCGTAATGGACCTAATATCCGTTGCAAAATTTGTCTTAAATCCTGATGATGATTTAAACTTATGTTCACTACTAAAATCACCTATATTCGGATTATCGGAGAAAGAAATCTACGAAATATCAGTCAATCGACAAAAAGATTCCGTATGGAAAATACTACAATCAAATGAAACGTATTCTAGCTTAAACAAAAAATTACAAAATTTTATAGAATTATACCAAACCACACATATCGGTAATTTCTTTCAGTATATTATAGAAATATTAGACTATAGAAGCCTGCTAAACTCTAATTGTGGACCGGATAGTGATGATGCAATAGATGAACTACTTTATGCATGCAATAATTTCTACAAACAAAATAGCACTTCTATACAAAATTTTATTTTTTGGATAGAAGAACATGCCACTTCCATCAAACGAACTAGTTCTGACTCTGGTAAAGTTAAAATCATGACTTTACATGCTTCGAAAGGATTACAATCACCTTTCGTAATATTATGCGATACAACAAGTATTCCATCACAAACTAATAAACTCCAATGGAATGATGAAAATACTCTTTTATCGTCGAAAAATTCAAATTTAACTCCAGAATTTTTTAAAGATTTAAAGAAGCAAGAACAAAGTAAAATCTATGCCGAATATTTAAGATTATTATATGTTGGAATGACTCGAGCAGAAGATCATTTAATTATCTGCGGTTATCAAGGCAAAAAATCTATTCCAGAAAATTGTTGGTATGAATTAATTAGTTCCAGCCTATCAAAGAAATCAGCTCTTAATGAGAGTGGTAATCTCATATTTGGTAGTGAGTCTAATGATATTTGCATCACAATACCTCATAAAGATCAATCAAGTCAGATGGAGTTTTTTTCTAGTGAAATTGCCCAGGAAACAATAAAAATCAAGACAAAATCTATTTCAAGCTATGCGCATCCATCGCCACTGGCAAAAAAAGATCCCATGAACTATGGAGTGATTTTTCATAAAATATTAGAAGATTCACTAGTAGTACCAGATCTGAATATAATGAAAACACATCCATTAATTCAGACAATAAACACAGAATCTAAAACTCGAATGCTTAAATCTATAGATAAGATTATAAATAATCAAAAATTCTGTGATCTTATAAAAGAAGATTTACTTACTGAGATAGCAATAGGTACTGAAGATAACAATTTAGCCAAAATTGGAAGAATTGACCTTATGATTATAAAAAATTCTGAAACGATCATTATTGATTATAAATCAGACATTACTCCAGCGAAAAATACTAACAAATTACCAAAAACTTATAAGACACAACTAGACTTTTATAAAGATACTGTACAAAAAATATATACAGATAAGAAAATAATTACGATGATTCTATGGCTTGAAAATGGTGAATTAATGGAAATCAGCAGCTAGTATAATGCTTTATTTATGATTTCAACAACGCTGGATAGCCGCGCTTGCGCTCGCTATGACGTGTTTTTTACCTTTTAGAAAAATCAACATCGTAAAAATCTATTACGCAAGAATAATATGCAAAGCAACAAACCGCCATTTAAACGCCAGCTTAGGACAAGAAGCATGTTAAGTTATTGATTTTTATTATGTTTTACTACTCAGCGTCATCGCGAAGGAGCTTTAGCGACTGCGGCGATCTATTTGTGGATTACTGCGCCCGCCTTCTGCTCTTCGTAATGACGCAGGTCAAGCCTCATTTTCCTATGGTCTTAAACTAACTCATACAATAGA
>sequence25
ACGGCAAACCTCCTAAAGTTGCTCTTAACGCTGTTATGCGTAAACTTCTTGCCTTTATGCACGCTATTGTTAAAAATAATTCTTCTTGGGCTTGTGAAGAATAATCTTCTTTAATTTTTTTCTTGATTATTATTACGTATGCTTGCATTTATAGGACTGAGCTAATATAGAACTATACTAACTGGCAGTCCCTAACGGATCTTCTGTGAAAAATATCTGTAACCTAAAATAGGAAGCGTCTTATAGAATAAAAAAACCTCTGTCATTGCGAGCAAAGCGCGGCAATCTAGGACTTACTTCATATAAAAAATATTGCATGGACCTCGTAGATTGCCGCATCTCCTTGACTACTAGTAAATGATTTAAGTAAATACTTATACATTAACACACCCATTTATGGCTGTCTTACAATATACAATAGCTGGATAGCCACGCTTCGCTCGCTATGACGTAGATTTTCCAAGCAAAACTTTATCTTTGCATAATAAATCTTTCATAGAAAATTGCTTTTAAGGCTGTCTTATGAAGATGAAGCATCGTCAGGAAGTTTATTTTTCATGATAAACGGCATCTGTAGTAGGATAAATACGATTGTAATTGGCATTGCACCAAAAACTTTAAAACTAACCCAAGTATCTTCAGAGAAATTTCTCCATATCACTTCATTTGCACAAGCCATTAAAATGAAAAACCACATAAATCTGATATTTAAACTATACCAACTTTTATCTTCCCTAAATTTTATTGCAGTGCCTAAAAGATATTGAACTGCCGGCTTCCATTTAAAATTTGTAACCAAAAATATGCATGCAAAAATACAGTATAGAACTGTAGGCTTCATTTTAATAAAAATGCTATTGCCGCTTAAAAGAGTTAAGCTAGCAGTGGCCAGTAATAACGAAGATGAAATCAAATTCATATTATTAATTTTGCGCTCTTTAATATATGTAACTATAAGACTTACAACAGAAGCAACTAACATATATAAAGTCGCTTCTAGAATTCCACCAACTTTATAACCAATAAAAAATACAACTACTGGACCAAATTCTGTAACAAATTTAAGCATCTTTAGAAACTCTTGATCTAAATTTCATCATACCGAATGTAAGTATAATTGTAGCAAAATAAAAGATTATTTGCATCGCGTTTGGCCTTGAGTCATATCCAACCGTAATATTCAGAATTTTACCAGTTATACTACTATTTTCAACAAGCCACGAAGTATCCCAAAGCTGATCTGATAATACTTCTATAATGCCAGATGAAGTCATTATACCTGCTGCCTCTGCAGCAAGACCTGCTGCGATTAAAGTAAGTAAAATGGTTGAAATTTTAAATACATATTTACCGGCATATTTCATAAGACCAAGATAAAGTAGCGTCCCCACAAGCAAACCACCGAACGCTCCAATCCCAATACCTGTAATATATTCATTACCATCTATATTTCCGGCAGATGTAATGCTATATACAAATAATATTATTTCAGCACCTTCACGAAAAATAGCAGCAGCAACTACAAAAACTAACATTAGCTTACTAACTACTCCAGCAGTTATCTTATCTGATAATTTGCTTAAATCTTTACGGATTTTCTTAGTGTATCCTTGCATCCATACTACAGTCCAGCTAATCAATATGGCTGTAATTAGGATAACGCATGAGTCAAACATTTCATCTCCTATTCCACCCATACTTTCTGAAAGCGTTTTTGCAAAAAAGGCAAATAAAGCTGCCAAAAATACACCGGTTATTGAGCCCAAAATAACATATTTTCTGGAATCCTTAACTGGTTTTGTAACTGCCAAAATTACGCCTAATAAAAACGCAATCTCCATACATTCACGAAAAACTACTATTGCTAATTTAATCATTATCTTCTTGCTTCTCTTTTACAATAATTTTGCCTTGAGCTGTATCTTCATGGAACTCTCCAAAAAACTTATACTCTCCTGGTTTCAATGGTGCAAGTATTACTCTAGCTTTTGAGTTTGCTAAAACTATTTTTTCTCTTTTTAAATCAATACTTTCAAATTCTTCAATCGTATTATCTTTGTTATGTACAGTAATACGAATTTTCTCACCAGCAGGTAGCTCTAGAATTTCAGGTTCAAATTTATGATCTTTTATTATTAAATCAACTTCTACAAAACCTGCAAACACCATTTTAACTGGGGTTTGTAATAGAAAAAATAGTATAGAAAAAAATAATAGTTTTGTTTTCATCAACATTAAACCTTTTTATTGAAGAAAATTACGCTGAAAGCTTTATGATAGTAACAGTATAAATCAATACAATCATTGCTACTATACATGCCATTAAGGCATAATTTTTTTGTTTTTTATTATTTGGGGATTTCTTCATTAATTTCCCATTTTTCATCTTTTCAAATATTCTAGTAAATAATTTGCGCCTACGCAATCATAAAACATACAATTTTAATCAGGTATTTTAAAAATTGCTATAGAAGGCATAATAGTATATAATCGCGCATTAAAGTTTTTTAGTAAATAAGTAATTTATCATAGGTAGTTTAAATGACATCATCAATACGCAATATAGCAATCATAGCCCATGTTGACCATGGAAAAACTACTTTAATTGATAATATGCTTAAGCAAAGCGGATTATTTCGTGATAATCAAGCAGTTGCGGAACGTGCTATGGATTCAAATGACCTTGAGAAAGAACGTGGTATCACTATCTTAGCAAAATGTACTTCTGTTAAATGGGAAGAGACAAAAATTAATATCATTGATACACCTGGACACGCTGATTTTGGTGGTGAAGTAGAACGAATACTTAGTATGGTAGATGGTGTCGTACTCCTAGTAGATGCTGCAGAAGGTCCAATGCCTCAAACAAAATTTGTACTTGGAAAAGCCTTGAAACTTGGACTAAAGCCGATTGTTGCTATTAATAAAATTGATCGATCTGATGCAAGAGCAGATGAAGTTCTAGATGAAATTTTTGAGCTATTTATGTCTCTTGATGCTAGTGACGAACAACTTGATTTCCCGGTAGTATACGCATCTGGAAGAAGTGGTTGGGCAGTAAAAGAACTGACTGACGCAAGAGAAAATCTAAACGCTTTATTTGATGTGATATTAGAAAATGTAAGCGAACCTGAATCTGATGTTGATTCGGCTTTTTCGATGATTGCCACCACACGTGAATATGATTCATATTTAGGTAGAATCTTAACTGGCCGAATTGAAACTGGAACTGCTAAAATTAATATGCCAATCAAAGTTATGGACCGTGATGGCAATCTAGTAGAAAGCGGAAGAATCACTAAAATGCTCACCTTCAAAGGTCTAGAAAGGTTGCCAATTGACGAAGCAAAAGCAGGAGATATTATTGCAATTGCAGGGCTTGAAAAAGCCAACGTTTCTGACACTATTGCCGCTCCAGAAGTTGAAATACCGCTCGAATCACAACCAATTGACCCACCAACATTATCGATGAAATTCTCGATCAATGATTCTCCGCTAGCTGGTAAGGAAGGTGACAAATTAACTTCACGTGTACTTCGAGCAAGGTTAATGAGGGAAGCAGAAGGTAATGTTGCCCTAAAAATTTCTGAAACAGGACAAACAGATTCATTTAACGTTGCAGGACGCGGGGAACTGCAGCTAGGAGTTTTGATTGAAACAATGAGAAGAGAAGGTTTTGAGCTATCAATAAGTAGACCTTCTGTTCTATTTAAAACAGATGAAAATAGCGGTGAAAAACTTGAACCATTAGAAGAAGTTCAAATTGATGTGGATTCTGAATATGTTGGATCTGTAGTTGAATCAATGAACTTAAGAAAAGCTCAAATGCAAGATATGCGTGAGACTGGAGCTGGTAAAACACGCTTAATTTTTATCGCTCCATCACGCGGATTGATTGGTTATCATGGAACTTTCCTGACAGAAACTCGTGGAACAGGTATTATGAGCCGTATTTTCCACTCCTATGGACCATATACTGGAAAAATAGAAGGCAGACGTAATGGAGTTTTAATATCTATGGAGGATGGCAGCGCTGTTGCTTATGCACTATGGAATCTTGAAGATAGAGGCGATATGTTCATCACGACTGGAGTTCCTGTCTATAAAGGAATGATCATTGGTGAACACAACCGAGACAATGACCTAGAAGTGAATCCAATTAAGTCAAAACAATTATCAAATGTACGAGCTAGTGGTAAGGATGAAGCGATAAAACTTTCACCTCCAAGGCTAATGTCTCTTGAACAAGCAATTTCTTACATTCAAGATGATGAGTTAGTTGAAGTTACTCCTCAATCTATTCGACTCAGAAAGGTATATCTTGACCCACATGAGCGCAAAAGAATGTCCAGACAATCATAAAAATTGACAAAAGTTGATTTTTTTTACATAAAATTTGTAAGAAAGAAACTTTATACTGATTTTACTTTATGTCAAAGACTGATAAAAATATAGAACAGGAAACAGATAGTCAGTTTCAAAAGGCTTATGATGCACTAAAAAGCAAAATTTTGGATGGTTCTATCTCTGTCGAAGAAACCAGGCAACTATACGATGCATGCAACACAATAGTCGGTGACTCGGATAAAAGAATTGCTATATCTGGTGTGATTGAAGATCTAGAAAATAGTGGAATAACACATGAAAAATATCATGATTTTGTTTCAAATCTTGTAGAGGTAGAAAAACAAGTTGTTACTGAAAGATTTCCAATTGATCCAACTCAACCAGCACAAAAGCAAGAAGCCGATATGAAAAAAAATGTGCTCAATATATGAGAAACACGTCTCTAGCAAAAAACGCAATGCTTCATGAATGTACAAAAAATGGTTTAGGTTACGATATATATAAGGACTTAAAAGAAAATAATATTGAAGCGGCAACTAAAAAATTTCAAGAATTTAATGTACCTGACTACCTGCAAGATCATTACTCTACTATCGGTGAATTTTATAAAGAGAATGGCAATACTCAAGGAGCTGCAACTAATTTAACTTTTCATGCTCTAACAACCTCTATTAATGAGTATGCGAAAGTTGAACTTACTGGTAACGAACGCAATAATATTATTCGAACAAGTGGTAAAACTTGCAAATCAGTTTATAGTCCATCTATAGAAGGATCACTAGATAGATTAATGGATCAAATTCCGGGTCCAGATGAGAGTGTTATTGTTGACTTTTCTAACATTACTCCTCCTGACCTAAAACCTAGTACTCCTAGCGTTGAAGAAGTCGCTCCACCCGAACAGAAACCTAAAACTACTAACATTGGCGAAAAAATTGCCAATACTTTTAAAGGGTTTAAAGAAAAAATTCAAAACTTTGGAAAGGAGATAAAAGATTTTGTTACATCAGCATTTAAAAAATCAGATAAACCCAAAACTGACCTTCCTGAAACTACTAAACCAGAAACAAAAAAAGTAGGACCAGATAAGACAGTACAAAAAGAGAAAACCGTTTCCGTATCAAGACCAAGAGTAAATGCTATGACATCAGAAACCGCTCCATCAATTAAAGCAGCAGCTGAAAATGTTAGAAAAAATGTTTCCACCGGCAAAAAAACTGGATCCGTTTCTAAAGGCGCACCTAGAACAGCAATATCAGCAAGCAAAAAGCAAGATCAAAATAAAGGAGCAAGTAGATAGATCTAGGTTAATACTTTTCTTAAAAACTTGCTTTTTTCCAGATTCGTTACATCACTTTCATCTAAAACAAATTGCTTGGGCATTGAAACTTTAGCAACAAACTCACCTTCTATAGGAAGAAATATTTCAATTGAGCTATTGCTTTTCGATTCATGTTTTTTGCTAGCAAGAACATTTATAATTTGTTTAACCTCATCTTCTCCCTCGGGGTATAGTTTAAGACTGTGCTCTACACCATCTAACTCATCTTCAATACTCATAAACTTAAGAGCAGTGACGCGCAAGCCTCCCTTGTCCTTAAAGACATCACAATAAACAACTACAGCCTCTTTTACATTTATCAGATGAGCATAATTGCGCAATATATCCTCATCAAAAATTGTAACTTCAAATATACCTTCTTGATCGGATAGAACCAGTGTAATAAACCTACCCCTTGGTGACATTCTAGAATCTTTCTTAGTAATCACACCTGCCAGCTTTAGCTTATGTGAACCATCATTAATATCATTCTTAATATGTGATGAAGTTTTTATTTCGCATTTATCAAGTGATTGTAAAATTTCAGTAAATGGATGATTTTTTAAGAATAATCCCATCACTTCAAATTCTGAATATGCTAATTCTTTCGTAGAATATTCATCGGCACTCAATATAATATCAGAACTATTAGCTCCAACTGATATCAGACTAAATTGATTAGAATTTTTTTCTTCATGATAAGAAGCACAATATGCCATAATCTTTGGAATACTTAAAATTAAAGCTGCTCTATTGTGATTAATCTTATCAAAACATCCGGCTTTAATTACGTTCTCTAAAAGACGTCTATTAATCAGCTTTGGATTTATCCTCTCGGCAAAATCAATAATAGATTTAAATTCACCATTTTTTGTTCGCTCAGATGTTACCGCCTCACCAAAATTAGCAGTAACATTCTTAATTGCACCAATAGCAAAAATAATTGATTTCTTACCATCAATAACATCAATACTAAACTTGCCATGTGAACGATTAATATCTGGAGATATAACATCAATTCCAAAAATTTTTGCTTCTTGTACAAAAATATTAATCTTATCACTGTTATCCATCTCCAAATTCAAGCAGGCCACTAAAAACTCTGCAGGAAAATTAGCCTTTAAATATGCAGTTTGATATGAAATAACACCATATGCCGAAGCATGCGATTTATTAAAACCATATCCGGCAAATTTTGCAACAGTTGCAAAAATAGATTTAGCTTGCTGAGCTGGAACTTTATTCTCAACTGCACCATTTACAAACATTTCTTCCTGCGCATCCATTTCAGCTTTTACTTTTTTACCCATTGCTCTTCTGAGTAAATCAGCACCACCGAGACTATAACCAGACAATATTCGAGCAATTTCCATTACCTGCTCTTGGTAAATAATCACACCATATGTTGTCTTTAATGTCGGCTCTAAAAGAGGGTGCAAATAATCAACTTCTTGCTCACCATGCTTACAAGCGATATATGTTGGTATATTATCCATAGGTCCTGGACGATATAAAGCACCAAGAGCAATAATATCATCTACACTGTCTGGTCCTAATTTACGTAGAGCATTTTTCATTCCTACACTTTCAAACTGAAATACCCCTGTACTCAAACCATTTGAAAGCATCTCGTAAGTCTTAGAATCATTGTATGGAATAGATTCAATATCTACCTTAATACCACTATCTTCAATCAACTCTAGAGCCTTTGTAATAACTGTCAAGGTTTGCAACCCCAAAAAGTCAAATTTAACAAGACCTGCAGCTTCTGCATATTTCATAGAATACTGAACTACAAGCATTTCAGCATTAATATCCTTATAAACTGGAACTATATCGGTCATGTCCTGATTAGCGATGACTACTCCAGCTGCATGTGTTGATGCATGTCTTTGTAAACCTTCAAGCTTCAATGCAGTTGAAAGAACTTGAGCAATTAGCTCCTCATCACCATCGTAATTATAAAGCCCATTACCTTTAGCAGCACCTTTTAACTCAGCAACATCGCTAATTGCTTGATTTAATGTCACTGGATTAATTGCGTTGAAAGGAACAAGCTCAGTTAGATAATCCGCTGCTGTATAGCTAAGACCAAGAACTCTTGATACATCCTTAATTACAGCTTTAGCTTGCATCTTACCAAAAGTAATTATCTGACCAACGCGCTCATCACCATATTTAGATCTCACATAGGAAATCACCTCTTCACGCCTTTCCTGACAAAAGTCGATATCGAAATCCGGCATTGAAACACGTTCAGGATTTAAAAAACGCTCGAATAGCAAACCAAATTTAATCGGATCTAGATCGGTTATTTGCATTGTCCATGCTATAATCGAACCAGCACCTGAACCACGTCCAGGACCTACTGCAATATTATTTTGTTTGCTCCACTTTATAAAATCAGAAACAATAAGAAAGTAGCCGGAAAAACCCATTTTACAAATTATATCTAACTCATAATCTAGGCGCTCATTATATTCTTTTATAATTGATACTTGATCATTCTTCTTAATCTTTTCATGAGAAAATTTCTGAGATAATTTGCTATCCAATCCATCTTTTGCTTCCTTACGAATTAGATCATCCTCTGAAAGCGATCCATCAGTAAAGTTTGGCAGTGACGGAGGTCTTGTCTCTGACATAACTGAGCAACGCTGCGCTAAACAAACAGTGTTTTCTATCGCCTCAGGTAAATCGCTAAATAAACTTATCATCTCATCTGACGATTTAAAATAACACTGATTGCTCACTCTTCGTCTATCTTGTACTTCACGTACAACACCGTCCGAGATACAAAGTAATACATCATGTGAATCATACATTGAAATATCACCAAACAAAACTTGATTCGTGGCAATTAAAGGAATTCCAAGCCCTCTTGCTATATCCAAATATTCAGCTTCAATCTTCTTTTCATTACTTCTGCCGTGACGAGTTATCTCAAAATAAAATCTATCACCAAAGAGTTTTTGTAATTTCCTAGCAGCATTCATTGCAGCATCCTTGGATGATTCAAGCAATAATTTACCAATTACACCTTCTGTATAAGCTGATAAGACAACAATACCTTCATTATATTTTTGTAAATCATTAAAAGTGATATGATTACAGATCTTTCGATCATTTTGTGTAAATGTTAGGCTAACTAATTTCAGAAGATTTTGGTAGCCAATCTGATCTTTAGCTATCAGTAAAATCTCGGCAAAATCTTCTGTACCATTATTTGTAAATAATACATTTAGAATTGAAGCATGTATTGGCTGCAGAGACGCTTTTGAAGCCGCCATAGAAAATTCAAGAGATGCGAAGAGATTTCCACGATCCGACAAGCAAACTGCACCCATATCATTCTTTTTCGCAAGATCTACGAGCTGATCAATTTTGATCGTACTCTCAAGCATTGAGTATGAACTTTGCACACGAAAATGAACGAATCTATTTGCCACTCTTTCTCCCTACTGAATAATACTTAAAACCAGAATCTTGAGCATAACTACTATCAATAATATTGCGCAAATCTATTATCACAGGCTGATTTACCATATCTTTAGCTTGCTTAAGATCAATATCTTTAAATTCTTGCCATTCTGTAATAATAATAATTGCATCAGAATTTTCAATTGCTTCATACATGCTCTTTACACAATTTAAATTATCAAAATAGCGATCCGTATTTTTCATTCCCTCTGGATCATATGCTATTATATCTGCGCCCTGCTCTCGTAGCTTATTTATTAACTCTATTGATGGACTACTGCGCAAGTCATCAGTACCAGCTTTGTAAGTAAGGCCCAGTATTGCTAGCTTTTTATTCGCCATATCTCCGCCAATTGCATTTGCAATTTTATTAAGCATTATTTGCGGCCTATTACTATTTGCAGCAATTACTGCATCTAAAATCAAAAAGTCTGAATCAATACTCTTAGATAATTGCTGAAGCGCCATTATGTCTTTGGGAAAACAAGAACCCCCGAAACCAGGACCTGCTTGCAAAAATGCACTGCCAATTCTTTTATCTAAACCAATACCACGTGATAGCTGAGATATATCAGCACCAACTACTTCACACAAATCCGCCATTTCATTAATGAAAGCAATTTTATTTGCCAAAAATGTATTCGACGCATACTTAATCAATTCTGAAGTATTTAGATCAGTTTCAACAAGGCTAACACCATCTTTTGTCAGGGGATCATATACTTTACGCATTACTGCAAAAGATTCTTCATTGCTTGCCCCTATTACTATTCGATCTGGTTCTAAAAAATCTTTTATAGCATCACCTTCTCTTAAGAACTCAGGATTAGAAACAACAGAATTACTCAAATCTTTGCTACGTAAAAACTCTACTACTTTGTTACATGTCCCAGGAGGAACTGTTGACTTCATTACTATAATACATTTTGAAGATATGTAAGGGGCAGCACTTTCAAGACATCCAAAGACGCCACTCAAATCAGCTTCACCATTTTCTTTTGGAGGAGTACCAACAGTAATAAATAAGCAATCCGAACCACTAATTGACTCATCATATCCACAAACAAACTTAAGTTGCTCGCTATTACCATACTTACTAATATACTCATCTAGTCCTGGCTCAAAAATTGGACAACCACCCTGGCGTAATTTTGCAATTTTTGATTCATCAACATCTATACATACTACGTCATGTCCGACATGGCTCATCATCACACCAGATACTAGACCAACATAGCCAGTACCTATAAACGAAATTTTCATAAATTTTAACTATAATTTTCAAAATGGGTATAGCTTAACTCAAAAAGCTAAAAAGTAAAATTAAAACTATTGCTTTTATTAGCTATTAGCTATAAAAGCCTATATATTATTTATTCTGTAATAATCGTAAATGCGGCCTATAGATGAAAATCATCATAAAATTATTATCTATTATTTTGCTACTGGCCGCAATTGCCTTTGGCCTTATAAGTGCCGCTAATAATGGAGCGCTAGATAAACAAATCAAAGTTGGATTGCAATATTACTTTTCTAATTTGGGGGTAAAAGCTAAATTTTACAATCTAAAATTCAAAAACGGTACTATTTCAGCATCAAAACTTAATATCCAGGCTGGAACTGGTATTACTCAAATAAACAATGTTAAACTCCAAACATCATTATCATCAAATTTCCAATTATCCATAAAATTACAACCAACAAATCTCAAAATTATCGACGAGAATTCTAAAAAAATAATGGAAGCTTCGGTTAATGGATCACTTATAGCTGACATTAATGGCATTCAGAAGGCAGAGTTAAGCCTACCTAAAATAAACATTATAGAAACTATCAAAGATATAAATAACAAACAAATACAAGATGGTTCTGCACATTTCATATATTCTAACAATCTAAATCAGAGCATATTGAAAGGGGATCTACAATTTGGCAAATCAATTAGACTTAGTATTTCACCTTCAGAAAAACAACAAGATAATTTACATTTGCATGCAGAAAATATTCCACTGTTATTTTATAAGATTGCTGATAAAATGCTACCAAATAATGGCCTATTAGAATTCTTCAAATCCTCAATTCAAGATGGGTATATAAAAAATGCTGATATTAACTTCAATAATAATACAGCAAACTTATCAAAAGAAAGCCTTAATGGTAAGGCAAAAATACTAAAGTTAGATTATAAATATGATGATTACTTCCCGATCTTAAGCTCTATAGATGTTGATGTTATAATAGAAGGTGCAAAAACACAATTTATTATAAACCAAGCATATAGTTCTGAGATCCTACTTTCAAACGGAACAATCAATATGGATTGGAAAGGACAAGAGGATACTACTCTATATATCAACATTACTGCCAATGGACCAACAAAAAGTTTAACAGATTTTATCCACCAGGATGATCATGAATCAATGAACAAAGCCAATATTGACCTACGGAAAATAAAGGGCAAAGTTAATACTACAATCTATATAGAAATTCCATTAAAACCAGGCACAAAGAACTTATACGATATTAGAGCGGAGATTCCAAATGCTTCTCTTAATATTTTCAAAGGCTATGTTAGACTAGAAAAAGCAAAAATCTCAGGAGTATTTAATGGAGAGCAACTCAAACTTCATGGTGTAGGTAAATTAAATAGCTTTAATACTAACTTAAATTTCGTATATAATGTAGAAAATCAATCAGAGTTCAATCATAAGCTCGATATCAAAACTCACTTTAAAACTAAAGCAAGTAAAACAAAGAAAGAGCAAAAAATTGCTTTCATTAGCTTACTTGGTGGGGACTCAATAGTCGATGTACAATATTTAAACAAAGACTCTAAAGGCTATATCAAAGTCGATTCAGACATATCAAATCTAGAATTATATTTCGACAAACTTGGAATAAGAAAGGCAAAAAACGCGCCGGCGAGGGTTAAGGTAGATGGTTTGTTTGAAGATCCAACACAAGGGATTATTAATTTTCATACATATAATGACAAAAATCTAAGTATTAAAGGTGATGTTACGATTGAGAATAATGAAGCAAAGATTGACTTAGAAGAAATAAAAAATAAAGGAACAAATATAAATGGAAAAATTCACCTATTTAATGATGAAGTAATAGCTGAATTACGAGGTAAAACTCTTGATCTTTCAGATGCTGATATGCTTCAATTCCTTGAGAAAGAGAGAGATGGAGGAAATTCGAAGCTTAGAATAAATATTGATCGAGTAAAACTTAAAAATAATGTTTGGCTTGATGATCTTAAATTAATGTTTAAATGCGACAATACTAGATGCTACTCAGGATACATTGATTCTAAAATCGGCTCTAGAGATATTGAAATGCTACTTACAGCAGAAAATGATCGTGAAGATTGGCTTATCAAGTGTGGTAATGCCGGAGCATTCTTAAAAGGTCTTGGAGCCTATGATTCTATGAAATCTGGCAGTATGGTACTTAAAATTAATACTAGCAGAAAAGAAGTACGTCCCGGTGAAATTATTCCTATTTTAGATGGGACATTTACATTTGAAAGATTTAAACTTCAAGATACACCCGCCATTACTAGATTAGTATCTTTTGTTTCTCTACCAGGATTTATAAGCATAATCAGCGGTAATAAAGACATTGCTTTTTCAGGTATGAATGGAAATTTTAGTTTTGAAAATAATTTGCTTAAAATCAGTAATAGCTTTGCAACGGGTCCTTATTTTGATTTTAGCATGAAAGGATCGATTGATACAAAAAACAGACTACTTGATCTCAAAGGCCATGTTAACCCTGCACTCTATGGGGCGAGTAAAATAATTGGATCCATACCAATAGTTGGGAGAATTTTTACTGGAAACAAGAAACATCGCGGTTTGGTTTCCGGAACTTATAAAATGCAGGAAAAATACTAAACAATAATTTTTTATCAATTCCTATTTTGAATTATAGCTTCCTGTTTCAAGATAAGGCGACATAGCATATATAAATCCGTAATCATATCTGAATTCTGTAAACTTCAGATATATAATTTAAAATGAGAATTAGTACTATCTATCTACAAAAACTAAGTGATGAATCAATATAGTTTGATTTCACTCCAGAACAATCCAAAATCGAGTGAAATATATAATCCTGGGAAACAGAGTGTTTACTGTGTTTCTTAATTCTCTCCAATATAGCAGGATTTTTCTTTATAAAATAATCCGACAACCACATAAACATTGCAATATCAGTCTGTTCTTTTTGAGCAAGAGGGTCCTTGCTAGCATTGCCAAAAAAGCCGTTCTCTCCTAAAGAAAAACCATGATCAGAGGAATAAATTACTATAGCATTTTTATGCTCTAATTTTTTTAGTAAACTATCTATTACCATATCTGTATAATAAAAAGAATTTTCATATGAATTCATTAATTGCTCCTTAGAACACTGACTTGGTATCGAATTTTTACATTCAGGCATAAATGGAGCTTTAAAAGCTTCTGGCAATCTTTGATCAAAGCGCCAATGGCTACCCAATAAATGCATTACCGTTAGACTATTTTCCTTATAGTTTTGTAATCTTTGATCAATAAATGGAATTAAATACTCATCAATAATCTGATTATTTGGGAATGTTTTGCGGAGTTCTAATTTTGTAATAATATAATCAGCCTCTAGTGCAATTGATGCAAAACTAGTTTCAAAAACGCCAAAAATACCCTGATTACCTATCCAACTTGTTTCAAATCCAAGACTCTTAAAAATTGAAATAACACTCTTCTCACTAAGTGATTGCTCAATATTTGGTGATTTTGCTGATGTTAGCATATATGGTATAGACTCACGTGTTGATGTTTCAGAACTTTTAGCATCCCTAAAAAGTATCAAATTTTTTCTACCATGAATTAGAGGCATATTCTTCTCAGAGACCGTCGATCCACGCATAGATTCACCTATAATTAATACTACAGTTAAAGGCTTGCGATCATTTGAATCAAATTTAAAAGTATATTTTTTAGTTAAATCAGTTTTGTTATTGCGTCTCTCTAACTGTTTTTTATATTTCTTATTATATTCCTTAATGCTCCATATAATATTATATGGAATATAATTCGTAAGCGTATAGCCAAGTGATCGACTTGTAAAACCCTTACTCATTAGGCCCAAAATTGATATGCATATGGCTATAGTAGCTATGCTATATTTTTTACTTTCACCATATTTACTTGAACCCAAAAACTTATATAGCAAATAATATATTAATAGAAAACCTATAACTGCAGATGCTACTGTGAGTACATTTAGATACTCAACAATCAAATCTACCTCTACTGATAAAATGTCATTCAAAACACCTTCATCAAAAGATTTTTTAAAGTTATAGATAAAAAAGTTGGAGATAATGCCAAATACGAAAAAAATAGAAATACATAATATTCCTATATATGGAAACATTGATAATATAAAAAAAAGGATAATTGTAATGGGAATAATGATTGCCATCTCCATTACAAAATCTGCAATTAAGGTATTTCCAATTACTGATTTCAAGTAAAAAATTGGTATATTGAATAATGCCGTATAAATCACTGCAGCAAGAGATAGTTTTGTAATTTTATTCATTTACAAACCTCAAAATAAAATGCGCCGGCAGTAAAAACTTTTCTACTTGTCTATAATTAGTATTGTCTAGTAGAAGTACAAGTTAAACCTTACGTAACAATATACTTGCATTTGTTCCACCAAATCCAAACGAATTTGATAAAGCATACTCAATCTCTGTCTCTTGTGAACTGAGTGGTACAAGATTCATCTTCACCTCTTCAATAGGATTGTGAAGGTTTAATGTTGGCGGAGCAACTTGATCTCGAATTGCAAGCGCCGTGAAAATAGCTTCAACACTGCCCGCAGCACCAAGCAAATGACCAATAGCTGACTTTGTAGACGACATCTTTAGAGAGTCATTGCCATTAAACAAAGTCTGAACTGCTGTAAGTTCGATAGCATCGCCAACTTTTGTTGACGTTCCATGCGCATTAATATAATTCACCTGACTTGGATTTACTTTCGCATCTTTTAAAGCATTTTCCATCGCTCTGAATGCGCCGCGACCATTTGGAGAAGTAATGTGGAAAGCATCACCTGTTAAACCATAACCAGCTATTTCTGCATAGATTTTGGCTCCCCTCTTAACTGCGTGCTCATATTCCTCAAGCACAACAACTCCAGCGCCTTCACCCATAACAAAACCAGCATGGTCTTCATCCCAGGGCCTAGAAGCTCTTGTTGGTTTATCATTAAAGTCAATAGCAAGTGCCTTTGCAGCGGCAAATCCAGCAACGCCAACAGGAGTTATTGGAGCTTCCGCACCGCCTGCTATCATCACATCTGCATCGCCATATTTAATCATTCTTGCTGCATCTCCAATAGCATGCGCACCAGTAGAACAGGCAGTAGAAACTGCACTATTCGGGCCGGCAAAACCATATTTTATTGAAACATGACCAGATAATAAATTAACTAAAGATGCAGGTATAAAATAAGGGCTAACTCTGCAACGCTCGCTTTGGCGGAGTTCAACTGATGTTTCTTCTATTGTCCCAAGACCACCAATACCTGAACCAAGCATTACACCAGTTCTTTCTCTTGCTATCTCACCTTCAGGCTCCCATCCACTATCTTCTACAGCTTCAGTAGCTGCTGCAATACCAAAATGGATAAATTTATCCATTTTACGTATATCACGCGGTGAAATATAATCTTCTGGATTAAACTCAGAAACTATTGAAGCAATCTTACATGGATACTGACTTGTATCAAAATGTGTAATATTTTTTACACCACTCTTACTAGATAAAATGCCCGACCAAGAATCTTTTGCATTTAAGCCTAAGGAATTAATAAGGCCAACACCTGTTATGACTACTCTTCTAGACGACATAGCTTTGAACTCTTAAATATTTATATGTAAAAGGAATTAAGCTTTGATATTTTTTTGAACATATGAGACTGCATCAGCAACAGTTGCAATCTTACTAGCTTCTTCATCAGGAATATCACAATCAAAAGCAGCTTCAAATGCCATCATTAGCTCAACTAAATCTAGACTATCTGCTCCCAAATCATCAACAAACTTAGATTCTGGTGAAATGCTGCTTTCTTCTACTCTTAAAGTTTCAGCAACAGTTTTTATAATCTTTTGTTCGATATTCTCACTCATAAGTAACCTCATTATAGTTATATTTTAAAAACTTCAGCAACTGCCAAAATTCTTAGTTTCAACTTTTTACCATAAAAAAAAATCTTTTACTAGTGGAAAAAATAATTATACCAGGCATTGTTAAATAACAAATGATGGTAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGGACCTAGCAAGATAATGTCTGATGAGAGAGTTTTTGCTTTCTACTAGCGCAGTTTCTGCTTTGGTTTGGTGGTGATGTTTTGATATTCTATATTTACTGTAAACTTCATATGCGTCTGTACACAGATGATTTACTTTATAA
>sequence26
ATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACATCACCTTTTTCTTGGTTATATAGAGCAATTATTATTCTATGTCATTCGTTATTTAACAATGCCTTATACCATCAACATCCCACCATTTACGTGAATAGTTTGGCCTGTAATATAGGAAGACAAAGGGCTAGCCAAGAATGATACAGCATTCGCAATATCTTCTGGTTGACCTAAAGTTTTTGATGGAATTTTTTGCATAATTGCATCTTTCTGAGCATCTGTTAATGCATCCGTCATATTCGACTTAACAAATCCTGGCGCAACTGCATTAACCGTAACTCCTCTTGTTGCAACCTCAATTGCTAGAGACTTTGTCATTCCAATTAAACCAGCTTTTGAAGCGCAATAATTTGCTTGGCCAGGATTTCCTGAAACTCCTACAATTGATGATATATTTATAATTCGACCGTATCTAGCACGCATCATTTTTTTAACTGCCGCTCTATTCAATATAAAGTTAGCTTTTAAATTCACATCTATTACATCTTCAAAATCTGCATTAGACATTTTAATAGCAAGTGTATCTCTTGTAATGCCAGCATTACAAACTAAAATATCCAATTTTTCTATATCATCAAATAGTGACTCACATGCATCTGCATCAGATAAATTACATTGCTTTATAGTATAATTTTCACCAAGCTCGGATCCAAGCGCTTCTAATTTCTCAATATTACTTCCACTAATATATACATGTGCACCAAGTTTATGTAGTTGTTTAACAATTGCTTTGCCAATTCCACCACTTGCACCCGTAACTAACGCATTATTTCCAGATAAATCTATCATAACTTATATCTCCAAGATTATTTCATATCAATTTTAGATTATTTAATACCATGTAATAAACAAAAGTCAAACTAGCAACTAAAGTAATATATCCGAACAATATTATGCTGATATATTTCCACATCATATTGCCCGTTTTGAGGTTAACTAAGAAATAACTATTAATTTTCTTCCATAGTTTTTTCTTCAGTAAAGCCACTATTATTATTTAATAATAATTCCTTTAACTTATTCTCCAGCTCCAGAGCAATTTCTGGATTATCTTTCATATATTGCTTTGCTTTCTCACGCCCTTGACCTATTCTTTCCTCACCGTATGAGAACCAAGCTCCAGATTTCTCAACCAAATCATGTTTAACACCTAAGTCAATAAGTTCCCCATGCTTTGAAATACCTTCTCCATACATAATATCAAACTCAACAGTTCTAAATGGAGGAGAAACTTTATTTTTTACAACCTTAACTCTAGTTTGATTGCCGATAACTTCATCTTTATCTTTGATTGAACCTATGCGACGAATATCCATCCTAACCGACGCATAGAACTTAAGAGCATTACCTCCAGTAGTCGTCTCGGGACTACCAAACATAACGCCAATTTTCATTCTAATCTGATTGATAAAAATAATAGTACAATTTGTCCTGGATGTAGACGCAGTTAGCTTGCGGAGTGCTTGACTCATTAGTCTTGCTTGCAGGCCCATGTGAGAATCTCCCATTTCGCCATCGATCTCTGCTTTTGGCACCAAAGCTGCAACACTATCAACAACTAGTAAATCGACCGCACCAGACCTAACTAGAGTATCGGTTATCTCTAAAGCCTGTTCACCAGTATCTGGCTGAGAAATAATAAGATCATCAATATTAACACCAAGTTTTTTTGCATATACTGGATCAAGAGCATGCTCAGCATCAACAAAAGCGCATGTTCCACCTTGCTTTTGAGCTTCAGCTATTGCATGTAGAGTAAGAGTTGTTTTACCAGAACTTTCAGGGCCAAAAATTTCTATTACCCTACCTTTTGGAATTCCTCCTACACCCAGAGCGACATCAAGACCAACAGAACCAGTAGGAATAGCCTCAACATTCATCTCTTGTCTCTGGCCCAGCTTCATCACTGAACCTTTACCATAATTTTTTTCGATTTGGCTGAGTGCAGCAGCCAACGCACTTTCCTTCGTCATTTTTCCTCTATTATTAGGTTTATTCACAGATAGTTATATTACCTATCTTTGCGAAAATCTAGAGAAATCTTGAATAATGTACAAAAATATTATTCTTCTGTGCGTAGCTCAATCCAACTTTCTAAAATTTGCTTTAGATTGTCATCACTAACTTCAACTTCTTGATCCTCAAATTCCGGCAGAGAAAGCACCATTTCTTTTAGGTAACCAAGATTATATTCTGGTATTTCCTCTTCAGCATAAGCTTCTTCAAGCCCAGTCGCTATTTCTTCTATATCACTCCAATGCATCACTATCATCCTTATTAAAGCGCTACTTCTAATACTATTTAATACTAGCTACCACAAAAAAAATAATAGTATATATTTACATAAAAATAACTTTTATAAGGTGAGATTTTTATGCAACTAAAATGTAACATAATAAAAAATCTATTAGATAGCAGTTTTAAAGAAGATTTCGGAATAAAAGGTGACATCACCTCAAATTCAGTCATAGACAAGCAAGAAAACATAGAATTTTCTATTAATAGCAGACAAGCTGCTATTTTATGCGGAATGCAAATCGCTAAATATTATCTAGATAACTATTCTTCTATTAAATACACTATCCATAAGAATGATTCTGATACTATTAATACTGGAGACAGGCTTATTTCAGGACAAGGTAATGCCAGAGAAGTACTGCTAATTGAAAGAATCATTCTAAACTATATACAACACCTAACGGGCATATCTACACTCACTAATAAATTTGTAAAAAAAACATCTGGTACAAAAGCTAAAATCCTCGATACAAGAAAAACTACACCTATGCTACGCTCACTACAGAAATATGCTGTAACTTGCGGAGGTGGCCATAATCATAGATTAGCTTTAGATAGCAGTATTATGATTAAGGATAATCATATTGCTATTTGCGGCGGAATAGAAAAAGCTATTCAAAATGCCAAAAAACATAACCCTCACTATGCTAAAATAGAAATTGAATGTGATACTACAGAGCAAGTAAAAAGCGCAATAGAAGAAGGAGTAGATATAATATTACTTGATAATATGTCTATTGATCAAATCAATGAATCTATTAATATAATTGATGGAAGGGCAGAAATTGAAGCCTCGGGAAATGTCTCTTTAGAAACAGTAGAATCTATAGCAAGAACTGGAGTAGATTATATTTCTGTTGGAAAAATAACACATTCTGCACCATCAGCAGATATTGGGCTAGATATAAAATGAATAACATGATCTCAAAAGAACAAGCCAAGAAAGAAATTGATTCTTTATCAGAGCAAATAAAAAAGCACAATAAAGCATATTATCTTGATGATGCTCCGGTCATCTCTGATGCTGAATATGATCAACTATTTCACCGCCTACAAAAAATTGAAGAACAATTTCCAGAACTTATACCAGAATCAAGCCCAACCCAAACTATTGGAGCAACTATCCAAGATAAATTCACTAAGCATGAACACAAACAAGCAATGCTATCTCTTGGCAATTGCTTTTCTGAAGACGACTTAACTGATTTTATCGATAGAATAAAACGATTCTTATCAATCGATAAATTCCCAGAAATATTTTGCGAACCAAAAATTGATGGGGTTTCTTTTTCTGTAACCTATGAAAACGGAAAATTATCAACTGGTGCTACCAGAGGCGATGGGTATGTAGGCGAAAATATAACGCAAAATATCAAAACTATAACTAACCTCCCCCATACAATAAGTGATTCAACTGACTTCTTAGAAATTAGGGGCGAAATTTTTATTGAAAAAAAAGATTTTGAAATACTAAATGATCAACAAGAAAAAGAAGGAAAACCCAGATTTGCTAACCCTAGAAACTCTGCCGCTGGATCACTACGGCAGCTGGATACAAGTATAACCGCAAATAGGCCACTAAAATATTTTGTTTATGCAATTGGGCATTCGAGCGAGGTTTTTGCAAACTCACAAGCAGAATTACTAAACAAACTCAAAAAGCTTGGTTTTCAAGTAAACCCTGATGGAGTATTGGCAAATAATACCAACGAAATATTGAAATTTTACAACGAACAAATGCTTGCAAGAGATAATCTTGCTCATGAAATTGATGGAATTGTTTATAAGGTGAACGATTTTGCCCTTCAAGAGAGGCTTGGCTACATTGCAAGAAGCCCTAGATTTGCAATTGCTCATAAATTTCCAGCTGTAATCGCTGAAACTAAATTACTTGATATAACAGTGCAAGTCGGCAGAACTGGAGCGTTAACGCCAGTAGCTGAATTGGAACCAATTAATGTTGGCGGCGTACAAGTATCACGAGCTACTTTACATAATTTTCAAGAAATTGAAAGATTGGATATTCGCATTGGTGATACCGTACTACTACACCGCGCTGGTGATGTTATACCGAAAGTAACAGAAGTAAACTTAGGCAAGCGCCCCAAAAATACTTCACCTTATTCCACACCAATCAACTGCCCATCTTGTGATTCAAAACTGCATATCGATCCTATTGATGTTATTGTCAGGTGTGATAACGGACTAAACTGCCCAAAGCAGCTCGGCGAATCCATTAAACACTTCGTGTCAAAGAATGCTCTTAATATTGATGGAATGGGAGCCAAACAAGTTGAGTTCTTTATTGAAAAAGACATGATTCAAAACCCTGCTGATATCTTTAAATTAGAAGAATTAAACTCTAATTCTTTGCAAAAAATTGAGAACATGCCAGGATGGGGAGCAAAATCAGTAGAAAATCTTTTTAATAATATTAAGCAAGCCAAGCAGACAACTTTGCCAAAATTTATTTACGCCTTAGGAATTCGTCATATTGGCGAAAGTAATGCAAAAGTGCTTAGCAAACAATTTGGTACTGCTCAAATATTTATAGACTCAATGATTAAACTAGAAAAAGGCGATGAAGAAATATTTAGTAATCTAGAAAATCTTGATGGAATTGGACATAAAATACTCATTGATATCAAAAACTTTTTCGAATGTGAACAAAATATTAATACTGCTAGAGAATTATTAGATATTCTAGATATTGAAGATTTTGTAGATAATATAAAATCTAGCAGTTTGTCTGGTCAGAGTATTGTTTTTACTGGTAGCTTATCTTCTCTATCTAGAAGCGAAGCAAAAGCCCAAGCAGAACAGATTGGCGCAAAAGTTGTAAGCTCTGTCTCAAATAATACAGATCTGGTTGTAGCCGGAGAAAAAGCTGGAAGCAAACTAAAAAAGGCAGAAGAACTAGGAATAAAAGTAATATCAGAAGAAGATTGGCAAAAAATTATAGAGGAGAGTAAGTAAATGATTGAAAGTAGGGTAGAAGTATTAAGAGAAAATCTTAAAAAGCACAATTATTCTGGTTATATTATTTCAACTACTGACGAATATCTTAGCGAATATACTCCGACATACGCCAAAAGACTTGAATATATAACTGGTTTCACTGGATCAAACGGTCTTGCAATTATTCTAACCGATACTATTCTGTTCTTTACTGATGGAAGATATATCAACCAATCACTAACCCAATTAGATGACCATCTATTTGAAGTATTTGATCAGCAACTACTTCCTGACTTTCTATGGGAAGATTATATAGAACAAGATCAAAAAATTGCTTATGATCCAAAAATATTCTCTTGCAAATCTTTAAACTATCTAAAAAAACTCAATTTAAAACCTCATAATGAAAACTTAATTGATCAAATCTGGGAAAATCAACCAACTAAACCAAATTCAACTATATATGATTATTCACCTGAATTTACTGGCGAAGATTATGCTGAAAAAATAAGCCGTACTAGAGAATTTATTAAAAAGCATCAAGCAGAATCTCTTATTATTACAAATTCGGACTCAGTTTGCTGGCTTTTAAATATAAGAGCTCATGATGTGGAATTTTCTCCGCTACTGCTTGCACACGCTATTATCACCATGGATAAAATATATCTTTTCACTAATGAAGATAGATATAAAAACGACCATAATAAAGATATAACAATCCTCCCTGATAAAGAATTTTCAAATATAATTGATAGTTTAAAAGGAAAAATCTTATTTGATAAAAATTTATGTTCAGATTACATATCAACTATTATTGAAAATAAGAATCATAAACATATTAGCAATCCGTGCATCGATTGGAAAGCTCAGAAAAACGCTACCGAAATAAAATATATGCAAAAAGGCCATATACAAGATGCTGTTGCAGTATGCGAAATTCTTGCCTTTATTGATAGTGAAGATATCTCTAATTTATCTGAATATGACATCGGTGAAAAACTTACAAAACTTCGAGAAAAAGGCAAGTCATATATAATGGATAGTTTTCCAACAATTTGTGGATTCCAAGATAATGGCGCAATAATTCACTATCGCGCGGAAAAAGAAACTGCAAAAAAAATTGATGGAGAAGGACTGCTTCTGATAGATTCTGGTGGACAGTATTTAGGAGCAACCACTGATATAACTAGAACAATTCCAATCGGAACCCCAAAAGAAAAACATAAGGAATATTATACAAAAGTTCTAAAAGGACATATTTCTCTTGGATTGTTGAAATTCCCAGAAGATAAAGTAACTGGTGCTAATCTTGATATTTTAGCTCGCCAATTTCTCTGGCAAACTGGCAAAGACTATGCGCACGGAACAGGACACGGCGTTGGCAGTTTCTTAAGCGTTCATGAAGGACCACATAATATTAGCCTTATAAGCACAAAATCTACCATTAAAAAAGGCATGGTAATGTCTAATGAGCCTGGATATTATATCCCTGGTGAATTTGGAATTCGCATAGAAAACATGATGTATGCAAAAGAATCAAAATATCCAGGATTCCTAGAATTTGAAATGCTAACACTAGCCCCTTACTCTAAAGATCTGATTATTCAGGAAATGCTTACTGAAGACGAATTATCTTATCTGAAGGAGTATTACTACAACATTGAAACCTCAGTTGCACCTCACCTATCTGATAATGCTAAAAGCTGGTTTAAGAAACAACTTCTATAACATCAATAGACAAAAACTAGTCACTAGGATTGGATTAATTGTCAAGGTATAAACAACAAGTATATTGTTAGCAGTTAGTATAAAATAATATTATATTGATTCCTCGCCGAGTAATTCTACTGTCTCTTCATTTTCTAGCATATCTACTTGCTGATTTTGCCAGAACAATTCTATTTGGGTTTGTATTTGCGACGGAGTGAGTGGTTTTAAAAAAAGTAATTAACTTCTTTGAAGTTATTAATTTGTTTAGAACTAATCAACACAATACAAGTATTGTTATAACTTTGATGTAATGAACGACATATATTAATAAAAGTCATGCCATCCATAATTGGCATCTCCCAATCGAAATTATAGCTTCAAAAGCGTAATCCGGTAATCTACTATTAATTAAATCCAATGCTTCCTTACCATTATGAGCAATAGATATTTTATAGCCCTGCTTTGCAAAATATTTACTTAGTAATGCACGAAAAACTTTTGAATCATCTACTATAAGTATTTCTTTTTTAGACTTCTTACTCATAAATACCCCGTTTTAATACAAAAATTTCAATAGGTATAAATACTTTGGTATTAAATGTAAAGAATACTTTTATTTAAAATTGGCAAATCTAAATAATAGAATTTTAAGTGATTTCATACCTATAGAAGTACAATTTAAGATATTTAATACTTGCGATATGTTAAGATAAACTAATATCTATGCCTAACTTTAGTTTGCTTTATTTCTTCAGGCTTCTCAAGTTTTTGCTTAAGCTCTGTAATTAACGCATCGATTCCCCTTGAGGAAATAACACTGTTAAACTCAGATTGTTGAGAATTAAGAATACTGATTCCTTCAGTAATAATATCACCAATTCTATACGGATTCTTGGTTCCATTTTCTAGCTTATGTATTAAATAGTCAATTTTCACTGGTTGTTGGCCAGAAGGTCGAACGATTTCCATATTAACAATAAACATATCATCGTCAATTTTTTTGACATTTTTTAGAACAGCCTTTTCTCCATTGTAATTGCTAGACAAATCTGCATACACTTTGACAACAAATTGTGAATATATTTTTGCAAACTCAGCAATCTTCTTGTCTGATATCATACGGCGATTACGCCCTAATGTATATTCAGCCATCCAGTCCAGGTGTAAATGTGATCTAATTAATCTACTAGATTTCCTGTATCTTTGAGATTCTGTTAAATTTTTATCATGTACTAATTTATATCCTTCATCTATAAGATCTTCTACATATTTTTTAAGATCTTCTGCTTCCGCATCGTTTGATGCGTATACAGAAGAGACAAAAAATATAAGAGATAAAAAAATTGATACTATAGCTCGCATTTTATAACCTAATTTATTTTATTAAACTAAATCAGCCAGCATATGCTCTTCCCCGAACAAGTGACTGGCTGAAATAAATTATAACAAAAAAATTAATCCTAATACTATTGATTATTGACCGTAGGGCACTTGAAACCTACTGGATAATCCATTTTAGCTTCTCTTTGTTGTATAATAGCATCCCTAATCGCAACATAAGGATCAGGAGAATTCTTACTAACATGATCCGTAAATGGCATAATCATCTCACGTTTATGCACTATTCTTACACCAGTCACTACATTTTTAAAATCACGATGCATCTGATAATTTGCAGGAATTAGCATAGTCTTGATTGGATTTAGTAAACTATTAAGCAGTAATGGATCCATCACATCACGACCACTAGTACCACCAATAAGCGGCAGAACAATATATGGACCTGATCCAACACCATAATGACCTAATGTATTACCGAAAGTCTGGGGCTCAGCAGTAAGTCCAAACTTACCTGCAACGTCAAAAAGTCCTAATATTCCAAAAGTTGAATTTATAGTAAACCTCCAAAAAGTTTTAAACATTCCATTGGACTTACCTTGTAGGCCATAGTTTACTGTTGATAGTGGCTCAGATATATTATCTACGAAACTTCCTACTCTCTGCTTAGTATAGTAGTTGGTAAACCTACCATACCCTTTTGCAATCGGTCTCAAAATGAATGTATCTAAAACACCATTAACAAAGAAAATTTTACGATTCAATGATTCATACGGATCATATACTTGGCAACGATTATTTAATGCTGCGTAGTTATATGAATATTTATCTTCCGAAGCTATATCTGCCCGAGAAACACTAGCTAATCCACAAATAATAGCTAATATCGTGGTACTGATTATTGATCTTAAAAGCACATTTACCTCCTAAAAATTATTTGGTGCACATAAATATAGAGTAATTATTTTTTATTTCTAGAGAAAAGTCATTAACTGACAAGATCACAAACCCTGTCTCTTCCAGCATATCCCTTACATATTGAGGATTATAAGCAAATTCTAATAGCTTAGCAGATAATCCATTCTGTTTATCAGTTCTAACTACAAAAGCAAAGTATCCATTAGTATTCAGCACAGAAAACACACTAGTAAAAATCTTTTTTAAGTCAATATTAGTGGCAAATCCGTCTAAACTATAAACTACATCATATAAGTTTACTTCTTTCTCTAAGAATTCATCTATAGGTGCATTAATTATATCATCATAAGGCTTACTATTAGGAAAACATTTTGGCTGAAGCTGGATCATTTTATCTGATATTTCAACACCCGTAAGAGTATAAGATTCCTGCATTCTTTTATGCATCTCATCAGCAAGCATGCCAATATTAGCACCAAGTTCCAAAATACTATATTCTTCGGGTAAATTTTTAGCCTGATTATTAAACTCAGATACTAATTCTACAATTAAATTCTGCTCTTCAGTTACATATTTATCCACAATAATATCTGCTATTATATCTCTATGCATAGATTGGATTGCCGAAGGAATAAAAGTTGTACTATCTATTGACTTTACAAATGATAGCAAACCAATCCCATCAACTTCTTCGGCCTTAGTTAAACAAACTATAGATTTACTATAGTCTTGTTTCATAAAATAGGTCCAACCGAGCCAGTAATTTGCTAATTTATTATCCGGATCTAAAAACCGATCTACTAATTTAAATCTAAAAATCGCATCATTATAATTTCTGCATCTTAGATGATACACACCAAGATCTAAATTACTCTCGGTTAAATTCTTCAGCTTATAGCGTAGCTTCTTAATATCATCAGTAAATCTTTTAAATTGTTGTCTAAAAAAATTAGGTATAGACATTATGCAGGATGCAGAAGATTTAAATAGATTTGATATCGACGAAAAATATTTTCTTGCCATATGATTTATTCTACTTGCGTTTGATTTGCTTTACAAAGAATATTCTCATATAATCTCGGTAAGTTCAAACTAATACGAAAAACTAAATAAATAGAGCGTAAAATTATGTCACTTATTGCAACTAGATTACAGGCAGTCAAGCCATCCCCAACACTTGCTGTTACAGCAAAAGCGAAGGAACTATCAGCTCAAGGAATTAATATTATTTCCTTAGCAGCAGGAGAGCCTGATTTCGATACTCCTGAAAATATCAAAAAAGCTGCAATTGAAGGTATTACAAATGGTGCAACAAAATACACTATAGTGTCTGGTACTATGGAACTTAAAAGAGCTATTTGCGATAAATTTAAACGAGATAATCAGCTAGATTATGATCAAAGTGAAATTATTGTCGGGACTGGCGGAAAACAAGTTATTTATAATTTATTTATGGCAACAATTAATGACGGCGATGAGGTAATTATACCAGCTCCATACTGGGTTTCTTATCCGGATATGGTTTTACTTGCTGGCGGAAGTCCGGTAACTGTATTGTCAGATATGAGCACAGGATTTCGCCCTAAACCATCTGATATTGAAGCTGCAATTACTGACAAAACAAAATGGTTCATTTTAAACTCTCCAAGCAACCCATCCGGGGCAGCTTATACTGAGTCAGAACTACAAGCTCTAGCTGAGGTTTTCAGAAAATATCCGCATGTAAATATAATGTGCGATGATATTTATGAACATATTACATTCGATGGATTTGAATTTAAAACTTTGGCAACTGTTGCACCTGATTTAAAAGATAGAATATTTATAGTAAATGGTGTTTCAAAAGCGTATTCAATGACTGGATGGAGAATTGGATATGGGGCAGGAAATAAAGATATAATCAAAGCAATGACTGTGATTCAGTCTCAAAGTACATCAAACCCATCTTCTGTAAGCCAAGTAGCTGCTGTTGAAGCTCTAAACGGAACACAAGATTTTATAAATTCTAATGCAGAGAATTTTTGTGCAAAACGTAATTTGGTTTTATCCTTATTAGGCAATGCCCAAGAACTAGAATGCTATAAATCGGAAGGTGCTTTCTACCTTTTCCCAAAATGTTCAAAACTATTCGGCAAAAAAACTCCAAATGGAGATACTATTGAAAATAGCTCTGATCTTGCAACATACTTGCTAGAAAGTGCAAATGTTGCAGTTGTTCCTGGTATAGGCTTTGGATTGGAAGGATATTTTAGAATTTCATACGCAACTTCTGAAAAACTTTTAACAGAAAGCTGCAACAGAATTGCCGAAGCAATATCACAACTAAATTAATGATTAAAAAAGGCTTTAAAAATTTTTTGAAAAACAGTGATCTGATACACAACCTATCAGTGAATATATTATTCTTATACTTAAAAACCGCTTACTATACTAGTAAATGGGAATTTATCTGGCCTGAAGACTTAGACAAAGAAAAGCTCAATCAGCTAGACGGTGCGTTATTTGCTCTTTGGCATAACCGTCTAGCATTTGGTATGCATATCTTTCGGAAAATAGATAATGTTTACGCACTTGCTTCTCCCCATACAGATGGAAGACTTATTACCGATGTGATTAGAAAAATGAAATTTGGTGTAATCGAAGGCTCAACAAACCGTAATCCAACTGGAGCATTGAAAGAAATAATTTCTAAAATCAGCTCTGGAAATAATGTAGTTATAACGCCTGACGGGCCAAGAGGCCCTGTATATAAAATCAATAGCAGTATAGCTAGGATTGCCAAAAAATTTGATAAACCATTAATTCCACTTTCATGTACTGCTAATAGATATTATGAACTAAAAAGTTGGGATAAAATGATTATCCCCAAATTTTTTTCTAAAATGACTGTTCGCTTTGGAAAGCCAATAGATTTAAAAGAAAACGAAAAAGCAAATAATGCTTTGCTAGAACAAACGTTAACTCAACTTTCAACTCCGGTAAAACCCGAATGATTTTCCTTTACAACCTAGCCAATTTAATATTCTATCCAATATATTGCCTAATATTATTGTTTAGAATCCTCAAGAATAAAGATAATGTAAAATCGGCAATTCAAAGACTAGGAGTAATAGAGATAAAAAGACCCAAAGGCAAGCTAATCTGGATGCATGCTGCAAGTGTTGGAGAGTCTATGGTTGCAATTACTCTAACAAAGGCATTAAACAAACTATACCCTAATGTAAACTTTCTTATAACGACTGGAACCTTATCTTCTGCAAAAATACTAGAAAAATCACTTCCTGAAAATGCGACTCACCAATTCGTACCTATGGATAACCTGATAATAGTTAAAAGGTTTCTATCTCACTGGAAACCAGATTTAGGCATATTTATCGAATCAGAATTTTGGCCTTGCCTTGTCAGCGAATCAGCTAAAAAGTTTGATACAATAGTGGTCAATGCAAGATTATCTGACAAATCTTACAGCAGGTGGATGGATAGAAAAAGACTATTCAACACAATAGTTTCACACTTTAAACTAATTGCAACACAGAGCGTAACTGATCTTAAAAAATACAAAGATCTTGGATGTGAAAAAGCTATAAATCTAGGCAATCTAAAATTTGCTAACAAAGAACTAGATGTTGATGAGAATCAGTTAAAAGATTTAAAAAATATATTCAAAAATAAACAAATTTTTGTAGCAAGTAGCACCCATGCTGAAGACGAGGAAGTAACTTTACAAATAATCAAAGACTTCAAAAAAGACAAGGTTGATTACTATCCTATCATCATCCTAAGACACCCAGAAAGACGCAGTGAAATAAGTAAAAAATGCCGTGATCTTGGACTATCTTATACTCTAAGATCTGAAAACAAATCCCCTTCTCTTCAAGATGATTTATATATCGTAGACAGTTTTGGTGAACTAGGACTATTTTATAGCCTATCAAACATTACTTTTATTGGTGGATCATTTAAAAGAGGTGGACATAATCTAGTAGAACCTGCTTATTTCGATAATATTATCATCCTTGGTCCTGATATGAGCAATTTCCAAAATATTGCAACAGATATGATTCAAGGCGGATGTGCAATTCAAATCACCGATAAAGAAGAACTTGCTACAAAAATATTATTCTTCCTCGATAGAAGTAATAAAAAAAAATCACAAGAATTAATAGGCAATGCACGGAAATTCGTAGAAAACCGCGAAGAAACATTAGATAATTATCTAAAAGAGATAAAAAAGTTTTTATGATAAAACTAGTATATCCAAAATTTTGGGCAAGCAATGGCCTCATTCCTATACTATTAACTCCACTATCATGGATATATCGCTGTCTTGGATTTTTTAGAAAAATCACAGCAAACCCAATCAAGCTAGATGCAAAAGTAATTTGTATTGGTAATATTACGGTTGGAGGAACTGGAAAAACTCAGATAGTCGAATCACTTGCAAAATACTATAAAGAGCAGAATAAGAGTATATTGGTAATTACCAAAGGATATGGATCATCCTTAAAAACCGCAAAACTAGTAGACAAAACCGATATAGCTGAAAATGTAGGAGATGAATCAATTCTTCTAAGCAAAATAACACAAGTTATTGCTACTAAAAAAATACAATATGCCCTGCCGCATATTGAGAAAATAAAACCAGAGATAATTATCTTTGATGATGGGCTACAAAACCCCAATTTTATCAAAGATTGTAAAATAATTGTTATTGACAATTTGCGTGGAATAGGTAATGGAAAGATTTTTCCTGCAGGACCTTTGCGAACTAAAAGTGACATAGCAATCACAGAATGTGATGCTCTTATTACAATTGGTGATAATGATTGCAAGGATTTCACCATTATACAAAATGCAACTAGCAATAATAAACCAATATTTAAAGCCAAAATCAAACTAGTTTCTACATTAAAAAATTCTGAATATTTTGCTTTTTCTGCAATTGGCAATCCTGATAAATTTTTCAGCACTCTAGTAACTAGCGGCGCTAATATAAAGCAAACTAAAACATTCCCAGATCATCACCAATTTACAAAAGGTGAAATTTTAGAATTAAAAACTATAGCAAAAAAGAATAATTATACTTTAATCACAACAAAAAAAGACTATGTTAAAATCCATGATACTGAAAAAATTGATTGCGCAGTAGTTGATATTGTTTTTGAAAATAAATCAGAATTTATAAAGCTAATAAATGAAACATTATCTTGAATATATAATTTTTTTCCTAGTAACGCGTCTACTAAAGCTACTACCAATGGATAAATCTGCAAATCTTTGTAGCTTCTTAGCGCGAAAAATAGGACCTCTAATTGGCGTCACTAAAATCGCTCGCAGAAATCTGGAAAATATTTATCAGGACAATATAGATATTGACCAAACTATTGATGATCTTTGGGATAATTTTGGCCGATATATTGGTGAATTTCCATTTATTAACAAACTATCGGAAGAAGAACTCACCAAAAGAGTCACTTTCACAGGGCTAGAAAAAATAGAAGACTTATGCCAAAATAATCAACCGTTCATGCTTTTTCTAGGACACCAAGCAAACTGGGACATAGTCATACGTAAGATAAATAATATTTATCCTAAATTTGGTATTGTTTATCGTAAGGCAAACAACCCTCTTGTTGACAAGGAAATACTCTCTGAACGTAACAATGATTCTAATGTTATAATGATTGCTAAGGGGCCGTCAGGTGCTAAAGGATTGGTACGCGCTATAAAGTCTAAAATGTCTATTGCCATGCTTGTTGATCAAAAAATGAATGATGGGATCGAAGTTCCGTTCTTTGGAAAACCTGCTATGACAGCACCAGCAATAGCAAGACTTGCCCTGCAGTATAATTATCCAATAGTTCCATGCCAACTAATTCGCAATGGACGATCAAGCAACTTTGAAATTAAAATCTATAAACCGCTAAAAATTGATAAAACAGGCAATACTGAGCAAGACTGCTACAATATTATGAAAACAATCAACCAAATGCTAGAAAAATGGATTCGTCAACACCCTGGTCAGTGGTTTTGGTTTCACAATAGATGGAAAGAAAAATAGCAGCAAAAAGCCTTATATTAAATTCTTATTGAGTTTTTACGCAGATAGTAATAAACTTGCGCTAATATATTTATTAATTAAAGCGTCTTAAAAAATGCCTGAAATTTTTTTCAATGGTCCAGCTGGTCGTCTCGAAGGGATGTACGCAGAATCTACAAACCCTAAAGCGCCAATTGCATTAGTCCTCCACCCGCATCCAATGTATGGTGGAACAATGAATAATAAAGTTGTATATAATGTATATAAAACATTATTTGAAAATGACTTTACGGTTCTTAGAATAAATTTCCGAGGCGTGGGCAGATCGATGGGCGAATATGACGAAGGTGTTGGTGAAATGACTGATGCTGCAACTGCTCTTGATTGGCTGCAAGTACACTACCCTATGAGCAAAGTAAATTTAATTGCAGGTTTCTCATTTGGTGCTTGGATTGCAATGCAACTTATCATGCGCCGCCCAGAAATCACAAATTTCCTAGCAGTTTCACCGCCAGTTGATAAATATGACTTTTCGTTCCTTAGCCCATGCCCAATCCCGGGACTAATAGTGCAAGGTGATATGGATAGCGTAGTATCAGAAGAATCTGTCCATGAATTAGCTCAAAGATTAGCAAAGCAAAAGAATATTGATGTGGACTATCGCATGATCCCTGGAGCTGACCATTTCTTTAGAGAGAAGATTGATCTGCTCAATAATGAAATAGATGATTATCTGAGATTAACATTTAATCATCAAGAATCAAAACCAAAGAAAAACAAAAAATCTGATTCTACAACTGTAAAAGCAAAACCAGCAAAGAAAATTTTCTTGGAATAAAATACTACATACTATCTTAGACCATTTCTAATCTTCATATTAGAAGTTCATACTTGATGGAAAGTATAGAACTAGTTTGCAGAATACTAGTATATTAACGCTAGTTTAGGACAAGAAGCATGTTAAGTTGTTGATTTTTATTGTTCTTGCTGCTCAGCGTCATCGCGAAGGAGCTTTAGCGACTGCGGCGATCTATTTGTGGATTACTGCGCCCGCCTTCTGCTCTTCGTAATGACGCAGGTCAAGCCTCATTTTCCTATGGTCTTAAACTAACTCATACAATAGAAATTGCC
>sequence27
AATCAAGTTTGCTCCCGGCACATTTGGTTCTCTTCCAGCATTTCCATTATGCTATATAATAATGCATTTTACTCTAAATAACAAAATTGTTTTTCCAATTGATGGTTTTGATTTTCAAGAACAACAGATTATAGCATTATTTTCTCTAGAATTATTGGCAACTATTGTGCTGTTTTTTATCGGTACATATTGTACTAGTATCTATATAGAGGGGATGGAAGAAAAAGACCCTAAAGAGGTAGTAATTGATGAAGTTGTGGGTCAAATGCTAACTATAATTTTAGTTTCCTTTTCTGTTATTTTGACGTACAGCTCAACCTTGCAGCTACATTTCGATGCAAAAGTCATTGATATAGCCTTGCTTGGTGTTGTGCCTTTTATATTATTTCGTTTGTTTGATATAATGAAGCCATGGCCGATAGATTGGCTGGATCAGAATGTTAAGGGTGCATGGGGCGTGATGATTGACGACGTAGCTGCGGCTATTTTTGCAGTTGTTGTGCAATATGTTTTGGTGTTTTTTATATTAGACTTTTTTCCAGTTATTAGGCAGTAAATGTTGGATCAAAAATTAATTGAACTAGTAAAACAGATTAAATCTTTGACAAAAGGAAGATTTATATCAACTGCTGAGTCATGTACAGGTGGTTTGGTCTCATCGTACTTGACTTCAATTTCAGGGTCATCCGATTATTTTACTACTGGAATTATTAGCTATTCAAATGCAGCTAAGATGAAATTACTTAATGTTAGTAGTAAAACATTAGATGAATTTGGTGCAGTTTCTGAAGAAGTAGCGAAAGAAATGGCGGTTGGTTCTTTGAAAGTAGCTGGTTCTGATATAGCAGTATCTGTAACAGGAATTGCAGGGCCTGGAGGTGGAACAAAAAACAAACCAGTCGGAATGGTGTGTTTTGGTGTTACTGCTAAAGATAAAGTCACATCAGTAACGCATTATTTTTCTGGAACAAGGACCGAAATACGCCAGCAATCTTGTGAAGTGTGCTTAAGACTTATCTTAGATATTTTATGAGTTTTAAGTCTATATACATAATTCAGGATAAATAATTATAGAAAATTATGTGGATCAATATCGAATTTGACTTGGTAGCTTGAAGGTATTTTGGAATACTCTTTCCAAAGTTTTAAGTATTTTTGCATGTTGAATTCTCGGTTTGCTAGCACTAGTATTTTATAGCGATATCTGTTAGATAGCTTTAGCATCATAGCTTCAGCTGGCCCCATGATTTTTGCATCGCTTTTTGGAGCAAGCGCTACAAAATTTTTTGCCATTTGCAGTGTTTTGTCGGAATTTTTTCCAGTAATCGTGATGGCTGCCATTTTACTAAAAGGTGGCATTTCTGATTTTTGTCGTGAAAGCAATTCTTCATTGATAAAGATATCTTCTTTTTTTTCTGCTAGCGCCTCTATAACTTTATGTTCCGGATAGTATGTTTGAATTAATACTTTGCCATTTTTACCTGTTCTTCCAGCTCTGCCACCTACTTGATGTAATAGTTGGAATGTTTTTTCAGATGCTCGAAGATCTCCTCCTACAAAGCCAAGATCAGCATCAACTATTACTACTAAAGTCAGATCTGGAAAATGGTATCCTTTGGTAACTATTTGAGTTCCGATAAGAATATCTATTTTGCCGTTTTCCATTGATTCAAGTAATTTCTGCATTTCAGCTGGTTTTGAGCTCTGCTCCTTGCTTACCATTTCTGAATTTACTTCGGGAAAAATCTTTTTTATTTCTTCGTGAATTCTTTCAATACCAGGGCCGCACAAAATCAAACTATCTGTTTCATCGCAATCCGGGCATTTTGTATGAATTTTAGAAATAGCTCCGCAGTGATGACATTCCATTTTGTTAAGTCTCTTATGTAAAACCATACTAGCAGAGCATGATTTGCAATTAACTCTATAACCACAAGCCCTGCAAAGCATAAGTGGTGCATATCCGCGCCGGTTTAAGAATATCAATGTTTGTTGTTTTTGTTCAATATTTTGCCTAATTGCATTCAGAGCTGTAGGGGATATCCAGTTGTTCATCTCTATATCCTCCTGTTTCATGTCGATGATTTTTACATCGGGAAGATATGCGTCATTAAATCTACTTTTTAAATATACAATATTATATTTCTTATTTTCTACATTGTGTAATGATTCAATAGAAGGTGTGGCTGAAACAAGCAGAGTTTTGCATTTTTCTATAAATCCTCTTAGTACCGCCATATCTCTTGCATTATACAATATACCTTCATTTTGTTTGTATGATGCGTCATGTTCTTCATCAACTACTATTATCCCAAGATTTTGATATGGAAGAAATAAAGAGCTTCTAGCTCCGATTACGATTTTAACATCACCAGAAATAATTCCTCTTAATATTCTTTTCTTTTTTGCTTTAGTCACGCTAGAATTCCAAATTGCCGGTTCGAAGCTAAACCTTTCCTGGAATCTTGCTACAATTTGAGTGCTTAATGCTATTTCAGGGAGCATTATTAGAGCTTGTTTACCACTCTTTATTTGATTCAGAATAGCATGAAAATATATTTCAGTTTTGCCAGAGCCTGTAACGCCCTTTATTACTGTGGGTTTTGTGTTGCTTTCAATTGCTCTGAGAGCTTTTTCTTGAGAATCAGTGAGTTTTGCAAGTCTTATATTATTTTGTATCTCTTGTTTATGAATCTTGATTGGTGGTTCATTTATATCAACCGGTAATACTAGTTTAGCCACTGTTCCAAGTTCGGACAAATAGTATTTAGCAGCTTTTTTAATAAGTTCAATTACTTCGCTTTTGATTGAAGCGGAGAAAATATCCTCATTACAAATTGACTTTAATTTTTTCCCACTATCTAGGCAGTTAACCTCCCAGATAATTCCTGTGATATTTTTATTTCTAAAAGGTACTCGGATCAAATCCCCAACAGAATGATTAGAACTAGAATAGTAGTCTAAAGGGAAAAGAGAAATTTTTGGAATTAGAACGCGAACTACTTGCACAATCTACAATCTTCAGAATTTATATTTATATAACGCAAACTTCATATACTGGTAGAATTTATTATTTTCTATGAGTTTATTCAATCAATATATTTGTGGTAGATGACAAATGTAGATTTTTTGAGGCTTTTTTAATTAAATCAAGCTATAAACTATAAATTCTTGCAAATTCACAAATATTAATATATATTATTGACTATATAAAAAATATAAATTTTAAATAATACCAAATTTTAGTAATACAACTTTTGGTCGTAAAGCTTAATATTTTATAAGATAGAAGTTTGGGTATAATTATTTTTTGATTTTAGAATTGGAATGAAGACAAAACAAAATAAAACCAAAGAAGATGGTTTAAGCTTCGAGAATAATGAAAATCAAGTCTCTTATTTTTCGAAAATTGGACATGAACTCAAGACGCCTATTCATGGTATTCAAGGGCTTGCTGAGTACCTAATTAATAACTGGGATAATACTAATGTTGAAACTCAGAAAAAATGTATAAGTTCAATTCTAGAAGCAAGTCAAAAGCTAATTGAATTGGTTAGCACACTTTCTTTTGAAAAACTTGAGCAAACTGCTATAGAATTCAATTTTGCGCAAGCTGATATCGTTGAAATAACCAAGAATGCAGTTGAGAATTTTAAAGATGTATATTTGCTTGATAGTAAAATTTCTTTAGATTTAAAAGTGAGTGAAGATAGTTTTATTTCTGATGTAGATGAATTCTGGTACAAACAACTTCTGACTAACTTGCTTGTAAACGCATATAATTATTCAGAAGATGGTGTTATTTCTATCGAGATGCGTTTGCAAAAAGTTCAGCAGAGTGAATATTTGTTTATTTCAATTACTGATCAGGGGATTGGGATACCAGAATCAGAACTCAATAGTATTTTTACTCCTTACAGCCGAAGTTCAAGAACAAACTCGAGCACAGAGGGTACGGGTCTTGGCTTGTCGATATGCCGTGAAATTGTTCAGGCTCATAAAGGTAATATTACTGCAGTGAATAATGAAGAGGCGGGTTCAACTGTCGAATTTTCCATTCCAAAATATAGGTAACTTATGAACCCTGTGCCAAATAAGCAAAAGGTTATCTTATTTATTGATGACGAAAAAATATGTCATACTCTTGTTGAGCTTATAATTCCTAATTTTACTGAGTATAAGCTAGTTGGTGCATTCAATGGCAAGGAAGCTATTATGCTTGCAAAGAGATATTCTAAGGAATTGAGTTTAGTTTTATCAGATATAATGCTGCCAGATATAAATGGTTATGAAGTATATGATGCACTTCGTAAAGATCCAAGATTTACAAATATTCCGTTTGTTTTTCAAAGTGGTCTAGAAGCTCAAGAAAAAGAACTTAGAAAAAATATGAGTGAGGATGTAAAAATTCTCTATAAACCATATAAACAAGAAGAGCTATTAAAAATTATCAAGGAAACAGTATAAAGCTGCTTATCAACTCCTTAGTGGTCTATCGATCGAGGTTATTATTTGACATAAGTATAGTCATTTGATAGAAGTAGTTCGACAAAATGCCTCTGTGGTGGAATGGTAGACACGACAGATTCAAAATCTGTTGCTCTTTGGGCGTGCCGGTTCAAGTCCGGCCAGAGGTACCATTTAACCCTGCTGTTAATTTTCTTAAGTCACTATTTTCTAGAATCTGTTTTTTATTCTTCTTTAAACCTACTTCAACTATACATTTTGCTAGGTCACTATCATTAATACCAATAAATGGTAAAATTAGAAAAAGTGTTTTAAAGATATATTCAAATATGGAAAATCTATTTGTATTTTTTCCCGGGTTGATATAGCCAGGTCTGAAGATAGATTTGTCCGTAATTTGTGAGTCTAAAAGTATCTTTTCTGCTTCTCCTTTTGCATTGCCAAACCTAAATAAGCTTGAACCATCAAGTTTTGCTCCTTGGGCACTAAATAGACAGAAATTGACGCTTGGATTAGTTTGTTCAAAGCATTCTATCAGTACTTTTACATAGTTCACAGTTATATGCCAAAAATGTTTTTTATCAACAGCGTTTTGGTATACTCCAAGACAGTAATAACAAACCTGTGTGTCCTGTAGAATGCTCTTTAGCCTGCTATAGTTGGTAAAGTCATCATGAATAATTTCTTCTACTTTCTGATTATTTATATTGGTTTTATTTCTTCCAATAGTAATAATTTTTGTTATTTTATCTCTTTCTATAGCATGTAGAAGAACTTCTTAACCTACCATTCCAGTTGCTCCAAAAATTACTACTTGTATAAAGCTAACTTTTTTTTAATGGATGAAATTGGTCTAGTGTCTTCTTCAGATGGTCTGTTTGTACATGTGTGTATATTTGAGTTGTACTAATATCAGAATGTCCAAGGAGTTCTTGAATTACTCTTAGGTCTGCTCCTCCTTCAAGTAAATGGCTGGCGAAACTATGACGTAGAACATGCGGCGAAATTATGTCTGAATCTAAACCACAATTTAGTGATGCTTTTTTTAGTTGAAGTGCAAAATTTTGTCTTGTCATATGCCCTTCCTTAGACGAGCTTGCAAAGAAATATTGTTTAGCGTTAGTAGATTTTCCTTTGCAAAAATTTTCTCTAATTTTTAGATATTTTGTAAGAGCGTGTCTTGCTTTATCGTTAATTACAACTACACGTTCTTTGCCACCCTTGCCCTTTACAGCAAAAGTCTTGCGTACTTCAGAAGCTTTGATGCCACTGATAATTTCAATAAGTTTTAGTGATACAAGCTCACTGACTCGAAGTCCGCTTGCGTAAATTAAATGTATCATTGCACAGAGCCTTATACCTTCATGCGTTTGGTCTTGGTCACAATATTCAAGTAAGATCTTGATATCTTCTATTGGAAGAACATTGGGTAGTTTGTTCGAGTATTTCGGCAAATCGACTATCAATGTTGGGTTCTGCTTTGTATAGCCTTCACTAATTAGAAAATTATAATAGTTTTTTAGAGTTGAGATTTTTCTATGAATTGAGCGTGGAGCTATATTATTTGTTGCAAGAATTTTTATATAATCTTCTATATTGCTTGAAGAAGTATCAAGTTCAGATAATTTGTGTTTGCTTAAAAATTCACGAAAATCTTGTAAGTCTCTTTTATAGCTAACTACAGAATTTTTAGCAATGCCGCGCTCTGCAACGGTCGTTTCAATGAATTGTTCGATATATTGCATAGGTTATAGCTTCCTCCGCAAAATAGAATTGGAGGCCAGAGCCGGAATCGAACCGGCGAATAGAGGATTTGCAGTCCCCGGCATTACCACTTTGCTACCTGGCCTATGCTGATAGGTTTTAATCAAATTTTATAAAAAATGCAATAGGAAGATGAGTTTTTACAAAAATTTAATATTTCTTTATTAGTTAAGCAGAGGTATAAGTTTATATTCCTGTATCGATTTAAAACTTGTACAAAAAATATTATTGCTTATACTCGCCTCTCATAAATTTATAAGCACAAAGCCTTTGGGAGGGTAGTTTTTTGAAAAAAGAATCTAATAATAGAATTGAAAAACTTTTTAAACTTACATGCACTCAAATATACGACTCTGAGACAAAACGTTTTGATCTAGATAAAGCTATAAAAATTACAAGACAAGTAGAGGAAATGGCACCTACTGATGAGGAGTTATCATATGTCAGAAAATCTGATAAGTCTTCATTGCTGCATCTTGCAATATATGCGAAAAATGCTGCTTTAGTGGCATATTATGTCGACATAGGTGTTGATCAAAACAAAAAATCTGATGTCGGAGTTAAAGCTGTAAAGCTTGTAGAAATAATAGGGGGTATATATGAAGATATAAAAAATGCATTTTATGCAGCCGAAGAATATCTTATTAGTAATAAAGTATTTGAAGAATTTGAATCAGATGATGAAACAATTGATATTCAGTTTATGGGTGCTTTCGAAAGAGAAAATGATTCTTAAACATATTTGATCAATTAATTTTTGCAAGTCTTCTAGTATGTCTACCGCCTTCAAATTTTGTTTCGAGGAATTTTTCTACCATTTTTAGTGAAAGATCATCTGGAACAAGCTTGCTTCCTAAAACTAGGATATTTGCATCATTATGCATTCTTGCGCGTTCAGCCATATATTCAGAAGTGCATAAAGCGGCTCTTATAGATGAACTTCTATTTGCAGCAATAGACATACCTATTCCAGTTCCACATATTAAAATTCCTTTTGGAACGGTTTCTTCAATGATCTCTTCCGTCATTTTATAAGCAAAATCTGGATAATCTACACTTTCATCTCCATCCGAACCTAGGTCTAAAATATTAAGGTTTTTTTTCTGTAGAAATTTAATAATTTTTGCTTTTAGTTTGACCCCTGCGTGGTCTGTTGCAATTGCTAAATCATAATTTTGCATAAAAAAACCTTTATTATCTAAAAAAATACTGGCAGTTAGTATATAATCACGTTAACTTATCCAATAAAGAATTTATATAAAAATATTAAAGCGAAATGAGAAACTGTAGTTTTTTTATCCTCTTAGTCCTGATTTTAACATCATGTCAGTTTAAAAAAGAGCCTGCACCAATAGTCTATAATCATAAAAACTCAAGTTTGAGTAGTTCTGCAGAAACTATTCCGACACTCAGTAATGATGGAGAAATAATTTCTAGAGATATGATTGGAGAGAAACAATCAGAAATTATTGGACCGATGAATGATGATAATTATGTTGTTCCAGCCCAGAGTCCAATTGAACAAAATTATAAGATTATTTATCACGAAGTTCAGGTAGGTGAGACAATAGAAGAAATTGCTTTGAAGTATGAGCAAACAGTTGATGAGATAGCTCAGTTAAATTCCTTATTTCCACCATATTATCTAGATGAATTTCAAATTATTAAAATTAAGGTACTTAAAGAAGGTATTAAAAATAACGAGTCTGAGCCTAAAAAACATGTGTTGAAATCTAAAGGCCCAGACTTTGTTAATCCAGTTGATGGAAAAGTGCTGGTTAAATTTGGCGAAAAAACTCCTTATGGCGTAAATAAAGGAGTAAATATTGCAGCAAAAGAAGGAACGAAAATTATGGCTGCTGCAGGTGGTAAGGTGATATATGCTGACTATGATGCAACTTTTGGATATTTAGTTATAGTGAAAGTTGATGGCCAGAATATAGTTAATTCTTATGCTCATATGGAGGATTTGATAATTTCCAAGGGCAAAACAGTTAAGCAAGGTGATATAATTGGTTATGTTGGAAATACTGGGAAGGTTGATAAGTTCCAGCTTCACTTTGGCATCAGAGAAGGTAAGTCTGCAAAAGATCCTATGAAATTCATTAAATTCTAATATTATTAGATAGTTAAGATTTTAGTTGTATTATTTTTAAGTTGTATTTAATTAACAATGGGGGTGGTATGACTTATAAAAAAACTAAATATCAGAATGTTGATAATATCATAGGTGCTGAAAAAGCGGCGAAAAAATATTGTAAACTTGTAAAAGAATTGAGAGATTATCTTCTAATAGGTGGCGATCAGACAAGTGAACAAGTAGAAGAAATAAAAAATAGCATTTCAGAAGTAAAGGATAGTCTAGATTATTATAAAAAGAAAATAGATAGTGATGCTTGCGACAGAAAAATCAAAGATGGTGAGTATCTATATGGCAATCAAGTTGATTCAGGAAAGGTAGAAGAGCTTGAAATTGTTTGTGAAATGTTATTTCAATACTCTTCATGTGTTAATTCTGGTAAAACAGAAGAGTCCAAAATCATTTATAGTGTATTGTATCAGTATTTGTCGGGTGGGTATGATTTAGTATTATCTCGTTGTAATGATGAAACTCGACTAGTTGGAGATTTTGATCAAAGTGATGATTCTTTAGAATAGTTTAAGCTATTTTATTTAATTCACACTAGAATTCTAGAGCTGTTGGGTATATAAAGTTTTGGTTGTACAATAAAGTTGTAACTAATTAGAACATGGGAATAATAATGTACAAAAAAACAAAATATCAAGACGCTCAAAGTATTCGAAATGCAGAAAAGGCAGCTTCTGTATATTTCAAATTGGTCGAAGAGTTTAAAAATTATATCTTGTATAAGTATGATGGTAACTCTAATGATAAACTGAATAAAATGAGAACAGAAATTACTATAGCTCAAAAAAAAATTAACGAATGCAAAAAAAATATTGATCAAGATGCAAAGGATAAGAGCCTTAGTGAATACTCATATGGTAGGAAGATTGATTCAGGAAAAGTAGAAGAATACGATGATTTTTTAAGAAAACTTGATTCTTCTTATAAAAAATATGAAGTAATTGAAGTTGAAATTTATTTACCAGAATCTATCGAAGAAGTGTTTAGTAAGAAATATGATAAGAAATCAGATCTTTTGGGCGACTCTAATATGCAAATAAGTGTTGAAGAGACACCTGAATGAATAACAAATGTCGTAGAATGTATTTTGAGTTGCATTTAAAATGGAATATCTTCAAGACATTCGTCTGAAGCACATAGTTCTTGATAAAATTCTGGGTCAACATTTCCGCCTGTTATTAGGATTAATATTACCTTACCTTTCGAATTGTTTTTGAGCCATGAATGCGCAGCTGACATACTGATAGCTGCAGATGGTTCGCATGTAACTTTCATCATCTGGATAAGCCATGCGGTCCAATAGCGAATGGATTCTTCGTCTGCTAGATGAAATCCGTCTAGTTTTTTTAAATATGCTAGAGTTCTTTTCGATACTGAAAGTGAGCGCAGCCCATCAGCAATTGTTTCCGGTGAATCTTTAAAGCGAAATATATTTTCACTATTTAGCGATTGAAATGCGTCATTTGCCAGTTTCGGTTCAACTCCATGTAGTTCAGTTTTTGGAGATAGAAGCTCTTTTGCTAAGTAACTCCCGGCAAGTAGGCCTCCACCACCACATGGGCCAAAAATTGCGTCAGGTTTCAGCCCCATCTGCAGCATTTCCAGAAGTGCTTCATAACACATTGTACCGGCTCCTGCGATTGTTTCATCATCATCTGATGGGTGCAAATAGTGAAAATCTTTTGCTCCATCATTTTTGGCAGCTTCTTCAGCCTCTTCTCTGGTCTCTACTTCCACTACCTCAGCACCATAATAATCGGCGATACGCTTTTTTATAGGAGAAACATTTTTAGGGAGGTATACTCTTGCTTTAATTTCAAATAGCTTTGCAGCATATGACATTGCTAGTGCATGGTTTCCTGTGCTGTATGCGACTATTGCTTTGGGTAATTTATTTTGCTCTTTCAAGGCAAGTAGATGATTGAGTACCCCACGAATTTTAAATGCACCAGTTTTCTGCACTGCATCCATTTTAAAATAAATCTGGCTGTCTAACATTTTGTTTAGTACATTAGAGTGAAGTAGGGGAGTTTTATGTATATAAGATTCGATGCGGCTGTATGCTTTTGCCACTATCTCTGGAGTTTGTATCAATTGATTCATCTTAGTTATATACAATTTATCACAAGAAATGTTAACATAACAACGTAATGTCTTGAAATCATTTAAACAAGGCATTATATCTCTAGAAACAATATATAGAAAATTTATATAGGATTCCATAAAGTAATGACCGTTCAGAAAAAAACTTTACCACTACTGACTCTTCGTGATGTAATTATCTTTCCTGGTACTATTGCTCCGATATTTATTGGCCGTGAAAAGTCTCTAAATTCGTTGCTTGCAGCAAAAAAAATTGATGATGGTCAGCATATTCTTATTACAACGCAGAAGAAGCAAGATGTTGAAGATCCAAAAGCAAGTGATTTGTTTAGAGTAGGAGTGCTTGCTAAGATTATACAAACAGTAAAGTTGCCAAATAATAATGCAAAAATTTTGGTTGAAGCGACAAATCGTGTAAGGCTCACACACATAAATGGTGAGGACATGTTTATTTCGGACTTTGTCATTGTTCCAGATAAAGAAGTTACAGATCTTGATACGCTGAATGATACTACTATGGCAGCGATGGAATCATTTAAAGAATATGCAAGAAATAATAAAAAAATCAATTTAGAGATACTAAATATTTTAAGTGAACAAAAAAACCCAAGCTATATAACAAACATTATAGCTTCGCATTTAACCTCTAAAATTGAGGTTAAACAAGGTTTGCTTGAGCAGACAGATATCCAGAAACGTGCTGAACAATTAACAGAAATTATTACGACCGAAAGTACACAAATGGATACAGAGCAAAGTGTACAAGATCGTGTGAAGAAGCAGATTGAAAAGACTCAGAGAGATTTCTATCTTAATGAACAAATGAAAGCTATTCAGCAAGAAATGGATGGTGGAGATGAGAAATCTGATTTTTATGATCTTGAGCGTAAAATAAAACGTCTTAAGCTTTCAAAAGAAGCTCAGGAAAAGGCTGAAGGCGAGCTGAAAAAACTGAAAATGATGAACCAGATGTCTGCTGAATCTTCGGTTGTAAGAAACTACCTTGATACGCTTTTAGCGCTTCCGTGGGGCAAGAGAACAAAAACAAATATTGATATTAATAAGACTGAAGAAATACTTGATAGAGACCATTATGGTTTGAAAAAAGTAAAAGAAAGAATTGTTGAATATTTATCGGTTTTAAAAAGATCAAGAAAGATCAAGGGGCCTATACTATGTCTAATTGGTCCTCCAGGTGTTGGTAAAACTTCTCTAGTAAAATCAATAGCTGAAGCCATGGGGCGCAAATACGCAAAATTTGCTCTTGGTGGTGTTAGGGATGAGGCAGAAATTAGAGGTCACAGAAAAACATATCTTGGTTCCATGCCTGGTAAGATTATTAATTTAATCAAAAAGTCAAAAGTAGACAATCCTGTTATGCTCTTTGATGAAATAGATAAGATGAGTGCAGATTTTAGAGGTGATCCAGCTTCTGCATTGCTAGAGGTTTTAGACCCGGAACAAAATTCACATTTTGTCGATCATTACTTGGAAGTCGAGTATGATTTGTCTGATATAGTATTTATTGCAACTGCAAACTCTTATGATCTTCCAGCTGCTCTAATTGATAGAATGGAAATCATAAATATTGCTGGATATATTGAAGAGGAAAAACTTGAAATTGCTAAGAAACACTTGGTAACAAAACAGCTAAAATTGCATGGGATTAAAGCGTCAGAATTAAAAATTACTGATGAGACAATCCTAGAGTTAATTAGATATTATACAAAAGAGTCTGGTGTTCGTTCATTGGAACGTGAGATTGGAGCTCTTGCAAGGAAGGTACTTACAAAGATTCTAAAAAATAAGGATATTAAATCTCTTACTATAAATCCAAAGGATCTAGAAGAATATCTCGGTGTAAAGAAATATAGATTTGGTCTTGCTGAAGAAGAAGATCAGATTGGTACAACGACAGGGCTTGCTTATACTCAGGTTGGTGGTGATTTGCTCAGTATTGAAGCTGCTTCTTTTCCAGGCAAGGGAGGAATTAAAGCAACGGGTAAGCTTGGAGATGTTATGAAAGAATCTGCGGAAGCTGCTTATAGCTGCTTTTTGGCAAGAGCAAGCGATCTTGGTTTAAAAGAAAAAGACTATAAGGATTTTGATGTACACTTGCATGTTCCAGAAGGAGCAACTCCAAAAGATGGTCCATCAGCAGGTATTGCTATATATACGACACTAGTTTCATTAATGACAAAGATTCCTGTAAGTAAACATGTTGCAATGACTGGTGAGATTACGCTTCGAGGCAAAGTATTACCAATTGGTGGTTTAAAAGAAAAGATGCTAGCTGCTAAACGTGGAGGGATTAAAACAGTTATAATTCCAAAAGAAAACGTGAAAGATTTAAAAGACATTCCCGAAAATATCAAAGATAACCTTGAAGTTGTTCCAGTTTCAAACATAGAGGAAGTATTAGAACATGCTCTGGTTAAAAAAGGAAAAGCTTCTGCTACAAAAAAGAAATGATTTTATGTTAAGTTTATATAAGTATTTAGAAAAATATATATAGAATTTTGCAATAATAAAAGAGTAAGTCTATGATGAATAGAGCAAGGTTAGCTTTATATGCCATATACTTGCTCTTTAGTTTTATTTGTAAAAGAAAAAAATGATGAATTTTGATATAGATATAGTAATTGTTGTTGGGTTTTTGATTGCTACTTTATTAGTAGGCCTTATGAGAGGAGGTGCTGTAACTAATATTCAAGACTTTGCGCTTGGAGGACGTAATTTTAATACTGGTGCTTTAGTTTCTACAATAGTTGCAACTTGGATTAGTGGTAGTTTCTTATTTGTTAGCATTGAAAAAATTTATTCAGAAGGTATTACCCTTATAGCTGCATATTTAATGTTTCCATCAATTTTTCTTATAATGAATTATTTTTTCTTGCCTAAAATGCAAGAATTTATGGGAAAAATGTCCGTAGCTGACGCGATGGATGGGCTTTATGGTAAGCATGTGGGTATGATTACTGCGCTTACAGGTGCTATTAGCTGTCTTGGGATGGTAGCTGTGCAATTTAAAATTTTTGGGACACTTTTTGATTACTTTTTTAATTTTGGTAGTGATTATAGCCTAATTATTTGTAGTATAATTGTAATTGTTTACTCAACTTCTGGAGGTATAAAATCTGTTACAGTAACTGATATTATTCAATTTTTAACCTTTACTATATTTCTGCCAATAATACTTTTTTTGCTTTTAAGAGATGTTGATCTAAATAATGTATATGAGCAAGTAGGACATTCGCATTTCCTAGATTTTAACAAGCTCTTAGATTATACAGATGCTAAATTTTGGAGTTTTATAACATTGCTTTTTTACTTTACATTCCCTAATTTTCCGCCAGAGATTTTTCAAAGGATATTAATTGCAAAGAATATTAGGCAGATTAGATCTTCATTTAATTTATCATTTGTTTTTTGTTTATTAATAGTACTTGTTACAATAACAATGGTAATATTAATTTATTATTCAAATCCTAGTTTAGAAAATAATAAGATTTTTCATTACATTTTTGATAATTATCTTTTTGTTGGTGTTAAAGGACTTGCAATGATAGGTATTATTGCATTGATCATGTCGACTGCTGACTCAAATATAAATTCGTCTGCTGTTCTATTTACCAATCTCCACTATTCAATTACTCAATTTTCAGATAGAAAGGGACTTTTTTTTGCTAGATTGTATACTATAATTCTTGGTTTTATATCTCTGTATATAGCTTTAGTTGGAAAAGATTATTTAAATATTATTCTAACTACGGCGAGTTTCTATATGCCAGTAGTAAATATTCCTTTAATGTTTGCAATTCTTGGCTTTAGAACTTCGACAAAATCTGTATTAATCGGAATGGCGGCTGGTTTTTCAACATCGACTATATTTCTTTTTATTAATACATCACTTGATGCAATAATACCTGCAATGATTATGAATACTCTATTTTTGTTTGGGAGTCATTACTTGTTGAAGCAAAAAGGTGGATGGATAAAGCAAAAGGTTATAGTTGATAAGGAAGAAAAGATTGAAAATGAAACGCAAGTTTTTAGTTTGAAGAGATTTTTAATTGAACAACTTCCTAAAAATACAACTATCTATCATATATTTGGAATAGTAAGTTTAATATCATCTTTTGTATCAATGTATTCAATTTATGAATATAGTGATAATTTTCATAACTTTCTGGTATTTGCCTTATATATTTTTATGTTAGTTTTTAGCAGTTTCTTCCTTTTATACAGTTTGTGGCCTAGTGTTTTAAGAAGTACTCAATTTGTTATGGTAATTTGGTATTTCTCACTGACTTACATATTATCATTTTGTAGTATGTTTTTTGTGTTTTTGAGTGATTTTGCTAAACTACCTCTCGTTATATTGACTTTAAATACAACTTTGTTATTAATGCTTACAAGATGGGCAACTGCACTTTGTATGCTTTTTATAGGTGTAGTAGTAAGTTTATTAAGCTATAAATATTATGTTGAGCTTGATTCAATACTCGTATTTTTATCTAATGAAAGTTTTATAGTTGTTGTTGCTTTAGTTTTAGTTTCAACCTCAGTAATTTCACTTTTGAAACCTCAGGAAGAAGAGAGAGAATATAATAGAAAAAAAATTACAATCCTTGAAAAGGAAGTGACGCACTTGCATGAAAAGGTGGTGCATTATAATGAGCGTATAAGTGATCAGGAGAAGGAGATAGAGAGGCTGGGAGCGACTGCGCAGAAGATATTGAATAATGTGAATCATGAGCTACGTCTGCCGGTTGGTAATGTGATGAATTTTGCAGAGATGCTGGGCAAGGGTTTAGGTAAGTTCAGCGAAGATCAGCTAAAAACATTGTCAGATGAAGTGTATAAGAATTCGAACCGTCTATCTTCGATGATAATGAATATGCTGGATCTAGCGACGTTGAATGCGAAAAAGCTAGAGCTGGATAAAAAGGTGATAAATTTAGGAGAGCTAGTTGAAGATAGGGTGAATAATTGCCGCAGGATATATCTAGAAGATAAGAAGATAGATTTTGAGCTAAAGATCCACTCAGAAATATTTGTCTCGGTTGATCCAAACTATATGCGTCAGGTGGTGGATAATTTAGTCATAAATGCAATAAAGTTCAGCAGCGAAGGCGTAATTAGTGTTCAATTATTGAAGAATAAAGACAAGATAGAATTTACGATTAAAGATAATGGTATAGGCATTCCAAGGGAAGAGCTATACGATATATTCACGCCTTTTAAGATGGGATCTAATACCGAATCAAAAGCAGAAGGAAGGGGGGTAGGCCTAGCGCTATGCAAAGCCGCCATCGAAGCCCACGGTGGCGCTATAATA
>sequence28
AAAAATAATTCTTCTTGGGCTTGTGAAGAATAATCTTCTTTAATTTTTTTCTTGATTATTATTACGTATGCTCGCATTAGCAGACAAATTTTTATAACTTACGCATAAAAAAGCCTAGGCACTGTTAAAAGTGCCTAGGGCTAGTGTGAGTTTAACTGAAACTTTTTTATTATTAGTTAGGAAATTATCAAATAATTTCTAAGTAACCCAAACTCAAGTTAAAAAAGTTATTTAGAATCCACCCAAGAAATATTTCCATCTTTTCTGTAATAAACTACATTCACTCTTCCTGTTTTAGCATTCTCAAACATAAGAGCAGGCAAATTTTCTAGATCCATTTTCATAACTGCTTCTCCAACAGTTAGTGGCAAAACCTGAGTTGGCTTCTCCGCCACAATAGCAGGATTGTCTATATCAAACTCTTGCTCTTCTTCTCCTTTAGAAGAAATCACATATTTCACTGCATCGGGAGACAATTCAGAAGCCTTAACACCTCTATGATGGTTATTTAACTTTGACTTATATTTACGCATTTGCTTTTCAAGCTTACTAAGAGCAATATCAAATGCATTATAAACTTCGTCAGAAGAGTTATTGCTCTTTATCACAACATGTCTTCCTGTTCCTTCATGCAAAACTATATCACATTTAAATTCATGACCTTGTTTAGAAAAATGCACATGAGCACTTGGAGCATTTGAGAAATATTTACCTACAACCTCTTTTAATCTTCCATCTACATACCCATTTAATGATTGCCCTACTGACATATGTTGTCCTGATGTATCTACCTGCATTGTGTAACTCCTAAATAAATTTCAACTTATACGATACCATATAACTATTATATATTTATAATTAACTCAAGCACAGATTTATTTCTGCTTAAAAATATAATTTTTGATATATAGTTTTGACATAATTTACTAAGTATCTCTATTAAATAATTATATAATCCATTAGTAAGAAGAGTTTTATGCAATTTTTTGACATCTATGACTTACGTAGAATATTTTATTACTATTCATTTCTATTGCATCTCTTGCCATCTTTATAACTTTTTGAGGAGATAACTCAGCTTTATTACAAATATCTTTAAAATGCGAGGAATCACCAAAAAGCCAATTTTTAGCTTCTAGCTCAATCTTTTTTGAAGTTACTGTATTAGAAGTATTTGATACATCTATTATAGCCTGCGTAATAATTGCCTTATATAGCCTAACCTCTGGGGTTAAATCATATTCTTTTAACCTCTCAAATGGAGCTTGAAACTTTATTACATTATACTTATTCATACTATCCCTTTATTTATAATATTAAATCACACAACCCTTAAATAATTAAGGTATTTGTAATATTTGCAACTTCAGATTGTAAATATACACATTTTTTAATAATTAGTAAGTATTTTAACGAAAAAATTAACTAAAATGCAATTTCGACTAAAATATCAAAATGTTAGCCTTAGTATTATTATACTACTTTAATAAATTCAAACTTGTTTTCTTATGATATTTGTATATAGTAAAAAATAATTAATTTTTTTTAATAGCCTGGTAATGAAAAGTAAAAAAACACATAATAAAGTCCATAACTTTAAAATACCAAAACAACTTAAAAAATGCTTTGCTAATCTATCTGATTTTATAAATATTGAATTAGATAAAGCAGTTAAACTTAATAAAACACTACAAATATTAGTTGGCGAAAAACACTCTGGTATTGCAGAGCTAATTGCCAAGACTTTGGTTGCAATTGCTTGTACAAAAATTGGTTTAAGCAACTTTAATCTGGAAATTAATCAAAATACATTTAACGAAAAGCTTGATAAAGATAGATTTTTTAAATTCCTAGAAAGAATAGAAAGAATCTTTCAAGACACAAATATTAATTTAGTTGATGAGTATAGTGAAGAAAATCTTAATAAAGTATTCTCATACCCTAAAAACAAAAATTATAAAGCTGAAGAATATTATAAATTAATTGGAGAATTTCATAGCTTGAGAAATATAAAAATGACTAAAAACTCTGATTTAAAATTAAATAACGTATTCTTCATAGGCTTAGAACATGTAAAGGGAATAAATGAAATTTTATTAAATAAAGGCTGCTACACTGTTTGCATAAATGTTTCAGAAATTTTTACTATTGACTCCTTAAAAAAATTCTTGCTCAAAGTATCAGAAGAACTTTCAACAGAATTCGGTCGAAATATTTTATTAGATCAACGCTTTGCACCATCAACTTTTGAATATATAAAAAATGGGAAATGTAAAAATTTAAAGGTTGATTTAGATAAAAAAATTGTAGAAAATAAATATGATGAATTCTTATTAGACAAAATGTTTTTTGATAATAAAAATGAAGCATACAGTATTGAAACTATTGGTGATAACATGGCTCATGAAGAGTAAAAAAAATACAGCTTAAACTTATTTTGATAGAAATAACACCTTGTTTTCTAGACAAAGAAAATAAAAGCTAACCTCTAGATTTTTTTGCATTTCTAGAAGGCTTAGATTTTGTCGATTTAATTCTACTCGATTCTTTTGATAAAGAGTTTTTAGAATAAAAATATGACACTATTGTGATGCACGCAAAAGCTGAAAATGCAAATACAGCTGCAACAAAAATACTTCCTGCAATAACTAACATCAGAGCTGTTATGGAGATAAAGGCAACAAAAACTAATGAAAACACTCTACCAAGAGTAGTAGCTCTATTATGCTTTTCCATTGCCATCAAATCAATTGAATGTCTATGATTTTGCTCTCTTTCTGCCATATCTAGAAGCTTATCAAGTGTTCCAGGATTTAGCTCTTCATAATGCTCTAACATATCAATTGGAGGCAATACGTGCTGATATTTTTTTCTAACAACATTTGCATCACTTTGCGATGAATTTGATAATTTTTTATGCCCTTTATTAAGGCGATTATTATCAAAAAATTTCTTTCTTTCCTTCATGGTTATCTTTCAATCTTTCATATGATAGATATAAGTCTTTCTCAACTTTATCAATATACTCTTCAGGACAATCTGTATTTATATTATTTTTAATTGGAACTGAACCAAATCTAAATACACTTAAAAAACCCGAAAAAAATCTTTGAAACATTTTAATCTATCAAATATTAATTTTTAATTATTCTATGTTCCGGTATATCCGGCTCGCCTCTGAAATTTACTGTATTATTGAAAGAATAGCAACAAGTTCTAATTTTTTTATCGCAAGTTGGAGCTAAATAAAATTTGCTTATATCCTTAATATTTAAATTATGTACGTGTAATAACTCAATTTTATTAGCGTAATGACTCTTGATATCATACTCATATTGTCTATTATTACTCTCGACAAATAATTTCCCGCCTGAGAAATAGTTATTTTTATGTTTGCTAAGATCTGTACAAAAAAGACTATTTCCTTCAATTTTAACTACAGAAATTTCTGTCTTGAAATTATTTATATCTAACTTACAATCTTTATCACAAAAATTGGCTCTACATGTTTTACTAAAAACTGGTAATAATGATTGATTTAACTTTATAATTTCTGGTTCGCATACTAGCTTAAATTCCAACCCTTCTGAAATCTGCTTTGTACATATGTATGTTACGAGTTCATTTGCTTTACCGTACTCAAAAATTATAATTTTGATACTACTTCCAACTAGATCTTGGTCAGAAGTAACACCTCGCTCTTCAAAAACCCCATGCAATATTATTTTATTTTGAGAAGAATCATTAAACTCTCCAGAAAAAACTGAAAGACCTGAAAATGGAACATATACTTTATCATCATGATGTATATGTGAAGAAGAAGATGTAAAATAAAGCTCATCTCCATATTTCGACTTAATATGAAATAGATATATCAAACTATTTTTAATCATAAAACCTCCACCAGTCTAACATCATCAAGTGAAATAGTACCATCTTGATTAAAGCTATATTGAAAACTATCTTTATCAAACCTAACTGGCACGTCAAATTCAAAATTTACAAATAGTTCTGTATTTTCTGGTAATGCCTCTGACAACCTAATCTTTCCTGTTTTTAGATTAATTTCTTCAGGAACTATCTTATCTTCATCTGTAAATACAGAAACTGACTTATCTAATGGTTTAGTAATTTCTCTTATATACGGCGCCTTCGAGTCTTGGTATATTTTTACTAACTGAAACTCCTTAATAGCTCCATCACCCTTTCCTATTAGCTGTTTCTTTACTTTGTAGTCAAAATGATCTTTCAATCTAAAAGCATATCTCTTTCCACATCTTGCGTAAAAAAAACTGTTAAATATATCAAACTGAGTTCTGGATAAACGGCAATCTTTTAGTTGATAAGTTCTTTTAGGCCTCAAGCTAATAGCATTCCTGACTTCTCTACCAGATTTTGTTGATGCACAGATAGTAGAAAATTCTATTGTAGCTACTGCAAAAATCTCAATGTAGCTAGGTAAATTTACGTTATGAAAATCACTCATCTCTTGTCCTTTTAATTAAAGCTTTATAATTAATCAATAATTTGTTTAACACTAAATCCTTGGCCTTCTCAAAACTAATTTTATTTGCCTTCATACCAGCAACATTAAAATCTTTAAACAGTATCTCTGAACTATTTAGTGCACCAACCACATGATCTGCTAAGGATATAAGTAAGTTATGATGATGATCTTTTGCATAAGCCGAAATTTGAAACTCAACTGAGTATACTTGATTAACATGTAACGATACTTCTTCAGCTTTTTGTATGCTTATTAATAGAAACGGACATTTGCCATCTTGAACTGCACCAAAATATATTTTATTGACTGAATTACTAATTTCAGAATTATTGGATAAAATTTTATAAATTTGTTTCTGAAAATCACTGATAAATGTAATAGACATAGTTTCTTCTTACACCTCCAAAGCTATAATACTAAGCATTCTATCTTTCTCTTGATGATTAATAATACGCTTTATCTCAAAAGTTCTTTTATGAAATGATATACGCATTTCCTTGGTAATATCTTTTATATACCTGGTTCTGAAATGGAAATATTCCTCAGTAATCACATCCCCAAAAGCAATCCCTTCCATAGAAATATATTTATTATCACAAACAGGCTGGACTTCTGCAAAACAGACTGCAAACTCTTCCCATTTCACTTCATCTAATTCAGTCTCAGCTGTATTTTTAAGCACAGAGATTTTATGAGCAAATCTTGAAACAATACTTTGCTTTTTCATATTTAATAATCTAATAATTTTATATTTTGAATGCTCTATATGGTAGATATAAATTCCTAACTTCATCTACAGGATCTAAGGAATTCTCATTTAACTCATACATTGCAGCAACATGTTTTAATATTCCCATCTTAATTGCTTGAGGAATTTTCTCACCGTAGCCACAACAAAACTTAATAATCATATCCTGATCAATATATATTGGATTAATTTCAATGTATGATTCACCTAAATTGCTTTCATCAAAAGAATCCGTAATATCTTCTGCCTTATCTTTAACTATTTTTTCTGCTGATATGAGTTTATTAAATGGAGTATATTTGATATTAATTCTTCTCTTTGACCGAAACACTGAGCATTGAATTTTTCTAACATTGATAAACTTACCAATAAAATTTTCGGCATATTCAGTTGCAGCTAGAATCAATTCTTTTACTAAAGAATCATCGTAATCATGCGAGATTCGAAGGAAATTCTTTACTTCTTTTAATTTCAAAATAGCTTTGCTTTCCTTCTCTAAAATTTGATATTTCAACTTCATAGTTCTTACCTACAATATATTCTTAGGTGACCACTTTAGTGATCACCTAAGTTACTAAAATTTATTCAGTAAATTTAGCTAGTTTAACAGCAGATGGATTCACTACATCTCCACCAACTCTCTTAACTGCATAAAACTTTACGAAAGGCTTTTCTGTGTATGGATCTCTCATAAGGTTAATTCCAGTTCTATCAACAATCTTATATGCTGACTTAAAATCACCTAATGCAATAGCCAATTTATCCGTTTCAACATCAGGCATGTGCGAGCTTATAACAACTGGAATACCGAAGATAGTCTGTTGCAATGGATTTGCAAGTGACTGATTCCATATAAATCTACCTTCTTCATCCTTCAACCCCTGTATTAACGATAAAGTTTTTCTATTCATAATGAATGACGCATTTGCGATATATCCTTCATCCAAACTATTGATTAACTTCATTAACATTTCAACATTCACTGCACTACCAGCATCAATCTTTTCAATCTTAGCATTTAATAGAAAACCATTAGGCTTATTTGTTCCGTCACCAGCAACAAAAGCTTCATTCTCAAGTTTTATAAAACTATCTGCAATTCTCTCTGAAAGCCAATTTTCAATATTTACTTCTGAATCATCTATCAAGCTCTGTGTTGCCTTTGGCTGAGCATAAATTTCATGAGCATGTATTGATTTTTTCTTTAGTTTTGGAGTATCTGTTATACCTCTTGCACCAGTCTCAGCAACCCAACCTGCAGCAAAATTTCCATCTTCATAGATCACATCCAATGATCTTGTAGATATATTTTCAACAGATGCAACTTGTCTCATTACTGATCTTTGGTTCACCATTGCAATAATTTGTTTGCTTAGAGTTGGAGTGATTACTACTCCTGCCTCGCCCTCATCACCACTTAGTGACTTTGTAATCAAATTATCCTGAACTCCTTTTCTAATATAATCACAAAAAGAACTTTGCTCTTCTGTGTTATCTATATTCATCATTTCTGGTCTTGATATATAATTTTGCATTTTATTAATTCTCTCCTCTAATTTGTTTATTTTTTCTGATTTTTTTGACTCGCGTGATATAAAACTTTTAATATCACTTGCCATTTCATTAATTTTATTTTCCTGCATAATACCTCTAATATTCTTTTAATTTTTTGACTAGTTTTGATAGCTCATCAAGAGTTGAACTATTTTCATATTCTGATAATGATTTGTTTTTGACATGAGTAATTTCTGCTTGTTTATTTGCTGGGAAAGTAACCACACTAATCTCAGCTAAATTTACATCATCTATGACTCGCATTCCTTTTTCATTGTAACTTGAAGAATTTATCGAGAATCCGATACTTAGACCACAAATAGCTTTTTGCTTTATTAGTTCTGACGCCTCTCTACCAACTTCAATTTTATTATTTATTTCAGCTTCAAATTTTAGACCGTACTCATCTTCACAGAGTGATTTTATTAATCCAATTGGTCTATTCGGATCATGCTGCCATAACAGCTTGACATTACGAATTTCTATAGACCTAAAAGCCCCTTTTACAATTACATCATTCTGACTATCAAGAATTCCAAAAACACTAGCATATCCTGAAATGACAGTATTACTTGCCCTTGAAGACTTGATAATTAAATCAGAACAAAAACAACCTTTTTCCAAAAAAACCTCCTTTGTTTTAAATTGATTCCAATAGCTATACTCTAATGTTTTGTGAGCACTAAGAACCTACAAACAATATTTTTAATATTACTGTTACTTAAAACCTCTATAACTCTTGTCTAAACGGGAAAACTCTTGTAAAAACAAATTATTAACGAAAGGCAAAATATAAGAATAAAAATGATTTTCTTTGGTTGGTTACTTGTTATATTCGGATTATTTTTCATCATATCTGGAATAATAGCACTGTTTAGATTTCCAGATTTTTATACAAAACTCCACGCCGCAAGTGTTATTGAGTGCTGCGGCGGACCACTGTGCTTTATTGGACTTGCTCTATTGCAAAGCGAACTTACTAGCTCATTAAAACTATTATTCATTGCAGCATTGGTTTTTATACTCAATCCTATATCAACTCATGCTCTTGGTAGAGCCTCCTTACTATACAAAGTTGATGAAAATGGGAGGATTAAGTAAATGGATGATTTCTTCTTAATTCCAATAAAGTCAGAGTTTTATATCAACGAAATATTACTTTGTATTTCTGCTATAATTATGATTATTACTTGTTTAAAACTAATTACAAGTAAGAACTTAGTTGAATCAATAATCATAATGTCAGTATTTAGCTTATTTATAGGAATTTGCTATCTGTTTATGGATGCACCAGATGTTGCAATGACTGAAACTGCGCTGGGAGCATGCTTATCAACATGTGTACTATTAAATCTAGTAAAAATTGTTGGGGAAGATGTAGGAAGAACCCGCAAGTCTAAGGTAATTTTTGCTTCTATATTATGCACTACCTTAATAATTTGCCTAAGCTGGGCGGCGCTTGACCTGCCAGAATTTGGTGCTGGAGATTCTCCTCTACAAAATCACCTAACAAAATACTATGTTGAAAACACACACAAAGAAATTGCTATACCTTCAATAGTAGCTGCTATATTAGCAAGTTATCGTGGCTTTGATACTTTTGGTGAAACGGCAGTAATACTTATTGCAGGGCTTGCAGTTCTTGTTATTACTTCACGGAGGAAAAAGACTAATGCTTAAAGAGTTTAACATTATAAAAATCATTCTTCCATTTATTGTTCCATACATAATATTGTATGCAATTTATATCCAACTAAATGGAGAAGTATCCCCAGGAGGTGGTTTCCAGGCAGGCGTAATTTTTGCAACTGGTATAATTGCTTATGATTTAGTATTTGGGCAAGAAGCACTTAAAAAACGCTTCTCAATAAAGGGTTTAACAATATGTGGAATCCTAGGAGTTTTTATCTATGCAGGAACAGGAGTTATAGCACTAATTAGAGGCGCTGAATTTCTAAATTACAGTGCATTACTCAAAGATGATATTGCGGGTCAACATCTTGGAATCTTTATGATTGAAATTGGTGTTGGATTAACAGTTTCTTCTATTATGTGTTTAATATATTCACTATTAAGAGAGGAACAATAATTATGCATAATTTAATATATTTCTTTGCTGTGATTGTATTGACAAGCGGACTCTTTATCATGCTTACAAGTGATAATTTTATAAGAAAAATAATTGGCCTAGCCGTATTTCAAAGCTCGGTACTGATTTTTTATATAGCTCTTGGAAAAGCTGCAAACGGAATTGTACCTATTGATCTTTGTCAATCATCACAGGGCTGTGATTATATATATTCAAGTCCATTGCCACATGTTTTAATGCTAACTGCAATAGTGGTGGGTTTTGCAACAATGTCTGTTGGACTTGCGCTAATTTATCAAATACGCAAAGAATACGGCACAATTTTAGAAAGCGAGATTGATAATATTAAAGAGGATATGGATTGATGATAAGCATTATTAAATTTGCTCCAGCCTTACAAATTGTTATACCGCTTTTTGCAGCCTTGATATCTGCACTGAGCTTTCACAGATTTTTTTCATGGATTGTTGCTGTAACGAGCACTACAACATGTTTATTACTTTCTTTATATTGCATGCAAAATATAAATGGCGGATTAACATATAGCTTTGGTGGTTGGGATGCTCCAGTTGGTATTGAGTATAAACTAGACTATCTCAATCAACCTATTATCGTTCTTTTGAATGCCATTTTATTCTTCTTCCTAGTATTTGGTAGAGAATTAGTTAATAAAACAGTTACTGCATATATCGAAACTAGAAAACAACATCTTTTTTATGCATTACTACTTTTTGCACATGTTGGATATCTAGGAGTAATTTGTACGAACGATTTGTTTAATATTTACGTATTCATTGAAATTTCTTCTCTTGCCACTTACGTACTAATGTCAAAAGGAAAAAATCCAAGGGCATTAATTGGAGCATTTGACTACCTTATACTCGGAACGATTGGAGCAACCTTAATCTTAATAGGAATAGGATTTTTCTTAGCTATGACTGGAAGTTTAAATATAACTGATGTTGCAAAAATACTCGAAGGTAATTATTCTTCAAGAGTAGTCGTAACAGCAATTGTTTTTTTCTTAAGTGGTGCAATACTTAAAATGGCTTTCTTCCCAATGCATTTCTGGATGGTGAGAGCATATTCATCAGCATCACCCTTTATACTTACGTATTTGGCGTCAATTTCCAGCTTAATGGGAGTTTATATAATTTTAAGGTTTATACACTTCACAATTGATGGCGAAGTAATTCACGAAGCGCTGACTTCTATACTAAGACCAGCTTCTATGGCTACAATAGTAATTTGCACTATACTTGCGCTCAGGGCCGATACAATAAAAAAGATTGTAATCTACTCTACTGCATCGCAAATTGGCTATATATTTCTTTTAATGTCAATTTGGTCAGCACGTGAGCTTTTATTCCAACTTCTAATTCTTGATGCAATAAATAAAATATCGTTATTTACTATAATTGCCCATATTCAACACAAAACAGATGATTTAAAATTTGCATCGTTCAAATCAATAAAGAATAGCATATGCTTTAAGATCCTAGTTGCAGCTGCACTGATATTTAGTGCTGGGCTTCCTCTAACTAGTATGTTTGTTGTTAAAGTGAAAATGTTTGATTTATTATTTTCACAAAATTTATATTTAGAGTTTGTTATTGTAATACTTGGCGCAGTCTTTGGTCTTCTGTATCATTTAAAATTTACTAAAGCAATTTTCTTTAGTCCAAAATCTAATGGCACTATCGAGATAAATACAAAACTCTATGGACTGACAACTATTATTATCTTTCAGATGGTAACTATTATTTATGTGAAGGATATAGCGAATCTTGCTGGATATACTGAATCAGTTATAATTGGAATATAATTAAAACGGGATATAAGTTTAATGATTGACTTTGTAGCACCACAACTATTAGTAATTTCTACTTTGCTTATTGGCTTAGTCAATTTAATTACGCCTTTTGCTACTAAAGAAGACAGTAAAATTCGCAGCACTTTCTTACTTATCGTAAGCGTATCATTCTTAGCTAATGTTTTATTACTTGATTATCTTTTCTTGAGCGGCATTCAAACAAGTTTTATGCTACTTGACTTTGGAAAATATAATATAGCTCTGCACCTAGAGCCATTGGGTATGATATTTCTTACACTGCTTGCAATATTATGGATATGCGCTTTGCTTTATACTATAAAATTCCTTGATATCAATGAAATGAAAAACAGTAATAGATTTTTGTTTTTTGTTAATTGCTGTGTAATGATTGGTAGTTTTATTGCTCTGTCTGCCAACCTATTTACAATGTTTATAGGCTACGAAGTTTTAACATTATGTACCATACCATTGATTGCTCATTATAATAACGAAAAAGTATCAAAGGGTCTTACTAAATATCTTAAAATTCTAATGCTATCTGGCCTTGTTCTATTTTTGCCAGCAATAATAATAGTATATTCGACGATCGGTCACGGAAACTTCACTTCAGGTGGTTTTGTTCAAGGTCATTTCTCGGATATGCATGCAATTATTTTACTATTATTATTTATTTTTGGTATTGCCAAGGCGGCAATGTATCCATTCCATAGTTGGCTTCCGTCTGCGATGGTAGCATCTTATCCTGTAAGCGCCCTATTGCACGCAGTAGTTGTAGTGAAAACAGGTTTATTTTGTATTTATAAAATTCTTTCATATGTATTTGGACTTAGCTATCTACAGATTTTATTTGCCGACTATAATTGGCTAGTTATTCTGCCGATTATTACAATCGTATACAGCTCGCTGCAAGCAATACGATTTACTCAAGTAAAAATGGTACTAGCTTATTCAACAATAAATCAATTAAGTATTGCACTGCTTAGCGCATTCCTCCTTACCCCCAAAGGTTTGATTGCTGCAGTTATGCATATGATTTCACATTCATTTACAAAAATATGTATTTTCTATGCAGCAGGAAATATCTACAGCGTTAAAAATGCATATCATATAGGAGAATTAATCGGCATTAGACGCACTATGCCTAAAACCAGTTTTGTAATGCTAATAGCTGGATTATCCTTGATGGGAATCCCCCCTTTTGCAGGATTTATTAGCAAATTCTATATTATGCTAGCAGCTGCAGAAGTTGGCAACCTTCTTGTAATGATTACTCTTGGAATAAGTACATTATTCTCAGCTATATATGTAATCAAGATGCTAATATTCATATATAGACCAACTTCAGATAATTTCATACTACATTTAAAACTAAAACCTTATTTTGATGAAGCTCCGAATAGTAAAGCATCTAAAAGAGTTGTCAGTGGAAAACATACCGCAGAAAATAGACTACCTATATTTATGATACTAAGTATAGCTTTATGCTTAACCGGAGTAATTGCATTTTTACCGATACAACAAGCAATTACTAAATTTTTGATGTTTATATAAGAGAATAATAATTAATATGCTATATCATCCAACTACTATCATTCTAACATCAGTAATTGCATTGATTATTTCTTTTCAACATAATCGAGTTTTTAATATTATTGCTTTGTTACTCCCACTAGTATCAGCTGTAATCTTCTTTAACTTTGCTGAAAATAATTCCTTAGAAATCGTGAATCTAACTTTATCTTTTGGTTTTAGCAACTACGATACACTAATTAGTATATCATTTTTCTGTGTTTTATTTGCAGCTAATTCATATGCAATTGGTCAAAATAAAAAATTAGAAGTGATACTTGGTTCTTGCTACGGAGCTTTTGCCTTTATGAGTTTATTTGCAAAAGACTTTATATCAATGTTTATAGGTTTAGAGCTAATGATGGTATTTTCCTCCGCTATTATTTTTATTGGAGGTAATAAAGCGTCATTACGATCATCAAAAAAATATTTTATTACTCACTTAATGAGCAGTAATATGATTATTATTGGTATTACATATCTTATTACTAAAAACAACGAACTTACTATTGTACCTGTAACTACATTCCTAAATGATCCAAATTACTCTTCTATAATGTTGTATATAATGCTAATTGGCATGCTTATAAATATTGCAGCATTTCCATTTTCTGGATGGATGGTAAAATATTATCCAAAGGCTTCACCATCTGGATTTTTATACCTAATATCATTTACGACTAAAGTCTCTGTTATTCTTCTCGCAAAAATATTTTTAGGACTAGAAGAAATGAAATATGTCGCAGTAATTATGATCGTATACTCATCTTTTAAAGCAATGATGGAAGAAAATATACTCAGTCTGTTGTGTTATCTTTCTATTATGGCAATGGGCTTGATGCTTCTTGGAATTAGTGTTGGAACAGAAGAAGCAATACTAGCAACAACTTGCTATCTATTTATACATATAATATATAAATCACTACTTAGTATATCGGCAGCGATTCTAGTTGATGAAGGAGGAATTAATAACTGCCAAGACATAAAAAAGATTAATAATAAAATTTTATTGCTAGGTATAGTAGTGGGAATTTTAATGATGATAAATATCCCTCTTTCTTCTTCATTTACTGTTAAATCTGCACTATCTCAACTCTTTTATAATAGTTTAACATATGCAGCTATTATATTCTTAAGCTTTATGACTGTGTTTATTTTGCCGTGGAAAAAATATTTTCGTGCATCAAAATCGACAGAAATAACTCTAAATATATATTCTAAAATCAGTATAATATTTATGACTTTAATTCTTATAGTCATTGCTATATCTGGAAAACTAATACCTGTTCTAAATGAAATTAGTGGATTCGACAAACTAGAGATATTTAACTTTGATATATTCAAACAATTAATTATTATCTTGTCGGCATTGTTTACAGCATACCTATATATGACAAGCAGAAAAGATACTAAGCCAATAAACTTTACTGAATGGCTTGGTAATTTATTCTTTGACGTATATGCAAATTGGATGAATATCAGAGTCCAGAAAGATGAAAATGGAGAACCTTGGGCGTTTGAAAATCTTGAAAAGCAAACAGCAAATAAGCTTGGATCAATTCATAACCAACAAAATGCTATATTTATAGTTTTTACTATATTTATTGTTATGTTATTGGTGCTTACAACAAGTATCTAAATTTTCAAGTTAAGCATAAAGCTTGTAATAAATACTCTCTAAATGTGAAATTGATACGACTATATGATCTTAAAAAAATTATTTTATTATAATAATTCTTCAAAATTATTAAATGATTTTATTGATTTATGACGTAGTAATATCACTCCAATAGAATATAGTGGATTTAAATTCATCATAAACTCATTCCATAATTCTTGATCCGATGATTTTGAACCAGTATCTTTTCTTACCGCTTCAAAAATTTCGAAAAAAGACTTATTACCTTTTTCCAATTGAGTAAAAAAAGATTTTGTATGTGGAAGAATAGCTAGCTTAGTATGCATTTCTCTATTGTGTGCATCTGTATATTTATACTCTACATACCTATTCAGCATATGATCTCCTCCTTTTTCAATGGCGTTTATTATGTCTTTACATAAATTAGGAGAATTAAAAACAAATGGAATATTATCAAAATCATTAAAGTTGGCGGTAGTATTCTTTTTCTTAGACACATAGATATCATGTTTTATAATGTTACCAGCCATTAATTCACATATAGCTTGCTGCTCTCTTAAAGGTAGTTTTTTTATTCTTTCTTTTGTAGCCGAATCCTTAAAATAACTTTCTATATTTAATACCGCTCTAATATATGGATCGTGAAAACAAGTAATATTTAATCCTGCATTTTCAACAAATTCATAAAGTTGTGGAATAGTGTAAGCTCTATCTTGTTTATGCAAAAAAAGATCGTAGAGTCCAATATCACCAAATATTTTATGATCATTAACTAACTCCTCTCCTCTCACAAACCAATTTGTTTTGGGAAGGCTATTTATTACATCCCAAGCACTGCTAACTTCTTCTTGACGATTCTTAATTCCTTTACCAGTTTTACGCAGTAATTCTTGCACTTGATAAACACCAGTTCCTCCATATTGGCCATAAACCATTATTGATCCACCGCCATTTTCTTTCAAAGCGTCATAAAGAATTTTGATACCAAGATCAGGATTCTCAAGATGATGCAGGACACCACTACAATTAAAATAATCAAATTTTCCTAGATTTAGAGATGGTATGTTTAATATGCTATCTTCAATCCACGTAATATTATTTATACCGTGATTTTCAGCTCTTTTTTTAGCAATATCCATACTAGTCTTGCTGAAATCTATATATACAATTTCAGATTTAGGGTAATCCATTAACTGTTTTGCTAACCAGATAGTTGAATCTCCAGTTCCTCCTCCAGCTATAAGAACACGAAATCCTTTTTTAAAATTCTGTTTTCCATTATAAAGATAGTGATTAATACTGCTCAGATAACCTTCTAATGTTCGAATAACACGCTTCTTTTCATCTTCAGGATCACGCAAAGGATATGGATAATCTAAATATTGCTCTTGAACTTGTTTTAAATCTTTTTTAAACCTTGAATCCTTAGACATCATCTATCTGTATTTAGTTAAAGTGCTAGATGATAATAAATAAATTTAAATTTGTCTATCAAAACCCTATAAACTTTCTGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGAACTTAGCAAGATAATGTCTGATGAGAGAGTTT
>sequence29
CTGATATTTCTTTGATTAGGTCTATTGCCTGAGAGCAATCTGCTGCTGTACCTTGTGTAATAATAACCCAGACTGGTATACCATACAAATCCACGGCCAGATATAGCTTTGTGCTGAGCGCCCTTTTTGTGCGCTCATATACTGTTACCGCCTAAAGCTTCTACTGCATGAGGATATACCTTGCAATACCGTTGCGTTAATCATTAATCATTCGTAATCAGGGGCATCGATCAAAATTTCCATAAACTTTTTCCACATCCTTTTATCTCTCAGTCAAATAAATCTACGATGCACATTATTCCAATTTCCATAATCTGGTAGTAGGACAAGCCATGAAGCGACAATACGCAATATCCAGAATACTGCATTTTATAGTAACTACTTCCCAACTTCCTTTGCTACCAGGCAAGTGAGGCGATGTAATTATGGATAACTATAAAATAAGATAACTTTATATAATATGGACTAGAAATTATTAAGCTCTAAAACAATGACATTGCAACACCTGATACAAAGAAAATGATAACAGTACGCATCTCATGAATCTGTCGAAAACGGTCAACTACCGCCCACCATTTATAAGCATTATGAATCAAGCATTTGAAGTCTATCATACATTTTCTCAAGCAAGAGAATAAATTAAAAAGTTCTACATATGTTCTACACTGCAAATGCATTTTTAGAATATAAAAGCACTTATATGAATAGTAGATTCTGCAAGTATAAGATACCTTTTCAATCAAGCTCTAAGCCAAGCTGCATTTGAACCTCAGCTCTTTCGTTATAAATATATCGATGATCCAATCCATGCATTATTGCTAAATCAAACGACTCCAGAGCCTCTTCTAGCCTACCTAGAGCCCTAAGGCACTGACCTCTATGATAAAATGACTCTCTAATTATCATTTCCTTGAATCTTTTTTCCTGGTGGTGATATTTTATTGCTTTATTAAATGACTTTATAGCTTCTTCGTAACCATTCTTACTACGCATCAAAGCCCAAGCCTTTTCTAAATGCGCCATAGGATGCTGTGGCTCAAGAGCAAGCAATTCATCTGCTGCTGATACTATCTTTTTCCACTTTAACCTCTCAAGAGAAGCATAACTAAGTTTTTTTTCTAGCTCCCTAATTTTTACTGAATATGGATCTTTCGGTAGTTGCTCATTATATTTCTTGGTAACTCGTTCTAAATCAGCATGAACCTGTGGATTGTCATAACCGTATATTATTGCTGAATTATACTTGATTATTGCAAATTCTAAATCACCTAATTGCTCTAAGCATTTCGCTCTATAGTATGATGCTTGTGCAGATATGATACCACTAAACTCATGCTGGTAATTATATCTTATAGACGTATCAAAAAAGGTATAAACCATCTTTAATGGCTTCAGCGCTTCATTATATTTTCCCAACTCAATTAGCGCCTTACCTTTTTCTAAGTTTGCAATAGGATGGTCTGGCATAATACTTAGTAATTTGTCTGAAGATTCAATAATTGACTTCCAATCTGAGCTAGATACCTCTAATCGCAGTTCTTTTTCTAGTTTTTTGATATCATCTTTCTTATTAGCCATTACAGGCATAGATAGACTCAAAAACAAAAGTAAGGAAAGAGCAAATCTCATAATAAATCCATTTATAATATTTGGAGGTTGCTATACACAATATAACTAAAGAGCTAAGTGTTCAATCTTTGATTTAATAAAACTTAGTGGATAAGAAATAGTTGATATTATCTTTAAAAAAATAAAAGAAAGTACAAATCATGACAAAACCACTAAAAGAAGAAATGGCCGAAATAATAAGAGATACAACTCATAATCTAATAGTTACTGAGGAATCGGAGCTTGATAACGAGATATATTTTGACCGTTTGAAATATTTTATTGGTATGTTAGAAGGTTATAGAAAAGATGTTTATTTGAATGGTATACCTAACCCAAGAAATAGAGCAAAATACATATCAGTAAGGCATTTTAATAGTTTTAATAAAAAGAGACAAGGTAAAATGATAGCTGACTGTATAAAAGACTACAAAAGGGAGCCGATTGTTACAGTAGGGATTGGGGCTAACCTTGAAATCAGAGGGATACTTGACAGATTTGATCAAATACTAGGAGAGCCTGGTTTAATGCAATTGGTTTATAATGGAAAAGCGAATCTTACAGATGAGCAAGTTGCTATAATATTTAGAGATTGTATTGAAGAACGTTTTTATAGATTGCGTAACATATATAAATCCAGTTGGAATAATTTAAGAGTAAATGAGCAAATAACAATTATAAGCTTATATTTTAATCTCCCAGCTCTTGCTGATGGACGTACAAGTTTTTACAAACACATCACAAATTACGTAGAAACTGGCGATGTACGATATCTCAAGCTAGCTGTCCACGAAGTAGAAAAAAGATCTAACCCAGATAAAACCAAAGGAATCCAAAATAGGCGCGATGTAGAAGGTGCATTACTTGTCTCATATAAATCTCCTACTTATACAAAACCTTATGAATCACCTGATTCTGTGAAAATAAAAACTGCTGAGCTTAACAAAACAATAGTTCCATTAAATAATGATTATCCCGTCACTGGAATAAATTCAGATTACTTCATATGGCGGACAAAAATGGATAACAACGTTAGAGCAGAACATGCTAAAAAGGAAGGAAAGATCTACAGAAAAGATAACCGACCAGGCAAGCTACCTGGCGAAGATTATAATTGCAGGTGTAGTGCAGAAGAAGTTCCTGATTATATTGTTATAAAAGATACGGCAACTATAAACAAGGCTTTTGAGTTATATATGCGCACTGGGATAAGACATTCTATTCTATTGCGTACTGTCACTGCTACTTGAATCATTATCACCACTAAGCATAACCTCTTCTACTTCGCCTGTATCGATAGCATCCGCCACTAGATCAATTATTTCAAAAGCTCCTCCGCTATATAGCTTATGCTTAACACTGACTGTTTTGTCATAATCCACATTTAAACCAATATTTATAATATTATAACCTTCTGGAATTGGTTTTGCGTAACCTCTTTTATCAATCTGCGCAACAGCTTCACTTGAATCCCCTTCATATTTAAGTTCAATTATTATTGCTTTCTTGCTTTTATCATTGATAACTAAGCAATCTGTTCTGCCATCACCTACATAGACCTCTGTACCAAATTGAGTTGCTGAGAGAACTTGCATTGCTGCGTGAGATACTATGCCTTGTATTAAGCTTTCATTTGCATGTAAAACATCCTCTGAACCTACTGGATCTATTTTACCTCTATCCAATTTAACAAAACCTGGTAATTTTTCTAGAAGTGTACTTAAAGTTTTTCTAATACCTCCCATTACTAATGCATATTCGCTATCTTTTTCTGCATCAAAGACCAATTGTATTTGATCTGTTAATTTTCTAAAGAAAGCAGTATCTATTTTGTATGTAGCTTTATAATGAGTTAGTAATCTCTTCGTAAATTCATCTCTTGCTTCTTTATTCGGCGCTCTATAATACCCTTCTTTTCCACTTGGCGTTAAATATCCAGACGCAAATAAATATGAAAATAATATATCTTGACCATAAGGAGTAATCTCGTAACTTGATGAGTGACCTAGCATTTCCCGAAGCATCATAAAATTACTAACTGAAATCTGTTTATTTAAATCAAATTCTATTTTACCTCCTTCTGATAATTTCCTAAAGGCGCCTTCAACATTCTGATGTTTGAACAAAGGGGATACAAAACCAAGATTGCCTGATTCTTGCCAGTAATTTTGTAAGACTAATGCGCGTATTTGAGACATATCGACAACCTGCCGATAAGTATCAAAAGTCTCTAAAGCTTTTATTACTGACCACGGATTATATATTAGTTGTCCGAGAACATCATAACCATTATACCAATCTTTTAAGCCATCGGCTAATTCTGTAGGAACATCAAACCTTATCATTAACTCATCCACATCTTCTTGAGTAAAACCTTAAAGACCTGCAAATTTTTTATCACTTATACTAAATTCTCCAGGATTATTAAGTCCTGAAAAAATATTAGCTTTAGCTATTCTTAAAATTCCTGTTACTAATGCCTTATCTAAATAAATATTACCTTTAAGAAGAGTCCCAAGTATTTCTCTATGTAATTCTATAATTTTATCTGCTTCATTAAGATTTACATTAAGATTTCTATATGCTTTATTTACACCTGTATCATACTCATCTATTAAGACTATCGGTTTAATGCCAAAGTGAGCGTGAAGGAATTCACATAAGTCACTCATAATATAAGGCAATTCATCTTCTAAAACATCGCCGCTTTCAAGAAATTTAATGAATCTTTGAAATTTAAACTTATATTTTAAATTATCCCAATTAACTCTGTCACTAGAAGCTAAATATGTGTGTTTAGCTGCAGCGCTATGTATAACTTGTTTTACTTTAGTTAAAGATTTTTCATATGAATTACCAGATACCCCTTGAAAATCAGCACTAATAACAGGTATAGTTCCTTGCAAACGCATTATATCTGGATATGCAGATACTTTTAGAGGCTCAAGGAGCCTAGAAGCACCATCAATTCCTACTGATTCACCACCTGTAAATAAAACAGGATTTTTTCTTTCTTCAAATGGAAGAGGTTCTCCTGCTTCATCTACTTCAATATCATAAAAATGCTCTACAGTGCTTAAATTAGTTGATTTTTGAAATCTTCTTGGAAATGTATTTACACATACTTTATAACCACTATTTTCAAAAGCAGCAATAAATCCTGTCTTATCTACATAATCATCACCAAATCTTAACTCTCTAAAATCACTGCTACCAATAGTAAATTTAAAAGCTTTAGGCTTCTCCGGTTCCTTTGATGTGTCTAGACCATCTTCACTATCTACTATAACATCTTCTTTTTTCCATTTTTTAGAGCTCGTATGATAGTTTCTTATTTGAAAACTTAGCGGAAATTTTGTAAGCGTCGTTTCAATATGAGAATGTAACCAATATCTTTTTATTGAATATGTTTCTACATGCCTACGGTCACTAACTCTTTTTTCAGCCAATTCAACATATTTATCAGATTCAGTATTAGAGTCTTTAATTTCAAACCTATCACTTATTTTGGGATCTAGGTTCCAAAATACGGAAGCAAATTTAAATATTCCATCAACAGGTGCAAACTTATTCCAAGCTGATTTTACAGCATAGTCTAATTTATCTGATACATCTTTGTTCTTCAAAAGCCCCCAAACCTTCCGTCTCATATCCTTATCCTCGCTAGTTATAATATATTCAACTACCTTTCCCAGAATATAAAATTAGAAATATCTCAAGATGAGAGAAATTTAATCAAGACATAGATCAACTTATATTTATTAATTTATAGCAATAATTTATTATTGTATAGCTTAATTTACAATAGAATTTTATTAAGCAAATTTATAGTACAAACATAATTGAAATGTGCATTAAATTACTGCAACTCTTTCGCTGCATCAATTCCTACCTGATTTACATCTTCGACGGTACAAATTTTGCTTATAAACCTAATATTCTTCCCATCAATATCAGATAACATATAGTTTGCTTTTATTTCGTCTCCCACGTAATAAGCGTATGCAGACATTGGAGTACGGCAACTAGCGTCTAAATACGACATATATGATCTCTCTGCCTGAGATAAATACCAGGTAGGCTTGTGGTTTATAACTTCACATATTTGTTGTATCTCTCTATTATTAGATCTTATTTGCAGAGCAATAATACCCTGCCCGGCTGCTGGAAGCATTTCTTCTGGCTCTAGCGGATAACAAAAATCTAAATCAAATAAATCTGCGCGGATAAGACCAGCACAAGCAAGTATAGCAGCATCAACTTCTTCGTCTTTTAATTTCTGTAATCTTGTATTTATATTTCCACGAAATTGAACTAGCTTAAGGTCTGGCCTTTGCTTAGCTATCAACACTTTTCTTCTAACTGATGAACTACCAACGATGCTTCCTTCAGGTAATTCATTAATAGATTTGTATTTAAATGATACAAAACAATCTCTTGGATCTTCTCTCTCAAGCACCGCCCCTATTTCTAACTTATCAGAAATCACTCCTGGAACATCCTTTAGTGAGTGTACTGCAATATCTATTTGTTTTTCTATCAGTTTTTCTTCTAACTCTTTTAAGAATAAAGCTTTTCCACCTATATCATAAAGATTTTTATTTGTAATTTTATCCCCAGTAGTCACGATGGGAACTATTTCATATTCAAGTTCAGAGAAGTATTTTTTCAATTCTGAAATAACTATTTCTGTTTGAATAAGAGCAAGTTTGCTTTTTCTTGTGCCAATTCTAATTTTCATATAATCATGCCGTTTTAAAGGGAGAAACTACTCTGAATATTTTTTTATCAATTGTTCCTAAGCTACCAATTGCTATAGGATAATTAATTTTACCATGACCAATCCCGCCTGTTGTAAATGCCGGAATATCTTTTATATGTGAGTTCGAAAATTCTTGTATTGTTTCTTGAATATATTCATCAGAATTTGAAAAATCAGCAAATATCATAGCACTAACCCCCTTAAAAAGCCCTGCATTTTTCATATGCATAAGAAATCTATGGACGTGATAGCCTTTTTCGTTTACATCCTCAACAAAAACAATCTTACCTTCCAAATGCGGATGTAACTTAGTACCAATCATATTACAAATTAAAGAAAGATTCCCACCAACTATTTCTCCATCTATCTTGCCACAAGATTTAGATAAATCGTTTATAGCATTGAGATTAAAATTCATCTCTTTTCCATCAAGAACATCTATAACCTCTTTAATCATATGCATATGATCTATACCCATAGCACCGTGGATAGTGGGTAATTTATATTTTTGATTAAAAAGAAAATGTAGAGCCGTTATATCACTAAATCCAATTAGCGTTTTAGGAGTTGTAGGCTCGATGTCTAAACAGTCAAAAACAATTTCTATTGAGCCATATCCACCACGAAATGCTGCTATAATTTTTACTTCAGGATCTAGGATAGCATTCTTTAATTGCTCTAGTCTCTTCTCTCTTGGAGCCGCAAAATATCCTAGTTTACTTTTTAAAAAAATCGACTCATCGTAAATGCAGTTAAAGCCGTTATCATTGTATAATTTTATTGTAGCTAATAATCTCTTTTTGCTCTTTTCAATACTCAACTTACCTGACTTACTACTACAACCAGAAGCTGGTGCAATAAAGGCTATTTTATCTGTTTTTTTATCAAATTTAATCATCACCAACCTTAAGAGCGGCAATAAATGCCGATTGTGGAATTTCCACGTTACCAACATTACGCATTCTTTTTTTACCAGCTTTTTGCTTTTCTAATAGCTTACGTTTTCTTGATACATCACCTCCATAGCATTTTGCAAGAACATCCTTACGCATTGCTTTTACATTTTCTCTTGCAATAATTTTTCCGCCAATAGCAGCTTGAACTGCAATCTGGAATAATTGTCTAGGTATTAAGTCTTTTAGCCTTTTACAAAGCTCTCTTCCTCGAAACTCTGCTCGTGATTTATGTACAATAGTAGAAAGTGCATCAACAGGTTCAGAATTTACTAAAATACTGAGCTTAACTAAATTACTTTCTTCATAGCCATCCATTTCCCAATCAAAACTTGCATAGCCTTTGGTACAGCTTTTCAAACGATCATAAAAATCAAAAACTATTTCATTTAGTGGAAGCCTATAGATAAGCATGATTCGACCCGAAACATATTTCATATCAACCTGAGTACCCCGTTTATCAGTACACAGAGCAAGAACAGAACCCAAATATTCTTCTGGTACCATAATTGTCGCCTTAATCCAAGGTTCAAGCATTGAATCAATCGTTTGCACTTCTGGAAAATCTGCAGGATTATGTACTTCTAACTGCTCACCGCCTCTTACATTAATCTTATAAATGACACTAGGAGCAGTCGTAATTAAATCTAAATTAAATTCACGATCAAGTCTTTCTTGAATTATCTCAAGATGCAAAAGCCCTAAGAAACCGCATCTAAAACCAAAACCCAGAGCACTTGAACTTTCTGTCTCAAACTCTAAACTTGCATCATTTAAGCGAAGCTTTTCAAGCGAGTCTTTTAAATTCTCAAATTCTGATGCATCAGATGGATATAAACCACAAAATACTACAGGTAAGTTAGGCTTAAATCCTGGAAGCATTTCTATCTTCTTTTTACTATCCTCTATAATTGTATCACCAACCTTACAATCAGATACCTGCTTAATTGATGCTGTAATAAACCCTACCATTCCTTCATCTAAAGAATCACACATCTCTTTTTTAGGAGTAAAATAACCAACATTATCAATATGATATACCTTATCAGTAGATAGCATTTTTACTTTCATGCCTTTTTTAAGACTTCCTTGAAAAACACGAACTAAGATAACAACACCTAAATATTGATCATACCAGCTATCAACAAGAAGAGCCTTTAATGCATCAGGATGTTCTTTTTCTATATATTCATTCTTAGGAGCCGGCAATCTATTTACTATCGCTTCTAAAACATCTTCAATACCGATTCCTGTTTTTGCTGAAACTAGTAGCGCATCACTTGAATCAATACCTATAACATCTTCAATCTGTTGCTTAATCATTTCTGGCTCCGCAGCTGGAAGATCTATTTTATTCAATACTGGAACTATTTCATGATTATTTTCAATTGCCTGATATACATTAGCAAGAGTTTGAGCTTCAACCCCCTGACTTGCATCAACGACTAATAAAGAACCTTCGCAGGCTGCGAGTGATCGGCTAACCTCATAAGAAAAATCAACATGCCCCGGTGTATCCATTAAATTAAGCTGATACGTATTGCCATCTTTTGCCTTATATTCAAGCCTTACAGTTTGAGCTTTGATTGTAATACCTCGCTCACGCTCAATATCCATAGAATCAAGCACCTGCTGACTCATTTCACGTTTTTGCAAACCTCCACAATACTCTATCAAACGATCTGCTAGAGTGGATTTTCCGTGATCAATATGGGCTACTATAGAAAAATTTCTGATAAATTTCTTGTCTGTCATTCTAAATATAAAAAATTGCTACAAATTACTTGAAATAAGGGGTATAGTGAATCTATTTTGAATCAAGACATTGCTGAGCCAATCTTAATTTAAAGCTTTGCTTTTATTACGCTTTGCCATGAATTCATTTAAATCCAGTAGCAGTATATAGCAATTTATCGTTATAAGGTAGAAAAAATGCGTGCAGAACTAGAAAACTTAAAAAACAAAATTGAGTTATCCCTTAACTTGATTAGGAGGTCTCTTTGACCCACAAGCAACTAAAAGACGCTTTCAGGAACTAGAAAAACTTACTCTTAAACCAGATTTCTGGGATAATCAACAAGCTGCAAGCACTGCGCTTAAAGAAAAAAGCATGCTAGAAAAGCAGCTTGCCAGTTTTGACTATGTAAATGATGGTTTGGCAGAAGCTGTAGAACTTGCCGAAATTGCTGAGGAAGAAAATGATTCAGAAATGTTAAAGCAAATTGAAATAGATCTAAATAATATTTCATCCACTTCTGAAAAACTTGAAACTCAATGCTTATTCTCTGGTGAGGCTGATTCAAATAATTGCTTTTTGGAGATTAATGCTGGTGCTGGAGGAACAGAAAGCCATGACTGGGCTTCAATGATGATGCGTATGTATCTACGATTCGGTGAAAGAATGGGTTTTAAAACAGAAATAGTAAATATAATTGCTGGAGAAGAAGCTGGAATAAAATCCTGCTGTATCAAGTTCAAGGGTGATATGCCTTATGGATGGCTAAAAACTGAATCTGGCGTTCATAGATTAGTCCGTATTTCACCTTTTAATGCTGCAGGCAAAAGGATGACAAGTTTTGCGTCATGCTGGGTATACCCAGAAGTTGACGAAAATATTGATATTGTCATAGAGGATAAGGATCTTAGAATAGATACATACCGGGCATCTGGAGCTGGAGGCCAGCATGTTAACACAACAGATTCAGCTGTCCGCATCACACACATTCCGACAAATATTGTTGTACAGTGCCAAAATGATAGATCTCAGCACAGAAATAAAGCAGAAGCGATGCAAATGCTAAAAGCAAGATTGTTTGAGCTAGAACTACAGAAAAAAAACGAAGAAGCTAATATAGAAAATGCTAAAAAAACAGATAATGGCTGGGGACATCAGATTAGATCTTATGTGCTACAGCCTTATCAAATGGTAAAAGATCTACGAACAAACTATGAGACAAGTAATTCTAGTGGAGTATTAGATGGAGATCTTGAGAAATTCATCTCAAGTTCACTTGCAGATCGAGCTGGAAATAAAGACGACTAAAAAATGCTTTAGAGATAAGAATATGCATAGCTTAAAAAACAAAAAAATTGGTATATTTGGACTGGGAATTACTGGCATATCCATATATTCTGATATCGAGCACCATGCAAATGAAATAATCTGCTGGGATGATTCTGAAAAAAATAGAACGAATTTTCAAAACCAAGAAATTTTATTTGATCTAAAAAACGAAAGATGGAAATCTATTGATACAGTATTTATTAGCCCAGGAGTGCCAAAAAATCATCAAATATTTTTATTAGCTAAGCAATACAACATATTGATATCTTCTGATATTGAGCTGTTTTTACATCATAACCCTCACTCAAAAATTATTGCAGTAACAGGCACAAACGGTAAGAGTACAACCACCGCCCTTATAGGACATATACTTAATAATTGTGGATATGATTTTCCGATTGGTGGAAATATTGGTATGCCAGCGCTATCACTTCCAAAAAACAAAACTGGTTATGTTCTTGAACTATCATCATTTCAGCTTGATTTAATTTCATTCTTTAACCCTACAATATCAGTATTGCTTAATATCACACCAGATCATCTAGATAGGCATGGTACATTTGACGAATACTGCAAAGCTAAAATGCGAGCACTTCGCGGCGATGGAATAAAAATAGTTGGAATTGATACTGAAGCATCCAAAGAAATATATAACACTCTAACGCAAAGTGGTGAAAAAAATATTATTGCTATAAGTACAAGTAGCAAGAAAAATACTATTAGCCTTTCAAATAGCATATTACACGATGATTTTTACGATGCTAATTCACACAAAATACCAGAACTAAAGAACCTTGCAGGCAAACATAACAAAGAAAATATCACAGCAGCTTATGCTGTATGTAGGTCACTTGGATTAAAGCCTAATGACATAATTGATCAGTTAACTAGCTTTCAAGGCCTCAAACACAGAATGCAAAATTTAGGATCAAGGAATCACATAACTTACTATAATGATAGTAAAGCTACTAATGCTAGTTCAGCAGCTGGATCTCTTGCTTCTATGCAAAACATATTTTGGCTTGCAGGTGGTATTTTTAAAGAAGAAAGTCTAGATCCTTTAGAAAAATCTCTATCAAACGTAAAAAAAGCATATCTCTTTGGAGAAAGTAGTTTATTATTCTCAAAGTATCTTAAAGACAAAGTTGATTTTGAAGTATTTAGCACAATGCAAAAAGCATTTTCTAAAGCTAATATTGATGCAAAAAAATCAAATGAGCATGCATACATAGTTTTAGCACCGGCTTGCTCATCTTTTGACCAGTTTAAGAACTTTGAGGAACGAGGAAACAAATTTATTGATTTATGCAATGAAGAACTACAATAAAAATAATATATTTTTGAGATGGTGGAGAGGTGTTGATCAACAAACTATGATCGCTCTTTCAATACTTATTGGCTTTAGTATGATGCTTGTTACCACCACAAGCTCTGCTGTAGCTGAAAAAATAGGACTAACAGAGCATCACTTTTCTTCAAGACAAATGATCTTTTTGTTTATTGCTTCAGTTGTAGTTATTGCCTTGTCATCCGTTGAAAAAAAGTGGGTTAAGAGAATTGGCATTGTTGGTTTCGTTATAAGTATATTCTCGCTAGTTTTAGTAAAATTTTATGGTTATGAAGTAAAAGGAGCAGTCAGATGGATGAGGATTGCAGGCTTTTCATACCAACCATCAGAATTTGTAAAACCTTGCTTTGCAGTTGTAACTGGATGGATACTATCACTTAGATATCAGGAAGACTTTCCAAGCTTCCGAGTATGCGCAGTGCTTTATTTAATTGTTGCAGCACTTTTGATTACTCAACCTGATTTTGGGATGTTAGTTCTGACTACTGCAGTATTTGCTGTACAGTTATTTGTTGGAGGCCTACCGACTATATGGATTTTTGTTTCAGGAATAGTTGAGTTATTTGGCGTTATATCTGCATATATTCTGCTTCCTCACGTTGCAACAAGAATTAATAATTTCTTAGATCCTGCAGCTAACGAAAATTACCAAGTAACAAAATCTATCCTAGCATTTGAACATGGTGGTCTATATGGAAAAGGACCAGGTGAGGGATCCATTAAACAACACTTACCTGATTCACACACTGACTTTATATTTGCAGTAGCTGGAGAAGAATTTGGCGCTATTATCTGCATAATGCTAATAGCTGTATTTGCATTTATAGTTTTAAAAACTTTAATTAGGCTAAACAGTGAAGATGATAAGTTTGTACAACTGGCTGCAGTTGGAATCATTACTCAATTTGGACTACAGGCCACTATTAACATGGGGGTAACACTAAATCTACTGCCAACAAAAGGAATGACACTTCCGTTTGTTAGCTATGGAGGATCATCAACAATTGCAATTAGCCTTGCAATTGGGATGCTACTTGGACTTACAAAAAGGCAAACGTCTCTTGTTAAATACAAGGCAAATAATATTGATATTTAAGTATTTATGAGTAATAAAAAAACTATTATTTTAGCTGCAGGCGGAACTGGTGGACATTTTTTTCCAGCCATTGCATTAGCTGAAGAATTGGCAAAATCTGAACATGATATACATCTTTTGACAGACCTTAGATGTAAAAAGTATATCACTAAAGAGATGCCAATTATACCTCATATTGCAAACCTCCATATAAGAATGTCAGGTCTATTTAATAAGATAAAATCTGCATATCAGCTGATTATAGAGTGCATGAAAGCTATTATCTTGTTCTTAAAAATAAAACCATCAATAGTAATTGGATTTGGCGGATATCCTAGCTTTCCAGCAATGCTTGCTGCAAGCTTTTTAAAAGTCCCCATCATAATTCAAGAGCAAAATTGCTTTTTAGGTAAGAGTAATAGAATTTTTGCAAAACATGCTAAATATATTGCACTTTCTTACAAGGAAACTAGCAATATATCTTCGGAAAATAAAGATAAAATCATCTATACAGGCGACATAATTAGAGAATCAATAAAAAACCTACCCGAAAAAAAGTCATTTGATTCCAAAATTTTTAATCTATTTGTTGTCGGAGGAAGTCAAGGAGCGCTTGTATTTTCTAAGATTATCCCTCAAACCATAGAAGCTCTTAAAAAACTAAAACCCGAAATACAAATTAAAATTACTCAGCAAGTTTCCGATGAGCATAAACCACAAATTCTGGAAACATATAATAAGTTGGGAATTGAATGTAAATTACAAAGTTTTTTCCATAATATAAATGATATTTATAGCGAGGCTGATCTAGTAATAGCTCGCTCAGGAGCTAGTACAATAGCAGAATTAACCTCTATTGGCCTGCCCGCTATCTTTATCCCTCTTCCCCATGCAATGGAAGATCATCAAACATTTAATGCGATGGCACTTGTAGATAATGATGCTAGCTGGTGCTATGCTCAAAAAGATGTGACTCCAGAAAATTTGGCTAAAAAACTTCATGAATTAATTACTAATCGTCACTTAATAAAACAAGCGTCGCAAAATCTAATAAAAAGAAAAACTAATGGAACTGAATATTTAGCTGACACAGTTCTAAAAATAATTGAGTAGTTATAATAGTTTAGTTGATATTCTAGGTTGCAAGTCAAACTATTGTATGACAATAATTAATATAACAGTATGAATTTATAAATTTTTCGATTAATTATTTTAAATTAAGGATATGCTAAAAAAAGCAATAACACTAACAATAGTTACCTCCATGCTAAGTGCCTGTGTTACAGGACCAGAAGGCTACTTAAAAAGATCAGCAAATAATAAACTATTTGACACTAAGGGCTTTCAAGGAGGAAAAAGAGCACCTTTATATAATAAAAAATATATCTCGCAAGCAAAGAAAAATATCTTAACTAATAATCTTGATGAAGATATGGACGAAGAAAGAGATGATCTATACGAAGACAGTAACCCTTCTCAAGAAAATATTGAAATGTATAGAGCGATGATTGACGCTGATATTGAGCGAAAAAGGAAAGAAAAAAATAAATCATCTTGGTGGTGGAATAGAAAGAAAAAACAATCATACCCTTCAGTGACTGACGCAAATGATCGTATTGATCCTAGAACACATGCACAAAATCTTGAGCTAAGAGAAGAGTTAAATCAAATTAAAGCTATGCTTAATGATGCGAAAAGAGAAATGGCTTCGCATAAATGCCCAACTGCACAAGAACAAGAAAAAAAAGCATCACAAGCAGTTAAACAAGATGATCTACCGAGACCAACTTTAAATCAGAAAATTCCCGAAGATCTTGAACAGAAGACCAAAGAAATAGTTACAAAAGAACACGTACATTCAATATAAGATAAATGTCATTCCTATGTCTCTAAATCATTCTCGCACCTCAATGTCATTCCCTCGTAGGCGGGAATCTAGAGAGATCTTGCAGCGCTGCATGGATTCCCGCCTGCGCGTGAATGACATCAGAAAAGGCTGTGCGTAACATAAGAAAAGCTATGCGTAACATCAGTTATAAAATAACCGCGTCTCCTACCCTCCTGGTCCTGACATAAATCATAAAACAAAACTCGCCATTGCAAGCATCAGCGCGGCAATCTATTCTTTCTTAATTATAAACATCGAAGATAATACTTATAAACTGATGTTAAGCAAAACTCTAATTTGGTTTGATATATTTATGTTAATGCAAGTCTATTTTTTCTGACATGCTGGCATTGTTAAATAACAAATGATGGCAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGAACCTAGCAAGATAATGTCTGATGAGAGAGTTTTTGCTTTCTACTAGCACAGTTTCTGCTTTGGTTTGGTGGTGATGTTTTGATATTCTATATTTACTGTAAACTTCATATGCGTCTGTACACAGATGATTTACTTTATAAGATTCTTCTATTCTCGTAGCTAACGTATAATAATCAGAAAAATCTCTAGATTTAGTTACTTGGAAATCAATAATTTTACCC
>sequence30
ACTTCTGCGCCCCCTCTGGCGGAAATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACATCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTCGTTATTTAATAATGCCGTCAATGTTTGCAAATCTAGCATTAACTTCAACTATTTAATATCAAATATATCTGTAATAAATACTAAATCTTCTGCTGCTTCTTTAAGATAATCAAATCTACCTGATGCTCCCATATGGCCAAAATCCATATTTGTTTTAAGGTAAAGTTTGTTATTATCTAATTTTCTATCACGAAGACGCGCCACCCATTTTGCTGCTTCCCAGTAACCGACTCTTGGGTCAGATAGGCCTGCTGTTACGAACAGGTGAGGGTAGTTTTGTACACTAACATTCTCATATGGTGAATAGCTTAAGATATAATCGAAATATTCCTTATTTTTTGGATTTCCCCATTCCTTAAATTCACCTGGAGTAAGAGGTAGATCTTCATCCAGCATGGTATTAAGTACATCAACAAAAGGAACATGTGCAATTGCAGCTTTAAATAGCTCTGGTTTTTGATTAATTACATTACCAATTAGCATACCTCCTGCGCTGCCACCCATTACAACTATATTACCTTTTGAGGTATATTTTTTATCCACCAAAAATTCTGCACATGCTAAGAAATCATTAAATGTTCTTTTCTTGGTAAGGAATTTAGCAGCTTCATACCAATCGTGACCTAAATCATCACCGCCTCTTATGTGCGCAATAGCATAGACAAATCCTCTATTTACAAGAGACACTGCTGAGTTTCTAAATGCTGGAGGTGTTGAGATACCATATGATCCGTAACCATATAGATATAAAGGATTTGATCCATCTTTTTTGAATAAAGACTTCTTATAGAATAAGCTTACAGGAACTTGAACTCCATCTGTTTTAACATATAATCTCTCAACCTTATACTCCTTAGGATTAAAACCGCTAGGTATTTCCTGCACTTTTAGGGTTTTCAATTTATCCTTATCATAGTCGTATTCATACACCGTGCTAGGTTTTGCAAGTGATGCATAATTTACTCTAATATCGTTTTCTTTATAATTTGTTGAGTAAAGACTTGCAGTATATGCTTCATCAGGAAATTTTATTGATTTCTCTTTATTATCACTAAGTTTTTTAACAATAGATTCAGATAACCCTTTTACTTTATAGTTTAGTAACAAGTAATCTTTCGTGATATCATAGCTAGAGAGATACTTATCTTTTTCTTCTTCAATATAGCTGTCCCATATTTTATTCATGGAATAGTCTTTTGATTCAGTTCTAAGCAGATGAAAATTTTTGGCGCCATCATTAGTGCTTTTATAGAAGTAACCATCTCCATGATCAATTGAAACTAAAACTTTTTCTTTTCTTTTTGACAATGGTTTTGGAGTAAAAGTTCTATCATTCATATCAATGTAATAAACTTCATTACTATCATGACCTCCAATATTTATTAGAATATATTCCTTGCTTGAGGTTTTAGATGCGGATGTAAGATATAATGGATTTTTTTCATGATATATAAGTTTATCATCTTTATTATTACTACCAAGCTTGTGGTACATTACTTTTTCACGTCGCCAATTTTCTGTAGTTGGAGAGTAGAAAAAACCATTTTGTTTTTCATGCCAGACAACATTTCCAATAGTGTTATCAATTTCATCTTTTAAGAATTTTTTAGTTTCCAAATTATAGACTTTGATAGAATATTTTTCTCCTCCAGTAAAATCTACCGAATAAGCTAATAATTTATGATCCGGACTCACAGAAAAAGCGCCAAGAGCAGTAAATTCTTTTCCTTTTGCTAGCTCGTTTACATCAAGTAAAATCTCTTCTTTAGCTCTAGTAGATCCAGCTTTTCTACAGTAAATTGGATAGTCTTTGTCTGCCTCTGTGCGTGAGTAATAATAGTAACTATCTCGTTTTGTATAAGTAGAAATATCTTCAAGTTTAATACGTCCCTTTAGTTCTTCAAAAAATTCTGTCTTTCTATCTTCTAATGGAGTTATGTAGTCTCTATAGTAAGCATTCTCTTCCTCTAGATAAGATAATACTTTTTTATCTTTTACATTATCTGGCCATCCATCTGCTCTAAGCCACGCATACTCATCTTCTAGTTTTACTCCATGATGTTTGTAGCTAAAAGGAATTTTATCGGCTATTGGTGGGGTGTTTTTATTCTTATTATTCATATTTGCTCCTTGCAGTAAAAATGCGGCTATGGGAATTAATATTATTTTCATTTTGTTATTTTCTTTAGTTTTTTATTTTACTAATAAATTTTGCAAAATCCTGAGCATTGGAGAAATCCTTGTATACAGATGCAAACCTAATATAAGCTACAGGATCTATTTTTGCTAGTTCTTGCATAATCAATTTTCCTATTGCTCTAGACTTAATTTCTTTTGTTGTCGAACTCTCAAGCTCAAGGACAATGCGATCCGATAGTTTTTCAATGTCTTCATTAGTAAAATTACGTTTTCTAAGAGCTGTTGCTATTGATTTTAGAATTTTTGTACGGTCAAATGGCCTTTTTGCCCCTGTTCTTTTGATAACAACTAGTTCTCTAAATTGTATGCGTTCGAATGTAGTAAAACGGCCATTACATTTACTGCAGTGGCGTCTTCTGCGTATAACTCTTGATTCATCAGTTTCTCTTGAGTCTTTTACAGAGGTATTTTTTGTTTCACAAAATGGACATTTCATAAATTATAAATTATGTTTTTGATAAATAGGAAATTTACTAGTTAAATTTCTAACTTTTATACGAACTTCTTCTTCTATCTTGCTGTTTTCTTCTGATTTTTTGAGTCCATCAAGAACATCTGCTATTAAATTTCCGGTGATTACAAATTCTTCTTCAGCAAAACCTCTAGTTGTACATGCTGGAGTTCCAAGACGAACGCCAGATGTTATAAATGGAGATGTATCATCATAAGGTACAGTATTTTTATTAGAAGTAATACCTGCACGATCTAAAGATTCTGATGCAAGCTTTCCAGTTATACTGTGCTTTCTTAGGTCTATTACAACTATATGGTTTACAGTTCCATTAGTTAATATATCATATCCTCTATCTTGCAGGGTTTTTCCTAGAATTTTCGCGTTTTTCAATACTTGTTTTATATATTTCTTATAATCATCAGATAATGCTTCCTTAAAAGCTACAGCTTTGGCAGCAATCACATGCATTAGAGGCCCACCTTGCAAGCCAGGGAACACAGCTTTGTTCATCAATTTACCTATCTCAGGATCATCTGAAAGAATAATACCACCTCTAGGCCCACGCAGAGTTTTATGAGTAGTTGATGTTGCAACATGTGCATGTGGGAATGGGCTAGGGTGTTCTCCTGCTGCTATAATACCAGAAATGTGAGCAATATCTGCCATTAAATATGCGCCAACTTTATCCGCTATTTCTCTAAATTTTTTGAAATCTAACTCTTGAGTATAGCTTGAAAAACCAGCTATTATTAGTTTTGGTTTATGCTCTAGAGCTAACCTCTCTACTTCCGCAAAATCTATATGATTTTTTTCTTTATCAACACCATAAAAAACTGGATTAAACCATTTTCCAGATTGATTTGGTGCTGCTCCATGAGTCAAATGCCCACCACAATCTAATGACATTGCAAGAATAGTATCTCCAGGCTTTAGGAGTGCAAGATAAACAGCTTGATTTGCTTGTGATCCAGAGTGCGGTTGTACATTTGCATATGAGCAGTTAAATAGCTCTTTTAACCTTTCTCTTGCAATATTCTCAGCTTTATCAACCTCTTCACAACCACAGTAATATCTCTTACCCGGAAAACCTTCTGCGTATTTATTTGTTAGGACTGAGCCTTGAGTTTCCATCACAGCTCGGCTTGTGAAATTTTCTGATGCAATTAATTCTATACAATCTTCTTGTCTATTATTTTCATCAGTTACAATTGAACTTATTTCAGGGTCTATGGTACTTAAGTTTTGGTTTATCATAAAGCTTTAGCTCCTATTTTAGTTTATTCAAAAATTTTAATGCAAACTCCATTCCTTCTCCATCAATAGAATGAGTAAGGTTAGGGATCAATAATAGTTTATGTTCAATATTGTTTTCCTTACAATATTCAGCAAGTTCTACACTTTGACTAGCTTCAACAATATCATCATCCATACCATGTACAATACATATTGGTGTAGAAGTGTTTTTCAAAGATAATGGGGGGATTAACCTTCCAGAAAAGCCAATCATTGCTTTAAATGGTGTTTCTTGAGTAAGAGTAAGGTATACCCCCATCATAGTTCCTTGAGAAAATCCAAATAGAACAGTATTTTCATTGTCTATACCAAGTTCTTTTTGTTTAAGAGCAATTTGTTCTTGAACTTTTGGGGCATTATCTTGAGCTAGCTTTATTATTGTTTGTGGAGTTCTATCTTGAAGACTGAACCATTGACGACCAAATGGAGCCATATCATAGCTTTCAATACCATGTGGAGATACAAAGTGGTACTCTTTCAGAGATTTTTGTATATAAGGTACCAGGCTGATAAGGTCATTTCCGTCAGATCCAACACCATGTAAAAAAACCATCAATTTTGTAGGTTTATCATTTAGCGCTTTTATTTCTGGATAGTTATTATACATTATTTTCCCTATAGTATTTACAATATTCAGTTATCTGGCATTCAGAGCACAGAGGCTTTCTTGCTTTGCATGTATATCTACCATGCAGTATAAGCCAATGATGCCCGTGATTAAGCCATTTATTAGGTATTTTTTTAAGTAAGTCCCTTTCTACTTTTTCTGGTGTGTTGCCACTGCTAAATCCTATTCTATTAGATACTCTATGAACATGTGTATCTACTGCCATTGTTGGTTTTCCAAATGCACAATTTAGTATTACATTAGCTGTTTTTCTTCCAATACCAGGTAATTTTATTAATTCATCAAATTCTGATGGAATATTTGAATTATATTTATCAATTAAAATTTCGCAAAGAGCAATAACATTTTTTGCTTTTGAATTATATAATCCAATTGTTTTTATGTATTTCTTTAGACCATCCTCCCCAAGAGAGAGTATTTTTTCAGGAGTATCATATGATGGAAAAAAGTTTTTTGTAGCTTTATTTACGGAAATATCAGTAGCTTGTGCAGATAATATAACAGCAACGCTAAGAGTAAAATTGTTAGTAAACTCTAACTCAGTCTTAGGAGTCGGATTATTATTACTAAAAATTTGGAAGATTTGATTAATTGTCTTGCTGTTCATAACTTCTTACGGATAGAATGAATTTCTAAATGCATATTTATTTTATATGATAAATTATGTATAATATAGTGCTTAATAAGTAAATTAAAAAATAAGGCAAAAATATGAGTGAAAACAAAATTTTTGAGCAAATTAAAGAACAAGTTTCTAATAATGAAATTGTACTATTCATGAAAGGAACTGCAGATTTCCCACAATGTGGGTTCTCAGCTATGGTAGTTGGAATATTACAAACAATGGGGTTAAAGTTCAAGGATATCAATGTTTTAGAGGATAATGATATAAGACAAGGTATAAAAGATTATTCCGATTGGCCAACTATACCGCAGCTATACATTGGTGGTGAGTTTATTGGGGGTTGTGACATTGTTAGGGAACTATATGAAAGCGGTGAATTAAATAATATTCTGAAAGTAGCACACGATGCTCCTGCAAATAATATAGATCAATCACAACATCAACGAGTTGAGGTTGAAAATTAGAATTAAATCAAGATATAAGTATGAGTCAAGACGCAATCTTAATAGAAAATCTTACAAAAAAGTATGAAGAAAGGCGTGCTGATAGTAGTTTTTTAGCATTAAACGACTTAAACCTAAAAATTCCGCAAGGTTCTATTTTTGGATTGCTTGGGCCAAATGGAGCAGGTAAGTCTACATTAATTAATATATTGGCTGGCACTGTGGTGATGACTAAAGGTCAGGTTAGTATTATGGGTACTGATATAGTAGAGTATCCTAAGAAAGCTAAATCTTTAATTGGTATTGTACCTCAGGAAGTTGTATATGATACTTTTTTTCCTATTGAGCAAGCTTTGGAGTTTACGGCTGGTTATTATGGTGTTCCTAAAGGTGAGCGCAAAACCGCAGAAATACTAAAAGCACTCGGATTGTGGGATAAGAAAAAGAGCTTTCCTCAGCAACTATCAGGAGGAATGAAGAGGAGATTCCTTATTGCAAAAGCAATGGTGCATTCACCAAAAGTTTTAGTGCTCGATGAGCCAACAGCTGGTGTTGATATTGAGCTTAGAAACCAGCTATGGGAATATGTAGTTGAATTGAATAAAGGTGGCATGACAATTATCATTACAACACACTATCTGGCAGAAGCTCAAGAGCTATGTGATGAAATAGCTTTTATAAATAAAGGAAGAATAATAAAACAAGATACAAAAGCTAACTTACTTTCTGATCTTGGTACCAGACATATAGATATTGAATTTAATAATGATGTAGTACGTGATAACTTAAAAATTTCTTCAGAGTTTGAGTATGAAATCATTGCTGATAATAAAGTGCGTTTTCAGCTTAATTCTGAGGAAAATAATTATACTAATTTATTGAAGCAAATTTCTAGTACTGATGTTGACATCAAAGACATCAGGGTATCGCAGCCTGATCTTGAGAAGATTTTTCATGAAATTATGAGAGATTAATTACCATGATCGAGTTATTAGAAAATAGGTCAGTCATAAAGATATACGGACCGGACGCTGAGAAGTTTCTTCAAGGTCAGACAACCAATGATATAATAAAAAATCAATATTCATACAATTTTATATTAAATAATCAAGGTCGCTACTTATTTGATTTTTTTGTTTTTAGAGAAAATAACGAAATATTTTATATAGATATTCATAATGATTCAGCTGATAAATTTCTTAAAAGACTTGCAATGTACAAGCTTAGGAGTGCTCTTGATCTAGAAAATGTTTCAAGTGATTTTTCTGTATTATATTCTAAAAAGCAAGTAGAAAATACTCTATTCTCTCTGCAAGATCCAAGAAGCTCTAAATTAGGTTTTCGTTCAATTATTAAACAAGATAATATAGATCAGAGTAAGAGCTATCCAAAAAACTTATACCTAGCTGATAAATATGACATGGCTATTATAGATGGTGATGTTGATCTTGAATATGAAAAATCTATCCCAATTGAATATGGAGCTGATAATTTTAATGCTATTGATTATAAAAAAGGGTGTTATATTGGTCAGGAAGTAATATCTAGAGCAAAATATCAAGGAGTTATAAGAAAAAAGATTTATAAGTTGAATTTTGGTACGGAAATTGCACTTATCAGTAAAGGTGCTGTTATTACAGACTTAGATGGTAATAAGATTGGGATTGTGTGTTCATGTTACGAAAAAATAGCTATTGCACAGCTAAGGGAAGAAAAATACTTGGGCTTAGATAAAAAAATAGCTATCATTGATCATCATTCGGCGGATATATCGGTTCCCGGTTGGCGTAGCTAATGTGATATCTATCAAAAGTCAGTTTTAAAGCAACTAAAAAAGACATTATTTTTTATGAGATTATTAATTATCGGAGACATAAATAGCGAGATAAAAACAGCTATTGATATTGCAAAATCAAAAAATGCAAAAGTCGTGATGGTTGAATCTTGTGATCAAGGTGTCGATTTTTTGTGCCAAGGAAAAGGTGCAGACCTTGTCTTGGTTGATGTTCAATTTGACATAAAATCGTTGACTAAAGCTATGAAAAACGAAAAAATTTCAACTCCTGTTATTGCATATGGTGTTCAGTGTTCACCAAAAGAAGCAGTATTAGCTATCAAATCTGGTGCAAAAGAATTTTTGCCACTTCCTCCTGATGAACGTTTGATAGCAGCAATATTTGCAGCATTATCTGATGATACGGTTAAGGTGATTGGTGATTCCGAACCTCTTAAAAATGCTTTAGCTGTTGCTGATAAGATAGCTGCGTCAGATGCAAATGTTCTAATTACAGGGCAATCTGGAACAGGTAAAGAAGTTTTTTCAAATTATATACACAGTAAAAGTAAGAGAAAAGATCAACAATTTGTATCGGTAAATTGTGCAGCAATACCAGAAAATCTTCTTGAGTCTGAGTTATTTGGTCATGAAAAAGGGGCTTTTACTGGAGCTGTTAGCAGAAGAATAGGTAAGTTTGAAGAATCTTCTGGAGGAACTTTACTCCTTGATGAGATTAGTGAAATGGATATAAGACTTCAAGCAAAGTTACTAAGAGCAATACAAGAAAAAGAAATTGATAGAGTAGGTGGAAATACACCTGTAAAAGTAGATCTTAGAATTATAGCGACATCAAACAGAGATCTTCAAAAAGAAATAGAGAATGGAAATTTTAGAGAAGATCTATTCTTTAGACTAAATATAATTAATATTGAGCTGCCGGCTCTCAGCGAAAGAAAGGATGATATCGAGATTTTAAGCCAGCATTTTATTGATAAATATATAAAGAATAATGGTCTTTCAGCCAAAACATTATCATCAGAAGCTTTAGAAAAAATGACTTCGTACTCATGGCCTGGAAATGTTCGTGAGCTAGAAAATGTTTTACACCGTGCTGTGCTAATGTCTGATGGGGATTCAATCAAAGCTGATGATGTTCATATAGTGGAGAGAGAAGAGACAAATACAGAAAACATAAATCAGCAAACTGGCTCAGCCGCAGAGAAGCAAATGGTGTTTAATACTCTCGGTTATTGCCTAGGAGATATGAGCAAGGCTGCTAATATTCTAGGCGTATCAATTGATATACTTCGTGAAAAGCTGGAAAAATTTACTCAGAAGTAAATTGTATTGTATGAGATTAGATTATGTCAGAACTTTCTAAATATGGGTACTTTAGTGATAATGGTCTCATCTTTTGTATAATATATTTTTCAGTATATCTTATCTTTTTTGCTATAATGAAGACTAAAAAATTTGGCAAAAATTTTCAATATCTTACTAAAATAGCGTTAGTCTTTTATATTATTGCTGGATTTATTTATTTGCCAATGACTTTTGCAACATACGAAACTGGCAGTTGGCAGATCCTTTTAGGAATGTACGCTATATATTTCTCTATATTTGGTACTACAGTTTTTATTACTCTTATTATCTCTTTTATTAGATCAGTGATTTTTGGTAGAAAAAATAGATCAGTTTTATTTTCTCTTGCTTACACCATACCCGGGCTTCCTCTGATACTACTTTATATTTATATAGATGATTTTGGCCGTGGTAAAACTTTAGCGAATACTTTAGCAGAGCCATTTTTTGCTGGAGTTATAACATCTGTAATATATTTATTAGATTACAAGTTTAATTTTTCTGTGCGCCTCAGAGCTATTATGATATTAGTTTGCATTTTAGCTGCCTGCTTAATAGGAGTATTCATCCCCTCTTTGCCGGAGTAAGCCTAAATTCAATATTTGTATCAATTAATTGCATACTTCCATGCGTTTTTAATCACAATTACAAAAAAGTGGTTTGCTAGAAAAAGCATATATTCTATTTTAACTATAAATAGGAAAATATTTTTTAGAATAGGGGGTAGTTTTATTGGAATAGGGTTTGGTAGCTTTTCATTCATTGCTTGATAAACTTCTCAAAGAGAGAATTTGGTCATACAATATATTTTTTCAGCACCAAGTCCAAAGTTCAAATTAAACAAATATATCTATTTAGGATTATCAACTAATCCTGGCATCGGATCAACATTTTCTGTTTGAGCGTCTTTTAGAGGGTCAGAATGTACTAGACTATCTCCAAAAAATGATAGATTGGAAGATGCATAAACAGGAAATAATTCGTCAATAACTGTTTTTTGTTTCTTTTTATTATTTTCCATACACCACCTACTATCAAAATTCTATTCAATAAAGGAATTATAAAACAAAATTGACCAATTTTCAATCAAAAAGAAATTAATTATTCATTAAGTTTTTTTAATTTTATAATCTTAATATAACAAAAAGCCTACTCAATAGAATAGGCTTTTCCTTAATATTATAAATTTTGCAAGTATTAGAAGTTTACTCTAACTTTTAATGTACCTTGAACTCCTACATATTTCTCTGCAAAGTTTGCATCTGCAGAAATTCCGTAATCCAGCACCATAAGCTGCATTTATTCCAGCACCGATGTTATAGAAGGTTCTTTGAAGCTTTGCTTTTTCAGTCAGAGTGCGTAAACCTGCTAGTTTTGCATTTACTTTTGCACCTTTACCAATAACGTCGTATCTGATAAATGCATGAGCTACTGGAGTAATAGCAACATCATTTGCCATAAATCCACCAACAAGGTTAAGTTTGTGTTATGCTTGCTTATTCACATCATAGTTCCTGCTATTGTAGAATCTGTATCAATCTCTAAAGTTGCTTCATTAGCTCCAAATCCAAGTTGAAAACTACCAGTTGCAGCAAAGTCACCTTTAGCTTGAGGCGTGACTCCATCCTGCTGTAGTCCATTTACTCCACCAAGAGTTAGAGTCTTAGCAGTTGGAACAACAACTTGTATGGTTTGGCCGCCTGTAGTATTTACTATAGATGATATCGTTGAATCAAAAGCAGTAATTCTTCTACCGCCTTGGCTATTAACGGTTTATGCCTGTGTCAATTATATTATAAATGTATAAACTTCCCAATTTTAAATCAGTAGTTTATGTAAATATTTCTCCGATGGTTTCAACATCTTTATCGCTAGAGTTTTTACTTTCTTCAGGCATGTCATCTGATTTGTTTAGTAAAATATCTATAGTTGTTACTAGTGTTGGAACATCCTCTAGTTCATAACTATTTTCAGATAGTTTTTTACTAACTCGACTAAATAACCATCCATCAATGCAATACTCAGGATGTGTTTTTAGAATTTTCAATGCAAGAGTAGGGTAGGTATCAACAAACTTATCTAAGCATATAGTATTTTTTGAAGTATTAGTTACAACACATATTTGTTGAAAACATAACATTTGTGCTTTTTCAACAGTTTTATCTGATACCATTTCTAAACTTTTACTGAGTACTTTTGCAATATATTTTGGAGTTAAGTATGAACCTAGACCATAACTAAGCATTGTGTTATCCCATTTTCCACTTTTTACATATTTATCGCAATAGTCTATGATTAGTTTTTGTATTGATGCCTTAATTAGTATAGTTATATCATCTTCTTTATCTACGCCTCTATCAGCTATATATTTACACGCAGAATTTTTATTGGATGTAAATCCTTCAACATGCTTATCCAATATTTCTTTAATATTTTTCATAAAAGGAATATTTTCTATAGATATGAAAAAATTATTACTTAGAAACCATGCCTGCTTATACAATTCAAGTGCTAAAGTTACATTACACATTTTGCAATTTATGAGAGCTAAGTTGTTTAAGAGTAGTACTACATACATTGATTCATAAGGATTATCTTCTTTACTTTTTTGAAGTAAAGAAGATTGAATACTTAGGCTTTTTACCATAAGATTTCTGCCTATATTTAACATTACTAAATCTGGTTTAATATTGCATGCCGTAGCACCTGCTTCAACTGCAGCAGAAGCTATCAGCATTGAATTGCTGTGATATAGATTTTCTCTGATTTTTAACATGCATAGTGTTGCATGAAATTTTGCTTTTCCACTTTCAAATTCAGAAAGAATAACCGTTTCATCATTAGTAACATCTGAAAATTTAAGTTTTTTGCCATTTACACTGCTTTTCTTCTTAAGATGATGAGATATATTAGGTGAATTAGCAAAATCATTTTCAAGTTTTATTATTTTAGCTAATTTTCTTATATCTGAATTAGTATACTCAAATTGTCTAATTTCTTCTTTATCTATACCTGCACATATTATTATTTCAGGGTATATCACTTTTTTCATACTTAATATCTCGATAGTTAGGTTATTGTTATCTAATTTAAGCTAGCACGAAAAATTTTAGAATTCAAGAAATATACAACCATTGGTTTTAAGGGAATGAGGTCAATCTGATGCATTTAAACGCTTCAATTTTATCGTATATTTTTCAGTTTCATTATCATACGACCACCATCCTTTAGCTTCGCTGTAGTCTTTATTAAATGTCATAGAAAGCTCTCCTATATTTTCTGAGTCTTTCCAAATACCGAATATCTTTCTATTATGTTCTAATAATATTGCATGTATTTCTGAAATTCCATTAAAGTCATATAACATGACAGTATGTTTATTAACAAATTTTATTACATCAATGGGATAATATTTCACTTCACTTCTTATAGAAGAGTTCCAACCAACCTTATACTCGAAATGTGTAAGAGCTTCCTTTATAGAAGAAGCAATTTTAGGTGGGCCAATATTTACAAAAACTGATTTCTTTGCCAAATGACCAGCACTATCTTCAACATTAAGAGTAATATTATAATTTCCAATATTTCTGAATATATACTCAAACTGTGGATTAGAAGAAATTTCTACTCCATTTATACACCAAGAAAATTTTAGCTCATCACCATCTGGATCAGTAGAATTTGATCCATCAAATTTTATTTTTTTGGGTGCCACTCCACTTAAATCACTATGAATCATAATAGGTACTGGAGTTTGATTACTATTCCAGTAATGATCTAAAATAAATGCAGCAATAGCAGCTCCTATACCGCTATATATAAAGAAAACCAATAAAAATTTACCGAATTTTAATCCTTTCAGAAATTCTATTAATACCATATCTACCTTCTCCCTAGTTTAATTACATAAATGGAGAATTTTTATCTTCCTGAAGCAAAAAACTTCTCTGGTAATATTCTACATAAATTGCAGAAAGCATGGTACATCAATTTGACAGTAAATGCAACCTATGGTAGTAAGAATGAGTGTGGTTAAAATAAAAAAAAATAGCAGCAAAGTTCAGAGGTATTATGAGTAAAAAAAGCTTTACAGATATTGTATTTCAGGACAAAAATTATACTCCTTTTCAGAAGGCCGTTGCAGAAGCAGTTGCTGAAAATGAAGTAAGTAATTCTTCTGATTTAGCATTTAAATTATCAGCGGCGCCAACAACTAAAAGTGGATATTCATTTGGGGGGAATCAACTAGATCTAGGAATAAAAATTAATAAAAAGGGCAAAAAAGTAATCAATGTTCATGCTGCTGCAACTTTCCTAGATATTATGAAAAATGCAGTGGATCAAAATGGTAATAAGATAGTAACTCAAAGTTTTCTAGATGAAATAGCAACTGTAAATGACAAAGGAGTACTAATAGGTGGTGTTATAACTAATATTGGAAATGCAAGAGATCTAACACCGCAGCAAGAAGATATAATTAATAAGGAATTTACTAGCGATTATGGGAAGCAAAAAATTACTCAAGATTATATGGGAGAAATTACAAAAAGGATCAAAAAAGTATCTAAACAAATTGACTCTAAAATAAAGTCGCCTGGAAAGCCAGATAGATACAGAATAAAATCATCCGAAATGCGAGCTAAATTAAAAAGAGAACAATATTTGATATTATTAGTTGATTATGATAACCAATTTTACTTTAGTTCTAAAGGAAACATGATGAAATTCCTCCAGAAGTCTGAGGCTAACAGTAAATTTAGCCCAAAAGATATAGAAAAATTTGTTTTGGAAAATACTACATATGGCAAGAAGGAGCCTGAAGATATCAAAAGAAGATATGGAAATGCAGCAAAGGCTCTGAAAAAATTTAATGTACAAATATCTGGTATGGAAAGTGATATTGCAGATGAAATGGCTGATATCATGATGGATAAGCTTAAAGAAAAGCAAAAAAAATGCATTGCACCTAAAAAAGCAATTCCTCCAATTTCTTTTAAAAACCATTCAAAAACACGTAAGTCAGGACAGGGTAGGTAGGTCTATTTTAGAAAAATATGAATTTATTCAAGATATAAAAGTACAAATTTTACTAAAATTATAGTATTACTCCTACTAGCATCAAAAAAAACTACTTGCGTTCATAGTTAACTCTAATTTTGTACAAAAATTATTTACAAATTGTTATCTGACGGAAGAAGATCAGGGATTAATAAGTATAGAAAATTCTCGTGTACTTTCGCCTGATGTTCAGAAAATACTTGATAATTTTGGTGGGAATATGATTGAAGCAAGAAATTACACAATTACAAATTTCATGGACCTTCAGATTGAAGAGGAGTTTAAAGATTTAATTGGTGAAACAATACATACTAACCTTGATGATGCTGGACTATTTTGATAGGCTTTGTTGTTGGCATTATTAAATAACAAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCCGCCAGAGGGGGCGCAGAAGTA
>sequence31
ATCTTTACGACACGAATCCTCTTTTCCATGCTGTGTTTTAACCTTTTATCACCAGATCTATACGTGCTTCCACAACTCTTACATTTGTACTTCTGCGCACCCTCTGGCGAAATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTACAATTCTCCATACATCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTTGTTATTTAATAATGCCGGAAATGTAATTAAAATTAATGCTGCTCCATCACTAATAAAATGATGCACTGGCTGAAAAAATCTAGGATAAAAAAGTTTTATTACCAATATAGTCAAAGCGTAAATAAAACTGTATACATGCATTACAATAGTAAATTTTATTGCGCCACTTAATAAAAATTTATGTTTAAATAATAGTAAATTTATAAAATGAGATAGGACTGTAAATGGCGAAAAAATTATCAGAAGATACAATATTTCAGTATTGACCCAGCTGGATGAACTAGTAAATAAAATGCTTGTAGTAATATATACAGAAAAAATACAGACAAGACCTTCCATAGAGCAAAAGAATTAATATAATTGTACAATTTACTTGGCAACATTGTCTAACTTCTATTAATTCTCTTCTTACAGATTACTTGTTAAAATTTCTCCACAAATTATGACCACATATTCTTCATGCGCGAGAAAAATCCTTCATCTTTGTAATTTGTATCTACTTCACCTAGCTCTTTATCCAAAGCTTCAAGCAATTCTCTCTGCTTTTTACTTAGTTTCTTCGGAGTATGAATATAAGCATGTGCATACAAATCACCTCTTGCAGATGACCTTACTTTTGACATACCTTTTTCTTTCAAACGAACTCTATCTCCAGTCTCAGTACCAGCAGGTATTTTAAGCTTAACTTTAGAGCCATCAATTAATGGTACAGAAACCTCACCGCCAAGTGTTGCTTTTGTAAAGCTTAGCGGTAATTTAAAATGCAAATCAGCTCCATCCACTTGGTATATATCATGTGGCTTTACAGAAATAAATACATAAAGATCTCCAGAAGATCCACCTCTAATTCCAGCTTCTCCTTCACCTGCAATTCTAATTCTAGTATTATTTTCAATACCAGCAGGAACATTTACCATCAAATGCTTTTGTTTTGAATGCCTTCCATGTCCATTACAAGTATTACAAGGATTTTTAATAACAGTTCCAGACCCATTACATTTACTACAAGTCTGCTCAACAGCAAAAAAACCTTGTTGCATACGAACAGCTCCAGCACCGCCACATTGCGGGCATGTATTTGTACTTCCCTTATCTTTGGTTCCATAACCATCACAATCGGTACATTTGACTTCTGTTGTAAAGTTTATCTTCTTATCAAGACCTTTAAACGCATCTTCTAAACTTATCTCAAGATTGTATTTTAAATCCGAACCTCTGACTTGTGGTGATCTTGTTCTTCCTCTTTGCCCTCCTCCCATAAAGTCGCTAAAGAAGTCACCAAATATATCATTCATATCAGCGCCGGCAAAACCGCTTTGACCACCAAAACCACCAAAGCCCCCCGCCCCAGCACCTCCATTCTCAAACGCACCATGGCCGAATCTATCGTAGGCAGCTTTTTTCTGATCATCTTTTAAAATATCATATGCTTCGCTAAGCTCTTTAAATTTTTTCTCAGCATCTGGATCATCACTATTTTTATCTGGATGATATTTTTTAGCCAGTTTTAAATATGCTTTTTTAATCTCCTGTGGGCTAGCAGAGCGTGAGATTCCAAGAACATCATAATAATCTTTTTTTGACATATCTTCAGTGTTAACCTCAAAGATTTATGCTAATTGCCAGGTAACTTTAAGTATATCCATTACCTGGCAAATAAACTATTTACTATCACTTACGTCTTTAAACTCACCATCAACAACTTTTGCATCTGATGCAGCTTCAGCAGAACCACCTGATGCTTGCTGCTGCTCAGGACCAGAAGCTGCAGATGCGGCTGCTTCTGCATCAGCTGTAGCACCGTACATTGCTTCTCCAATTTTCATGCTCGCTGCTGCTAGGCTTTCTGTTTTTGCATTAATTTGTTCAATATCATCTTCATTTTCCATTGCTTTTTTCAGTTCAGAAATAGCCTCTTCGACATTTTTCTTATCGGATTCCGAGATTTTATCACTATTATCCTTTAAGTTCTTCTCAGTTGAATAAATTAAAGCATCAGCCTTATTTTTTGTTTCAATAGATTCTTTGCGTTTCTTATCATCAGCAGAATTTTTTTCTGCATCTTGAATCATTTCTTCAATCTCATCATCTTTAAGACCACCGGATGCCTGAATAGTAACTTTCTGCTCTTTACCACTTGCTTTATCTGTGGCAGAAACATGTACTATACCATTAACATCAATATCAAAAGTCACCTCAATTTGTGGCATTCCACGCGGAGAAGGTGGAATTCCTTCTAAATTAAATTGACCTAATATTTTATTATGGGCAGCAAGTTCGCGCTCTCCTTGGAAAACCCTAATTGTTACAGCATGCTGATTATCTTCAGCAGTTGAGAACACTTGACTCTTTTTTGCAGGAATCGTTGTATTTCTATCAATTAAACGAGTAAACACACCACCTAAAGTCTCAATACCTAGAGATAATGGAGTAACATCAAGAAGTAATACATCTTTAACATCACCTTGTAGTACACCGCCTTGAATCGCAGCACCAAGAGCTACAACTTCGTCAGGGTTAACACCTTTATGAGGCTCGCGACCAAAGAATTCTTTCACTTTCTCAATTACTTTTGGCATTCTGGTCATACCGCCAACAAGTATCACTTCATCAACTTCGGTTGGCTTAATTCCAGCATCTTTCAGAGCTTTCTTACATGGCTCCATACTGCGATCAATCAAATCTTCAACTAATGACTCTAGCTTTGATCTTGTAAGCTTAATATTCATATGCTTAGGACCAGATGCATCTGCTGTAATGTAAGGCAGATTAATATCTGTTTGCTGCGTAGTTGATAGTTCTTTCTTAGCTTTTTCTGCAGCTTCTTTTAGCCTTTGCAAAGCTAGTGGATCATTTTTTAAATCAACAGACGTCTCTTTCTTAAATTCTTCAATTAAATAATTGAGGATCTTCATATCGAAATCTTCACCACCAAGGAATGTATCACCATTAGTAGCTTTTACTTCAAATACACCATCGCCAATTTCAAGAACTGACACATCAAATGTACCACCACCTAGATCATATACTGCTATTGTCTTATTTTCGATTTTATCAAGACCATACGCAAGCGCAGCAGCGGTTGGTTCGTTAATAATACGCTTCACTTCCAAACCAGCAATTTTACCAGCATCCTTTGTTGCTTGTCTTTGAGCATCATTAAAATATGCTGGAACAGTAATTACAGCCTGAGTAACTGTTTCACCGAGAAAATTTTCAGCTGTTTCTTTCATTTTTTGTAAAACATATGCGCTAATTTGACTTGGAGAATATTTTTTATCCTCAACCTCAACCCAAGCATCACCATTATCAGACTTTACAATCTTATAAGGAACCATTTCTTTGTCCTTCTTAACTGTTGGATCTTCAAAATTACGACCAATCAATCTTTTAATTGCAAATAATGTATTATTTGGATTAGTCACAGCTTGTCTTTTAGCAGGTTGACCCACTAATCTTTCATCACCTTCTGTAAACGCTACCATAGAAGCAGTAGTTCTCTCACCTTCTGCATTAGCTAAAACTTTAGGCTCTTTGCCGTCCATAACGGCTACACATGAATTAGTAGTACCTAAATCTATTCCTATAACTTTTCCCATATAAAAAAACCTCTCATCAAATTTGTTTATTGACTTAAGAGCTGTAATCTGCTCTTGTAATCAATCCATGTATGTTCATATAGGGCATAATATTTTATTTACAAGAGCCTAGAGTAAGAAAATGTTAAAAATATTAAAAGTTTTTGCTGCTATAGTACTTTTTATTGATTTGAATGCAGTAGCAAAAGACAAAATAGAAAATATAGAAAAAGTCAGAAAAGCTATCGTTACTATCAATAGTAGGGTACCAGTGTCTGCCTATCAAAATACAGGTAGCTGGTCAGGAACTGGATTTATAGTTGATGGAAAGGATGGGTATTTGGTCACAAATAATCATGTAGTTGGAAGAGCAAGCGTTGGCACATATTTTATAACTTTCCACAACGGTAAACAAGCTGAAGCAAAAGTAGCTTACTATGATATGTACGCAGATTTTGCCATATTGAAAATAAACCCTGCTGATTTTCCAGAAGAAATAGAATCTATTAATTTCACTGATGAAATGCCAAAACTTGGAACTGACGTATTTATTGTAGGTAACACAGAGGGTTTGGGATTTTCTTTCCATAGTGGATATTTGTCAGACTTATACGAAATAAATGGTGATATGCCTCAAGGATCATACGTAATTAATATGAACTCAGCGGGTGGCGCAAGTGGATCACCTGTACTAAATTCAGAAAACAAAGCTATTGGAGTTTTGTACGGAGGCGGAAAAACTCATTCAATAGCCCTTAAAGGTTCGTATGTCCAACATGTATTAGGTGAACTAAAATCCAACAAATTGACACCGACAAGAAATCATATTGGAGTAATTACAACTTTATACTCTTTAGATAAGGCGGTAAAACATAGAGGATTTAGCAAAAACGAGATGGAAAAATACATAAAAGAATTTCCTGATTCAAGAAATCGCGTAATCGTTGTACATTCAGTATTACCAGGCGGAACTGCAAAATCAATATTAAAACCTGGAGATATTTTGTGGAAAATTGATGGCAAAAAGATTGCTGCTGACTTAACTATCTTTGATCTAGGAATGAATAATGCAAAATCCAACAAAGTGTCACTAACTATAATTAGAGACGGTAAAAAAATAGACAAAGAAGTAAAACTATACGACATAGAAAAAAACAAAGTCACAACAATGCTAGACTTTGCTGGGGGTTTGTTCTTTGAAGCGGATGATTTTGTTTCATCAAAATCTGGTGTTCCTATTGGAAGTGTAGCGCTTGCAAACGTACAAACAGGTAGTAGCTTCAGTAGCATACCTGAAATGTTTGTCCAGGACTATAAAAGCGTATATAGACTATGTATCAAATCATTAAATGGCTCGACCATTAATAATTTGTCAGAATTAATATCAGCTACAAACAAAGCTATTGCAGATAAATATATAAATATTGAATATCGCAATTTCCAACCATATTATCCAACTTTTGCTCCTGATCGAGGTTTTATATCTGCACATAGAAACTTAATGGAGGATATAACTTTTGACAGTATCGACACAAAACCAAGAATCATTAAGTTTGATAGACAAAAATCAGAATGGGTTTCTGAAGGGATCTAGATAAACCAGCTAAACTAAGAATAAATTGGCGCGTAGGTAGGTGGTTATACATACTACCTCGCTCCAATGAAGCAAAGCGGGAGTATCAGCCCGCAAGCTTAAAGCAAATGACTATTATATGTGGTTTAGAACAAGAAAATTCTGAATTATAGACTTATTCGGCATCTTCAATACCATATGTCATTCCCGCGCAGGCGGGAATCTAGTAATTTACCTTAAGAGCTGCCAGAAAATACAGAAATAGATCTTTGCCTTACGCGGGAATTATAAGTTAAGTGCAAGTAACTAATACTATACTTAATACCTATGGATTATTACTTGCTCGCGTTTATAACTTCGCAATACTATTAGCATTACTTAATTTATCCCTAGAAAATGCAAAAAACACTTGCAAAAATTACCCAAAATTCATATAAATAACTCACTTAATTAATTAACAAAGGTTTACGTATGTCAATCGAATATACTTTTTCTATAATCAAACCAGATGCAACTGAAAGAAATCTAACTGGGAAGATTAATTCATATCTAGAAGCAGCTGATTTAAAAATTGTTGCTCAAAAAATGGTTCATTTATCTGAAGAACAAGCAAAGGAATTCTATGCAGAGCATAGTGAAAGACCTTTTTTTGGCAGCCTAATTTCATACATGACATCAGCTCCAGTAGTACTGCAAGTCTTAAAAGGTGAAAACGCAGTGCTTAAAAATAGAGAAGTTATGGGTGCAACTAATCCAGAAGAAGCCGATAATGGCACAATAAGAAAGGATTTTGCTCAAAATATAGAAGCAAATAGTATTCACGGCTCAGATAGCTTAGAGAGTGCAAAAAGAGAAATAGAATTTTTCTTTAATGAAAGTGAAATAGTAGCCTAAACATTTAAATGGTTGTTTCACGTGAAAAAAGAATTTAGCGTAATTGTAATTGGAGGAGGGCACGCTGGTTGTGAAGCAGCTGCAGCTGCAGCTAGAACCGGTGCCGATACTTTATTGATTACGCTAAAGCCTGAAAATTTGGGTGAAATGTCGTGTAACCCTGCAATAGGGGGCGTAGCTAAAGGAATACTAGTCAAAGAAATAGATGCTCTAGATGGCTTAATGGCTAGAGTAATTGATAAAGCTGGAATTCATTATAAAATGCTCAATGAAAGTAAAGGACCAGCCGTCTGGGGCCCAAGAGCTCAAGCCGATCGCACGCTATACAGAGCTGCAATGTATGAGGAAATTACTAATTATCCCAATCTTTCTGTTTTATATGATTCCGTCGAAGATATAGAAATAATAGATGAAAAAGTAGATTCTGTAATTACTAAAAATCAAAACAAAATCACTTGTAAAAAAGTAATATTAACGACAGGCACTTTCTTAGATGGAGTAATTCATATAGGAAAAAAAACAATTCCAGCCGGACGAGCTGGAGAGGATCCATCAATCGGCTTATCAAATACGTTAAAAAAATTGGATTTTGCCCTAGGACGTCTAAAAACAGGAACTCCACCTAGAATAGATGGTAATACTATCGATTATAGTAAAGTAGAAACACAACCTGGAGATAAGATTCCAAGACCATTTTCTGAGATGACTGAAAATGTTGAGGTAAAGCAAATAAATTGTTTTATAACCAGAACAACACCAGAAACGCATAAAATAATAAGAGATAATCTAGACCAATCAGCAATGTATTCTGGGCAAATTGAAGGCGTAGGGCCAAGATACTGCCCTTCTATAGAAGATAAAATTGTTAGATTTAGCTCGAAAGAAAACCATCAAATTTTCTTAGAACCAGAAGGATTAGATGATTCAACTATTTACCCAAATGGGATTTCCACATCTCTACCTGAAGATATACAAGAAAAGTGGCTTAAGACAATTCCAGGATTGGAAAATGCTAAAATACTACAGCCAGGATATGCTATTGAATATGACTACGTTGATCCAAGAGAACTTAAAAACACATTAGAGACAAAAAAGATTAACGGTCTATATTTCGCAGGACAGATCAATGGAACAACCGGTTATGAAGAAGCAGGTGCCCAAGGGTTAATTTCTGGAATTAATGCTGCTCTTGCATGTAAATCATCTAAGGAATTTATCCTAACTAGATCTGATTCTTATATTGGCGTAATGATTGATGATTTAATCACACTAGGCACTTCCGAACCATATAGAATGTTTACTTCACGTTCAGAATACAGATTATCACTTCGGGCTGACAATGCAGATATTCGTCTTACTAGTAAAGGGATTGAAGCAGGAGTCATTGGCAATAAAAGAAAGAAGGAATTCTTAGCAAAAATAGATAATATTAGTAATGCGAAAGACCGACTAAGCGAGAAAAAAATAACTACAAGCGAACTTGCAAAGTTTGGCATTTCCGTTTCTCAAGATGGTTCAAAAAAATCAGCATATAAATTATTAGGACTACCTAATTTTGGCATTAATAAGACTGCAGAAATTTTTCCTGAAATTCTTGAAATTAGTCCTGGAATTCTTAATTATCTGCAAATTGAATCAAAATATTCAGCTTATTTAAAAAGACAAAATCAAGATATAAAGCTGTTCAATGATGAAGAAAAATGCGAAATTCCTAGTAAGGTTGACTATTCTTTGGTAAAAAGTCTCTCACTTGAAATGCAAGAGAAACTGTCTTATCACCGACCTGCAACAATTGGAGCAGCTAGGAGAATACCAGGCGTGACACCAGCCGCTTTGACTGCTATTATTGTTCACATAAAAACTAATTCTCTATAAATAAATTGAATTTAATATGGATAAGATACGAGATTTTGTTTCACGTGAAGCTTTCAAACAAATTGTTGAATTCGAAAAACTTTTACTAAAATGGAATAAAACTATAAATCTTATATCGGCAAAAACATCTGAAGATATAATGAATCGCCACATATTAGATTCATTGCAGCTTTTGCCTCTCATTGACCTAGACGCAAAAATAATTGACCTTGGATCAGGAGCTGGTTTTCCAGCAATTATCTTGAGCATTGCTGGAATCGAGGATATTACACTAATTGAAAGTGATTCTAGAAAGACAGCATTCCTTCTTCAGGCATCAAAGCTTTCGAACAATAATATTAGAGTAATTAATGATAGAATTGAGAATATTGATAATTTGCAATGCGATATAGTGACATCCAGAGCATTTGCAGAATTAGATTCGATTTTTGAATATAGTTCTAAAATAAATATACGAAATAAATTTCTGTTGCATAAGGGCGCTGGATATAAAAATGAAATACTAAAAGCTCAAAAACATTGGTTGTTTAATAAAACAGTTCATGATAGCATCACTTCAGAAACTGGCAAAATCCTAGAAATTACTGATTTAACGCGTAAATAGATGACAGCAAAAATTATTTCCATTGTGAATCAAAAAGGCGGGGTAGGGAAAACAACAACTGCCGTTAATTTGTCTACAATATTTGCTGTGATGGAGAAAAGAGTATTGCTAATTGACCTTGATTCTCAAGGAAATAGCAGCAGTGGACTTGGAATAAAACAAGAAGACAGAAAAATTACTTCTTATCATGTGATGTGCGATCTGGACTCTGCTTCGAATGCGATAATTGAGACGGAAATTCCTAAATTATCAGTAATTACTGCAAACACTAACTTAGCTGCTATTGAGCTTGATTTGATTAATAAAGATAATCATGAGACTGTACTAAAAATTAAACTGTCAAGTATTGCAGAACAGTTTGACTACATAATTATAGATTGTCCTCCTTCGCTTAACATACTAACACTAAATGCTCTTGTTGCAAGCAATGAAGTTATCATTCCGATGTTATGTGATTTTTACTCTCTTGAAGGTTTAAGTCATTTACTTAAGACTATAGAGATAGTTGAAAAAAAATTAAATCCTATTATAAAAGTGGGTGGAATCTTGCTGACAATGTATGATAAAAGAAACCGCTTAACCGAGCAAGTAGAAAGAGATGTCAGAAATTGCCTAGGTAAGTTAGTATATAACACAATTATACCAAGGAATATAAAAGTTTCAGAAGCCCCTTCACATGGAAAATCTGTTATCATATATGATCATAACTGCTCTGGATCAAGGGCATATATTAATTTGGCAAAAGAAATAGTAAAACGTGAAAAAGTAGGAAACAAAAAATTGACGGCCTCCGCATAAAAATTTTAAGAAACTATTATGAAAAACAAAGCTTTAGGAAGAGGATTATCTTCATTATTAAAAGAAGAAGTAGTACCAATAGAAGTTACAGAATCTACAAACCAAGTTGACATAGACTTAATATATGCAAACAGTGATCAGCCAAGAAAATACTTTGACGATGAAAAGATACAAGAACTTGCTGATTCAATCTCAACTCATGGACTTCTTCAACCAATTATTGTTAAAAAAGATACGTCTGGAAAATATAAAATAGTAGCCGGAGAGCGAAGATATAGAGCATCCAAAATAGCTCAGCTCAAAGAAATTCCGGTTATTATAAAAGATTTTGATGAAAAAGAAGTTTTTGAAGTTGCTTTAATCGAAAATATCCAAAGAGATGAATTAACAGCCATAGAAGAGGCACAAGGGTACCAAAAATTAGTAAATGAATATGGTTATACTCAAAACGAAATCGCTTCAGTAATTGGCAAGAGCCGTTCACATATAGCAAATTTACTACGTCTAAATCAGCTTCCTGAATCTGTAAAAAACATGATTAATGATGGATCATTAAGCATGGGACATGCAAGGTGTCTAGTTGGCCTTGATAATGCTGAAGAAATTGCTAAAAAAATAATTGCGAATGATTTAAGTGTGAGAAAAACTGAAGAGCTAGTTTCTGCAGATAAAAATGTCCACGATCCTAGAAAACCTAAAAAATTAAAAAGGTCAGAACCAAAATATCAAGAACAAGATGAAGATCTGATAATGCTTAGTGACTCACTAAGTGAGAAATTTGGTGTAAAAGTTATTGTTGAAAATTCTAATAATGGCGGTAGAATATCGATTTACTATAGCAATCTTGAAGAGTTAGACTCTATTTTAACAAAATTTGATTAGTAAGAAATATGGAAATATTTTTAGACAGCGTAGATTTTAACGAAATTACTAAATACCAATCATATGGAATTATTGATGGTGTAACAACCAATCCATCATTAATGGCATCAGCAGATGTTGATTTTCATGAAGTTGCAAGTAAAATTTGTTCTTTAGTTGATAGTGATGTAAGTATTGAAGTGCCTTCAAATGATTATGAAAATATGATCAAAGAAGGAGAAAAAATACTAAAAATTGCTGAAAATATAGTTATAAAGCTTCCAGTTACGTGGGATGGAATAAAAGCTTGTAAATATTTCACAGATAGGGGGCATAAAACTAATATGACTTTGTGCTTTTCAGCAAACCAGGCACTGCTTGCTGCAAAAGCTGGTGCTACCTATATTTCACCATTCATAGGCAGATTAGATGATATAGGATCTGATGGCATGCAACTAATCGCTGATATTCGTGATATTTATGATAATTATGAATTTGAAACTAAAATACTAGCAGCATCAATAAGAACAGCTGAGCACGTATCAGAATCTGCCATTTGCGGTGCAGATGTTGCAACAATACCAGGCAAGCTATTATCACAACTAATTAATCACGATTTAACCGATAAGGGGCTGGCAAAATTTAATGCAGACTGGGTAAAGTCTGGAATGAAAATTTAATTATATTTTTTAAGCTAATAATAAAAGAAGGAATTCATCAATGTCATATCAATATGTGTATGTAATGAAAGGCTTGACTAAGTCTATAAATGGAAAGGAAATTCTAAAAGAAACTTGGCTATCATTTTTGCCAGGTGCAAAGATAGGAATTATTGGCCATAACGGAGCAGGTAAATCTACCATAATGAAGATTATGGCTGGACTTGATAAAGAATATGAAGGTGAAGCATTTGTTGCAGATGGAGTAAAAATTGGTTATCTACCTCAAGAACCACAACTTGATCCAAATAAAAACGTATTTGAAAATATCATGGATGGTTTGGCCGAGAAAAAAGCTCTTATAGATGAGTTTAATGAGGTAAGCGCTAAATTTGCTGAAGAAATGACTGATGATGAAATGAATGATTTGCTAGCAAAGCAGGCTGATCTTCAGGAAAAAATTGATGCTTGTGATGGTTGGAGCATCGAGCGCGAAATTGAAATTGCCATGAACGCTCTCCGTTGCCCTCCTAAAGACGCTGATGTTACTAAAATTTCGGGTGGTGAAAAGAGAAGGGTGGCTTTGTGTAAATTATTGCTCGAAAAGCCGGATATGATCCTTCTTGATGAGCCAACAAACCACTTAGATGCAGAATCTGTTTCTTGGCTTGAAAACTATTTAAAAGACTATAAGGGAACAGTTGTAGCAATTACTCACGACAGATATTTCCTAGATAATGTAGCTGAATGGATCTTAGAAATAGATCATGGCAGATGTGTGCCGTGGCACTCAAATTATTCTTCCTGGCTTGAGCAAAAACAAAAGAAATTAGCTGATGAAGAAAAAGAAGAAAGTGATCGTCAGAAGCAATTGAAACACGAACTTGAATGGATACAGCAATCTCCTAAAGCACGTCAATCAAAAAGTAAGGCCAGAATCAACGCATATCAAGAATTACTAAACAAAAAACGTGATGTAGGTAATGGTGTTGCGCAAATTATTGTGCCAAATGGCCCAAGACTTGGTGATTTAGTAATTGAAGTTGATAAACTATCCAAAAAATTTACCGATAGAGATTTGCTAAAGGATTTCAGTTTTAGAGTACCACCGGGCGCAATTGTGGGAATAGTTGGTCCAAATGGTGCAGGAAAATCAACATTATTTAATATGATTACTGGTAAAGTCAAACCCGACTCTGGATCAGTAAATATTGGTGACACAGTAAAGCTTGGATATGTTGATCAGTCGCGTGATCACCTTGATGATGGGAAAACTGTTTGGGAAGAAATTTCTGAAGGTTTGGAAGTACTTGAGTTGGGTGATACATCGGTAAAAAGCCGCGCATATTGTTCTGCATTTAATTTTAAAGGTCCTCAGCAACAAAAGAAAGTAGGGCAATTATCAGGAGGTGAGAGAAACCGTGTACATCTTGCAAAGCTGCTAAAAGAAGGCGCAAACGTAATTTTGCTTGATGAACCATCAAATGACCTGGATGTCGATACGCTCAGAGCTCTTGAAGATGCAATTTTAGACTTTGCTGGATGTGTATTCGTAATTAGTCACGATAGATGGTTTCTTGACCGCATAGCTACTCATATTATTGCATATGATCAAGACGGAAGTGCAACTTGGTTTGAGGGTAATTATGAAGATTATAATAACTATATGATTAATGTAGTTGGAGAAGATACGAAAAACCCTAAATATAGACATAAAAAATTAGCCTAGAAATAGTAGAAATCTTACAAATAAGGTGACATTTATATATAATGAGTTTGTAAATTTTTGTAAAAAAAAGAATAGAAGCTAATAATATATTTTGAACTAAAAAAAATATTATACTAGCCTGTATATAAAAAACTATTATATCAGTAATTGTCATTTAGTAAGATGAGCATTCAAATTGAAAGTAAAGTATCTTTTTCTGACTCCAAACTCTGGGATTGGCAGCGTGGTTATTACAGTGTTAAAGGAATTGAAGCTTGGTCCAGTAATGATGTGCCTTTTGAGGCCACAAGCAATCCATATATAGCGAGTTCCTATGCAAACATTATTGTTCGGTTTATTCAAGACTACTCTAGGCAGAATCCCGAAACAGCTCAAGAGCCTTTTTATATATTAGAACTAGGTGCAGGAACAGGGCAATTTAGTTATTATTTCCTTAAAGCTTTAATTAGTTTACTTAGTGAATTAGATATGAAGCAAGTAAACATCCGCTACGTAATGTCGGATATATCTAAAAAGAACATCAATTTTTGGAAAGATAATAATGCATTTAATACGTTTCTTCGGAAAGATATTTTATATTTTGCCGAACTTGATCTTGAAAGTGATTTTAATGAAATAATTTTACAAGAAAGTGATTTTATTCTCTCTAAAGAACATAGTTTAAAAAATCCATTAACTATCATTGCAAATTATATTTTTAGTGCACTACGTAATGATATCTTCTCTGTTCAAAACAATACACTATATGAATCTTTAATTTCTCTAACCAGTAAGGAAAATAATATAGATAAT
>sequence32
ACGCTATTGTTAAAAATAATTCTTCTTGGGCTTGTGAAGAATAATCTTCTTTAATTTTTTTCTTGATTATTATTACGTATGCTCGCATTTATAGATCAAAAAAATAGGATTCATTAAAAGCTTTGTTGCAGAAAATATTTTTGATCAATATAGTGGTTTTAGCAATTTAATATAAAATACATGTAAGGAATATGCTTGATTTAAATATTGTAACAAAAATTCTTTTAATGTCTTGTAATGAGATAGTATTAGTTCCAGTAATAATTGGTGGTTTTCTAGCTATTGATAGGAAAATTTTTGGTCATGCCACAATTCTATTAATGTTTATAATGATTTTAAATTCGTTTTTAAAATCTATTTTCCAAGTACCGCTTGCAGCACATCTAAATATTGAAGGTTATGCATTTCCAAGTGGACATATGAGCAGTGCAATTACCTTTTATGGATGGCTAATATTAAATATTAAAAACAACTTTATACGATTTGCTCTAGCAGTTCTAATTGCTGGAATTGGTTTTAGTCTTATACATAAGGGATATCATAATATTTACGATATTGCGGGTTCGATCTTCTTTTGCTCTATTTTGCTTGCTATATATACATGGCTTTCCAAAACTAAGCAAGCCTCAGATAAACCATTCCTTTTAGGATACTTGATGATAGGTTTCTCGGCTGGAATAATGTGGTATTTTAATAAACATAATGATATTCCGAATCATGTATGGATGGCATCTATGGTTCTAACTGGCTTTACTCTATCATGGACATTTTTTGCAAATTCTATCAAAAGTAATCCGTCAGTACTTTCTGCAATAGTTGGGTTTCTTTGTATCATTGGTATATACTACCTATCCATGCAAATTAAAGTAATGATAAATATACCTTATGACTTCCAGTGGGCGATTGTTGGAATATTAATACCAGTAACTGCAAAGCTTACCAGCGGCATTAGCCTAAAAAGGTAGAATTATGTCATCAAACTATTTGGAATATATAATGGAAATTCTAGCTCCTCACGGCGAAATGACCTCAAAACCAATGTTTGGTGGTCACGGTATATATAAGAATGGAATTATAGTTGCTTTTATTGCATATGATGAGCTTTATTTCAAAGTTGATGAATCTAATAAATCTCAATATGAAGATTTTGATTCTGAGCCTTTTATATTCGAATCTAAGGGAAAAAAAACATCTATGTCCTATTGGAAAGTACCTATGGAAATATTGGAAAATGAAGATCAGATTGGTGTTTGGCTAGATCAATCTTATGAAATATCCTTAAAGACAAAAAGATGAGCATTATAAAATAAGATGCAAGACAAGCGATCACCACTTCAAATTTTACAAACTATTTATGGATACCAAAATTTCCGTAGTCAGCAAGAGGAGATTGTTAATCATATCATAGAAGGTAAGAATGCGTTTGTTCTGATGCCAACTGGAAGCGGAAAATCGTTATGTTATCAAATCCCTTCCCTTTGTATGGATGGAATTGGAATAATTATCTCTCCACTAATTGCACTAATGCACGATCAAGTCTCTGCTTTAAATCAACTTGGAATAAAAGCTGTAGCAATAAATTCAGGCTTATCATACTCTGAGGTTTATAAAGCTCAAACTATGATTCGCGAAGGGGCAGTAGATTTAGTATATGTTGCGCCAGAAAGGGTCTTAATGGACGAATTTCTTGATTTACTCTCTGAAGTTAAGATCTCATTATTTGCTATAGATGAAGCACATTGCGTATCTCAATGGGGACATGATTTTCGTCCGCATTATACTGAACTATCAGTTTTAGCCGATAAATTCCCCAACGTCACAAGAGTTGCACTGACTGCTACTGCAGATGCGCCTACGCGCAGAGATATAGTTGAGCGTCTGTGCATTGATGATGGAAAAGTTTTTGTTTCGGGTTTTGATCGGCCAAATATCAATTATACAATACTAGAAAAAGATAATGGTAAAAAACAACTGCTCAATTTCATTAAAGAGAATCATCAAGGTGAAAATGGTGTTATCTATTGCTTATCAAGAAAAAACACTGAAGATATTACTCAGTTCCTACTTGAAAATGGCTACAATGCTTTAACCTATAATGCTGGTATGTCATCAGATAAAAGAGCTTTAAATCAAAATAGATTTTTAAGAGAAGAAAATATAATAATGGTAGCTACAATTGCTTTTGGGATGGGAATTGATAAGCCTGACATACGATTTGTTGTTCATATGTCTATTCCCAAAAACATTGAAGCCTATTACCAGGAGACTGGAAGAGCTGGTAGAGATGGCCTACCATCAAATGCACTAATGCTTTACAGCATTGGAGATGCGGCATTACTTAGAAATTTCATAGAAACATCTAATGCACCTACAAATCAGAAACGTATTGAACACCATAAACTTAATGCTTTACTTGGTTTTTGTGAAGCTACCTGTTGCCGTAGACAAATTTTACTGCAATATTTTGATGATCATTGCAAACCCTGCAATAATTGTGACACGTGCCTTACTAATCCAGAGACTTTCGATGGCACTACAGCAGCCCTAAAAGCAATTTCTTGCGTATATCGTAGTAATCAAAGATTCGGAGTAAACTACCTTATTGATATATTACTTGGAGTAGAAACAGATCGTATAATAAATTTTGGTCATGATAATATTAGTACATTTGGCATTGGCAACGAATACTCAAGAAAAGAATGGCAGAGTATTTATAGACAATTAATTGCTCAAAATCTACTAATGGTTGATGTAGTTGGTCATGGCAGTATTAAAATAACTCCTGATGGTTTTAAATTTCTTAAAGAAAAAAATACTCTTAATCTAAGAAAATATAGTAAAAAAATTACTGCAAAAAAAGCTACTCAGAAAAAAACCATACAAAGCATTACAAACAAAGATGATCAAAACTTATTTGCTGCTCTAAAAAATAAAAGGACTGAACTTGCAAAAACACAAAATGTTCCTCCGTACATAATTTTCCATGATAAGACTCTAATCGAGTTTGCTATACAGAAGCCTCTCGACACTGAAACAATGTCTACAATTACAGGAGTTGGACAAAAGAAAATGGAACTATATGGAGAAGAATTTTTAAACGTTATAAAAAGTTTTTAGTCTACATATCAATTAGAATAAAAAATACAAAACTTTCAATCTTATCAACTATTTTTACCCATCGCTTTGATTGATTTCCAGTCCGCCAAGTATTTCTTTTATATCATCATTTTCACTAAAACATTCCATATCATATTTAAATTCATTCAAACCCAAATAATAATCAATGTTAAAGCCATTCTTTGATGCCTCACCCAACTTCTTATCTGTCTTTTCATTCACTTCTTTGTCAAGCTTGCTATCATACTTTATCTTTTTACCATATGCTTTATTAAAGCAATTTATCACTTCTTTTAAAGGAATAATTTTCTTATCCACAGTTGGCACTACAACGAAGTAATCTGATTTACTTTCTAACAAATCACTTTCTAACCAATGTATAATATGGTTTCCTCCAATAATAACCACGCAATCACCATTGTACTTCTCTACTTCTTCTCTCATAAAATCATCGCGTTTCTTGGTAGGGTTACTATATATATAACCTTCAACAAAATCTTCTATACTATCTACTTTTGGCTCTTCTTCAAGTAAAGAATCAATTATATCAATTCCAGTGTTATCTGCGAATTCAGATATCCCTATTAGCATTAGAGTAAATGGCATATTCTCTAATTGCTCTATATCAAAATATTCTTTTACAAATTTTTCTTGCTTTCTTGTTAATTTATCGTAGCGCAAACTATTACATAATTTGCTATAAAAGCCAAATACATCTTCACTTTGTTTTAGGAATGAAACTCCAGATGGAATCCCCTCAAACAAGACTTTTAGATTTTTGTTTTCTTTACATAAATTTCTAACAAATTCTATTGTCCATTTATTCACTAATAAATTAGAGTGATTATTTAAAACTAAGTATTTTTTAGGCATGATATTAATGTTTAACAATTAAAATGTAATAAATTAAATCACAAAATTCCTTTAGAAAGATGACTAAAAAGAAAAAATGAAAAATTTAAAATATGAATAGATAAATCAGTGATTTAAAGAATTTTTTAAATCAAAACTGTATCTTTTTGAAGCTAAATAGAAACTTGTATGCTTTGCTTCAAAATGGTTGCGGGGGCTGGATTTGAACCAACGACCTTCAGGTTATGAGCCTGACGAGCTACCAGACTGCTCCACCCCGCGCCAAGTAACAATTGCTTGTGATTCGCAGTATAACGGATTTGAACAATATATGCAAGCAAGATTCTGCGTCGAAAAACTTATTTTCCTAGAAATCTCAGGCAATGATAATCATAACAATTGAATATTATAATCGGTTTATACTAGGCTTCTTGAGAAGCAATGGAATTAATACTTATAAATTCGTGGACATTGATCCCGTGATATTCTTCTAATTTTAATTTCCTAAGACACTTTCTAAGTTCTTTCTTATTACGCATCCTATAGTTATGCAAACGCTTTACTTCTTTACTCGGAATTCTATATTCACTATTTAGCATCCTCAAAATAAAAGCAAACATTCCCCACCTCATTAATCTATCTGAATTCTGAATATTTTTCATATTAAGCTCTAATTGCTCAATAAACATGATATCCATAAAATTATCTTCATCATAATGATAAAATTGACCTGTTAAGTCTTTAAACTGGCAATCAATGATCTCTGTATTATCATTAATCTGAATTCTATGATTATTTACACCTTCTAAAATTGTATCTTTAATATTTGTATTCTTCCAGTTTGCTCCAGAGAAATCAGCTCCAGAGAAATTTGAATCTCTAACTTCTGAGCCATTCCATACACTACCACTCATATCACTTTTTATCATCCGTACGTTAAACATATTTCCACCAGTAAAATCAAGTTTTTTACATTTAGATTCACTGAACACGCAGCTATCTAGATCAGCAAAACGCATTGATACATTGTCAAAACGACCTTCAGCAAACTTACCGTAGCCAATTTTCACGTAGTCCATCCTAGCATTCGCAAAATTTGCTCGAGGAGCCTTAATTCCATCTAAAATGGAGTGTGAAAAATCCGAATTTTCAAAGTGACATTTCTCAGAAATTTTGCATCCTGTAAAATTGGCGTATCTAGCTTCTATTGATTCAGCTTTAGTATTATCCCAAATAGTATGTAATGATTTTACAAAATTAAATAATGAGCTACTAAAACAACAATCTACAAAATGCGATTTATTAAAATTGGATTTATTAAATAAAGAATGTTTTGCTACTATCTTTGTACAGCTTGATAATCTAAAATCTGAGTGACAAAAATCGGCATTATTAATATTACATTTACTTAATCTTGTTTTTCTCCAGTTTGAATTTACAGCTCTAACATAATCTAGATTTACATTTTCCAAGTTTGCTGAATTTATAGAACTCCAATCAAATCGTGCTTTGGTAAAATTGCTGTTTTTAAAGTTAGAATTAGAAAGATCAGCATTATAAAATCTACTATTATTTGCTATAGTTTTATCAAATATGGAAGAATCCATGAATGCACTTTCAAAATTTGAATAACTAATATTTGTATTTTTGAAAATACATTTACTTAAGTTAGTACCAGCAAAATTCGCCTCAGAAATATCCGTCCCAGAAAAATCTAACCCTGATAAGTTAATCCTATTCCATTCATTATTACCATATACATTAACCCTGCTGGAGATATCAGCAATTATTTTTATATCTTTATCAATTGATGCATCTTTTGGTAACGATTTTATATAAATTTCCTTAGCAAAGGCATTTAAAGAGAGTTTTTTGGACTTTTCACCCCTCTTTAAAAATTCAATTATATCCCTTCTATTAAGCGCAACTAGTTTCTTATTATTATTGGAATAAAAATCTTCCCCTTCTAGCATTACCGGTTCAAAAGTAAATGACTCAGGATGGAATATATTTTGAAAACTTGTATGTATCATATGATCATTATGAAAAATACCTCTCTGCATTTTTCTATACTCGCTTTGAACTCTACGATATTCGTGATAACCATCAGTTAGATTGAAGAATAAAGCTACTCTTGAAATTAATGGAGTACGGTTTCTGACTTCATATAATTCTAACTTTTTATTGTGAAACAATCTTTGTTGTTCGTTTTTCTTCGCTTGATTATTTTTTATGTCAGCAAAAATTCTTATACACGAAGAAGTAGAATTAAACCTTAATCCCACTTGAGAACTCCAAACGGAATCTCTATAATTTTCCGAAAATTCACAACTACTAAGATCAGTTCCTCTAAAATCTGCCGAACTTAGGTTGCTATCCTTAAACGTTACATCTTCTAGATGCATACCACAGAACTTAGCCCCCTCTAAATCACAATTAATAAACTTTGTATTATTAAAAATAGAACCAATAAAATTAGCATTCTTGAGATTAAAAGGCTGCTTTGCTTTGGACTTGCCAACATTTAAGTTTGATAAGTCCGTAATTAAGTAACACTTTTTATCACCTCTTAAATGAGTAATAAAAGCGTTAAGAGTTAAGTCTGCTTTATAATTTTGATTTTGACTCTCAATATATTCTTTTAGGTCTTCAATTGTAACTGGTTCAATTACTATTCTAGGTAAAAAACTTACCCCACTTACAGAAGGCTTTTTTTTAACTTGCCGCTTTTTAGATACCAGTTCCTTGCTCACCTGTTCTTTGCTAGCTGAACCACTATTCTCAAATACATTCTTACCATAAGCAGTTTGCTTCTTACGAACCATACTCTAACTTCTTTCCCTTCCGATTGGTTTCTTATTATTCATAACCGCACGCTCTCCACTTACTTCACTAGATCTTTTGTCTCCTAATGATTTACCTACATCCCTTGCCTCTCTCTCTAATTGATCATGAGTTTTCGATTTAGATGAACTTTTCTTTCTATTAGGTCGAGTTTGAGAAGGTGCTTTTGATAAATCAGCTTTTTTAGATCTAGCCTTTACAACCTCTCTATCTAAAGATTCTCCTGTACGATCAATTTCTTCTTCTTGAGAAACACTAGACTTTTTTGGAGCTGTATATGCTTCATTACTTCTCTTTTGTGCCTGTGCAAATTTCTCACCTTCTCTAACGTTCTCAGCATATTTCACTCCATGCTCTCCGAGATTTTCCATGCCTTCACCTGCAAAACGATCTGCTGTAGTACCAAAAGTTTGTTTTGATGCACTATTTGCAGCTCCCATAGCAGCAGCTCCTAGACCAGCTCCAACGGGTCCACCAAATGCAAAACCAGCTACAGCTCCAATAAATGTGGAAAGCCCACTATGCTTCGCAGCAAAATGTCCTGCAACTACCCCAGCTCCACCACACGCAAGTACAGTACCACCTGCTACAGCAGCCATAACGGGAATACTGAGACCAGCAGTTAATACTGTAGTAGCTATTATAGTTGCTGCAATAGCCACACCTATAACAGCGCCAATAATTCTTCCCCATTTTGCACTAAGAGGTTGCTTAATAAATGCTCCAACTTTCTTTGCTAATCCACCAACTACTCCAGCTACTTTTGCTACGAACTTTCCTAAAAACGTTCTTTTCTTAGCATCATAAGCTCTATTGTCTTGCTCTATCTTAACTTCAGGCTTCATTTTTGTTCTAGAACCATCTTCAGCTTCATGCTCAAATGAACCAGATATTTCTTCAGCTTCCGCATGATGCAGATCAGTACCATCATTAATTTGTGCTTCTTCAACATTAGCTTTTTTAAGATTTGCTCTTTCCATCTCTGCATTACGAAGATCAGCTTTTTTCAAATTAACTTTCTCAAGAATTGCCTTATGCATTTTTGCACCGCGTAGGTTTGCACCTTCTAAAACTGCTTCACTTAGCTCAGCTCTATGAGCCTTTATCCCTTCAAGTTGTGCTTCTTTAAATTCAGCGCCTCTAGCAGAAATATCTGTTAAATTTGCACCAGTCATATCTGCACCTGAAGCTTTTATACCTTCTGCAACTGCTCCTTCGAGATTAGAAAATTGCATATCTACACCTTCAACAATAGCACCCTTTAACTGTGCATATTGTAGATTTGCTTGCTTCATGTTAGCTCCAACAAAATTTACTCTATCAGCCTTAACCTTTCTCATTATTGCCTTTTCAAGCTTTGCACCAGAAAGTTTACACAATTCATCTATTTCACTTTCAGAAAGATCCATTGACCTTGCATCAACATTTTCTAGAATTGTCTCCTTAAAAGTAGCTTTTTTTGACTCTGCCTGTCTTAATATAGAACCTGACAGATCTGTTTCTATGATTTTACAATTATTCAATATTGCACGCTCAAGATTTGCATGACGCATCTTACATCTCTGGATGTCAGCATTTGCAAGAGACACACCAGATAACTCTGCATAATCGAAAGTTGAATCTTCTATTCTAGCACCATCTAAGTTTGCGTTGCTTAAATCTGCAAAATCAAATTTGGACTTAGCAACACGCAACTTCTCCGGTGTACCAATGTCACCTGAAACCTCATCACGTTCTAAATCATGCACCCTAGCATGTGGCATGTATGCACGAGAAAAATCTGCATTTTCTATTACAGCTGACTGAATTTTTGTAGCCTGAAGATTAGTATCTTTTGCGCTGACACCAGTAAAATCAGCTCTTGATGCATCAGCCCCTTCAAGCGTTGCCTGATCAAGTTTTGCATTATTAAACTTACAATCTTGGAGATTAGCACCAACAAAACAAGCACCACGCAAATCACGTTTGCTAAAATCAAGACCAGATAAATCAGTAACAACTCCAGCATATAATGGATTCTCTTGGCTCTCATCGATATGAACTGAAAAGTCAGCAACAACTTTAGCACCAGCAACAGCTTCTATGCCCTTTGATTGCATCAATCCCTTTGCAAATTCATTTATTGAAAGATCAGGGTTGCTTTCACATGCCTCCAAATAACTTTCTGCATCTTCACGAGAAAGCCTTATATATTGAGTCTTGTCTTGTCCTTTTTCTTGAGAGCTTCCTCTTCTATATGCTGGATCATATTTATTCCTGACAGAGTCTGATACCATCAGAAGATTACCAATAACTGACGGATGCACTACATATTTAATTTGCTTTCTTTCTTCATCTCCGAACTCTTGCTCAGCAAGCTCAGAAATTTCTGCTTTTAACTTTTCAATTTTAGGAGCTTCTATCCTATTAATTTCAGTATATTGATCATACTCACTTCCGCCCCTAGCTAATTGCCAATATGATACCTTATCGTAAGCATCAGAAACCCTTTTCTCAGCAGCAGCTAGTTCCTCGCTCTTCTGCTCTAATACTTCTTCTTGTTTTTCATTAAATCTTTCTTCTGCTTCTATTTCGAGCCTTTCATTCTCATCACGATATCTGTGAAGCATCGACTCTGCGGTACTAAAATGCATATCTACATATACATTATCATTTTTATATTCTAGTAAAGCGCTTTCAGAAATAGGCTTTATAGCTACATAGTTATCATACAACACTTCTCCTAGATCTATCTCGCTAAACTCTAAACCACTTATATTTGATCCTCTGAAATCCATCTCTTTGGCAACGCAGTCATGAAGAACAACTCCGCTTAAATCAGCATCTCTTGCATCAACTCCTGTTAAATCACATGACTCAAACCTAGCGCCTTCCATGCGGCAGCCAGTAAAATCCACACCAGATAAGTCTAAATTTTCTTCTCTTTTAGCATCAATAACCTCTTTCATGTTTTTTAAGAAATCAGGCTCATTTTGTTGATCTGGTTCTGACATTCCAGCAGACCTATCTAGCTCAAAAGCATCTTTTAATGCCTCTGCATCATACGAAATAGTCTCACCAACAGTTACTCCTGAAAAATCAGGTACTACAACTATATTCTTTTTACCTGAATAAAATTTTTCTTGAACATAATCTTTGAGCGAAACTTTAACAGATGGGTCTAGCTCTTTTTGCTCTTGCACGTATTTAACAAATTCAGCCATATCGCTAGAATTTAGTTTGTGCCTCTGAATTTTAACTTCAAGACTTTCTGCTATTTCTTTTGGACTAGATAATTTAGACATAAGGATTTCCTTTCAAACTTATATTTTATAGTTTTTATTGTATAAAATAGTAAAGCTATCAGGCAATAAATTTTGTCTTTTTATCATATATGAAGCGCATTACAGCAGTAAAAGATGTATTTAGGACAACTGCAAAGCATAAAAAATGAGGATATTAGGTGTTAATTTTGACTAATTTTTACCATACGCTGCTTAAGCTTATCCCAGCTATATTGAGTATTAACTGTCTTAACTTCAGTAACAATAATATCTCCGCTTGGCAGCTGAGCAACATCTAGACCTCTCTGTAGAGACTCGACTATCAATGAAGTTGAATTACAAATATATTTCAGATCCGAGAAAATATCTTTTTTATCTTCATCATCTTGCACTTGAACGTTCTCTTGCTCTCTGTGTTTTACCATCGACATACAAATATATTATTAATTATTGTTACTAATATAGTAAAAGATAGCACAAGTTATATAAAACATCAAGGTTATTAAATTTTAATATTTAAAAGGTGAATTTTTTAAACAGCAAAAACTTATCTCTATCAATCGATAATATTTTAGTGTATATTGTTCTAATTTTTTATTTTTGAAAAGAAGCTTATGGATAAAAATTTTGTTAATCAAGCGCCTTGCTATTCTGATAAATCTTTAAAAATAATATTAAAACAATGTATCAGCTTCTTATTCAAAAGGCAAAAAATCAAACTCTTAAGCCTAGTACTTATTATAATTTTCGTTGGGCTAATCCCATCAATAGACAGTATTTTTCTACAACAATTGACAGATTCAATAGAATCATACTCTGATGAGGATCTAGAGAATATCAATCTAATATCTATAATATTTAAGTGGGTTATTATCTATGGAGCATGGTGGGAAAGTCAAAACGCCATATTGAGGCTTTATGATTATGCTTATCTAAAAATAATGCCAAAAATTAAAGCTCAAGTTATAGATGAAATATATAACTATATACAATTTCATAGCCACGATTATTTCCAAAAAAACTTAGCAGGTGATATAGCTAATAGAATAACGGAAGCCTCTAGATCCTTAGAAATGATATTTGCTTATATGAATGAAAAAATTATTAGAAAATTAGCAATTATCACTTTTGCACTTATTACTCTTTTCACTGTTCATACGTCTGTAGCACTAATATTCTTAACTTGGGTATCTGTATTTATTAGCATTAGTTTATATTTCTCAAAAACAATAAACCGATATTCAACAATATATGGAAAGGATAAGGCGCTAGTAGCAGGAAAAATAGTTGACTCGGTATCGAATATTTCTGTAATAAGAATGTTCTCATCGCAAAGGCATGAACATCAATATATAAAGCAATTTTTGGAACAATCAGTTATAAGTGACCAGAATATGCAATGGTTTATGCTTAAATTGAGATATATCCTTGGTATTTCATGCTCCGTAATGATCTGCTCAATGATATATTACATAATACTTCTTAGAGGCAATCTCGAAATAACAATTGGGCAATGCGTACTAATTATTACCCTATGTTTAACGGTTGTATCTGACATTTGGGATCTTACTCAAGAATTTGGCGACTTATTCGAACAAATCGGTTCATTCACGCAAAGTCTAACATTACTTGAAAAACAAACTATAGTAGATAAAAAGAACGCAAAAAAGCTAACTATAAACAATCCAAAAATTGAATTTAAAAACGTTACTCTTTTTTACAAAAATAATGATAATATTTTTAATAACAAATCGATCACAATAGATGCTTATCAAAGAGTTGGACTTGTAGGCTTCTCAGGTTCCGGTAAAACAACTTTTGCCTGTATGATCGCGAGGCTATATGAAATTGAGAGTGGTCAGATATTAATTGATAATCAAAATATTCAAGATGTTACCCAAGAAAGCTTGAGAAACAATATATCCGTTATTCCTCAAGAACCAATTTTATTTCACCGATCAATAAGAGAAAATATTAGATATGGGAAATTAAGTGCAACCGATTCTGAAGTATATGAAGCTGCAAAATCTACACATATCCATGAGTTCATAATGAATTTACCTGATGGTTACGATACTATTTGTGGTGAGCGAGGGAATAACCTGTCTGGAGGACAGCGCCAAAGAATTATTATTGCCAGAGCTTTTCTAAAGCAAGCTCCAATTTTAATATTAGATGAAGCAACAAGCTCACTTGATAGTCATACTGAGCACCTTATTCAACAATCTCTTCAGCAGCTAATGCTTGATAAAACTGTTCTAGTAATTGCGCATAGACTATCCACACTACTAAACATGGATAGAATACTAGTCTTTGACAAAGGTCATGTAGTTGAGGATGGCCCACACTCAGTGCTACAAAAAGACGGTGCTTTATATAAGCTGCTATGGAATACAGTTTAGATTGCTCAATTTAGATTTATAGTTATTTAGCATTTCCCAAAATAAACCTAAACTTAGCGCCTCTGTTGTTGTCACTCTTCGCACTGATTGATCCGCCATGGGCTTCTACAGCGGCTTTGCATAAGGCTAAGCCTACTCCCCTTCCTTCTGCTTTTGACTCAGCATTTGAGCCCATCTTGAATGGGGTGAATATATCATACAGATCTTCTTTTGGTATGCCAATTCCGTTGTCAGAGATTGCAAATTCAACACCTTTACCTTTTCGTAAAACGCTTATTCTGATCACTCCTTCACTGCTGAAATTGATGGCATTTATCACTAAATTATCCACAGTCTGACGCATATAGTTCGGGTCTACTTTTATCAATACATCCTCTTCTAT
>sequence33
CTGCGCCCCCTCTGGCGAAATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACATCACCTTTTTCTTGGTTATATAGCACAATTATTATTCTATGTCATTCGTTATTTAATAATGCCATTTATTTTTTTTAAAATTACTTGAAAAAAGAAAAATTCACTGATATAAAATAGCCGATCTATGTTTTTAGTTATAGATTACAGTGTGCACCCTTAGCTCAGCTGGATAGAGCAACGGATTTCTAATCCGTAGGTCAGAGGTTCGAATCCTCTAGGGTGTACCATCTTTATAATTTTTTTCAGATTATTTAATTATTATTGAAACAATGTATGACTAAATTTTTGATCGGCATTCCTATATGTGCGAAAAGTTTTTCTTGTCTTTATACTTATTTATATATGCTTGACTATCGGCGCTAAAACTATAAACTATGGCGCCAAGAGTATCGTCGTTGTTTTTAATGCATTACTAAAATAATTAATTAACTATAAGTTACTGCTAGAGTAAGAATATGAAACAAACACCAGTAAATGTTATTTGTATGAAGTGGGGAACAAAATACACATCCAAGGATGTAAATGTTTTACACTCAATGGTGAAAAGGCATCTGACTATTCCACATAGATTTGTATGTTTAACAGACGATAAAAGCGGCATTTCTGAAGAAGTTGAATGTTTTGATATGCCTAAAATTGACGTGCCGGAGGCAAAAGACGTCTCTCCATGGAGAAAGCTTGGAATGTTCTCAGAGGAAATTGGTGACTTGTCAGGTAAGGCATTGTTCCTTGATTTAGATATTGTTATTGTAGAGAATATCGACTGCTTTTTTACATTTTCAAATAAATTCACAATAATTGAAAACTGGACCCAGAAAGGTCGTGGGATAGGAAATTCATCAGTTTATTGCTATACTATCGGCGCTCATTCTGACGTGATCCAATATTATAGAGATCATGTTGAAGAGGTAACTAATAAATATAGTAATGAGCAGATATATCTTTCTCGTAAAATTGGTGATATCGATTATTGGCCGGCAAGCTGGTGTAAGTCATTTAAGAGACATTGTATTCCACCTTATATAATTAGATATTTTAAAACTCCTGTAAAACCCAAAGATGTTAAAATTGTAGTATTCCACGGTAATCCAAAACCAGAGGATGCTATCAAAGGAGGCTTTTTTGGAAATATTTGGAAATATATCAGACCGACCCCATGGATAGAGGATAACTGGCGTTAATTGTTATATTCGCAGGCAAATAATTTATCCAATCCTTCCTTATATGTTGGGAATTTGAGGTTAATGCCAAGTTTTTCTTTTATTTTTTTGTTTGAGACTCTTCTATTGTCATTGTAAAATTCTTTAGCCATTTCTGATAGATCGGCTTCTTCAAAGTTGATAATTTCTGGGTTTGGAGTTTTGAGTAAGCTAGCAGCATAGTTATTGACTTCAATTGGTGAGCAAGGGTGATTATCAGAAAGGTTAAATATTTCATTTAGTGGTACATTATTCATTGCCACTTCTATGACCCTAGCAATATCAGATACATGTATTCTAGAAAAAACTTGGTCTTTTTTATATATAGAGCGAGCTCTTCCAGATTTTATTTGTGATAAGGCGTTTCTATTTGGTCCGTAAATTCCAGATAATCTAAAAATATTTATAGAGATATTATTTTCTCTTCCAAAATTCAACCACTGATCTTCTGCTAATTTTCTGTTTTGACCTCTCTGGCTTGAAGGGTTTATACTAGTTGTTTCGTCAACCCAATTTCCGTTATGATTTCCATAGACTGCAGTTGATGAAAGATAGCCAATCCATTTTATATTTTTACAGTCTTCAATTAAATCTTTGAACTCTTGAAATACAATATCTCCAATATTATTCGGTGGAATTGAAATCAACATATGCGTTGTTTTTTTAAACGCAGCTTCAATTTCCAATTTGTTATAGCCAAGTATCTTGCAGTATTCATCCTTAGCTTTTGATCTTGAAGTACCAGTTATACTCCATTTATCTGGATTTAAGTTTTTAGCTAACGTGTTTGCAGTATATCCATAGCCAAAAATAAATAGATGATTTTGCATATTTTGTTTTCATAAAAAATTCATACGTTTAATATCTCTTATAATGTAAAATTTTAAGGAGGTAAATATATGAATAGATTGCTTGCAATGTTGTTTGTTATAGTTACCATATCATCCTGTACAAATTATTATGAGGGAAAGGTGTCAGATCATTTTGATGGGAGTCGTTTTTTTGATCCAGAAGTTCAAAATAAAAAGAGTTTTGGAGCTTTTTTGAAATGGCAAATAACAAGAAAATCTGTTCCATGGCCAAATCGCATAGAATTATCCGAGTATGATGTTCCGCCAGTGCGTGTTTTAGGAGATGATTTGCGAGTTTCTAATGTTGGTCATGTTACTTTTCTTATTCAGACGCAAGGAGTAAATATATTGACTGATCCGGTGTGGTCGGATCGCGCGAGCCCTTTTTCATTTGCTGGACCAAAACGTGTTATAGACCCTGGTATTAAGTTTGAAGATTTGCCGCCAATAGATGTAGTATGGATAAGTCATAATCACTATGATCATCTAGATGTACCTACAATTAAAAAATTATGGAAAGAACATAAGCCTAGAATAATAACTCCTTTAGGCAATGATTCAATAATCCATTCGCACAATAAGAAGATAAAGGTAGAAGCTTATGATTGGGGTGATGAAGTAAGTATCTCAGATAATGTAAAACTTCATCTAACTCCAATGCAGCATTGGTCAGCTCGTGGTCTATTTGATAGAAATAAAGCGCTTTGGTCAGCGCTGACGATAGAAACAAAAGGTGGTAACATATATTTTATCGGTGATTCAGGATATGGTGAAGGGAGGTATTTTAAAAGAGATAAAGAAAAATTTGGTGAATTTCGTTTAGCTCTTCTGCCCATGGGAGCGTATGAGCCGCGTTGGTTTATGAAATACGCGCATATGAATCCAGATGATATGCTAAAAGCGTATAATGACTTAGGGCAGCCGCACACTATACCATGTCATTATGATATATTTAAATTAACAGATGAAGGTAGGGGAGAAGCTAAAATTGCTCTAAGAAAAGCAATGCAAGAGCAGAAAACTGGTGATAAAGTAAAGTTACTAGAAGTGGGGAAGGTATTTGAAGTTCCAAAACTCGAAGATGGCAAGGAGGAAAAGATGACATTATCATATAATGACGTAATTAAATTTTGGTTTGAAGAAATAGATCCAAAACAAAGATGGGTTAAAGATCCAAAATTTGATGCTCTAATTGCTCAAAGATTCGGCGACTTATATGAAAAAGCAGCTAGAGGTGAGCTTGCATCATGGCGAAAGAATGCAAAAGGAGCTCTTGCTGAAGTCATTATACTCGATCAGTTTAGTCGTAATATTTTCAGAGATACTCCAAATGCATTTGCAACTGATGTGCTTGCGCTCGAAGCTGCCAAACAAGCAATTGCAAATGGATTTGATAAGGAAATTGATGAATCATATTTGAGCTTCTTATATATGCCTTTCATGCATAGTGAGTCCAAAGAAGTACATGAAATTGCAGTTGAATTATTCAATAAGCCAGGTATGGAAGGCTCCTATGACTACGAACTCAAGCACAAAGCTATTATCGACCGTTTCGGAAGATATCCCCATAGAAATGACATTCTAGGTAGAGAGTCAACTCCAGAGGAAATAGAATTTTTAAAAGAAGATGGATCTTCGTTTTAGATTATGTTTTCTGAACTTATAGTCTTTTTATATATTAGAATTATTATATTTCTCTATTCTTGATAAAATATACCTTTACGAAATATTAAAATATATTAATATATTTTATATATATCAACTAGATATGATTGTGACTAAAATTAAAGAAGATATTTTAAATAACAATCAAGATAAAGATTTGACAATAAGATTATCTGATGCAGTTGTATCCGGAGATATAGATAAAGCTGGGAAGTTAATTGCTGAAGGTGCAGATGTAAATGGCTGGTGTGAATATCTAGATAAGAACATGCTATTTTCTCTGTTTTTCTCATGTATCAACCTCAAATCTGTGGATTGTTAATAGACGCTGAAGCTGATGTGAATTATGACAAAATGGATCTAAAGACATAATACGCTGCTTGAATTTTAAGCATGCAAGTATTGAATGCGTAAGAATTATTGTTTCAAAAGGAAAGTTTGATTTTAGTGGTCGTGATGAAGAACTTATAGTAGCCCATAATCAAGTTAAAGCTAAGATGCAGTTTGAAAAGCAGGCGAAATGGGACTTAGATAGGATGGAGCTAGCTATTTCAAAGCACAATACTGATATTTTGGAAGGCATTATTTCTGCCAAAATATTAAGACCTATGCTAGAATTTTATGCTGGAGGGTATAAAATATAAAGATGTTTTGACAATAATTAATGATAGTTACATATTAACGACTAATATTTAAACGTCAAGATGATGTTTAAATAGCAATTTATCATTCGGCATTTTAGGCTACTTATAAAGTTATTTCTAAATAGAATTGATAATATGTTAATTTATCCTATTCACCTTCCTCTGGGGTGCTACCACCTAGTACTTCTTTTGTATCGTCATTTGTGTCAACGTCCGAGGTCAACTCCAGTTCTTGAATTAGTTTAACACCTAAGTTTAATATTTTGTCTCCTGATGATAAATTTTCATTTGATTCAGGAATATACTCTTCTGTATTACTAAGTTTTGGGTCTAGTTTACTATCAGGCTTTATAACTTCTTTCTTACTATCATTCTCAATCTTAACGCTTGATTTTTCCTCAATAACTTGAGGCGAAGTAGTTGAAATTTTTGTATTCTTTTGAACCTCTTTCGTTTCCAAATAATTCCGTATCATTTTAGCGGTATTCGAGCATTCAAAACTCAGTGCAAGCTCTAAATGCGCTGATGTAATTTTGTCCTTTACAGCACCACTAGTTTCAAATATTTTTGCTGTTGCAAGATCATTCGACTGAGGAATTGCAGAAAGAAAGTTTGATAACGTGCATAGTTCATGGTTATGTTCAACAATATGACAGAATATCTTTTTAAATCCTTGGGCCATTGCTCCAAACAAGAATTCTTGTGTACAAAGTGATTTATTATTTTTAATTATTTCTAAGGCTATTTGCTCATTATTCTTATCAAATGCGAGATACAAATTGCCTTGTGTACACAGCTCTATATTATTATCAACTATTTTTATTACTTCCTCAATATTCGATGACTTAATCGCATCTTCCAATTTTTCTTGTTCAGTTAGTTTTTTATTCTTTGACACTTCAACTCTCCATAAATTTATTTTCAATCAGACAATTATGTCTTATTTTCAACTTATAGACATTTCAAATCAAAATGCAATACCTAACTAACCAACGATATCACTTTCTCTTCTAGTTGCCCTAGTTTACTAACGTCTGTTCCGCCTGCTTGTGCTAGAGTGGCTTGTCCACCGCTGCTTCTATCTATGAATGCGGAGGTTTTTTGCTATTTTTTCTGCATTGTATTTTTCAGAGACGGGTTTTGATACAGAGACGACTATAGATAATTTATCGGTGTTTTTAGTAATAAAAACTACAACTATATCATCGTTACTTTTGGCCAGGTTTTGGGCAGACATTCGAATCATTTTCCGTCTGTATTGTCAAAGACCACATAGATGACAAGATAAATAAGTTTTTCGAAGATTTTGCATCGAGAATTGTAGAAAAGATTAATCATTATGTTAAATTGAACTGGCATCAGGTAAATTGTATTGTTAAAGATCCAGATGCATATTTAGTTTTAAAAGTAGAAGAGAATGGTCAGGAAATAGAGAAAAAATATGAAATTCCTGGTGATGTAATGTTATTGATTGGTGAATTTACATCGTTGGATGACGTGAGATTAGATGCACAAATATTAGAGTAGAGTGTATTTACATAATATAGATCAGAAATAGAAAGAGGTAGAGATTCTACCTCTTTTCTTTTATCAACACTGACGCAACACCGCCAGCAATAAGTAGTCCAATAGTTAGGACAAGTGGTATATAGGTTGGTATATGTACAAAGTGAACAACGAATATTTTGATTCCAATTAATATCAGAATTAATGCTAGTGAATATTTGATATATCTGAATCTTTCAACAATATCTGCAAGTAGGAAGAAAAGAGCTCTTAAGCCCAATATTGCAAAAATATTTGAAGTATATACGATATATGTATCTTGAGTGATTGCAAAGATTGCTGGGATACTATCAATAGCAAAAACCACATCCATAGCTTCAACGGTTGCTAGTGCCATGAAAAGGGGGGTAGCAAATAGCTTATTATCTTTTTTTACAAAGAATTTATTACCATGAAATTCATGCGTGACATTCATTCTCTTACTAAGGAATTTATATATGAACATATCTTTCACGTTCATAGGTTTTTCTTTTGAGATATAGAATGTTTTGATTCCAGTATAGATTAAAACAATCGCAAAGATAAATAGAACCCACTCAAAGTTAGCAACTAGCGATGCACCTGCGCCAATCATAATAGCTCTAAGAACTATTACCCCTAATATTCCCCAGAATAATACTCGATGTTGGAATTTAGGGGGTATATTAAAGAATTTAAAGATAATAGAAATGACAAATATATTATCGAGTGACATAGCTTTTTCCAGAATAAAGCCTGTAAAATATTCCTTACCATGCTGTGTGCCAAGTTCATAGAAAACAAATATACCAAAAGCACACGCGATCAGAATATAAAATATACTCATGATAAGACTTTCGCGTAGCGAAATAACATGATCTTTTTTGTTAAATACTCCTAGATCAAGAATTAGTAGGGTGATAATTATTGTTCCAAAAATTCCCCAGGAGAGTAGGCCTTCATGCATATATTACATCCTCTAAACTACAATATTTTATAACAGTAGATCACAGTTTACTCTTTTGGTGTAAGAGAAATTAGGAATTGAGAGGGAAAAAATATGTAGAAGTATTTAAAAAATCACGAGGATACATTCTAACTTTATTAACAGTGCCTAGGTATTTCTTACCTAGCAAATATACCTAAGTTTGTTATTACGATAGTTTATGCAATAACTCAAACTTATAAAATTATATTAGGAAACTTCTATTTCCTAATATAATTTTAATTTAAAGAGTTTAATCATGACAATAAGACTAATAAAGGCAGCTGCCAATAATAATTTACATTTAGCATTTCAATATTTAAGAGTTGGAGACGATATTAATTTTCAAGAAGGATTATACGGACAAACTCCATTACATTGTGCTCTGCAATCTGGCCATAATAATATGGTGCAATTATTGCTTAATTTTGGTGCGAATCCTAATATTCAGAATTATAAGGGTTATACACCAGTTGATATTTATCATGGTGTGCATTTACAGCATATGGATGAATTGTTTTTAACAAGGCAGGAAGATGAAAGTGAGTTGTTGGGTAGTAACTACTATAATTATCTAAATGATAATTATGGATCAGATTATTCATAAAAAAAGAGCCCTTTAAGGGCTCTTAATTAAACTTCTTCAATAGGTAAATTTGAACTAAGCTTGTTTTGCTTTAAATCTTTTATTCATTTTATTAATCACAAGTACTCTACCTTTTCTTTTAACAATACGGCAGTTTTTATCTCTTGCTTTAAGTGATTTTAATGATTTTACAATTTTCATAATAGCCTCATCTAGCCCTTAAATAGAGCTGTTTTATTTAGTTCATGCGCAAATATAGAGGAAATAGCCAAAAAGGTCAAGGATAAACTATAATAATAATTTTAAATAATTAAGTATAATTATTAGTCAATTATATTTTGCTGCTAAAACGTTTTGTACTTGACCAGCGGCGTGAAGAAATTTATCATCGCTGAAATGGATAAATATCAAGTTAAGATTTTAAGTTGGAGATATAAATATGAAACCATATAGTGATCTTGCAAAGATGATTCACAAAGAAGGATACATCTTTATAACAATTTTTGCTGTAGTTACTTTTGTACTAGGATCATTTAGTACAACTTTGGCGTGGATTGGGGGAATATGTACTGTTTGGTGTGCTTACTTTTTTAGAAACCCGGAGAGAGTAACACCTGTTTCTGATGATTTAATTATCAGTGCAGCAGATGGAGTGGTGCAGAAAATTGTTGAAGTAACGCCCCCAGCTGAGCTAGAGCTTGGGGATGCTCCTATGATACGAGTTAGTGTTTTCTTAAATGTTTTTAATGTACATATTAATAGGATCCCGGCAAGCGGAAAAATTTTAGCGCTAAAATATCATCCTGGAAAATTCTTTAATGCATCTCTTGATAAAGCAAGTATTCATAATGAGCGTCAGTCTGTCTTGATGGAGACTAAGAGTGGAACTAAAATTGGTTTTGTTCAGATTGCGGGTTTAGTTGCAAGGCGTATTGTTTGTGATTTAGAAGAAGATCAAGAAGTTTTAGCTGGCCAAAGATATGGCTTAATTCGTTTTGGGAGTAGGGCAGATATATATTTGCCTCTTAAAACAGCGCTAATGGTAACAGAAGGACAGACATGTATTGGCGGTGAGACAGTAATCGCAGATATGAAAAAGAAAGTTACTGAGCAGCCAAAATTTGAAAGACGCTAGATTAAGTGCTTTTACTATACTAAATTCACTTCAGGAATATAGAAAGAGAAAATAGTTTGATTAAAAAATTTAAGGGTAAAAAACTTATAATAAAGCCAGTTCCGTTTACTAAGCTACTGCCTAATGTGGTAACTTTGGTAGGTTTGATTATTGGTGTTAGCTCGATTAGATTTGCTCTTGAGTCTGCTTGGGAAAAATCTGTTTATTGTATTTTGATAGCTACGATAATTGATGGTTTAGATGGTAGAGTTGCAAGAATGCTTAATGCAACTAGTCATTTTGGGGCGGAACTCGATTCACTTTGTGATTTTATAAATTTTGGCCTGTGTCCTGCATTACTTTTATATTTGTGGTCATTTCAACAATATGAATATAAAGTTATTTCTTGGGCATCTATTATGCTTTTTGTCGTTTGTATGGCAATTAGGCTTGCTAGGTTTAATACAGCTATTGTTGAAACAGATAAAGACAAGAAGCAGAATGATACAAGGTTTTTTACCGGTGTACCGGCGCCATCTGGTGCAATCCTTGCGCTTATTCCAATGATATTAGATTTTGAGCTTACTACAATGATTTCTGAGTTTAGTGTCAGGAATCATACTTTACTTATAAATTTATACATAGTTATTATTGCGTTATTACTTGCAAGTCGTTTTCCAACTATTTCGCTAAAAAATATTCAAATCAAACCGGAATATTTGTCACTTTCTATGATAATATCTGCAATGATAATCATAGTTGCTGTAATATATCCATGGTACTCATTGCCGGTAGCTGCTATTATTTACATATTGTCAATACCGCTTTGCATATATTATGCAAGGAAATTTTAGGAGGAAGATAAATGTCTTCTATGTTAGAAAAAATATCATCACACAAGCACGCAAAACTAATTGCAGTAATATCTGTCATATTTTTATTATTTGTTACCTATAAAGTTTATGTTTGGGCAAATACACAATCTACAGATAATGCATATATTGAAGCTGATATTTCAAGTGTTAGCTCGGAAGTTGGTGGTGTTATTGATCGTGTTTTGGTTAAAGAGAATAATTTTGTTAAAGAAGGTCAGATAATTGCACAAATTAATGCAGCAGATTATAAAGCTAAATATGAGCAAGCTGAGGCAAGTCTTGATGAAGCTGTTCGTAATATTGAAATGATTGACCAAAATATAAAGCTTGCAATTATAGAGGAAAATAAAGCCGTTGAAGCTCATGAGTTTGCAGAAGAGAATTTTAAGATAGAAGAGGTGAATTACAAGCGTATAACTGAGCTTAACAAAGATAATTTTGCCAGTAAGAAGAATTTGCATAGTACAAAGATTGCTTATGAAAAGGCTAAAAATGATTTATCACAAGCAGTTTTAGGTCTGCAAGCAAGTAAAGAAAATGTAAAATTGCTTGAGATTAAAAAATTAGCTGCAATTGCAAAAAGTAATACTGCATTACAAGAGCGTAATTTAGCAAAAAGAGCTCTTGATAATACCAATATTCGTTCGCCAATTGATGGGATTATTGGTAATAGCTCTATTCGAGATGGTAATTTTATTAGACCTGCTGTTGTTTTATTTTCTGTTGTACCAATCGATAAGTTATATGTAAAAGCTAATTTTAAAGAGACACAGATTTCAAAGTTTAGACCTGGGATGGTAGCAACTATTGAGATTGATTCTGAATCAGGAACAAAGATTGAAGGGGTGATTCGTAACGTTTCTCCTGCTACTGGCGCTAAATTTAGTCTACTACCGCCTGAAAATGCAACAGGCAACTTCACTAAAATAGTCCAAAGAGTCCCTGTGATTATCGATTTTACTGTTCCAGATGACATTAAAGATAAGATAGTACCAGGAATGTCTACTTTAACTAGCGTGCGCGTTGATCAGAAAATTGATGAGAATAGTAATAGCAAAGAATAAATAATATCGAGAAAATTTATTCTATATAGTTTGGTCACATAATATTTCAAGCACGTTATCTAAAAGATTTTAAGTTAATGATGCTGCTTCTCTTTTTCTAGCGAGTATTTAAGACGTAACCGCTATATTTTATTGAAGTGTCGCTCTATCTAGTTGTTTTAAACCGCTTTATCTACGAGATTAAAATTCAAAGATTAATAATATAACTTTTTGCTGATATTCCTACTAAATTGTACGAAGTGTCATAGCGAGCGAAGCGCGGCTATCCATTTTTTAATTCATTAATGTGCTAAAAACTAACCTAGACATTCTTAGCCATTTGAGAAAGATGTCTAAACTATGCTAAAAATTCTACTACTAATCAGCAATATACTCAGTTTGTTTTGGCTTTTTTGTAGCAAGCAAGGCAAAGCCAAATTGTCCGATGAAAGCACAAATAGGAATTACTGCTAGCGCATAGATGAAATTCTCATGCGTATATAGTGGGCTACCATTTTCGGTTAATGCTCCATCCCAACTTAGTTCAAATGCTGATCCAATAATTGTATGGAAAAAATGTCCAAAAGACATATTAATGCAGTTTATTACAGCTATTGCAAGACCTGTTGAATTTTGATCAACAGATTCACTTGTTACAATAAATACTAGAACTTGATAGCAACATAAGATGCCCAAAAAGAACATTAGAGCCGCGCTTAAAGCAAAGTTAAAGTAATATCCTGGTATATAGAACAAAACAACAAATATTGTTATTGTTAAAATACCCGTTAAGAAGATCATAAGGTTTGTTGATCTTAGTAAGCTAGCTGCGATTGTAAGAACTGGTCCACCGAAACACATTCCAACATAAACAAACGATGTAATTGTTGTACTGTCCGTTTTACTCAAGCCAAACGACTGATTGAAGAATGGTATTGCCCATACATCAGCAAATCCTTCTAGAGAGCCAACCATCAAGCCACCAGAAATACCAATAAGAATTATTTTAGGATTAAGAATTAGTTTTAATACAGAATTAAAAGTATCCTTTGCAGTGCTAGTTTTTTCATTTTTATCTAACTTACCTAGAAATAAGATTACTGCAGAAATAGCGAATCCAGTAACTGCAAGCATGTTAAATACTGTATCATAGCCGAACTTATCAAAAAGATACTTCATAGGAGTTGCTCCAAAGACAGCGCCAACTAGACCAAATGAAAATGAAAACCCAAGCATTGGTGAGTGATATTTTTCTTCAAAGCAGCTTTTGATTATTTTGGCAACTGATAGGAAGGCAACGCCTGACCCAACACCAATTAAGAAGCGGCCAAATAATAGTATATTCCAGCTATCAGTAGCAACAAATGTAAATGTACCGATAGCAGCAGTAGCAATTGCTAAAGACGTAACAAATCTGAAGCTGAGACGGTCAAGCATTATACCAAGTGGTATTTGAGCGCCTGAATATCCCAAATAATAATAGCCAGCAAGTGTACCAAAGCTTGCAGCATCAATAGCAAATTTTTGAGTAATTTCTTCCCTTAGGATACCAGCTGATAGCCTTAATATAAATTGGAAGGCAAAGAATATACTTGCCAAAGACCATAAGAACAGAGCCTTTCTGAAAGAAATATTTGACATTATTAGTAATTGCTATTTGTTATTTAATAAGCAATGAATATTAACGTTTTGTATATTGTTTTGTCAATACAATAAATTTAGCGAAATATATTTACTACTTGGTAGTAATATTTACTTATCTTATATAAGATAAGTTCAAATTTTCTCAAGGTTTAGAAACGCTGCAAACAAGTTTAAGCATTTTCTAAATTATATTTCCGCATCCATCGGCTCTGCACCTGCTAAAGCTACTCCTGCATCAGCTTCAACTGGAGCTTGTCTGAGATTAGTAACATCAAAATTAACTACCTCTAGCATTAAAACTTGAAATTGATTGAAAAAATCTGCCGGTATAGTTCTACCGAGAATATCATTGCGTGGACCCATATCATACCTCCCCATAAGTATATACAACACACAATTTAAGGTTATCTTTTTTTTAAGATTATGTCAAGTTATGCATATATCTTGAAGCGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTC
>sequence34
AAATATAGAATATCAAAACATCACCACCAAACCAAAGCAGAAACTGCGCTAGTAGAAAGCAAAAACTCTCTAATCAGACATTATCTTGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAAGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTCGTTGTCTTCATTTGTTATTTAACAATACCAATTTTTGACCTACCTAAATTATGCACGAGATGCCTTGTTACAGCAGTTAATCAAGCAATGGGACAACCCGAAAAAGAAAGAGGCAAGAATCCTTTAAAGGCTCTAGCCCGCTATCGTAATACGCCAAAAGGCATAATTTTCGGTAAATATATGATTCATCAATCAACCGGAACTATTAAACTAGGCCAAAAAATTGAAGTACTTAAAAAATCGCCATCTACTCTCCAGACTACATAAGAGCATTGAATTAGGAATTGCTAAAAAAATACCTACAATAGCATAGCATTTTACTTTGCTATATATTTAAGCTAGATTTTAAAACATATCAACTTACTACCAAGAAAGCATGATTTTACACTATATTTTTATTGGCCTAGGAGGAGCATTTGGTGCAATATCTCGTATTGCCATTGCGAAGCTATTACCAAAAATGCTTTGGGGCATTCCCCTGCCAATTTTATTCGTTAATGTTCTTGGATGTTTTGTAATTGGTCTATTAACAGAAATAATGACTATACATTGGACTGTCTCATATAATGTTAGGTGTTTTTTAATCTCCGGATTTCTTGGAGGGTTTACAACATTTTCTTCATTTGCACTAGAGTTTGGATTGTTATGCGAAAAAAATGAATATGCTTCTGCAATAATATATGCAACTCTAAGCTTTGCCTTGAGTATCACATGTTTCTTCCTTGCCATAAAAGCAGTTAGACTTTTTTTGCGATAACTCAAGGCCTATAACAATACTAAGCAATAGTATCGTTATTGTTTGAATCTCCCATACAAGCAACAATCTCATCATACCCTTCAAGAGTTTTTGCACAAGCTCCTAAATCTCCTAAAACACATTTGCCCGCATTAGGAAGATGGTTTTGAACAGATTTTCTTGTACAATCAATACCTTTTACATAATCAGTATTATCAATCTCTTCATTACCTTCTTGAGATTTTGCGCTTACTATGCCTAATACTGTACCGATAATACTCCCAACTAACGCACATATTTCTTTGGGAATATCGGTTGCATCAAATAGTTGATACCCAATTAACAGACCTATAATACCACCAATCACTGCTCCATAAACAGCTGATGACATTACAAGCGCACCTGCTGCGGGTCCTCCTGACACCCCAGATGCTACTACAGTTACTAAAGCACCAACCAATAAATTGATATTTGAATTATTTTTACTCATTACATTATTTTTAGACATTTTAGACCTCCTCTAAATTAACTTAAAAAATACAGCTATAGGTATAGTAATTTAAGATACTACTCATAACCCATGATTATAAAATAAGAAAAGTGCCCTAGTATACCTATCTAAGTAGTTTAGGCTTAGTAAAAATAATTATTTTATTTGGAGAATTTATAAAATAGAATTTTTAAGATCCAAATTGAGATAGTTAACAAGGGTTACTTATAAAAACTATCAATGCCTGAACTTAATACGTTGATAAGCGTATTGAATGTTTTATTGAATATAACAAAAAAATGATGGACAAAAGTATCTTGAAGCAAAATAAAAAATTCTAATAAAGCAAAAGAACTCCTATGTTCAAACTTAATCTTAGATTTAGTAATAACAAAGCTAAATTCTTTAGCCTCTTTAAGAGAAAAATCAAAAGAAGACTTACTTATAGATTTTCTTCATAATCCACAAATTAATACAATCCATAAAAAAAAGCTCCATAAGTATATAAACTTACGGAGATTTTTTTTAATATAACTAATAAATTTTAGTTACATGCATCTTTTAGCTTTTGGCCAACTTTAAATCTTGGCTGCTTATAAGCTTTAATTTGAATTGGATCACCAGTTCTAGGGTTACGTCCAGGTCTAGAAGCAACTTCGCTTACGCTATAGCTACCAAAACCTACTAATGATACATCATTACCTTCGCCAAGCGCGCCAATAACTGAGCTTGTGAACATATCCACAACTCTTTCAGCTTCTGCTTTTGTACAATTATGCTTATCTGCTATGTATGATACAAAATTTCCTTTGTTCATTTATAATCTCCTTATTAATTTACTATAATTACTGGTGTTAACTGATTTAACAATCTAGATCTTATCATTACATTATTTACTTCATATAATAAAATAATGCTAGACCATGATTTTTTATAGGCAGTTTGGCTACAAAATCACACTATTTTGGATAATTTATCCGCTCTGTCTTCAAATGCTCCAATCATTTTTTCCGTAGCAACAGAAAAAACCATACCTATAACCATATCCAGTATCCTTGATTTGAAAGCAAAATCAATAGAAAAATCCACTTTTGCCCCATTATCTAGCTGTTTTATGGACCAAACGTTCTTCAAAAGTTCAAAAGGCCCAGAAATTGCAACTACTTCTATATAATAGTTATTATTTTCTGAGCTTGTAATTACCTTTGAAACATAGCTTTCTGTAAAACCTTTAAACTCAACAAACAACTCAGCGGTTAAAAAATCATCATTTTTTTCAATTATTCTCGCTTTTCTGCACCAAGGAAGAAATTCTGGGTATTTTTCTATATCCATTATAATGTCATTAATGAGACTTGCCTCGTATGGCATCACTCTTGTTTCCGTAAATGAATGCATATTAATTAATATTGTTTGAAAGTTGTTTATTTCTTGCTTGCTGCATTTTACGGAAATCATCGCCAGCATGATATGAAGAGCGAGTAAGGGGTGATGATGAAACCATCAAAAACCCTTTAGTTCGAGCTACTCTTTCCAAGTATTTGAACTCTTCTGGAGTCACATATCTATCAACAACAGCATGTTTTTTTGTTGGCTGTAGATATTGACCAATTGTCATAAAATCAACATCTGCTGCTCTAAAATCGTCCATAACTTGGACCACTTCCTCATTAGTCTCACCAAGACCAACCATAATTCCAGATTTAGTAAATATAGTTGGATCAAGCTTTTTTACATTATGCAACAAATTAAGAGAATGAAAGTACCTAGCGCCAGGTCTAATTGTTTTATAAAGTGATGGGACAGTCTCTATATTATGATTAAATACATCTGGTTTTGCTTCTACAACAATTTCCAGAGCTCCATCCTTTTTCAGAAAATCTGGAGTAAGAATCTCAATTGTTGTATTTGGTGCAGTATCTCTTATAGCTTTTATACAATTCGCAAAATGTTCTGCTCCACCGTCAGGTAAGTCATCTCTATCAACTGAAGTAATAACCACATGTTCAAGTCCTAGCTTACCTACTCCAGCCGCCAATCTCTCTGGCTCATGTGGATCAAGCAAATCTGGAAGGCCTGTTTTAACATTACAAAAAGCGCATGCTCTTGTGCATACTGACCCAAGGATCATAACTGTTGCATGTTTTTTTTCCCAACATTCCCCTATATTAGGACATGCGGCTTCTTCACATACTGTATTGAGCTTTAAATCATCAATCAGTTTTTTTGTTCCTTGATATCCCTTTGATATAGGAGCCTTAACCCTAATCCAATCTGGTCTTTTTAATGTCTCTGATTCTTTCATAACTTTATAATATGCGCTTTTGATGCTAAATCCTCGATACCTATAATATCATTCGTTGTTATAAATGTCTGCAGTTTACTTTGCATTATATAGGAAGAAAGATATTTTTTTCTAGAATCATCTAAATGAACAAATAATTCATCAAGAAGCAATATAGGCGTTGTCTGAGTATTTTGTATAACAGACTCTATTGAAGCAAGCACAATTGATATAAGCAGCGCCTTTTGCTCACCAGTCGAACATAACCTTGCCTGTTGCGCTTTTTCTTTATGGAAAACATTTAGGTCAGCTTTATGTACTCCAAAACTTGTTCTTCCAGAGTAAAAATCCTTTTGTCTATCGTCTTTTAATACCTGCATATAACTTATCTCAAAACTATCCCATTGTTCCTCTGACTCAAATAATGAGGTAATAGATAGATCTGCCTTCGGAAACTCTGTCTTTAAAGAATCAATAGCATCTTGCATTAAACTTATTGCTTCTTCTCTGGCATTAGCAATTTTTAGAGCCTCTTGTGCCATTTTCTCCTCAAGCGTTCCAAGCCATGAATCTTGAGAATTTAAATCGCCATTTGCTAAAGATTTATTTCTCTCTCTCATGTAATGATCGTATTTTGCAATGTTCTTTGCATGATTTGGGTTAAAGCTATAAACAATTCTATCAAGAAATTTCCTTCTAGCTGACGATGAGCCTAAAAATAACCCTTCCATCTGCGGTGTAAGCCATATAACATTTAGTAAATTGGATAATTCGCTGCCAGAGATTTTAGAACCATTATACAACATCTTTCTAGAACGGTCATTCTGAGTATATGAACTTATAATCTCAGCAACACCCAGCTTACTTTTTAATTTAAGATGTGTAGACCATTTTTGTTCTTCATGCTTCCTTACTTCATCAAAATGCGCAGATTTCAAGCCTTTACCAGGTGACAGATACGATATAGATTCAAGGATGTTTGTTTTTCCGCTACCATTTGGACCAACAATTATATTAATACCTTTATCAAATTCAATAGACCATTCAGAAAAATTTCTGTAATTTTCCATTGATAATTGTTCAAGATAAACAGGCTTCATCGTGCGATATATGTAATTTTCATTTGTTTGATAGTACGTGGTGTTGATTCAATTATCTCTACAATAACATCGTCATCAAGATCAATTACATCACCTTTTTCCGGTACATTTCCTACCTTTGCCATAACTAAACCGCCAATTGTATCAAACTCGTCATGCTCAGACTTTAGCGTAACACCAATAACATTCTCTAGCTCTTCTATTTCAACTCTTGCACTTGCAACAAGCAAACCTGGGCGCAAAATTTTATAACTATCAACATCTTCATCAATATCATGTTCGTCGTCAATCCTACCGACAATTTCTTCCATTATATCTTCAATAGTTACTATACCATCCGTTCCACCATATTCATCAACAACAACTGCAATATGGGTTCTATTTACTTGCATCTGAGCAAGTAAATCTATTAGCTTCATAGAATGAGGAGAAATAATATGTTTTCTAATTAGTTTTTTTAGAATAAATTTCTTTGAATGTGCGATAACTTCAAATAAATCTTTAATATGGATAAAACCTATTATATTATCCAACCTTTCTTTGTATATTAATGTTCTTGTGTGCGAGTGTTTAACTATCAAATCGCTTAATTCTTCAAGTGTTGCATCATGGCTAACAGAAATAATATCTGATCTTGGTACCATTACATCTTCAACTGCTTTTTCCGAGAAATTATCAATATTATTGACTATTTCATCTTCAGAATCATGAATTAATGATGTAGGGCTTGGCTCACTAGCTTCTGTTGGTAATTGTTCTTTATCCTTACCACGCTTAAATAAATAATATTTCAAAAATGTTTTTAGGCCCATCAGGCTTTTTATTTTTGACTTACCACTTCCCGTGGGGCCTTCCTTATCTGAAGCTTTTGGCATAGTATTATCTTACTTTTTATTTTAGTATGGCGATTTTATATTATAGTTACTCAATATTTCTATCTCCAGCGCCTCCATAATTTGCGCTTCTTCATCTTCTATATGATCATAACCTATAAGGTGAAGTATAGCGTGGACCAGTAAATGTTTAAAATGATCTTCAAAACTTATTTGCTTTTCCTTTGCTTCCTTCTTAATCGTTTCATATCCAAAGGCTATATCACCTAAATACATATAATCAGCATCAGGTTTAAATTCAAGTAAATGCCGCCAATTAATTTCCAAATCTTGAAAAGATAGAACATTTGTCGGTTTTTCAACACCACGAAATTCTGAATTTAAAGATAGCATTTTTTTGTCATCTGTTAGCAAAACTGATAATTCTATTTCTTTTACTATCTTTAAATTCTTGTATCTATTAATAATATTTTTAGTAATATCCGAGATTAAAGCAATATTTATTTCTTTAAATAAATTCCAATCATCCAATTCCGATGCTATCTCTACCTTTATGTTCATAAGTTAATTACAATTTAGATGAATTATGATATATTCCTTTATTATGTCACTGCAAGTAAAATGCGGCAATCTTTTATTACCCACTTTCTTCACTGACAAAAACAATTATTCTATAGAAACTAAAAAACATGGCTGAAGGAGACGATCAGGATAAAGACGCCAAAACCGAGGATCCCACCCGAAAGAAACTCGAAGATGCGGTAAAAAAAGGTCAGGTAGTTAACTCTAAAGAGGTAACTAGCTTTGCTATGTTCTTGCTTCTAACAATCGTAACAATATGGATAATACCCTACTCACTCACGAAACTTGGCAATAAGCTTAGGTTTTTCGTTGAAAATGCTGGTAATATTCCTATGGACCAGGGAATGTTATACATATTAATTCCAAATATTATCGAAAGTGCGTTGATATATTTAAGCCCCCTATTCCTTATTGTTATTATTGCAGCATTTGCATCATCTTACTTCCAGCATGGAGAATTTATTTTTTCTGGAGAAAGCCTTATTCCAAAACTCTCAAAAATATCACTAATAAAAGGATTTGGTCGCATTTTTTCTATGAAAAGCTTTGTCGAATTCTTAAAAGGCATTTTCAAGATTGGACTAGTTGGTACATTTGTTCTCTTAGTCATACTTGCTGATGTTAAAGAGCTAAGTCAATATCAGGAGCTTTCTACTGACGGGATATTGGATCAACTATTCACTATGATCAAAGATATTATAATATTGGTTACGATCATTATGGCTGTAATTGCTGCTATAGATTTCTCATATCAAAGTTATGAGCATTTCAAAGAGTTAAAGATGACCAAGCAGGAAGTAAAAGATGAACATAAGCAAACTGAAGGTAATCCAGAAGTAAAACAAAAACTTAGAAAATTACGTCGTGAACAATCTCAGAAACGGATAAAAGTAACTGTTCCTCAGGCAACGGTTGTTATAACCAACCCGGAACACTACGCTGTTGCTCTTAAATATGACCCAAAAAGCATTGAAGCACCAATATGTGTTGCAAAGGGACTAGACTTAATTGCACAAAATATCAAAACTATAGCAAAAGAACATGACATTCCGATTGTTGAAAGTCCGCCACTAGCAAGAGCTCTTTATAAAGATGTAGATTATGACCAAGAAATACCAGTTGAACATTTTGAAGAGGTTGCTAAAATCATCTCGTATGTGATGTCTCTTGAGCAAAAAGCGAAAGACGCCAAAATGAAGTAGTATGGTAATAAAATGATTAAAATATCCCCTTCTATTCTTTCAGCTGATTTTGCTAATTTAGAAAAAGAGATTAAGGATCTCGAAAATGCTGGAGCAGATATGATCCATATCGACGTTATGGACGGACATTTTGTACCCAACTTAACATTTGGTCCACCAGTAATTCAAGCTATAAGAAAACATACTAAACTACCATTTGATGTTCATCTAATGATTGAATCTCCGGAAAAATATGTAAAAGATTATGCAGAAGCTGGCGCAGACATTATTACTGTACATCCTGAAGCTACTACTCACTTAGATCGAACAATCAACGAGATAAAGAAATATGGTGCCAAAGCTGGAATTTCTTTGCTTCCTACAACATCTGTTGGACCATTAGAATATACCATAGATAATATTGATCTTATTCTTGTGATGACGGTAAATCCAGGATTTGGAGGACAAAATTTTATCAACAACCAACTTATGAAAATTGAAATGATTGCAAATATTATCCAAGAAACTAATATAATTCTTGCTGTTGACGGCGGAATCAACGATAAAACTGCAAAATTATGCATTGATGCAGGAGCAGATATGCTTATATCAGGTAGCTATATTTTTAAAGGAAATTATAAAAAACAAATTGGTCTACTTAAAAACTGAGAAGATATAACAATAATTATGAATACAGATACGCAAATTACTGCTACAGCTAATGATAGTGAAAAAAAACTGACAACATTACCTGAAGGTTTTGTGTATTTAAGTCAAGTTTGTCCAACTATTATACAAGATCTAAAATATGCCTCTAATGATAACTTCACTGGGACGATCGTAAATGGATATAATAAAAATTCTGTAATCCTGACAAAGGAAGCATCAAAAGCATTACGGCAAGTGCAAGAAGAGTTAGAAGCAGAGAATCAAGGGTTACTTATTTGGGATGCTTATCGTCCAACTAGAGCAAGTGATTATTTTCTTGAATGGGAGCAACAGCCGGATAATCTTCAAATTAAAGAGAGATTCTATCCACACTTAACAAAAGAAGAACTTTTCAAGAATGGATTTATTGCACCAGGACACAGCACACATAGCAGAGGCTCAACAGTTGACCTAACAATTATTGATAAAGCATCAGGGCAAGCACTTGATATGGGGACTGATTTTGATTTTTTTGGTGAAAACACATATACAAACAACGAAAATATATCTCAAGAAGCGCAAAATAATAGAAAATATTTTGTAAATCTCATGGATAAATATGGTTTTGAAAACTATCACAAGGAATGGTGGCATTTCACTCTAAGAAACGAACCATTCCCTGATACATACTTTAATTTTCCTGTTGAATAATTAGAAAATGTCTTTGCTAATTTCATTTCTTTTTCGACTATGTTTATAGTCAGCTGGCGATTACCAAAAAAAGTCTGAGAATTTGTTGTAATCATAGAAAAAAGCTGATTATACTGGTATTTTAAATATAAAGGAGCGGCATGTATAATTTAAAAATATTTTTTGTATTAACAACTTTAATCTTCTTGGTTTCAATAAAAGCGGTAGTAGCCAAAGACTTTGAATCTGAATCAGATATAGAAAATAAACAAAAAAATAAAGTGATAAAAATAAGCAACATAGATCACATTGTGCTGACAGTAAAATCAATTAATTCTACCATCACTTTTTACAAAGCGCTAGGCATGGAAGAAATAACATTCGGGAATAATAGGAAAGCTTTGAAATTTGGTAAACAAAAAATCAATCTACACTAGTTTGGAAACGAGTTTAATCCGAAAGCACAAAAACCAACGCCTGGATCAATTGACCTATGTTTTATTGTTGAAACACCTGTAAATGAAGTTGTAAATGAGCTAAATGCAAAAGGTATAAGGATAATAGAGGGACCTGTTGAAAGGACCGGAGCTATTTCACGTTTAAATTCCATTTACATTCGTGATCCAGACCAGAATTTAATTGAATTATCTAATCGTATTCTTTAAACTAAAAGAGTATAAAAAATTATACATGAGTGGCTATCCCATTTCAGTTTATAATTTTATATATTCTGTAAAATTGTCTACACCTCCTTTTGCATGATGATATTTAATATTTAGCTGATATTCACCAGACATCCTATTACCTCTTAGCTTTTTACCTATAAAAAAGAAATATCTTGCCTGATATTTACCGAATAGATGGTCTCTAGTGACTATAGTTTTACCGGAGCTATTGGCTATGGTTAATTCTATTTTATCTCCCTTATCAACAGAAAAAATATCAACAAATCCAACTAAAGAATTCGGATATTCTGGTTGCTTTTTTATATAACGACCTTTTCTAATCTGCTCTGAATGTGGTTGATTAAAAGTAAAACCATAATTATATACAATCCCAGTTTTTGCATTTTTATGTATTTTATCTTTATCCTTCCACATAGACTTAGGCTTATTACCACAGCCATCTTGATCACCATAGAATGGATCTATTTCTTTCGAGTTTTTACGCAGACTAATATGTAAGTGAGGATATTCTGTAAATCCAGAAAGCCCTACTAAACCCAATACTTCTCCAGCTTTGACTTTCTGGCCTTTTCTAACAGTTATTGAATGTTTTTTTAGATGGCATAGCTGAGCTTCATATTTGCCATTTGAAATCACTACACCATTGCCGCATTCAATTCCTTTTACAGAGTTTTTTCCAGCTATTCTCACACTGACATCTGAAATTTTATTTCTAATCGCCCTTACTTCTCCTTCAAATGGCGCAAGCACCTTTACCCCTTTTTCCATCTGTTTATAGTCTTTTAGAGCAAAATCAGTACCCTTATGACCATCATATGTATTTGGTCCACAACGAAAGTCAACTTGCTTATTTCTTAAGTAATGCCTTGGCAAATTTGATATCCAACAATCTTTTCCAAGATCACAGTCAAGAGGGAATACGAGCTCAATCGCAGCCGCACTAAAGGAAAAAAGTAATATTATAAAAAAAGAACTTACTACTCTCATATGCATATTATAGTTTTATAGTAGATGCTACTAGCAACTAGTTAAATAATCATTAAAACAAGTCATTTGTATTATGAACTTTTACTATCAATCTTTACTATTTACTGGCAATTATCGATCATCTATTATAAAACCTTGAAATTTCAACAAAATACGAAAGCAATGAAAATTTTTGTTTGCCAGACCGCGCCAAAAGTTGGAGCCCTTAAAGAAAATGCTACAATAATTCGGCAGAATTATAAGAAGTCTCAATTATCAGCTGCAGAAATATGTGTATTTCCCGAATTATGTATTACAGGCTATTTAGCAGAAGATTTATTCCTAAAGAAAGATTTTGTTGATAAGTCGCATAAGTATGCACAAGAAATAATTCAAGAAACTGGAGAAACGTACCTTTTACTTCCTACAATACTGCGTGAGGATGATCTTCTATATAATGTGGTAATTATTGCACAAAATGGCAAAATAGTTAAAACTACTTATAAAAATGAACTACCAAACCACGGTGTATTTGATGAAAGAAGATATTTTACTCCTGGAAAATCAAATATCATTAATATTGATGGCATCAAAATTGGTATACCTATTTGTGAAGATATTTGGCACTCGTCTGTTTGTACTGACCTAAAAAATCAAGGAGCAGAACTTTTTATTGTTCCAAATGCCTCCCCATATGAAAAAGATAAGATGGCTATTAGAGCTAAACTAGTCCGCAAAAGATATGAAGAAACTTCTATTCCAATTATCTATTGCAACCAAGCTCTTGCACATGATGGAATTATATTTGATGGAAGATCTTTTATTTATGATTCTGAGCTAAAAATCATAGGAAAAAGCTTTGATACAGATGCTATCGAAGTTGAATATAAAGATAAAAAGTTTGCCTCAGATAATTCATTTTTAAATACAAAAAATGTATATGAAGAAATATTAGACGCCACTATGCTAGGAGTTAGGCAATATGTACATGATAATGGCTTTAGAAAAGTTATCATAGGTCTATCTGGAGGAATTGACTCAGCAATTGTAGCTTTCATTGCGGCAAGAGCTTTAGGTAATGAAAATGTTCTATGCTATATGCTTCCATCAAAATTTACATCTCAAGAAAGTCTCGATGATGCATCGCAGCTTACAAAAAATTTGAACATATCTCTAGAGTCTATATCTATACAAAATATTGTAGATGAGTATGAGAAAGCCTTACCTTACAATAAAAATTCTATTACATATCAAAATTTTCAATCAAGAACCAGAGGCACAATTTTGATGGGACTTAGCAATGATTTAGGCGCGTTGCTTCTTACAACTGGTAATAAATCTGAATATGCAACTGGCTATGCAACGATTTATGGAGATATGAATGGAGCATTTAATCCAATAAAAGACTTATATAAAACTGAAATATTTGAACTAGCAAAATATATAAACCTACAATCTGAAATTATACCTTCAAATATAATTACCAAACCACCAACTGCAGAACTAGCACCAAATCAAAGAGATACTGACTCATTACCAAATTATGATATTCTTGATCAAATATTATATCAGCTAATAGAAAATCGTATTTGTCACGAAACGTTATACTCTAAATTTAATAAACAAACTGTAGATAAAGTATATAAACTACTCAAAATTTCAGAATTTAAAAGATTTCAATCAGCACCTGGTATTAAGATTTCTAGTATGCATTTTGATAAAGATCGCAGATTTCCAATTACAAATTTTTATTCCTAAATTCTTTGACCATAAAATTATATATATGCCCAAAAGCTAGTTAAAATCAGGCAAAACTATTGGTATGTAAAGATATTTTTTTAAACACGATAATATCCATTTTACTCTCTATTAGTAAACAAAACATTAACGTAAATTTTTATTTATCTTTTTTTGGCTAATTAACTTTCTATTAACTTTTTCACCCCTACACTTGTAATTAAGGAGCAAATAAATCAGCCCCTTAAATTGTAATTAAGTTAACTAGGAAAGGTAACTGTCATGGGAGTAGAACTAATAATAATTGGAATAATAGCAGGCGCATCAGTTCTTATATCAGCAATATCTGCAGGTGTATCAATTGGTACAATATTCCATTTCAAAAGAAAATTTAAAGCTGCGGAGAAAGTAGAAAGCAAAGATACTACTGATATAACAATAAAAAATAAAGC
>sequence35
CACCTAAACCTTCAGATGAAAGTTCTGGGGCATCTGGTTTTTTTCTACTACGAATCTCTGCAAGCAAATCTCCGCGCGAAGATTTTCCTGTACTTTCCTTTGCTACTTCTTCATTTTGATTTAAGTTTGGTGGTGGTGGCGGTGGCTTCGGTATTGTACTACTATCTATGCCTACTACCTGCTCATTTGATAACTCTGGAGTTTCAACTCCTTTACTTTGATCTAAGGCTTGTACTTTAGTTTTACTTGGAATTTTCACTCTATCATCAGTTTTATTTTGAATGCTAGTAGTTACTGACTGTAAATTTGTCTTCGTCTCCTCAATTTTTGCTTTATTAGTAAAGGAAAAAGCATTTCTGATAGCATTTACAAATGTCGCAAAAAAACCATTTTCAACTTTGAGGCCTTGATCAACTCCCTGAACAAATTCAGACTTAGCTCTACTTATGTTCCAATTACTCTTAGATGCACCTACTGCTTCTGACAACTCGCCTAAGCGTGCTTGCAAATGAGCTATCTCATTTCTTACTGCATCATTTTTTTCTATTTGCTGATTCATCTGTTCTTGTGTTAAAGAACCTTCTTCACCAGGTTTAAATGACTCAAGTAAGCTATCTTGATATTTATTCAGCTCCTCTTCTTGAGCTTTAAGCGATTTTAATGCATTATGCAAAGCTCCACCCTCTTTAAAGGCCGATGTAAGCTCGGAAGAGTCACTAGCTCTTACATAATCAGAAAGACTATTACCAAATCCTTTGTAATCTTCAACAGATGCCATACAACTACTCTCAAAATTTTTAATATACCTCTTAAGGTACAATAAGAATTTAACGTAAGTCAACAAAACCTAATTTTTAAATAAAAAAGTAGGCAATAATTTACAAATTAAGAAAATATTATGTTGTATTTTTTATTCAACTGCTATAAATATGTATTTAGCACCAACTCAAATTTCACTCTTGATCTTCGTATTTCAAAAATATGCTTAAGAACTTATATAAATGCACAAGCATCGAAGAATTTTGCGTAGATGTAAGTATATAATTTCAATATGTATTTATTATATAGCGACTAGTTGCACCTCTGCATAATCTGTAAAACTGTTTTTTTAAAATCATCTTGAAGTATAGAAAACTTAGCTTTTTCCAGACCTATTTTAGGAATCACAATTAATGCTTTCATATTTATATCTACTGTTGGATCTTGAATTAATGTATTTACAAGATGCTTTATTCGTCTTTTGGCTTTATTCCTAACAACTGCTTTTTTAGAAAATTTTCGACTAATTTTTAAGCCTAGAAAAGTAGTATTTTCAGATGGACATTCTAGAGAAGAGATATTTTGAGAGATGATAATAATAAAGCATGGTCCATGTTTCTTGGATCCATGCTTATTTACAAAATCAAATTCTTTCTGATTTTTTAAAGAAAAAACAGACACATTGACTAATTAAAATTTACGCAGTTAGTTTTTTACGGCCTTTAGCTCTACGGTTTTTAATCACCGTTCTGCCTCCAACTGTAGCCATTCTAGCTCTGAAGCCATGCCTTCTTTTTCTAACTATATTACTTGGTTGAAAGGTACGTCTCATATTATTAATCTTGATTTATTTTTCTAATATCGACGCACAGTTTAATAAATATCTGTATGAATGTCAATTTAATCTTAATTGATTTTCTCGGTAAATGACTATTTGAATTGCCACACTCGAAAAAATCTCGTAAAATTTTATTAATTCAACTAATATAACTGAACAAAAATGCTTTACATATTTATTTTTACTTTACTTGCAACAACTTCGCTTCTTCTCGGACTGATTTCTATGGCAGCTGGAGAGAAATATAACAAAAAATATGGAACAAAATTAATGTCGTTAAGAGTTAGTTTTCAAGCAATTGCAATTTTATCGCTCGCAATAGTATATTTTTCTAGCTAATATAACCGAATCTCTTCATTACAAATATTTTGTAAGAGTTAATATCCACAAAGATTGTGGATAACTATGTGAATAACATGTTATTTTATTGCTATACTTCCAATACTCTTCAGCTTCATGACTAAGATGATTAAAAAATGAGCGTCGGGCTACAGCCCGCATAGTTATTGTGAAACGGGCGCTAGTAATAGTAGCAACCTATTAAAATATTCTTTAATAAATAGTAGTAAACTTCATTTTGTGTATAACTTAAACCATTTTTAATAATAAACCGCTGGATTTTCATCACAAGCAAGCAAGAATTCATCAATTATTTTTCCTAAAAATTCGCTAAAACAATAGACAACTAAGTTATTGCTATGTTATGCTGCGGAGACACAAATTTTTAATAACAGTCTAAATAATGAACTACGCAGGATATATCATTACTTTTACCAAAAAAACTACTACCGGTGTGTCCGGTATATAATTCTCTCTGCACAAGCTTTATTAATTTCTATATTTATTTTAAATTTTACTAAATTACTCACATGTTTCGACAAATGCCCGTAATTCTAGCGATACTAATTGCTATAATTATTTCACTTGGAAGTTTTATACCCAAAATTGTTGCGGTAAATCTTTTTGCCATAAGTCTTACTATTAAATCTGCAATTATTTTTGTACTTCCTTTTATTATTTTTAGCCTTTTATATAAAGCATCTGTTTCTCTTGCAAAAGATGCGTCTACTATAATTCTAATAATATTATCCGCTGTTGTTATTTCTAATTTTATAGCTACAACACTAACCCAGTTTATTGGCAGTTGGATTTATAATTTTGACATATCAATAGAAATGCCAAATGATAAAGATTTACTTCATGCAGAATCATTGATTAACTTCCCAACTCTCATATCAAATCATATAGCAATGTTTTCAGGAATTATTCTAGGAATATTATCTGCAAAAATTGCACCTAATGAATGCTTACGTTTTGCAAAAATTTTAGAATTATTGGTTAAAAATCTCCTGAAGGCAATTACTTTCCTAATCCCTATTTTTGTCACAGGGTTTGTTGTGAAATTGCAGTTTGATGGCATAATAATGCAAATTGTTAGAGATTATACTTCGATATTTGCAATAGTTGGAGCTACTCAATTCGGTTATATTATACTATTATTTTTCATCCTAAATAAATTTAAATTTAGTAAAGCAATCCGTTCTATAAGAAATATGCTTCCAGCAGCGCTTAGTGGTTTTAGCACTATGTCCAGTGCAGCTAGTATGCCTTTGACGATAATAGGCACGGAAAAAAATGCAAAAAACAAAGATTTAGTTCATACCGTAGTACCTGCAACGGTAAATATCCATCTTATTGGGGATTGTATAGCTATACCTTGCTTTGCTTTTGCAATATTAAAAAACTTTGATATAGCACAACCCGATATAATTGCATATTTTATGTTCACTATTTACTTTGTTATAGCAAAGTTTTCTGTAGCTGCAATTCCAGGAGGCGGTATAATAGTGATGCTACCAATCTTAGAACAGTATTTAGGGTTTAACTCTGACATGCTTTCATTGATTACTGCATTATATATTTTATTTGATCCAATAATCACTAGCGCAAATGTTCTTGGAAATGGTGCTTTTGCCAAGATTATTGACATAATTACTCCCAAAAACACTGAGGAAGAATCATGAATTTCAAAATAGACCCAACTTTAGAAAAAGACAGTGTATTTATTAAAAATCTAAGACTATGTCAATTGAGACTCATTAATAACTCAGACTTTCCATGGCTAGTGCTTATACCTATGAAAAATAATTTGGTAGAAATCACCGATTTATCCGATGATGAATATGTTCAAATGAATCATGAAATTAAAAATATAGCTGCAAAATTCAAAGAAATAATGAAAGCAGATAAGCTTAACATAGCCTCAATTGGCAACGTAGTATCTCAACTACATATTCACATTATTGCTAGGTATGCAAATGATAAATTATTCCCCAAACCTGTTTGGGGCTCTGAGCTAGTAGCATATTCAAAAGATGAGTTAAATAAAATGATAGATAGTATCAGAGAGTTCTAACTCTCTGCGGGAAGATAGCCATATTTTGCGCTTTACTAACCATCGTAGCAAGCGAAGCGCGGATATCCATTTTAACAACACGTATTGTTTAGAGTATAAAATTAAAAGATTGCCACATCGCCTAACTTTTAGAAGATGACAAAATTTTTTATCATCGCATATTCATATAAGCAATAATCTAGCGTTTTTTTGAATCTTAATTACATAAAAACACACTACTTAAAATCGTCTAAACCTCCTTGAGAAATTAAGGTATTCAGAGGTAAAAACAAAGGCATTGGAAGATCATTTAGATCATACCACCCCCAATCTATAACTTTTTCAGGCTCCCTATTTACGATTTCCTGCCCCTCATCAAAGGAAGCACACATAAAAATTGAAACATAATGTTTAGAGGATTCAATAAAAATATCATTCGTCAAAGAAAGAAATTTTGGTTCTCTTATATCAAAACCAGCTTCCTCTTTGACTTCTCTTATTGCGCATTCTTCAAAAGACTCACCAAATTCAAGATGTCCACCAGGTGGACCAAACTCACCTTCGCCATGCGTGCTAGTTCTACGACCAAGTAAAAGCTGATTTAAATCATTAAAAACCAATACACCTATACCTACTTTGGGCCTCACATTACTAAACCTTGCTCTATATAATAAAGAATAAAATTCTATTTTCTATTCTTTGAAAGTCAAGATCAAACAAGTTAGAAAAATTCATAAAATTGACATAGAAAAAAAATCCAGTTAATATCATTAAATCAATAAATAATTTTTATCAAAATCTGGGTGGATTCATGGGAAAACGAAAAATTACATCTGATATCACAGAAAAAGCCAAATCACTTAACTTACGTCTCGATCTTTCAAATCTACCAGATATAGAAGATATTGGCCCGCACTTATCTAGAGACAAGGTCGGTGCTACTTTCAATCTATCATCCATACCAGAAGATGAAGCTGTCAGCTTTGCAAGCGAAGATGGAGAATTTTCATCAGAATTCACTGGTGAAGATTCTTGGAGCGAACGAGAGTGGAATGAAGTATTTGTATTAGATGCTTTGGGAGAACAAGAATTTATAGATTTCGAGTGAATTAAACGAAATCGGAAATATTTTATTTCTTTGATTTTATAATCCCTACCAATAATACATTTTAAAAATTCATCAGATTGCTTCATAATTAAGCAACAGCCAGTATGGCTTAGCTTTCACGACTATTTAGGCACAAAAATTCAATATTGCTTTTAAATATAATATCTTATATCTTTAGCAACTTTGATATAGGAAGTATATTGTATTAACTTATAGTGTCTAGTAAATCCATAAAATCATTTGCTATATATTCAAATTTAAAAATATGATAAAAAATTTACCATTTCTACTTGTAGTTTCGCTTCTTACATGCTGCGTTGAAGTAGATATTTCAGTACCAAGCTTTCCAGATATTTCTGATTACTTTAATATATCAGATGGCCTGACTCAAATGACTGTTGCCATGAATTTTCTTGGCTTCTGTATTTCAAGCGCTATATATGGACCTCTATCAGATGCTTTTGGTCGCCGCAAAATAATGCTATACGGTAATGCAATAATGATGGCAGGTGCTATTGGTTGCACGATTGCAGATAGCATAGAACTATTACTTCTTTCTAGACTAATACAAGGCATTGGAGCAAGCACTTCTGCAGTTGTTGCCTTTGCAATGGTAGCCGATGCATATTCTTCTGAAAAATCAGCAAAACTTATTGGCACAATGAATTCTCTAATCACAGTTTTCATGTCAATTGCACCTATTGCTGGTGGCTTTATCAATGAGACTTTGGGCTGGAGAGGAAATTATTCAACAATAGCGGTAATATCTGTCATATCTTGGATAATGCTTTATTTCTGGCTGCCAGAAACAAAAGAAAGGCTTGAAATATTTAGTACCAAAAAAATTGCAGGAGATTTCAAAACTTTAATGTCTGATAAGGCATTCATGTACGCTTCGCTTACACCTAGCTTAACTTTTTCTGGATGGATGAGCTTTGTCGCTTGCGGCTCTTTCCTCTATATTGAAACATATAATCTTCCTATAATGTATTATGCATTACATCAAGGAATTATTATCTCAGCATTTTCTGTATGTAGCCTTTACTCCGGTCAGATAAATAAATTAATAGGTGCTCATAATTGCGTTGTATACGGCACTATATTAATGATTACAGGTAGCATTAGTATGTTACTTGTATCTTTACTTCTTGATATTGCCCCATATTTAACAAGTATTTCAATGATTATATATGGACTTGGAGCAGCAATTTCATACCCTGTAGTCTTTGCCCGTTCATTAGAACTTTTTCCTAAAATTAGTGGAACTGCATCTTCTGTAATAATGGCCATACGTGCACTATTATGCGCAGCATTCATTGCCGTCTCTAGCATTATATATCATGGAAAATTATGGACTGTCGCGGTCATGATACTCACAGCAACACTATCTCTTGCAATACTTACATTCTTGTTGCTCAAGCTAATTTCATTTGATAAAAAAGAATCCATACCCAAATTATAAAAGCATATGAAAAAACAAATAATATACCCTAAATTTATTCCTAGAATTTTTGCTATGGTAATAGATTTAGTAATACTTTCTGTTACTCTTGCCCCCTTAATGAACATTGTTTCACAATATGTTTTCGTACTTCATTTTCAGGATTTCTTCATTGCAAGCGGAATAAATACATCCGATGTAGAAGCTATGGCAGCAGCATCCAAAACACCAGAATTTGCTGCGCAAATAACTGCTTCAAAACTTATCACATATATTGGTTCACTTTTCATTGTGAACACCACTTTCATGGGAGTATATTTTGTTTTCTGTTGGCGGAAGTTCTGCGCTACTCCTGGAAAAATTATTATGAGAATGAAAATTGTTAATGTTGATGATTACAAAACACCCACTACATTCCAACTGGTTAAAAGGTTTTTTGGGTATATTACTGCTCTAATTGGAATGTGGACTATATTGTTTAGCAAGAAAGGTTTAGCATTACATGACAAAATAGCAGGAACCGTTGTAATTAAGAGCTAAATAGCACAAGATACCATTACGAAACACTTAACATAACATAAACATTTTACTATCTAAACTTGATTTAATAATACTATCTTGTTATTATAATCTCAGTCTAAACGTAATAACATTTTATATCTTTGGTTATCTTGAATAGAAATTGCTAATTTTGAGAAAAATAAAATGCGACTACTTACGTAGATTTGAGATTATAATAACTGAGTCTTTATTATAGGAACATTCAGTAATGCATAGTGTTTTTTACAGCGTCTTACCAATCTTTTTGATTGCCTTTCTAGGTAGTATCATAAGGAGAAAATGGCTTACATCAGATGAATTTTGGCGTGGGCTTGAGAAGCTTTCTTTCTATGTTTTATTCCCTTCTATGCTCTTTGAACATACATTAAAAGTAGATTTTAGTAGCTCTGAATTCACAAGACTAACTTTTGCACTAATTATTGCAAACCTCCTTGTAGCTTCTATGCTTATTATTTACCAATTTAAAAATGAATATGATCGCATTCAATTTACATCTGTTTTTCAAGGAGCTACTAGGTATAATAACTATATCTTCTTTGCAGTTGGTGCAGCATTATTTGGTGAAGAAGGGCTCAAAATAATTGCAACTATATCACCTTACCTACTAATCCTAACAAACATAACAGCTGTAATGTCTTTTGCTCATTATATCCCAAAGGATGGCCGCAAGCTGACTAAAAGAAAAAGCTTACTTCTCATGGTAAAATCAATTGGTGCAAACCCGTTTGTTCTAGCAAGCATCGCAGGAGTATCTCTAAACTATTTCCATATTACTTTAAATACTGGCGTCGAAAAAACTATTCATAATTTTTCTGATTCAGCGCTTGCTATCGGTATACTAATTGTTGGAGCGGGTATTAAACTAAAGATAAAACCTGAACATTTCAAACAGATAATACTTACAAGCGGCGTAAAATTAATCCTAATGCCAATAGTTACGTTCATTGTACTGTGGATGATGAAAATTACAGGCACAAGCAAGTCTGTTGGTATATTGTTTAGCTGCCTACCTTGTGCTAGCTCTTCTTACATTTTATCAAGACAGCTAGGAGGAGATCCAGAAACAATGTCCTCAATAATAACTTTCACAACAATCTTTTCAATCTTGTCATTATCACTGCTTGTGTATATCCTTGGTTAGAAGAAGATTGTAAAAACATTTTTATAAATTACTAATAGAATGTAGATATGGATAATACAAAATCCCCAGAATATATTAAAGCTCTTGAATATCATCAAAAAGGACAACCAGGAAAAATTGCTTTAAAAGCAACTAAGGAACTTGTATCTCAACAAGACCTTGCACTGGCATATTCTCCTGGAGTTGCTGCTCCTTGTCTTGAAATTCAAAAAAAACCTGAAGATATCTATAAATATACTGCTAAAGGAAATACTGTAGCAGTTATTTCAAATGGAACAGCTGTACTAGGACTTGGTGCAATTGGTGCTAAAGCGTCCAAACCGGTAATGGAGGGAAAAGCGGTATTATTTAAGAAATTTGCTGATATAGATTGCTTTGATGTTGAGGTTGATTGTCCTGATGCAGATGAATTTATCAATGTTGTTAAGCATCTTGGACCAACCTGGGGAGGTATCAATCTTGAAGACATAAAAGCTCCAGAATGCTTCATTATTGAAGAAAAGCTTAAGGAACTTATGGATATTCCAGTATTTCATGATGATCAGCATGGAACTGCAATAATTACTGCAGCAGGACTTATTAATGCAGTATTCCTAACTAAAAGAAAAATGTCTGAAATTAAGGTTGTAGTAAATGGTGCTGGAGCCGCCGCTATGTCTTGTATTAATCTAGCTATTTCACTTGGAGTAAATAAAAATAATGTAATTTTATGTGATACGAGAGGCGTAATATACAAAGAGCGTACAGATCGTATGAATAAATGGAAAGAGGAAAAAGCAGCAGATACAAAGCATAGAACTCTTGAAGAAGCAATGGTTGGAGCAGATGTATTTTTAGGACTATCTGCAAAAGGCGCTGTAACAAAAAAAATGGTGGCATCGATGGCAAAATCACCAATTATTTTTGCGATGGCAAATCCAGACCCGGAAATTACTCCAGAAGATATTGCATCCGTAAGAGACGATGCAATTATTGCAACGGGCAGATCAGATTATGATAACCAAGTTAATAATGTTATGGGCTTTCCTTACATCTTCAGAGGCGCACTAGATGTTAGAGCTAAATCAATTAATGAAGAAATGAAATTAGCTGCCGCTAAAGCTCTAGCTGACCTTGCGAGAAAACCAGTACCAGGAGAAGTTTATCGAGCCTATGGATCAAAAAAGAAGTCATTTGGTCCTGAATATATTATTCCGGTTCCTTTTGATCCTAGGTTAATCACTACAATTCCAGTTGCAGTAGCGCAAGCTGCTATAGAGTCAGGTGTTGCCCAAGTGAAAGACCTAAATATCAAAGCCTATAAAGCTGAACTTGCAAGCAGGCTGAACCCTACTTCAACATATATGCATTTCGTCTACGAACAAATCCATCATGCCGATTTACAAAGAGTTATATTTGCAGAAGGGGAAGAAGAGGAAGTAATTAAAGCTGCAATGATGATGCGCGATGAAAATTATGGTACTCCTATAATTGTCGGACGTGATGCAAAAATCAATCCAATCGTTGAATCCATGGGTGATGGCTATAGTCTTGATGGAATTAAAGTTATCAACGCAGCAACAAACCCCAACATTGATAAGTATATAGATAAATTATACGCAAAATTACAACGTAAAGGTTACCTACGTAGAGACTGCGCTCGCATGGTCACAACTGACCGTAACGTATTCTCTGCATGTATGATTGAGTGCGGAGATGCAGATGCGATGGTTACTGGTATTACAAAAAGCTATTACAATAGCCTAGATGATATTTGCAAAGTAATAAAACCTAAGAAAAACAAGAGAATAATGGGATACTCTATCATGTTGTCAAGTAAACATAACATGATAATTGCAGATAATACTGCATGTGAATTCCCGCAATCTGATGATCTAGTTGAAATTACTTTACAAACTGCTGAAGCTGCTAAATCACTTGGATTCAAACCAAGAGTTGCTCTTCTTTCATTCTCTAATTTTGGTAATCCTGAAAAAGAAAAAACTCAGCGGGTAAGGGATGCTATTTCTAAACTTGATCAAATGAATCTTGATTTTGAATATGATGGTGATATGACGGCTGATGTAGCACTTAATACTGAATTACAAAAAATCTATCCTTTCTGCAAATTAAGTGGCCCTGCTAACATACTAATCATGCCTGGATTGCACTCGGCTGCAATTTCTACACATCTGCTTGAGGAATTAGCTGGAGGTGTTTTCATTGGACCAATCTTAAATGGTTTTGAATATCCAGTGCAGATAGTACCGATGGGATCATCAGCAAACGATATTCTAAAAGTTGCAGCATTTGCAGCCATAGAAGCAATTAATGCTAAAAAGAAAAAGTAAAATAATGCGGACTTAAAGCATCATATCTCCATCACTGACAGCATCCTGAATTAGCTCAACCCGTCTTAGTCTTTATCTTCATCTTAAATCAATAATTGCTTAGCGTTTTTATCTACTGATTTACTTTTTGACATAAAATGCCACCTGCTTTGATCATAAATCACTATGGTCTATTAAATCTGAAATAGCGCTTCTAGACATAAGGATATTTAATTAGTTACTTACTATCTATCCTAAACCCATCCCTGAAGAATATGATTTTCTGCCTATCTGTTTTAAATTTTGTGGCTGCTTAGCAAGTAAATTTTTTCTCTTTTGTGATAAAATTCCTTTTCGTATTTTTTGAACTTCTTTGTATAGCTCTTTCATAGACATTTTATCAAGATTTGTATTCTTTTTTTCGCACCATTTTTTAAATACTGCTTTCCTTTCTTCAGGTACAATTTTGGCGTAGTCTTGCTGGAGTTTCAGGAAGTTCTTTTTTAATATTGATTTAGCTTCGTTAATGCCTTTTTTATCTGGATGACGCTTTTCTACTTCTTTTCTTGTTTCATTAATTGCTTTAGAAAATTCCAAATTCTGCTTCTTAGGCGCTTTAGTAAATAAAGACGTAATAGCCTGTTCTAATTGCATGCCAAGCTTCTTCACAGCATCTACCGCACTTGAAATACCTGATTTGAGTCCAGTGTAAAGCTTTTTAACTCCTTCACCAACGGCGCTTAAGAACCTATCGCTATTTTTTTTATCACTGTTTTTGCCTATCTGTTTTTTAGATATTGCTTTATCAATCGTACTACTTAACTCTTTTGCACCTTTACTGAAATTGGTAAGCTGTTCTATTTCTTGTGGATTAGAAGATTTTTCTACTACTTTATCAGCAAGATCACTATGTACTGTAAGAAGTGTAGATACATCTTCACTACGGTCTTTTCTTGCTTGCGCCTGTTCATTATCAATCTCATTTAATAATTGCTGTATTTCTATATCTTCAATATCAGACCGATCTGGCATATATTTTATCTGCTTTTCTAACGTTTGAGATTCTCGCTCATGTGTAGCACTAGATACACCCATTTCACTTTCCAGCCTCCTTAATTCTTCTTCAACTAACCTATCTTCTTCTGGATTGCTAAAAATTTCATGTAATCTCATTGTACTTTTTTCGTATTCTGAAAGCAAGGCGCTATTCTCTCGCATTACTTTTTCTAATTCGTTTTCAGAAATCTCTAATTGCTTACTAACTTGTCTTTCTAATTCACTAAGTGCTTCCGTTGAAAATTCTTCATTTTTTGACATAATTACTCCAATATAATATTGACTATTTAGCATGCAAAAGTTAACAGCTAATTAATAAGTTATATCAAACATTACTTGGCAATGTCAAATTGACTACTATAAAGTTAAGTCAATCTATACCATCTAAAATTCATAATATTCTCTTTATTATTCTATAAAACAAACCTAAACCTAGCTCCGTTGACTCCATCGCTTTCGACTATTATAGCGCCACCGTGGGCTTCGATGGCGGCTTTGCATAGCGCTAGGCCTACCCCCCTTCCTTCTGCTTTTGATTCGGTATTAGATCCCATC
>sequence36
CCTTCTGAATTAAGAACAACGAAATGAAATTTTCTTTTTGCTAAATCAAGACCGATGGTTTTATACTCTCTCATGGTATGGACCTCTTTTTAAGGGTTAATATTTGGCACATTGTGATGCCATAGCAAAATACAGTGTAACGCATTTTTAACCAGCGTCCATACCATCATCGCGAAGGAGCTTTAGCGACCGCGGCGATCCATTTGTGGATTACCCGCACCCGCCTTCGGCCCCTCGTAATGACGCAGGTCAAAAAGCATAGCGAGCACAGGCGCGGTTATCTTAGTTCTATGGTTATGAAAGCTAGTGTTAATATAACCGATTGCTGAGTTATCTAAAGGTTCTTGCGTAGGTGACAAGAGAAATATAAATATGTCATAGAGAGTGCAAGCGCGATTATCATCTTGGAACCGAGTTTTATTGTTAGGTATTAAAAATAGAATTACTAAGTCATTTCGTTTCTTGTAATGGTAAGACGTATTTTTCGTACTTATTTTTTTCGTCTTTATATTTATCAGCATCTGGTAATGGATCTTTTATTTTTGTTATATTTGGTGCTGTTTCGGATAATTCTTTATTTATCTCAACCCATCTGATCAGATCAGGAGACTCTTCGCTGATAGCGTCTATTGGGCATTCAGGTACACATACTCCGCAATCAATGCATTCATCTGGGTTGATTACTAGCATTAATTCATGTTCATAGAAGCAGTCAACCGGACAAACTTCCACGCAGTCAGTATATTTACATTTTATGCATTCATCAGTAACAACGTAAGTCAATTTATTCTACCTTTAATAGTTTTTATATTTTATGTTATTGAGTAAGATTCTAGTACGCATTAATAGTAATAGTAAGAAAAAACAGATAAAACTAGCAAACATTATCATTAACGGGATCAGCATTGAGCTATGAATTGATGGTCCGGACATTTTAAAAACGCTCGCTGGTTGATGTAAACTATACCATATATCTACAGAGAATTTTACGATTGGGATATTGATAAAACCAATTATAGCTATAGCAGAAGCAGGTTTTTCTGCTCTTAGTATGTTAGTACCACTATTGGTTACTGATATGTAGCTTAAATATAGTAAGAATAGTATCAGCATGGATGTAAGTCTTGCATCCCATACCCACCATGCTCCCCAGATTGGTTTGCCCCATAGTGAGCCTGTAACTAGAGTGATTAATGCGAAAGTAGCGCCGATTGGTGCTGCTGCTATTGAAAGTAAGTATGATAGTCTAGTTTTCCATACTAAGCTAGAGAAGCTACAAACAGCCATAAAACTATATATTCCAAGGCTCATCCATGCAGATGGAACATGAATGTACATAACCCTAACCATTTCTCCTTGCTGATAATCTGCAGGAGATGAAAATAATGCAAAATATAGTCCAGCGCATAATGTAGATGGAAATAAAATTGCCAAAATCGGCAGAAGAGGCTTTTCAAGCTTTGCAAAAAACTGTGGTGTAAGAAGTTTAAACATTATCTAATTATAATAGTTGATAGGATATTTTGGCTATATTTTTCATTTCTATGTGTACATCTACGAAAACTCGGATATTTATCTTCAAGCTCATAGGTGTCATCATCTATCGTAACGGCAATTTCTATATTTTCCTGTTCAAGCTTTGATCTGACATATCCAGGAAGGTCAAACATATAATGATTTTTGTTTTTTGATTCAATAAAAAATTTTTTATATTTTGCATCGTCGTGAATAAAATCCTGGTAATATTTTGCATCAACTTCATATGATTTTTGCTGAATTGAAGGGCCTATTAGAGCCTTTATTTGCTTTGCTCCTTGCATCTTCATTTTGTTCTGTAGATTAAAGATAATATTATTTTTAGCGCTCTTCCAACCGCAGTGGGCAGCTCCAATAACAGATCCATCAGCACTTGCTAGTAATACTGGTACGCAATCTGCTGTTAAAATGCCTAGAGCAATATTTTTCTTTGTTGTTATTGAACCATCTGCTTCTTCTTGAGGTTGGTAGAGAGTATCGGCATCGAGGATTTTAGTTCCGTGAACTTGCTTTAAAATTACTAACTCTTGAGCATTATATTCTTTCTGTATTACATCGATATTTTTTTGGATCTCTGCTAAAATTGCAGCATTTTCAGCCTTATATTTTGCATATTTTCCACTTGATGCTGTATAAGTTCGATCAAAGATTTTATAATAAACTTTGTCTTTAATGAATTCGATTTCCATAACTGCATTTAATAAGTTCTCTAAGTGAGTTTTACCATGAATAAGCTAGCAGATAATCAAGAAAAATACAATCTATTAGGAGAGATCACAAATGTGCTTAAAAATAATTTTGGTCTTACTCCTTGTATAGGGGTGGAGATAGAATTTTATTTGAGTAATATTAAAGATATTTCGGCATTGGAGGAAATAATTAAGCATACAATAAAAGCTGAAAAAGGTAGAAATCAGTATGAGATTGATTTGAAGCCATCAAATGATCTTATTGGATATGCTAAATATATTGAATCAGTTAGGGATAAAGTTGCATTCGGAGCAAAAGAGCTTGGTGGAAATGCAGATTTTAGTTCTAAGCCTTATATCAATGATTATGGTAGTAGTATGCATATTCATCTGAATTTCTTGGAAGATGATGATATTGAAAAATTTGCTCAGATTTTATGTTACTATTTGTCAGACAGTATACCTATATTTTTGCCTCTTGAAGGAGATAGAGAGCGTCTTGATGAAAAATTTATGGCGCCAACTCATATCTGCTACGGAGGTAATAACAGGACTGTAGCTATTAGAATACCTGATTCTATACCAAGGAGACTAGAGCATAGACTTCCTGCTGCAAGCGCTGACCCAGCCTCTGTTATTTATGCTATTTTAGCATCAATTGTTAAAGGTTTGTCAGATCGGATTGATACAAAAATATATGCTAAAATATTTGGTAATGCTTTCGATAAACAATATAGTCTGCAAAGAATATTGCAGCATAAAACATAGATATATTATTCTTTAGGAAGTGCCTATAAATCACACTATATTTTTAACAATTGAATTGTATCTGGCTATTTATATAGCCTATATTATTTTCAAGTAGTAAACTAAAAGGCAAGAATTAACTTTTATTTGCATTAAATTATGTCTAATCTATTAAGCCTTATTCTCTTAGTTGCTCTTCTAATCGCTGCATTTTTTCTTTATAGGCGTATAAAAGGAGGTGGTAAAAAAGATGTTGATTCAGGTGCTGATAATACTATGTCGCAAGAGGAGTATCAAGCAAAGAAATATCCTAAAGATGAAGAAATATCTCTAACATTAGAAGAAAAAATAGAATTATCTTGGCAATTCCTTACAAATATAACAGAGCAGATTCTAAATAAATTTTCTAAAGAAGATAGAAACGTAGTACATGATGCTGGTGAAAAAATGAATAGACATGGTATGTCGTATCAGCATGATGTAAAGCAGGAGGCAAAAGTTACAATAGATGTAGTTAAGTCTAGAACTAAAGAGCAGAGTAAAGATAAAGGACGTTCTAGATAGTTCTATGTTGTTGGTGGAATATTCAGTAAATATGTTTTACTAATATACTCAATATTAGTATGATGTTTTCATTATATATAACCTCAATAAAATTGTGAACAATAAGAAAACCATTGTTTGGTTTAGAAAAGATTTAAGACTTTCAGACAACCCGGCTCTTTTTGAGGCATCTCAGCAGGGTGAAATTCTGCCGATTTATATATTAGAAGAAGATGATGATGATAGTCGCTGGTGTCTCGGTGCAGCGCAAAAATGGTGGTTATATAATAGTCTTAAAAATCTAGATTCTGATTTGAAACAAAATAATGCCAAGCTTATTTTGAGAAAAGGCAATTCGCTATCGATAATTTCGCAGCTAGTTAAAGATGTGAAGGCTGATGCTGTATTTTGGAATAGATGCTATGAGCCGAGCTCTATTCAGAGAGATACTAGTATAAAAGAGTATTTAAAGGGTAGTGGAATTGAAGCAAAGAGTTTTGGTGCTAATTTGCTTTTTGAGCCTTGGAAAGTGAAGAATAATTCAGGTAATTATTTTAAAGTTTTTACTCCATTTTGGAAGAGTTGTAATTTAAATCATAATCCAAGATCATTATATAGTGTTCCTGTTATCAAAACTTGTGATAATAACATTGAAACTGATGATATAGATTCTTGGGAATTAATACCAACTGCTCCAAATTGGGCAAAAAAATTTAGTAAATGCTGGATTCCTGGTGAGAATAATGCTCAGAATCTACTGTCAGAATTTATAGATAGTAATATTGGAAAATATGCAACCAATCGAGATATTCCTGGCGTAAATGGCACATCTAGATTATCACCTTATCTACATTTTGGAGAAATTAGCCCACACCAAATATGGTATAAAATAAAGGATTACCACAATATGAATATACTTGGTAGTAGTGTGGATAAATACTTAGCAGAAATTGGTTGGCGTGAATTTTCCTATCATCTACTCTACAATTATAAAGATCTTCCATCTCGAGAATTTAATCTAAAATTTCAAAATTTTCCTTGGAAGCTTGATAGTGAAAATTTAATCAGATGGCAAAAAGGTATGACGGGATATCCTATTGTTGATGCTGGAATGCGAGAATTATGGTCTACTGGTTGGATGCATAATAGAGTGAGGATGATTGTAGCTTCATTTTTAACAAAGCATCTATTGATTTCGTGGCAAGAAGGTGCTAAATGGTTCTTGGATACATTACTTGATGCTGATTTAGCAAGCAATTCAGCTGGATGGCAGTGGGTTGCAGGTTGTGGGGCTGATGCGGCTCCGTATTTCAGAATTTTTAATCCTATAATGCAAGGTATGAAGTTTGATACTTCTGGAGAATATATAAGAAAATGGATTCCAGAGTTGGGCCCCGTGTCGAATAAATATATTCATAAGCCTTGGGAAGCAAGTAAAGAAGAGTTAAAATCTAGCTCTATAGAGCTTGGGATAACTTATCCCAAGCCCATTATAGATCATACATATGCTAGAAACCGCGCTTTAGAATTGTATTCTAAGTTAGTATGAGTTGTCTATAAGTTACAATGAAGCTTGTAGACCAACTATGAATGCATGAGTTTTTGCGCTTTTATCACTGTGAGTAGTGCCAGGAACTCCGTTTAAATCTCCACTGATATTATTCAAAGGAGCATATCCTTGAATTCTAATGGCTTCACCAAATATTTTAACGTTAGGCCTTACCATAGATGATATACCGGCTACTATTTGTGATTGTAGTCTCCATGGGGCTCCTTTAGGGCCTGCTTTGAATTCGCTATATTCAAGTGACAGAGCAACATCTTTTTTACAAATAAGATTTTGGAAATTATATTTTCCTCCTACTGAGAATGAACTTACTTTGCTTGCAGCAAATATATTAAGTGGTGGAGATGGATTATGTGTACCTGGCCATTTTTTGAGAGTTTGTGCAAATTCACCTTGTAAAGTCAAGTTATTTAATTTTAGGCGTGCATAAACGTCCCAGGCTGGATTATGCTTCTTTCCAGGGTTGAAGTGAGTTACTGGGAATTCTTGATTATAAGCGCTTCCTTTGATGTATGATGCTCCAACCATTATATTTGATCTATTCATTATTTCATGACTATAGCTTATATCAGCAGCAAAGTTATTTACTCTACTTGGAACATTTGTTCCTTTTACAGGTACATTTGCTGATCTAAATTGTGCACCACCTTGGATTGCAGTTACTGATGCATTAAATCCAGCTACATCAATTCCAATAATGCCGCTATATGCAAGTGGTCCAAATGCATGCCATACGGTAGAGGCTGTAAAAGGACTAACTGTGTCCATCAATCCAAAAGGTACATCCTGCTTACCAAATGAAGCGTAGATTGGATATTCATTTTTATCGCCAAGTAAGATATAGGCTTTTCGAACTTGCACCTGATTTCTGCCAAGAGATGTATTATTTCCACCTCCAAAGCTTTGTTGCGGATTATATAGGAGTTCACTATAAAGAGCCATCCATGGAGTCAATGATCCTGAGGCTTGAACTTGTACACTATGTAATGCTATTTCAGATACTTCCTTGCCAATCTGATTTGTAGCTGTTGGGTGTCGCATTAGATAACCAAATTTAGATTCTCTATTGCTGGTTTGATAATCTGCAATAGCAATAACTGAAGCTCCAATATATAATGTTCCTTCACTTAAATGCTCATCTTTGTTTTTAAACAAAAATTGTTGTTTTTTAGATATGTCAGTTGTTGGATCCATCATTTTATAACTATATACAGAATCCATTTCTACATAACTATGGTTTGCTTTATCTGCAAGTGCTGGAGAGGTTAGTAAAGTAGAAATTATTGAGAGGGATAATATTCTTTTTATAATCATTTCAGCTAATTTATTTTTATTTATTAGGTCTTATATTAGAGCATAATAAGTCCTGGTTTTTAATCAAAAAATAAATTATTTACTATTATTAATTTAAGCTGTTCTATTTATGCTTTTTATCAAAAATTCCAAGTATTATAAATGTAAGTATTCCAAAGAATGAGACATAAAATATTGGGAACAGAGTAAGATTAAAATTTTTCATGAAAAACAGGCATATAAAATTTGCTGTACCTGACATAAGCATAGAACCAGAAGTGTGGCCAAGACTAACTCCTCTATATCTTTCATTTACGTTAAATGCTTTTACAATTACTCCATGCGCTAGAGCATTAAAAGGAGCGACTGATGCTGCAAGTAGAACGCAAGCTACTAAAGTTAAATTAAATAGTTCTGAATATATAGAAAGTATAAGTAAAGCACTAGAAATCAGAGTCATCAGCACGCTTGATTTGACCACTGCTTTTAATGAAAATTTATCTGCTAAAAATCCCGCAAGTGGCATTGTGAGGCCGAATACTAACACAATTAATACCGAAAATGTGGTAATAATTGTGCTTGTTTTTGGTACTACTATTGGTAAATACTGCTTCATAAACACAATAGAAATTTGATAAGTAACACCAAATCCTCCAGCTAGTAATATTACTAATACTAAGATTCTCCATTTTTCTTTTATAAAATCAAAAAAGCCATTAAATTTAAAGCCATTCTCTTGTGATTTTATGAAATCCGGTGTTTCTTCTAAATATCGTCTATAATATATTGTTAGTAGTGCCAAAGGCATTGATAGTAAGAAAGGAATGCGCCAACCCCACTCTGGGAAGATTGAAGAATTAAAAAAATTAGTTGATGCAATTCCAAGTATAAGGCCGCATACTCCAGTTGCTCTTGCAACTGCAGAGGCTGTATAATGATATTTATTTCCTAAATGTTCTATAACATATATAGCCGCTCCGTCGTACTCTCCAGCAACAAAGAAGCCCTGGAAAAAACGGCATAAGATAAGAATTTGAGTACTGACAAAGCCAATAGAATTATAGTCAGGTAATAGTCCGATTGTAAGTGTTGGCACTGCGATTCCAATCATCGTAATTCTTAATGATATTTTTCTTCCATATAGATCTCCAATTCGACTAAAAAAGATTGAGCCTAAAGGTTTTGCTAAATATGAGAATGCATAAATTGCAAAAACATACATTAAGCTTTCTATTTTGCCAAATCCAGGGAAGAATTTTTCTGCAAGGATTCCTGCTGAAAATGCGTATAAGCTATAGTCGTAATACTCGACTATAGTTCCCAAAAATGCACCAGTAACTTTTTTTCTATTTTTGCTCATTAGATACCTTTCCCATACGTTCTTTTTTTATTATCTTTTGAATCTCTTTTACTGCTTGTTCAAAATTATCATTTACTACTACATAATCATAGCTATCGGAGTGAGATATTACTTGTTCTGCAAGTTTTAATCTTTTTTCAATATTATCATTACTATCTTGTCCTCTGGATTCTAATCTATCTCTCAAGGCTTCAATTGATGGTGGTACGATAAAAATACTTACTACTTGATCTGATAATTTTTGCTTAATTTGCTGGGCACCCTGATGATCAATATCAAATAAGACATCATGTCCTTTTGCTAGCATTTCATTTACATATTTTTTTGGTGTCCCATAAAAGTTTCCATAAACTTCTGCGTATTCAAGAAATTCGTCAGAATTTTTTAATTTTTGGAACTCTGTAATTGATTTAAAAAAGTAATCTACTGCTTCTTTTTCATCGGGTCTTGGATTTCTGGTTGTAACAGAGATTGATAGTTTAATATTTTTATCATCGTCTAATATTTTTTTAGATATTGATGTTTTGCCTCCTCCCGATGGTGCTGAGAGAATAACTATCATTGCTTTACTTTGCACGCCCTTTACCATATCTTTAATATGAACTATTCCGGATTAGTATAATGGCAAATGTAAAAAAGACAATAATTATTACCGGAGCCTCTAGCGGCCTTGGGGCTGAGCTTGCAATAAAATATTCAGCCAGTGGAAATAATCTTTTCTTGATAGCAAGATCAGAAGAAAGATTGAATAAAATTGCTGAAAAATGTCGTGGCAATGGAGCAAGTGTTCGCAGTATAATTGCTGATGTAACTGATGCAGATGCTATGAATACCAATATTAATGAAATTGCAGATAAACATAAAATTGATATAGTTATTGCATGTGCTGGAGTTTCGGCTGGAACTCTCGATGGCCCTGAAACTACAAAGCAAACAAATAAAATTTTTGCAACAAACATAAATGGTGTATTAAATACAATACTTCCAGCAGTGCCGCATATGATTCGGATGCGAAGTGGCAATATAGTTATTGTAAGTTCTATGGCAGGATTCCTTGGTTTATCAAGTGCGCCGTCATATTCAGCAAGTAAAGGTGCGGCAAGGATATTTGGTCAAGCCCTGCAAGGTTACCTCAAGAGTTATAATGTTCATGTATCAACCGTAATTCCTGGATATATCAAAACCCCGATGACTGAGGTAAATAGTTTTCCAATGCCTTTTATGACTTCGGCTGACAAGGCTGCAAGGAAAATTGTTCAAGGAGTAGATAAAAATAAGAATGTGATTGCCTTTCCCCTAATAATGTTTTTCTCACTGAAGCTACTTAGTTTGCTGCCGAGTGCATTAATTTCATATATAAACTCGAAGCTACCTGGAAAGCCTGCTTTCGAGGACTCATAGCTTTTATGGGTAGTGTTAAATGTTACAATTTTACAATAATATATTTTTGGGTTAATGGATCTTTATTAATCATTTTTTAAAAAGAACTATACAACAAAAAAATATAGCTATATAAATTATGCAAAATTAATTAATTGATAGTGACTATGAAAAAAATTATATTGTCTGCAATTGCAAGTACATGTTTTTTAGCTTCTTCTGCGAATGCTGTTGAGAGTGATTTCTTTGTAAAGGCAAATATTGCATATTCAAAATTGAATAAAGTTAAAAGTATCAAGTCTAAGAATGATATAGCATTTGGAATAGGTGCTGGTTACAATTACTTAGATAACGTAAGAATAGACTTAACTTTTGATCATTTTGTGAATCCAAAGTTTAAAAGCAAAGATAAAACTATTTCTGGCGATATTAACACTTTACTTTTAAATGGTTTTGTAGATTTAGTTGATATTAGCGTTGCAAAAATATTTGCAGGTGTTGGTGCAGGGGTTGGGCAGGCACAGGCAAAAGTTTCTGGGGATCAAGATCCGAAAAATAATGGTAAAGCAAAACAAAGATATAGCCTAGCTTACGCTTTGTATCTTGGAACAGGTGTTGAATTTGCGCCTGGTATTACAGCTGAAGTAACTTATAGTTATAGATCGCTTGGTGAAACTAAGAAGCTAAATGGTTCTGATATTAAGTTCCAAGGACAGCATTTAAGTGCAGGTCTAAGATTTGATCTGTAGATTATTAATTTTAAGTAACATTGGAGTATTTCAAATCTTAAAGTTGGCGTTTTCTTGCGATTTTGATTGTGATATTTTTACTATAGTTGACTTTTTCTGATATCATGTTAATGGAGATATCCTTGATGAAGCTCAATTTAGTATGATACTATCCTAGATGTTAGCCGCAGTTGGATTTAAAAAATTTTAAAATCACCTGCAGTTTTTTAAATTATATTTATACAAAATTTTTAGAGGAAATTATGAAAAAAGTATTATTAACAGCAGCAGCTGTATCAGTTTTAGCAACTTCTTCTGCTTATGCAATGGAAGATATGTTCTACGTAAAAGCAAATGTAGGTTGGTCGAAGCTTAATAAGGTTGACGGAGCAAAATCAAAGAACGATGTTCACTTTGGTGTGGGTGCTGGTTACCACGTAATGGATAATGCGAGAGTTGATTTAACTTTTGATCATTTTGTTAATCCTACGTTCAAAGCAACGGGAGCAAAACTTAAAGGTGATATCAATACATTACTATTAAATGGTTATTTTGATGTCTTCAACGTTGATGCAATGAAAGTATTTGTTGGTGCTGGTGTTGGTCTTGGACAAGTTAAGGCAAAAGTTACATATACTGGTAATACACCTTCTATTTCAACTAAGCAAAAGAATACATTTGCATTTGCTGGATATGTAGGTGCAGGTTATGAGTTTACTCAAGGTGTAACTGGTGAACTTTCATACAGCTACAGAGATATGGGTAAAACTAAGAAGTTTGGAAATGGTGCTAAAGCAGTTCATTTCAGAGGTCACCACGTGACAGCTGGCGTAAGATTTGATATCTAATTATAGATATTTTACACAGTAAATAATTCAGGAAAGGGGGCCATTGTTGGTCTCCTTTTCTTAACTTTTAAATATAAAAAAATTAAGGGATAAAAAAATGAAAAAAATATTATTAACAGCAGCAGCTGTATCAGTTTTAGCAACTTCATCTGCATACGCAATGGAAAATCAATTCTATGTAAAGGCAAATGTTGGTTGGTCAAAACTTAATGATTATAAAGGTGGAGGCGTTAAGCTAAAATCAAAGAATGACGTACATTTTGGTATTGGTGCTGGTTACCACTTAATGGAAAATGCAAGAGTAGATCTAACTTTTGATCATTTTGTTAATCCAACTTTCAAAAAGTCGGGTGTAAAAGTCAAAGGTGATGTGAATACACTGTTATTAAACGGTTACCTAGATGTATTCGATGTTGATGCAATGAAAGTATTCGTTGGTGCTGGTGTTGGTCTTGGACAAGTTAAGGCAAAAGGTACATATGCAGGCACTAGCAGCTCTGCTAAAAAGACAAATACATTCGCTTTTGCTGGTTATGTAGGTACTAGCTATGAGTTTACTCAAGGTGTAACTGGTGAACTTTCATACAGCTACAGAGATATGGGTAAAACTAAGAAGTTTGGAAATGGTGCTAAAGCAGTTCATTTCAGAGGTCACCACGTGACAGCTGGTGTAAGATTTGATATCTAATCCAAATTAGTCTTTACATTAAAAGATAAGTTTAAAGGAGGTCTTTATGGCCTCCTTTTTTATTTGTTCTTTAGAAGGTAATAATCTTTTTCCGAAAAGTGAAATTTTAATCTACCTATAGTTATGTTATAAGCTGAGTATTAAATTAACCTCAACTCGACGTAAGGAAATCTATAAAACTAGGAACTAGAGTTTGAATCAAGATAAGTAAGGAAGTAGAGTGCAAGTTTGAACTTAAGAACCAAAAGAGGTTATGACGACTCTTAAAGTTTGTCGTAATCAACGTATTCATCGTAATAAAGTTTTTAACAAAATAGCTAGCAGAGGCAAGAGTTCGATTGGATGGTTTTTTGGATTCAAGCTGCATTTAGTAA
>sequence37
GTATCTGAGCCTGTGCCGCCGCTTAGTGTATCTGCTCCTAAGCCTCCAGATAATGCATCATCATCTGCTCCGCCTTCTAGCGAGTCTGAGCCATCGCCGCCTGACAGCGTATCGCTTCCAGATCCGCCAGACATTGTATCAGCTCCATCGCCTCCACTTAGAGAATCTGATCCATCTCCGCCAGATAAAGTATCACTCCCAGCTCCACCAGACATTGTATCAGCTCCGAGTCCTCCAGAGATAGCCTCATCTCCTGAGCCGCCAGTGATTACATCAGCACCATCGCTGCCGGTAATTGTACCGGAATTTGTGCTGTAACTGGTATCTGCAAAGTTTAGAGCGCTATCATCATTGACTATTTTAGTCTCACCGTTTCCTGCAACCGTAAACGTGCCATCGCCGTTATCTGTAAAGCTATAATCTGATGCATTACCGCTAAAACGATAAATCCCTGAAGCACCCTCGTCAAAAACAGACTCTGGATCACTTGTTGAATAATTATCCGAGTTAGAATTCTGATAAGAATCATCTGCAAAATAAAAATCGGCATCACTTTCAACAACTTTGGTACCATCTCTACCTTCTACACTATCTTCAATAGTGAAAGTACCATCACCATTATGCGTAAAGCTATAATCAACACTATTACCACTAAACTGATAACTTTTTACAATATCTACATCAGGAATAGTTATCTTAGGTGGGCTATCAATCTCGACTGAAGCCTTTTCTATATTGCCATTTACTACTGAGTCATTTTCTATCTCTTCTCTAGATATAACAGTACTATTTTCATCACTCTCCAAAACACCAACACTATCTATTGGAGCTAATATTGAATGAGTATCAATGTTATTTGTTGAATTATTACTTAATTCAATATTTAGAGAGTCTGAAGTGTTTTTATCGACATTTAAATTTTCAAAATTTGCAGATGGTTCATTCGCAAAAGTAAGATCATTCGAGTCAATATGATCATCTTTTGTCGCTAGCAATTCCTCTTTTTTCTGATCTTCTTCTGATTCGCTCTCTAGATCAAACTCTTCAACATCAGGCTCCTTGATGTTTTCAAGAAAATCCTCTTGGCCAAAATTCTTTTCATCCGGCTTTTGCATTTCTCGATCATATTGTTCTCCAGGAGCAATTCCTTTTGCCCTCAAATCACTATCGTTATCTGCCACCACTTAAATACCCAACCAATCCAAACTACTAGTTATCTTAAGAATACGTATATATATAAATGTAAACTTAATGTTTTGTTGAGTCTATAGTATTCTGAAGCAAAAAAACTATTCCTAACATATATCTTTATAATGAAACCAACAATCCACACTTGGATAATTTAAATTTCAGGATAATTGTATAATATTTTAATTATTAAAGGTGGCTGGGACGGGAGGGATCGAACCTCCGACCTACGATACCAAAAACCGTTGCTCTACCGCTGAGCTACGTCCCAATAGAAATGTTCGGAAATTTATAGCAATTTTCGTGAAGTTCGTCAATAAATATGTTTAAAGGAAAAACATTCGGGAAAAATATATGGACTTCTCTACATCTATTTTTTAGTCTTATATCCTGCATTTTCCCAAGCTATAACACCACCTTCAAGATTAAAAAGATCGAAGTGATAACCTTCTGCAATTAGTTTTTCACATGCTAATCGTGACCTTACACCCGCCCTACAGACCATTATCATTTCTTTACTAAAATCAAACTGATCAATCTCATTTAACAGGCATGATAGTGGAATATTAGTAGAATTTTCAATATGACCGTCATTATACTCTGCAGGTTCGCGAACATCTATAATTTGAACCTGCTGTTCAGACTGCATATCTTTTAAGCCTTTAGCATCAACGGAAAGAATCTTTTTCATCAAATTAATATTATTTTTGTTTAGTTACTATGCAATCACATATTTAAGATAATTATAGTTTATACACTATCAATCATTGACTAAGCAAACTTATAGATGATTTAATTTTAATTATAGTAATAATTATAGTGAAATGTATTATGGCAAAATCATCAGGAAATGAAAGTGCTTTATCTTCAAAGGCGCAAGCAGCAATAAGAGATCTAAATTTACTAGTGGGAAGATATGGAAGTTATGTATCAAGCATCGACAAAGGTGTTGAGGTTGGAACATTTACTAATGATGAAGTTGCTGCAAGAAGACATGATAGCTGCTTAAGCGTAATTGATGGCCTAGGAGCGGCTGAATTAAGAAATCATCTAACACCTGAACAAAAAGAAGAACTTATTAATTCACTAAGAGAAACTAGTAGCGCTATTTCAAACACACTTCAAGACGCAAAAGAACAAGAAAAGCTAGCAATTAACACCGCAAAAGTAGAAGCAGCACTAAAAGGATTTGAATTGCCTTTGGCTTTGGGTGGTAGATCTGATGAGCTCAAACCTCATGGATTAAATATGAACGAGCACTATCCAAAAATTATTAAGGCAACTCAGGAATCTCTTGTTGAACTTGCTGGACAAGGTATACCTCATGAACAATATGCAGAAAAATTACAAGCATCAATATTAGAAAAGGTACAGAATCAGTTCACTCCAGAGCAACTTGAAAGCGTTGAAAAAATTGTTGCCCAAGGAAAAAAACTTAAAGATTCTGAAAAACCATTGGAAAAACAAAAATTTCAACAATCTGATCTTCAAAGTTTAAAAGATGCAGCAACAAAAGCATCAAACCAGTTTCAAGAAATACTAAATAAGAATAAAAAGGAAGCTGGTATCATTAGTATAATTCAAAAAGCTACTAGAAATATTGAAGAAGATCATAACCTCAAAACTACGCAAGCTCGCGAAAATAAAATACTTAAAGATATCTCACCCGCACTTAGTCAGCTTGACCCTGAATATTTAGTACAATATAATGATGTCATTTCCCATCAACTTGCTAAGAGCCTAAGAGAACAAGGTACTTACATGGGGCGTGCAAGAGGTGAACTACGAGTGTCCGAAGCCAATAGAGCGCGAATTGCAGATAATTTACTGAAAGATCATTTGGCCGCTTCGGAAAAATTTGTTTATAATAAAATAAGAGGGGGTATTTACAAACAAGAACTAACAAATACTCAAATTGCCAATAGACTTAATGAATTTGCAAAAGCAACCGGCGCACGAGAAGTATATAGTACTTCAAATATTCCTTCAGATAACGAACTTGTACAAATAAGAAAAGCAAATCAAAAATTATTTGATAATCTTGTTCTGGGTAATGGACCAGAAAGAACAGTACAAAACGTCGAAATTCCAGAACCTAAAAAAGAGACAGTTGCTCCCAAAAAGCCTGAAATTGTATCACCTCCAGCACTTTCATCAGTATCTAATCCCATAAGAAAAACTGTTAGGTCATCATCAGAGGCACAATCACCAGCAGTTAAACCAAAACCAGATAATGAACTAGTTGCTAATGAACCGGCAAAACCAGAAAAACCTAAAATTAGTGATGCGAAAGTAGATGCAACGATAAAGGCCTTAAGAGGTGACTTCGCAGGAATAACTGGTTTTATTGCGGGTGAATTTGTGAAAATTGCGAAAGCAAATAATGGGGTTATTGATATTGAAAATCCTACTTTTGCTAAAGCTGCTGATTCACTAATTAATGCTGATCCAAGAATCATCAACTCGGAAGAAAATGTTAAAAAAAGGGGTGGACATAGCGCAGTGCTAAGTTTCACCGGAACAAAGCAAGGAATTGAAGAAAAAATTGACAAACTCATTGCGAAAGGAGTTGATCCAAGTAAATTTACATCACTTAGGGAAGACTTAAGCAAACTTGAAACTGAATTAAGAACTCAAACTTCTAGCTCTCAAGGAATAAAAGAGCTTGTTGGTAAAAAAATGACAAGTGAGCTTATAGCAAACCAAACCGTTCTTTTTATTCATGACGAAAAAGGTGAAATACAGTCAATGCCAATGGTTCAGAAAAAAGACATTATTGCAAAGATTGCTAAAAACGTACATCTTGATAATGCTGCAGTTTCAACAATGCTATCCGGTGAACAAGATGTTCAGAATATAATTAAGGGTACTACAAATCGCCTTATTTCGGAAACATTAGGCAAAAAGGATAAGAATTTTTATGTCCTAGATGAATCCAAGTTAACCCCAGGGAATCTTGAAAAACTTAGTAAGTCAGTTGAAAATGCAGTCTCTCAAGCACCATTAGTAAGTGGAATTGTAAAGTCAATAGAACAAGAAAGTGGCCTTGAGATAAACGATGCTAGAAAAGCAAAACTCCTAAAAAACTTATCTCCAGCTCTTAGCCAACTTGATCCAGAATATTTAGAACAATATAAAGACGTTATTTCTAAAGACCTTGCAAAAGAAATACAAGCACAAGGATCTAGATGGGGACGCATGAATGGTGAACTGAGAACTTCTACAAAAAGTCAACAGATGATTGCAAATAATCTACTTGAGAAGCATTTAGCTTCTTCAGAAGAATTTGTTACAAAAAAAATATCTGGAACATTCTATAAAAAGCAGCTAACAAATGCACAAATGGCTGATAGACTGAACGAATTTGCAAAAGCGAGTGGCTCGGAGTACGAGTTCAAACCATCAAAAATTCCATCTGATAAAGAGCTTGCGCAAATGAGAAAAGCAAATCCAAAACTGTTTGATGAGGTTGTACTTGGCGATAAAGCTAAACCGAAAATACCTGATGATGTAAGAAAGAAGCTTTCTGGAAACATGAAGATTGAAAACAGCAAAAAAGCATCAGTACACCCGACCGCACGCGGTAAAGTCAACCAAAGTACTGACAGAGGAATGTAAGTTATTTAGACCTTAGGTCAAGCAGAATCAAACGAAAAAAGTATGTATAATTTTAGTAGAATGAAAATTATACATCGAGCGCAGCTCTATAAAGATCAAGTATTGCCTCCTGCTCGGCCAAAGAGTCCTTATCAAGTTTTTTTAGTTTCATAACTTGTTTCATGACTTTCGTATCAAAACCATTTGCCTTTGCTTCATCAAATACTTGTTTTATATCATCTGCAATATCAGCTTTATCACTTTCTAGTCTTTCTATTCTGCTCACATACTGTTTTAGCTGATCAGCAGCAATTACTTCACTCATTGGTTATTCTCCATAATCACATTAATGCATATATTTTATATACTTTTATAAAACAATATTCAAAAAAAACTAGAAAAAACTTGCATGGTTTAAATAGTATCTGCATACTGAACCATAAGTTTAATATACTTAAGCTCTAGAAAGGAGGGCTAACACAATGATGACAAGTAATACGGGAGAATTTGCACTTACCCTTTTTGTGATCTTGCTTCAAATTCTTCTATTTTATAAAGTAATAAGCTATAAAAAAGTACTTGATAACAAGAATGTACAATTAATACAATTCCATTTAGATACGAAATTCCTATGCAAAGGTCTTATTGATAGTTTGAGCATATCTGACTCAGTGACTTTCTGTAATGCTCTAATCAAAAAAATCAAAGAATATTATAATTTAGAAGATATCATAATCATTGACTCTCTTAGTATGATGGATGGAGAAAATAATACCGCGGCTCGGAGCGAAATAGTAAATTTTATTCAGAATAATATAAAGCAGATTACAAAAAATCTACATGATCATAAACTTACTAAAGTCAGTATTGATAACTCTCAAATGCAATATGTATTATATCTTTCAAGACTAATGGGAAAAGATGAAGGTGATGGACTCATTGTTTGTGTTGAAAACACTCCAGCATTACTAAATAAAAATGAAAAAACTAGCCTAGAAAACTGTATCAATTTACTCAAAACCAGATTAATATACGAATAAGTTTTGAAAATAATTGAAAATACAGATTATAAAAATGCAAACACCTCTTGGAAAACCAACTGAATATAAAAGCCAATATGACAACAGTTTATTAGTTCCAATTCCCAGATCTCTCGGCAGAAATGAAATAAAACTTCCGAAAAAATTACCATTTAATGGTGTAGATTTTTGGAATTGCTACGAGGTTTCATGGCTAGATTTAAAGGGCAAACCGCATATCAGAATACTAGAATTTGAAGTTCCTGCTACTTCAGAATTTCTTATAGAATCAAAATCTCTAAAACTGTATCTTAACTCATTTAACAACACAAAGTTTGAGAACGAAAATAAAGTATATGGCATAATTCAAAAAGATCTAAGTGAAACTGCTCAAAAAAATGTAACAATAAAACTTTCTACTTTAAGCGACTATAACCGGAAAGAAATCCGTCAATTCAAAGGAAAATCAATTGATAATTTAGATGTAGAAATCTTAGATTATCAAGTAAATCCCAACTTATTAAAACTATGTGATAGCAACGAACATGTTGAGGAAATAATTTTCTCAGACTTATTAAAATCTAATTGCCTAATTACAAACCAACCAGATTGGGCTTCAGTCCAGATAAAATATAAAGGAAATAAAATTGACCACAGGTCTTTACTACAATATATAGTATCTTTTAGAAATCATAACGAATTTCACGAACAATGTGTTGAGCATATGTTTAACGATATAATGAGTATATGTAAACCCGAATCTCTCACAATTTATGCAAAATACACCAGAAGAGGCGGAATCGATATTAACCCTATGAGAACAACTAAAAATATAGGGAAATCTAAAAATTATAAGATTCGTGATATAAGACAGTAGTATAAATTTGCATTGTCTTAATAGATTAAATTATGAGAGATGTTTATCATAACTTATACCGAGTAGCGTCAAATTCATCAGCAAATTAATAAATACTACGTATTATCTAACTACTTCAAACCATCCCAGCGATGTATTGCAGATGCATCGATATTAAATAAATCTAGGATTCTTGCTAGAGAGTGCGTAATTAGATCATCTATAGTACTCGGATTATTATAAAAAGCTGGAACTGCAGGCGCAATTGCAACTCCACACCTTGCTAATTTAAGCATATTTTCCAAATGTATTGAGTGAAGAGGAGTCTCTCTAATCATCAAGACAAGTTTTTTCTGCTCTTTCATTATTACACTTGCTGATCTTATTAGAAGATTTTCTTCATAACCATTTGCGATTGCAGAAAGAGATTTCATACTACATGGTAAAACAACCATACCATCAGTTTGAAATGATCCGCTAGAAATCCTTGCTCCAATATCAGCCGGATTATAAACAAAATCAGCAAGTTTTTTCACAGAATCAATAGAATAATCGGTCTCACATTTTATTGCTAGATTTGCCGATTTTGAAATTACTAAATGTGTTTCAATCTTAAGCTTTTTAAGCATCTCTAAAAAGCGAATAGCATATATAACACCTGATGCTCCAGAGACACCAATTATTAATTTTTTGACCATAAAAATTTACAATTTAATTTTTTTAAAAAAACTATTTTCAAACAAATTTTATTCTAATATTCTATCAATAAGTATGCAATTTATTTGGCTGCTTATCAAACAACAAAATTTCGGAGGTCTATCAATGAAATCCCACATCAACTCTCTAAAACAAAAACACTCTCAATTAGAAATCTCTATCAAATCCGCTAACGATAATCACCTTGACGACATTACAATTAACACTCTTAAAAAGCAAAAACTTTTACTAAAAGAAAAAATATCGAGGCTTGAACAACAAGTATAATATAGTCTTTTCAAATACAATAAATAGTTTTAAAGTAATAAAATGAATATTTATTTCATTTAGTGCTTGATCTTTTTAGCCTTTTTTGTATTTTATGTATGTATAAATTACTATTTTGCAGATATATAATATTTGTATCAGTAATTATATTTTGTAAGAGCGGGTGTAGCTCAGGGGTAGAGCGCTACCTTGCCAAGGTCGAAGTCGAGAGTTCGAATCTCTTCACCCGCTCCATTTTCATTTAGTGAACATTAGAGGTACCACTTATGTTCAAGCATCTAAACTACGTTGCAGTATTTGCTCTTATTATTTACCCAATAATTCTAATTTGCCTTGGTGTTTCGTACGCCCTAATAAACTCCGTTGGATGGTTTGAACTAATATTATTCCTAACCGGATACTACATGGCAAATATATCTGTTGGTCTTGGACTTCATAGATTATGGTCACATGATGCATATAAAACAAATAAGTATGTTGAGTTTGTTCTAGCCGTTTTATCAGCCGGAACTCTACAAGGTCCAGCTTTATCTTGGGCTTCAAACCACTTTGATCATCATACCTATACTGATACCGAGAAGGATCCACATACTCCGCAAAAATATAAAAGCAAATTCATGGGTTTTCTCTGGTCTCATATGGGATGGATGCTTGTTGGCGAAGGAAGCTATAAATCAATTAATCGTGTCACTATGGTGAAGCTTGGTAGGAATAAAATACTAAGATGGCAACTTAAATATTATTGGCACATTGCGGTAGCGATGAACACTATTGTACCTGCTTTTGTTGGTTTTGTTTTTGGTGGTACAGCACTTGCAGCTTATGCTGGATTTGTATTTATTGGACTTGGTAGAGCGCTGCAACAGCAAGCTACATTCTTTGTGAACTCACTATGCCATTTTGTTGGCACGCAAAAATACACAAATGGAACATCAAGAGATATATGGTGGCTAGCTTTCATGCTACTTGGTGAAAACTGGCACAACTTTCACCACGCATTTCCGTCAGATTACCGTAATGGTGCACAATGGTATCAAACTGATGTGCATAAGTGGCTTATCTATCTTATGAGCAAATGTGGTCTAGCTTGGGGATTAAAGAGAACTGCAAAAGTAAGAGTGGATGCTAAAATCACTCAAACAATGGATCAGTTAATCGACCTCAAGAAACAAAAAATTGCCTTAATGCAAAAGACTTTAAATGAACTCAACTCTATGTGCGCAGAAAAATTCTCCGAACTAGAAAACTCATCTATTGATGTAAAAAAGAGGTTTTGGAAGTCATTATCTGTTGCGCAATACAAGGTAAATAAGCTGAAATTTCAACTACATGAGCACGTTAAAAACTACGAAAACCCTTCTGACAAAATCATTAACGCGCTAAATAAAAAGATGAAAAGAGCTGAACTTGCAATGCAGAAGCTTTATTCCGAAATTGAGAAGATTAGGTCTCTTGTTTAAGTAAAGGAAGTAATGAATTGATGTGATTTTGGCTAGAGTTATAGTCATTGCACCGTAGTTCCTAACTTCTATTAGATAAATGGAACAACTGCAGAAAAAGTTATAGAATATCCCTTGTTCGATACAATTATTGTCTTTAATTTGAAACTGAGTCTAGGTAAGCAGTGAGTGATAACGCCATTTAAAACATGACTATACTAAAACCAGCCTATCCCGCATATGAAAAACCTAAATAATCAAAACAGATCTTTCTTATATTTTCTAAGAAATATTTATTATTATTTTTTGATATCAATAAAATTTATAAAAAACAACTTAAATTTTGTTTTCATTGGTATAATAATAAACATTTCACCTCAAATTATAGACCTTTCTTTAGAAGCAGCAAAATGGGGCTTTCCAATATTAGAAAAAATATTCTATCTTATTTTTTTATTCATAATATTTATAATTTTTGAAATATTAATTATCAACTATTTGCACAAAAAAGAAGGCTTTTCACTTCAAAAGTTTAAGTCTGATATTAAAAAACAATTTTTTCTTGTCACAAAAGTTAACATAATAATGTCCTTACATATTTTCGTTGGCACATTATTTTTTATAGTACCAGGTATTATTATTGCACTGAGCTATACATTTATAATTTATTTTACAATATGTTATAATCAGCCTTTTGAGACAGCTAGAGAAAACAGTATGAAACTTATGGATGGCTATAAGTTTTATTTCTTCCTACTATATATAGTGCTTTTTTGTTTTATATTTATAGTTGGCTTCAGTTTAGAGTTACCCTTTTCTTTCACAGATAAGCCAAAAATTCTTAAATACGCATTATTCTCTATAGAGTATGGTATATCTTACTTAACAGAAATAATAACCTATACTGTTATATACCTTTTCTGGAAAGATCGAGTTAAGAATTCGAATACACAAGAAGAACACTAACTATTTTCTACCTGATGACCTAACACTTTGCTGATAATGGTAGCGCTAGCTGCATTTAAGCCTATTATATTAACTTCAATACCATTTTTCTTTAACTTATCAGAAACTTTATTTAAAGCATCAACGGCTGATACATCCCAGAAATGCGCATCAGAAAGGTCAATCACTGCAATAGATATATTCTCTTTATAGTTAAAGACAGAAACAAAGCTGTCAGCTGACGCAAAAAACACCTGGCCAATAATTTTATATACTCTCTTAGTTCCACACTCAAGCAAGCAGGACTCAACTGTAAATGAATGCGATACTTTATAGGCAAAGAACATCACACTAAGCAGCACTCCAACGAAAACCCCTTGAGCCAAATCATGAGTCACTACAACAACTAGAACCGTAACAAATATAACTAGATTTGATGTAATAGGTGTTGATCTAAAATCTTTTATAGATGACCAGTTAAACGTACTTATTGAAACCATTATCATAATCGCAACTAGTGATGCAACTGGTATTTGCTTAACAAAATCCCCTGCTGCTAAAATCAGGAAAATCAAAAAACACCCAGCAAATAATGCAGAGAGTCTTGATCTACCCCCAGATTCTACATTGATAATTGACTGTCCGATTAGCGCACATCCCGCCATTCCACCAAAAAAACCAGCTATCATATTTGCAATACCTTGCCCTCGGCATTCCCTATTTTTATCACTATCAGTATCAGTAAGATCATCAATAATCACTGATGTCATAAGCGTCTCAAGCAAACCAACTACTGCAAGAGTTGCAGAATAAGGAAAAATAATCTTAAGAGTTTCAAGGTTAAAAGGAATATCTGGAATCATTAAAACAGGCAACATTGAAGGCAGTTCACCCATATCACCGATCGTTTTTAAATCAAGGTCCATCATCAGCGAAACTGCTGTTAGAATAATAATGCTAACTAATGTTGATGGTATGACTTGCGTAATTTTGGGAAATAAGTAAATAATAAGCAAACCGAACCCTACCATCATATACATCTGTATTCCTGCATCCTGAAAAGCAGGAAGTTGTGCTAAAAATATTAAAATAGCAAGTGCATTAACAAAACCAGTAGTGACTGACCGAGAAACAAATCTTAGTAAAAAGCTAAATCTCACATACCCTGCTATATACTGTAGAACTCCAGTTAATACTGATGCTGCAAGCAAGTATTGCAGGCCATGATCTTTTACTAGTGTTACCATAAGCACGGCCATGGCTCCCGCTGTTGATGAAATCATACCTGGGCGCCCACCAAAAAAAGCTATGGATATTGCAATACAAAATGAACCATAAAATCCAATCTTAGGATCAACTCCTGCAATAATTGAAAACGCTATAGTTTCAGGTATTAGCGCAAGTGCAACAACTGTCCCTGCAAGCACATCACCTTTAACATTACCAAACCATTCTGCTTTAATCTTCGAAATTGACATATAGATAAATACTAATATACTACTAATAATTAACTTAATTGTTAATTAAACATTGATATATTAACTTATCTCTGATGTAAATGCAAGAAGGATTTGTTTATTAAAAGGGCATTGTTAAATAACAAA
>sequence38
ATCACATTACCAACCGGCAGACGTAGCTCATGATTCACATTATTCAGTATCTTCTGCGCAGTCGCTCCCAGCCTCTCTATCTCCTTCTCCTGATCACTTATACGCTCATTATAATGCACCACCTTTTCATGCAAGTGCGTTACTTCCGTCTCTAGCGTATCTATCTTTGCTTCTGTCTCCTCCAAATGCTCTTGCTTTGGTTTTAGAAAAATTACAAGAGTTGCTCCTGTTAATGCTAAAATATAAATAATAATAAACGCTGGGGATTTTAAATTAGAACCAAATAGTTTATCCAGATTAAATCCTTGATAAGAAACGAATGAAAATACACTACCTATAATTATTAAAGGCGGAGCCAACCTCCATCCAAATATATGAGCTGTAATTAAAAGATTAGCTGTAAACACAGCAAATTGTAATGAACTAAAATTGCTTATTAATACGAAAAAACTATTACATAAAACAAGCATGAAAAAAACTGAAATAGGCCATAAAATTTGAGCAAATGTTAGCTTTTTTGTGGCTGAAATACTCACAGGCCATATAGGGTATGATATAATCAACATACTACAAACTATCATTATCTGATAAAGATAAATCACCCAACCACAATAATCACGCAATAAACAAGTTTGAGTGTTATACATTGTTGTAATAGTAAAAATAATAAAATAAATACCAAGACCAATATAAGAAAAATCATCAGTTGGAGATTTTTTCTTACAATAATCAAAAAAGCTAAGTGAGTTATTCTGGTACAAATTATATATCTTACTTAGCAGTGAAGAAGATTTCACCTCTTTACCAGATTCTGAAGCAGTTTTCTCAGTCCAACCGCCCGGCTGACGCAATATATAATGACTACCCATTAGGAAAATTAAGTTGATTAACATTGAGAAAGCTATGCCGTTTGCCTTAATTCCTAGTATTTTCCAAATAAGGATAGTGCTACCACCAAATAACATACCTATTGCAATTGATAAAGTAGATGTTCTAAAGCCTAATATTGTTAACATCATTGGTATTGTAACAATAGGAATATAAAAACTATTTGTTGCAAGAATTACATCTAATAAATTTTGTGTAGTAATTGCAAGAATAATTGCACTGACTCCAAGTAAACTAGCAAATATTTTAGATATTATCAATTCCGAACCTTTGCCTAAGTTTAAAGGTTTACATAAATCATTTGCGAATAGAACTGATGAAGAGTTAATATGAGAATCAGCTGTTGACATAGACATTGCCATAATACCAACTATTAACATACCCTTAAAGCCTGTATATGTGTAGTTGTCAATTATATAACCTAAAAGATGATTAGGTTTAATATCCGGATTTATTGTATGCAGTAAAAAAGGAATCCATTGTGTAGCTAAGATTATGGCTAAAATTAAAAAACCAGATATAATAAATGCTTTCTTAACCTGATAAATATCTCTACCCATACTAATTCTTTGAAAAATATCAGGTTTTATTCCAGGAATTGTAAAATAAAAAAATAAAGCAACCATAGAAAAAAAATCTGGATGATCTATACTTAAAACTTTGGAAATATTAAACTTATCTACATCCATTGTATTTGAAAATGAAAGCACAACAGAATCTTGAAAAGCCTGATTCCATATCATTATTCCAACTATTGGTATTGCTAATCCAAATGTAATAAGTTGTAATACATCAGTAAATGTTACAGACTTAATCCCTCCAAAAGCAGAATAAATTGTTACAATTGAAGCAGATAAGATAATAGATTCAGCACTTGATAAGCCTAAAAAATAACTAAATAAACCACCAAATACTTTAAATTGTACCGCAATAAAACCGATTGAAGCCATTGAACCAGCTATTGCAACCACAATCCTTACATTTTTTCCATATAAATCGCCTAAAGATTCAGCAATTGAAGTGCTACCAAGAAAGCTGTTCATTCTTGGTATAAAAATATATGCCATGATAAAAAATGTTAAAACCATCCCATATGTAGGAATAGCATCATATAAGCCAAGTGAATAAGTATCCGTTAATACTAAAAAAAAGCTTGATCCACTTGTCCAAGTTGCTACAAGGGTTGCTACTATTGCACCAGTGGAAAAATCTCTACTACCAATAGCATATTCTTTTATATTTCTAATTTTTTTACCATGACTCAGGCCTACGAGCAAAGTCATTACTAAGAAAGTAACAATAATCGTTATATCAATCATATTCTTATATTATTAAAATATTTATAAACTTCTAATTTAAAGGGAATTTTGGATAATTCAACTATAAGATTCAATTTGGTGAGGACTTTTGAAATTCACTTACAGATGCATCATTTAGGAGAGTAATACCAACTCTGATATTTTTGATGCTATAAGGATCTTTGGCATCAAAAGGCTCTCTGTCGGCTTTACCTAGGATCTTAACAACTTGTTTTTTATCAATCAGCTTTTTACCCATATACTTACGAACTTCATTTGCTCGCTCAGCAGAAACACTCCAAAAATCTATCCCTGAGGCCTCCGCTGATTTAACACTAGCAGTATGCCCACTGATTGAAATATAGTTTGGCTGACTGCTCACCATCTTGCCAATAACGTTGATTATTCTTTCCATATATGGTTGAAGCTGCGATGTATTAGGCTCAAACATAGGTCTATTATCGCTATCCATAATCTGAATGCGCAAACCTTCATTCGTAATATCAACATGCAGATTATCAGAATATTTCTGAAGCTCTGAATTTTGCTGAATGCTATTCATGATGCTAATAAAATGATCTTTTTCAACATCACTCATATTACTTGGTAATCTTGCAGCATCAACTCTATGTCCCTTTGAAGGTGAACCATAAATTAAAGAACTAGAAGCAGCATTAGGCGCTCCAACACCCTCTTCCAGATTTGCATCAGCACCACCATCAAAGCCAAGACCAGCCTTATCACTAATTGATTCTGTAGGTGTAAAATACTGCGCAACACCTTGCAAAGTTGCTTTATCAGATACAGACACTAGCCACAACAATAAAAAGAAGGCCATCATTGCGGTCACGAAGTCAGCATAAGCTACCTTCCAAGCGCCACCATGGTGGCCTCCACCTTCGATCTTCTTAACCTTCTTGATAACTACTTGCTGATTTTTAGACATTAATTAGCCCATGATTTTCATTGAGTTTTCATTTATGTAAGTATCAAGCTCTTCAAATGAAGGTCTAAGATCTTCAGGTATATTTTTACGCATAAATTCAACTACAATAATAGGAGGATTACCATTCAAGTAGGATATAAATCCAGATTTTGCACAATAAACAAATTTCACCTTATAATCACCATATTTATGTAGGAAATGACCCATTGGACCAAAAAAGCCATATGCCATCAAAACACCAAAAAATGTCCCTACAAGAGCCGCACCAATCAAAGCTCCAAGAACATCTGGTGGTTCCATAATACTTCTCATTGTTATAATCACACCAAGCACCGCTGCAACAATACCAAGTGCAGGCAAAGAATCGCCTAAATTAGAATATATATCACCAGGTATAGCTGAATTTCCTTTGTATAAATCCGTCTCCTGATCCATAACATCTTCAAATTGATGTGGATTATCCATACCCATAGTCATTAATCTTAAATTATCCGCCATAAAATTTTGTACAAATGGATCCTTTTTGAGAGATGGAGCAAGCTTAAACAATTCACTGTCATTTGGATTTTCAATATGTGATTCAATCTCCAGCATACCTTTAATCTTCATTAGCTTAAAAGTATTAAAACTAAATAAAAGTAACTCCATGTAGTCCTTTTTTGTATATGGTTTACCTTTAAAGAAGTGCTTCAAACCAGCCAAAGCTTTCTTTAAACAAGATGGTGGATATCCGATGATTACTGAACCAATAGCAGCACCTAAGATAATAATAAATTCACTTGGTTGAAAGAGAATTATTAAACTCCCTCCGTGCATGGTATAGCCAAGAGCAACGGAACCAAATACAACAACAATACCAATTATATAAAACATTTAATTATGCATCTCTTATATTAAATAATTTCTGTAAAAACTATATTCCATAGCTCAACAACATCGTGATTATAACTTATTTTTTCTTAATTTACCAAAGAAACTTTCAATTATTTTACCAGATTCGTGTGCATTGATACCAGAATATATCTCAGGTCTATGCATGCAAGAATTGCTAGTATAAAATTGCACTCCATTTTCTACTGCACCTTGCTTTAAATCCGAAGCTCCATAATATAATCTTCCAAGTCTTGCATTCGAAATTGCGCTCGCGCACATAGTACATGGCTCCAAGGTAACATAAATATCACAATCTAATAAATTTTTGTTATCTTTTTGGTTGCAAGCTATATCAATTGCTAACATTTCTGCGTGTAAATTAGGATTTTTCTTGGATTGCATTAAGTTGTGTGTTTGAGCAATTATCTTACCTCTAATTCTATCAACAATAACACACCCTACTGGTACTTCTCCAGCATCAAAGGCTTTTTGCGCTTCTTTTAGAGCCTCTTTCATATATTTATTATTAAAATCAGACGCTTTCGAGATCATTCATCTCCCCTTCTAATCCCGCGGGATCCTGGTGAATAATAATTTCAGCTCTTGGATATTCCTTTATCAATCTATCGGCAATTCGATCTGATATTTCGTGAGCTTTGTTTAGTGATAAGGAACCGTCAAGCTCAAGGTGGAACTGAATAAAAGGCTTACTTCCGGCAGAACGAGTCTTAAGCTCGTGCAAACCTTTCGCTTCACTGAACTCTCTAACTATGGAAATAATTTTTTTGCGCTCCTCTGGATTAAATTCTTCATCTGATAAATTTCTAATGGCATCCCTAAATAATACATAGGAGGCATGCATTATATATATAGCTATACCAATTCCAGCAATCGCATCTATATACCACATAGAACTGCTTAAATATAATGATATGACCACTACAACATTAGTTAAAAAATCAGAGAAATAATGCAATTTATCTGCCGCAATAATCTTAGAACCAGTCCGTTTTACAACATAGCTTTGGTAGCATACTAATACAAATGTAAGAAATATACATATGTACATCGCATTTGCACCAACTTCAGGATTTTCTGGTGCATCGCCTAAATATAGAGCTCGTCCGGATGAAAATAGCATAAATAGACAGGACGCAAAGAAGAAGATTGACTGAGAAAAAATTGCTAAATCCTGAAATTTATCATGTCCGAAACGATGATTATCATCCGGAGGCATAAGCGCTACCGTAACAGCAATTAAATTAATTAATGATGAAGAAATATCGAGAAACGAATCAATCAGAGAAGCCAAAAGAGACTGGGATTCAGTTGCAACCCACCCATAAATTTTTATTATCAAAATAATTCCAGCTATCACAACTGATGCATATGATGCAGATTTTATAAGAGTATTATCTTTTAGTTTCAACATATTGAATTTTTTATTTGCACTTAACGCATTGAGCATTTATCATCTTAGTTGCTGATATCTTAATGTCAATTTAATGTGTTTTTATGAGGATAATAATTATGGAAAAAACAGCAAAATTATTGCTTATTGCTTTTACTTGCTTTGCTCTTCAAGGTTGTAACGGACAAATGAACAAGCAAAGCGGCGGAACTTTAATTGGTGGCGTTGCGGGTGGACTCCTTGGTTCTCAATTTGGTGGCGGGGAAGGTAAACTTGTTGCAACTGGCGTTGGTGCACTTGCAGGTGCATTAATAGGCGGACAAATTGGTAAAACAATGGATGAATATGATAGACAAATGATGGAAAAAAGCTCAAGACAAGCTTTAGAATTCTCTCCATCAGGTAATAGTGTTGAGTGGAAAAACCCAGATAGTGGAAATAGCGGATCAATCACACCTACCAAGACTTTCAAAGAGTCAGGTCGTTATTGCCGTGAATATGTTCAAGAAGTAATGATTGGCGGAGAAAAACAAAAAGCTTATGGTAAAGCTTGCCGTCAACCAGATGGAAATTGGAAAATTATTAAGTAAAAATTTCTTTATTCTAAAAGAAGGAATTACTTATAACTAATTCGCTTGAGAAAGCGTAGCAAAAACTATAATTTAAGCTTAGCTTACATATAGAAATGATGCTGCGCTTTTCTGTCAATAACACAGCTTCACAATAATTAAATAACAATTATTATTCATATTTAGTACTAAAAACAAATAGCTACTCTATATGTAATTAGGAGAAATAGATAGTAAAGCTGCTAACCCGCTCAAATGGAAAGTATTATCAGAAAAATTATTCCAAAATTATGACAACATTAGTAGAATTTAAATCACTATCAAAAAGCTTTCATAAAAAAGTGCTAGTAGATAATATAAGCTTTAAACTAAATAAAGGAGAAATTACAACTTTAATTGGACAAAATGGAGTAGGAAAAACTACTCTAGCTAAAATTATACTTGGAAAAGAAAAGTATAATAGCGGAGAGCTTTTTATCAAGCCAAACATCAAAATTGGATATGTACCTCAAAAACTAGACTTTAGCTTTAACATTCCGATGACTGCAAAAGGACTTTTGAAAACCTTAGCTCCAGATGGAATTGATTATAATCTCATAAATCTAGAAGAATTTACTGGATATAATAAAATTAAAAACAAAGATATCTCTAATATTTCTGGAGGAGAGCTACAAAAATTGCTGCTAGTTGGAACATTAATGAGCAAACCCGATCTACTAATCCTAGATGAACCAACACAGTTTCTTGACGTAACTAGCCGGCAAGAATTCTATCAAATTCTCAGGGAGCTTAAGGAAAAGCTTGAAATTACTATTTTTATGATTTCACATGACTTATTCACTGTTATGAAAAACTCTGATCAGGTTATATGCCTTAATGGTCATGTATGTTGTAGTGGAAAACCAACTGATCTTGACACTAACTCCGATTTCAAGAATGCTTTATCCGAGATTGGAGTATATGTGCACAACCATGATCACAAGCACTAGACATTTCTGGTTAATTTTATGATTGAATATCAAATTGAATTTTGGAAACATTTAGCAGTCGACGCAGTATCAGATGATACTTGCTATGTATTCTCAACTGGTTTACAAAGCCCGTTGATAAATCTCTTAATCTTCAAAAAGCAGGATATAAAAGATATTACTCCAATTATTGATACAGCGACAAGATTTTTTGCAGAGCATAAAAATATCCCATGGGGTATAAATATTGTCGATGACGAATATTCGAGCAACATCAAAAATATATTGTTAGAAATGGGATTTCAGAATATCTGTCAACAATATGAAATAGATACTGAAATTAAACAAATTAATACAAGTGATTTATCGGAAACAGATATTATTGAAGTGTCGAATGCAGACATGCTAGATGATTGGGTCATTCCAATTACTAGTGCATTTGAAGCAGCCGCGCAAGATAGTAAATTATATCTAGATTTAAGCAAAAAAGCTTTTAATAGCAACTCAAATCGCTTAAAACATTTCATATTATATGAAAATGATAAGCCTATTTCTTCTGCTACATTATGCTTTTTTGATAAGATTGCAAGACTCGATAATGTAGCAACATTAAAGGAAAAGCAAGGCCTTGGATATGGGAAAAAAATCGTTCAATATTGTACTAATAAATCGAAATTAGCTGGCTCTAATAGAATGGTCTTTGAAAGCTCAAAGCAAGGCATAAAACTTTATAGAAAGCTTGGATTCTCAGAAACAGGTAAATCGCATATCTTTAGTAAATTCAGTTTAGACGAGTAATATATTATGACTACAATAATAGCAATATCAACATTAATTGGACTGATTTTTGCGCCTCTTGGCTGCCTTGTGCTATGGAAAAGATACGTCTTTTTTGCAGATGGTTTAGCACATGCAAGTATGCTTGCTGCTGTCATTAGTGTATTACTTGATATTCCTATATTTTATGCTGGTATAATTAATACAGCTTTATTTGCATTTATTGTGTTTAAATTAAAAAGAAAATCTGGAAATAATGCTGCTATCGGCCTTACTTCGAGCCTGATGATTTCTTCGGCATTAATTCTTTCTTATATCTTTCCTGGTAAATTTAATTTTGCAAGCCTACTATTTGGTGACATAGTTGTATCTAGTTTAAAAGACATACTTACTCTGAGTATATTATTAGTATCCGTAATCGCTTTCTTCATCAGTTTTTATAAAAAAATTATTCTATTAATAATTAGTAAGGATATTGCTTCCTCGAGAGAAATTAACGTGAATTTAATAGAGTTCATTTTCTTGAGCATACTTTCATTTTCAGTCCTTGCAACTATTAAAATCGTCGGTGGACTTTTGGTAACTAGCATTATCCTAATACCTGCGATGAGCGCTAGAATTATTTCAAGCTCACCCTTAATGATGATTATTTTATCTATCTTTTTTGCACAAATAATGAATGTTTTAGGAATTATCTTATCATTCCATGCTGATCTTCCATTTGCACCAACAATCATTCTCTGCGGAGGTGGAATTTTTATTATGATTTCAATCTATAATAAAATAAAAATAAAATTTTAATGTAATCTACTTTTAATTATTACTCAGATATTTGAAAAATTGAATCTACTGATTATATATAACCTATAACTTAATTTAAGTTTATTAGTTTTAGACAAAGAAATATGGAGGTAATGATGAATATAGATAAATTTACAGCAGCTAGCAGATCTGTTCTTTCTACTGCTCAAATGATAGCTGCAAAAAATAATCACCAACAAATTCTACCATTACATTTTTTGGAAGCTCTACTTGCTGATGAAAATAATATTATTGCAAATTTGATCAATATTGTAGGGGGTGATATTCAAAATATCAGCACAAGATGTGAAGATGAATTATCAAGAATACCCTCTGTTGAAGTCAGCGGAGGTGGTCAAGTATCAATGTCTTCTGAAGGTCTAAAACTTCTAGAAAAGTCTTTATCACTGGCAAAATCTAATAAAGATAGTTTTGTTACAATAGAACGCATTTTTGAAGCGCTAACACAAGATAAAACACAAGCTGGCAAGATATTAAAAGAAAACTCAATTGATGCAAAAAAAATATCTGCTGCAATTCTTTCTATGAGAAAGGGACGTAAAGCTGATAGCGAATCTGCAGAAGAAGGCTATGATGCACTTTTGAAATATGGTAGGGACGTAACTGAACTTGCAGCGGAAGGTAAGCTTGACCCTATAATTGGTCGAGATGAAGAGATTCGAAGAGCAATCCAAGTTCTCTCCAGACGTTCAAAAAATAACCCAGTATTAATCGGAGAGCCAGGTGTTGGAAAAACAGCAATAATAGAAGGTCTTGCCCAGCGCGTTTATTCAAAAGATGTTCCAGAATCACTAATGCATTGCAAAATTATTGAGCTAGATATGGGAGCTTTGATTGCTGGCGCTAAGTTTCGCGGAGAGTTTGAAGAAAGATTGAAAGCTGTCTTAAATGAAATAAAAGAAGCGAGTGGTGAAATTATCTTATTCATCGACGAACTGCACCTGCTTGTCGGAACAGGTAAAACTGATGGGGCTATGGATGCATCAAACCTTCTAAAACCTATGCTGGCAAGAGGAGAGCTACATTGTATTGGTGCAACTACCCTCGATGAGTATCGTAAATATATTGAAAAAGATACTGCTCTTGCAAGGCGTTTTCAGGCCGTATATATCACTGAGCCAACTGTAGAAGATACTATTTCCATTATGAGAGGAATCAAAGACAAATACGAAGTGCATCATGGTATCTCAATATCAGATAATGCAATAATCGCAGCTGCGACTTTATCAAATAGATATATTACTGACAGATTTCTACCTGATAAAGCAATAGACTTACTGGATGAAGCCGCAAGCAGACTTAAAATTGAAGTATCTAGTAAACCGGAAGAGCTAGATGAACTAGATCGTCGCATTATTCAAATAAAAATTGAACTATCCGCTCTAAAAAAGGAAAAGGACGAAAATTCCAAGAAGAAAGTTAAAATCCTCTCAAATGAACTTGAAGAACTAGAATCCAAATCAATGGATTTAAACTCCAAATGGCTTGCAGAAAAATCTAAAATGCATTCTGCTCAAAAATTAAAAGAAGAGCTAGAAGAAGCTAAAATTAATCTAGATAAAGCGGAAAGAAATGGTGATCTTGCAAAAGCCAGCGAATTAAAATATGGAATCATTCCTGAACTTTCTGAAAAGTTAAAACTATCAGAAGAAAACTCTGAAAATAAACTATTAAAAGAAAGAGTGACCGATCAAGATATAGCTACACTTGTTTCTAAAATCACTGGAATACCTGTTGATAATATGCTTTCCAGCGAAAGAGAAAAACTACTTACTCTAGAGAAAAATCTTGGTAAAACTGTTATTGGACAAGATGACGCAATATCTGCTGTTAGCGACGCAGTTCGCAGATCAAGAGCTGGAATCCAAGACCAAAATAGGCCGTTAGGTTCATTTTTATTTTTAGGCCCAACAGGCGTTGGTAAAACTGAATTGACTAAAGCTTTAGCAGAATTTTTATTTAGTGATCGGTCTGCAGTTCTAAGAATTGATATGTCTGAATACATGGAAAAACACTCTATTGCGCGACTAATAGGAGCTCCTCCAGGATATGTTGGATATGATCAAGGAGGTGTATTAACCGAAGCTGTTAGAAGAAGACCTTATCAAATTATTCTTTTTGATGAAGTAGAAAAAGCTCATCCTGATGTATTTAACATTATGCTGCAGATTCTGGATGAAGGAAGACTAACTGACAGCCAAGGCACACTTGTTGATTTCAAAAATACAATAATTATTTTAACCTCTAATTTAGGATCTGAAATTCTAGTCAATCAACCAGATGGCGAAGATACAAGCATGGTATATGATCAAGTTATGAAGCATGTACACGCAGCTTTCCGTCCAGAGTTTTTAAACAGGCTAGATGAAATAATCTTATTCCACCGCCTAAATAGGTCGCATATGAATAAAATAGTTGAAATTCAGCTTGAACAACTCAAATCTATAATTGCATCACAAAATATTGCACTAGAATTTGACGAAAAAGCTGTTAATTATCTAGCTGGTAAAGGCTATGATCCTGCATTTGGGGCTCGTCCACTAAAAAGAGTTATTCAAAGAGAGGTACAAAATCCCCTAGCTAAGGATTTATTATCCGGCAAGTATAGCGCTGGTCAAACAATAAATCTATCAGCTAACGAGCAGAAACTAAGCATATTTAATTAAATAATGATGCGAATTTATCTTTATCTGAGTGGTTAATTCCATAGATATAAGCATGATATTAGCTACTTTACGCAGCCTTTCCACAAGCAATGCCTGCACACAAGAGCCGGAATGTATTAAGAAATATTTTCGATTGATCCATAGGCTAAATCAATATATTCCGGCTTTAAACTAGAATGATATAAAAATATTAAAATGCGGCATTGTTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCAGAGGGGGCGCAGAAGTACAAATGTA
>sequence39
ATTCCATTGAATCTGTAAATCGTCAAATTCGTAAAATAATCAAAAATAAGGGGGTGTTTCCAAGTGATGAATCGATCAAAAAAATAATATATCTAGCTCTAAAAAATGCCGCAAAAAAATGGACTATGACAATCAAAAATTGGACCCTAGCATTGAATCAATTTGAAATTCTTTGTGGCGATTTTAAACAAGATTTATTGGAGCATAAATTTTAGAACTTACACAAACTAAATGATTGACTCAAATATGCTTATGGGTGGATTGAATAGATTCGATCCATCGCGTAATTAAATTCCTTAAGTGTTTTTCCAGATTAGGTCTATTTTGAGGATTTATTGAGTAAACATATTTTATTGATGGCTTAGTTTTGCTTTCCCACTTTAGCTCAGCTATAGCTACAATTTTTGTACCTCTACTTAAAGTAAAATGATAGTAATTTCTATCTGAAAAATTTGGATGATTTAGATTATATGATATATCATGCTCTTTAAAAAAGTCTCTTGCTATATCATGATATGCATTCCATTCTGCATGGTGAGTACAAAATCTAAAGCTTAGTCCATTATATCCTGATTTATCAAGTGTTTTTCTGATGAATACATCTTTGCCAAGGTTATATCCTGTAAATATAGAATTTTCTTTTACATGTGATTTATTATTTTTAAGCAGAGAAAGTTTTAGCTTGTTATATTCTGCTTTTGCTTCTGATGAATTTATTAAAAAATCTCTGAATAGAATATTTAGCTCTATATCCGGATTATCTTTTTCATAAAGATGTAGGTTAATATCATGTGGATCATTTTTTCTAAAAAAATGTCTCATTGGAATATTGAACTCGCCGCGAAATTCATAATCAATTTTCTGTAAAGATAAATGAGATTCAGATAATGATTTCATCTCCGCAATTATGTCTATTTTAGGTTTTGCATAAAGCCCAGGAACCGCAGTAGACCCAATATGATAAATGTTTACACAGTTATTTCCTAATGAGTACTTAAGTTTTGCTGCTTCTTCTTTAAACCATAAAGACCATTCTGGATTATGTTCTGTGACTTCAATTTTTTTCATTAGATAATTAAATTTAATTGAATTGAGAGTATTTTAAAAATGATACTATATATTTCCATACAGTTCGACTTTGCGGCATATACCAATGAGTAACATTGAGCACAATATGGTCTTTCATGTTTCGTAATTTTGTACTATCGACACTAACTTTGCCATCGCTGGATTTTTTTCTCATAATTGGATAGCAAAAATCTAAAGGCAAATTACCAGCAATAATACCGCATTCGTAATTAACTTCACCTAATAGATTTTTAAATTTTTCTTGATTTGTTACCAGTTGCATGCCAGCAGGTCCATAGAGTTTTTTGTATAATGGATTGCTAATCAAAAAATCGGCGACTTCACTTCCGTTATTTGGTGTTCCAACCATTACTACTTTTCCTAAATTAGGAACTTTATATTTGTTCAAATATGCACGTATAACCAGTCCACCCATAGAAAAACCAACAAAAGAAACAATTTTATACTCTTTGATTTTAGACGTAGTAATATTATTAATAAAGTTTGCTAACTCGTTTATGGAATGTCTTGTTGAGGGGTAGGTTATATTTAGTACTGAGAATCCACGAGTTTGAATAAATTGCTCTAGTCCTTTAAGGCATGAATTTGTTTTTCTGATTCCATGCAATAAAACAACTAAATGCGATTTATTTGCTTCCATCATTTTTACCATACTAACAGTATCTAATAAAAAAACCTCGCAACTGAATTATATTCAAGAAGCGAGGTTTTAATTTTACAATAAATAGTAAGATCTAACTACTACTTGTTGCTGTAGCTGCTTCATTTTCTGCAAGCTTTTTATTATATTCTTTGCCAAGTCCTCTTACAGCAAATATCCATAAGATAACAATCCCAAAAAATATTGCAGCAAAGAAAGGTGTTGCTTCAGCAAATGTATATGAAGGCATCAAAATAAATACAGTTGACTGAATTAAGCCACCACCAGATTTACCTAGTCTTCCGCCAATAACATCAACAGCTGCTTTACCTTTTGTTTTCATCTCATCATCAAGCGGAATATATGACATTTCCTTAGTTGAATCAAAGAGTGAGTATTTTGTCGCTTTACTCAGTACATTCTGTGCCATACCAATTCCCACGATTAGTACAAGCGGTCCAGTGCTAAAGAAAGCTGCTACTTCTAGGCCAAGAGTGCTCTCATATGTAATGAATGAGAAGAATGCAAGACCAGTAAACAGTATCATAACTGGAGTAAACGTTGCTGCAACACTCCAAGATACTCTACGTAGGATATTACTACCAATTAGCATGAAGAAAATAGCAGCATAACCTTGCATAGTCTGGAAGCTGAACATATAAGCTGTATATGCACCAGCTGTCGGGTATAGTTCTTTAATTTTGGACTTCCATACACCTTCAACTAAGTTAATTGATATACCGTATGCAAGTACTAATGTTACCACTAAACCAAGATATTTAGATGTGAAAATCATCTTAAAGCTTTCACCAAGGCTCAGCTTTGCTTTTTTCTTTTTCTTACCACCAGACTGATTTGGATCATATAATGTTGGATCAGTAAGAACATTAGTGTTTATCCACGTATATAGGAATAAAATAAATACACCACTTCCTATTGCTACAAACATAATAGGTACAAGCTGTACTGTGCTAACACCGTCAACTTCTATTGAGAAAATTGCTCCTACTGGGCTAACAAGTAGTAATGCAGTATTACCAATTAGACCAAACATTGAGTAAAAACGCTTTGCTTCATTTGTTTTCGTGATTTGGTTTGCAAACTGCCAAAATAGAAGAGTCAGCATCATACTACCCCACATTTCTGCTGCTACATAGAATGAAGCATAAGTCCACTTACCAATAATACGAATAAACCACTGCGCGTTTGGATATGAAGCAGCTAAAGATTCAATTGCTTCTTTTGATGGGTGGAAAGCATCTGGATTTGGGTATAAAACAAGTGCAAAGAGAGCAAAATAGCCGATAAAGAAAGTAGCTACAGTGTAAAAAACTTTACGTTGACTCATTATATTGCAGAGCTTTGCATAGAGGATCATGAGCAGTATTGCTGATGGCAATACAACATAAAGTTTGAGGAAGCTTATTGCTTCAGGGCCAATGTTTGTTACTACTAAACCATCTTTTACAGATCTTAATGTTGCGTAGTTAAACAGGATACAAGCCATCATTAAGGCCATAGGGACGAATTTTTTATTCTCATTCCACTCGATTGGCCAGAATATTCTTCTTAGTTCGGATAAGAAGTTCTTCTTCTCAGAATTTTCCATTTTTTGTTGTGTTTTTAAGTTGATTAATTGAAATTAACAACATACCTGAAATATTATAAAAAGTCAATAACAACTAGTTAATTAATGTTTACTTTTGTGCGGTGGCTTGAGTTTTAAGCACAAGTGCAACCCATTTATTTTCAGAAAATACTTTTTCAATTTCGAATCCAATACTCTTATAATGGTTTTCAATCTCTTGTTGTTGATAATCAAGAAAACCTGAAAGAATTACTTTTGTATTATTATGACAAAGTGACTTAATAGAGTTTTTCATTGAAATGAGAGGGGTTGCTAGAATGTTACTTACTATCAAATCAAAAGAATTATCCCTATTTTTTGGTATATTTAAGGATGTGCTATTATTTTGATAAAATTCAATATTTGAATTATTAAAACTTTGATTATCTTTAGCAACTTTTATTGACACTTCCTCAATATCGCACGCAAGTATTTGAGCAGATGGCCATAATTTTGCGGCTGCAAAGCTTAAAATCCCACTTCCAGTACCAATATCGAAAATGTTGCGGAATTCAGAGTTTTCTAATTCTTCCATAGCTTTGATACAGAGAGAAGTGGTGACATGATCACCAGTTCCAAAAGCTCTGGATGCTTCAATATAAATTGGTGTTTTGTTTTTAGGGCAAGCTTGTTTTCTGAGTGAGGATGTAACAAAAAATCGGCCAATTTCTAGTGGTTCTAATTGTTCTTGATATTCCTTAATCCAATCCTTATCTTCTATCGCTTCTACAGATATATTAGAAATAATATTAAGTTTATTTTTTGCTGCATAATTTTGAAGTTCTTTCTGGGTATTAGGTAGATTTGGCTCTTGCTCAACAAAAACTTCAAATGCCCATATATCATCCGGTTCTGCTTCAATAGTTTGTGATTCTATTTCATATGTACTGATACCGAGAATTTCATCTTCGGGAAAGAATTTCTCAAAAAGCTCTATATATTTATAGTTTGTATTAAAGCAAATTTTGTGAGTTATTTTTGGTTGACTAAAAGGGTTATTCATAGTTTATAATTAATGGAGTTTTCAAGTTTTAAAATGGTATACCATACTATTTTATATTTATTCAATATTTTCTGGAAAAAGAGAGAGAAATATGAAAGTTATTAAAAATATTATTGCTGGTTTAGTATTAGTTTTATTTGCAGTTAATGTAATTGCGGCTGAAGAAGAGTCAAAAACTAAAAAACCTATGGCGAAATTACGTGGCCCTGCAGAGTTTCAAAAAGTAATTGATGATTATAAAGCGTATGTAGCAAAAATTCCGCCAAAAATTCGAGATGAAATTATTGAATATAGGAAATCTGTAGCAAAACTAAATAAACATAAAAGATTGCTTTATAGACAATTATCTCAAGATAGCCAGAATTATTTAAAGAAAGAGCAACAATATAAAAAGAAGTTGCCATTGAATCGTAAGAGCTTAATTAATATTGAGAGTCCAGGTCAGAAAGCTAAGAAGGCTCCTGCTAAGAAGAAGTAGTTTAAGTTTTTCTTGCAAAATATATAGAAATTGGAGAGATATGAGTTTCGTCTCTCCATTCCATTTCATCATTTGGATCTGCAAGTGGGTTAGAAATTTCAAGTAGTTCAAGAGTTGCTTTTTGCATTACTCTTAAATAAGATTCCTGAGTCCAAAAGTAATCTTCAATTGATAGATTATTATGGATAAATTCAACTTTTACTTTTTGCCCATTTTCTAATGTTTTATTTTGAGGGAAGTCAGTGTTTAGTGCTCCCCAGCTATATTTATACATATTCTCATTATCTAAAATAGCAACAAAATGTCCTTCAGGCTTTAAGACTCTGCTGATTTCTATTAAGGCTTCTTCTATTTGTTCTAGAGAGCTCATTTCGAGTAGTACAAAGGATGCAAATACCAAATCAAATGTTTCATTATCATAAGGTATTTTTGAATTTGCGATTGATTGGTAAGTGCCTTTCTTATCATTTTCTTTAGCCAGTTCTACCATCTTAGGATTAATATCGACGCCACTACAATCGAATCCTAAAGATTTGAGAAAGTTGGTTGAATATCCCACGCCACAACCAAAATCAAGTGCCTTATTATCTGTATTATATTTTTTAAATAAGGGTGGCAAATGCTTAAACGCCAAATTTTTTAGAGAATTTGGCGGTGTTTTTGATGCGTAGGCCTTTGCGTATTCTTCAAGTTCTTTTTTATTATCTATAAAAGTCATTTGTAAGCAAAATAAATTAGTCTTATCTATCAGGTATAGTCATAACTAATTTTTTTGTACAAGAAATTTTGCAATTATGAATAAAAATATTCAGATTAGATAGAGTTTCTTCAAATACTGTTTGAATTAATGGCTTCGAAAGAGAGGCATAATCACCTTTTTCAAATGTACTATTTTCTTTCAACCTACTATGAGCTTCAGAGAGTGTAATAATAGTAAGGTTTTCTAGTAAGTATTCCTTTTCTATATTTTCTAGTAATTTTGTACAATCAAGCCCTGCAATATTAATATCTAAAATCATTAAATATGTATATTTTTTATGATCTACATTTTTATCAAATAGGTATTTTTTTAAAATAAAACTATTGCCAAAATGTTTAACTTCACTCGTAATTCCTTTTCTTTGTAGATTAGTTTTGAAAAGATTTGCGTGGTCAAAATCGTCATCAACCAATAAAATTGTAATATCTTGATATTTCATATTTCCCCCCAGATTTTTGACTATCATTACTACAGTTTAGCATCTTTATAAGCCTGAATCTAAAAAAATATATTACAAAATCTATCCAAATATTTTTAAGTTTATGATAGTTAAAATGATGAGCTTGCAATACTAATTTTTTTCATTTATTAATGATTATTATGAAACATTTCGAAAAATATTCCAAAAATTATAGAGTTTATGAGTGTTGATATTGATATCGCAATTGTCATCGTTTTTTTAGTTGCAACATTGGTAATTGGTTTAGGCTACGGCAATAAGGTAAGAACAATTGAGCAATATGCTCTTGGAGATAGAAATTTTTCAACTGGTGCATTAATAGCAACCATAGTTGCATCATGGATAGGTGGAGGGACTTTTTTTACTTCATTATCAAGAACATACTCTGATGGTATAACATTTATTTTGCCTGTATATGGAATGGTTTTATCCTTTCTAATCATGGCTTATGTATTCATTCCCAAAATGTCAAATTTTCTTGGTAAGCTATCCATTGCTGAGGCGCTGGGGGATCTGTACGGAAATAAAGTAAGAGTTATTGTTGCAATAGCTGGTACTGTTGGAGCTGCAGGAGCTATAGCAGTTCAGTTCAAGGTTTTTGGGAATATTCTGAGTTATTTTTTATATTTTTCTCCATTAGAAGGTGTTCTATTATCTGCGCTTATAGTAACGATATACTCTGCATTTGGAGGAATAAGAGCCGTTACATTTACGGATCTATTGCAGACAGTAACTTTTGGTGTTGCTGTACCAATAGTTAGTATAATGATTTGGAATCATGCTTATTACGAAGATATTTCAATAATGGAGACTTTAAGTAATAAAAAGTTTGATATTGCACGTATTTTTGAGATTAGTAATGTTGAGCTGCTTTCTATGTTATCTTTATTTTTATATTTTTCAGTGCCAGGAATGCAGCCTGATATTTTCCAAAGAGTCAGTATGGGAAGGAATACAAAGCAGGCCCAAAAAGCATTTATAGGATCAGCTTTTTTGATTACATTAATTCTCTTTTCTGTTCAGTGGGTTCCTTTTTTGATTTTCAGTATAGATCCGAATTTAGAAGCAAAAAACTTATTAGGTTATATTGTTGATAATTATTCTTATACAGGTTTTAAAGGAGTGTTGATTGTTGGAATAATAGCACTTGCAATGTCAACAGCTGATTCCATTTTAAATTCTTCGGCTGTATTATTTGGTCACGATATTTGTCGTCCACTAAACTTAAAGCCTAAAACTGAGTTATTTATATCAAAAGTATTTTCAATTGTTATTGGAATTATTGGTGTTATTTTAGCTCTATATACGAAAAATATTTTGCAGATTATTCTTGATACGAGTAGTTTTTATATGCCAATTGTAACTGTACCTATGATGTTAACAATTTTAGGTTTTAGAACAAGTACAAGAGTAATTCTTGCAGGTATGGCGGCTAGTTTTGCTACTGTAGTTATCTGGAAGTTTTTAGGAATTGATATTGATCCAATATTCTTTGCAATGGGAATTAATTGTGCTTTTCTTTTAGGAGGGCACTATTTACTTAATGAATCTGGAGGATGGATTGCAGTTCCGAATTTATCTCACCCTCAAAGAAACAAAATATCGTATTTAAACAAGCTCAGAAGTAATTTAAATTTTAATTTTATAAATTATTGTAGACGGAATTCTCCTGTTAACGGTATGTCATATGTTGGTTTGGGGGTGTATTTTATAATTTTCACAGTGACTACAATGTACAATACTCAAACTTGCTTGTTACAGGAAGGATGTGGGTGGATACTTTATATATACCAAGCTATGATGGTTTGTGGTGTGATATTAGCTGTTTATCCTATATGGCCTGGTAGTTATCAGAATAGTAGATTACTAGTTGCGCAAATTTTTTGGCCGATTTCTATATTTGCTATATTGATTTTATGTAATTGCTTTTTTATGTTAATCAGTAATTCTAGTTCGCTGCAGTTTGCAATATTTACAGTTAATCTGCTGGTTGTAGCAACTCTTTTGGGGTGGCGGATGGCAATATTTTCTATATTAGTAGGATGTTTTTTATTAGTCTCAATGTATAGTTATTTTGATGTAAGTCTATATTTTGATATAAAATCTGAATCTCCTGCGTTTATATCTATTTATCTGTTAATGATTGTAGGATCAACTATACTTCTCTTTTTAAAACCTAAACAAGAGCAGCAAGAATTAACAGAAGCGAAGGTAGGAACATTGGAAATAGAAATCTCTGATTTGTCAGAAAAAGTGACGCATTATACTGAGCGTGTAGCGTATCAGTCTAAAGAGATAGAGCGTTTAGGTGCTACAGCTCAAAGGATATTGAATAATGTAAATCATGAACTGCGTCTGCCTGTTGGTAATGTGATGAATTTTGCTGAGATGTTAAATGATGGATTGGGTAAGTTTAACGAAGAACAGTTAAAGAGACTTTCAGACGAAGTATATAAAAACTCAAATCGTCTATCTTCTATGATTCTTAATATGTTAGATTTGGCAACTTTGGAAGCTAAAAAAATTGAACTCCAGAAGAAAATAGTAAATTTTAGTGAGTTAGTACATGATAGGGTGCAATCATGCCGTAAGATTTATTTAGTAGATAAGAAGATCGATATAGAGATGCACATAGAAGAAAACATTCTAATTAATATTGATCCAAACTATATACGCCAAACAGTCGATAATTTAGTGATAAATGCAATTAATTTCAGCACTGAAGGGGTTATTAGAATAAGTGTCTTGAGAAAAGGCAAGAGAGTTGAGTTTGTAATCTCCGATAATGGAATCGGCATTCCAAAAGAAGATCTATACGATATTTTCACTCCATTCAAGATGGGTTCAAATGCTGAGTCAAAAGCCGAGGGTCGAGGAGTAGGTTTAGCTTTGTGTAAAGCAGCGATAGAAGCCCATGGTGGTAGTATTAGCGCAGCAAGTAGAGGTAGAATGGGAGCAAGGTTTAGATTTGTACTTTAGTGTTTTAGTATAATGTTATGAAAAATTATAAGGATTTGGTTAGAGAGGTTAAAGAGTGTACTTTGTGTGCTTCAAACTTGCCTTTGGGACCAAGGCCTGTTTTTCAAATTCATCCAGATGCTAAGGTTTTAGTTGTAGGTCAAGCGCCAGGTAGAGCTGTCCACAATACTGGCATTCCTTTTAATGATCCAAGTGGTGATAGATTAAGAGATTGGTTAGGTGTAGATAAGGACGATTTTTATAACCCAGAAAAATTTGCAATATTGCCAATGGGATTTTGTTATCCTGGTACTGGAAAAACAGGCGATTTGCCTCCAAGAAAGGAATGTGCAGAAAAATGGCGTAATCAACTACTAGAAACTATACCTAACATAGAAATAACTCTAGCAATTGGTCAATATGCAATTGATTGGCACCTGCATAAGAAAAAGAAGAAAAACCTGACAGAAACTGTAAAAGCATGGAGAGAATATTGGCCTGAATATTTACCCATGCCGCACCCAAGTCCAAGAAATAATATTTGGCTTAAAAAGAACCCGTGGTTTGAAAAAGAAGTATTACCTGAACTTAAAAAAAATATTAGAGATAAGGTATATTGTTTTGATTGAGCGAATTTGAATTAAAAGCATTATTGATAGAAATTAAGCTTTGCGCTAAGTTCCAAGCGTAATTTTAAAGAGAGGTAATTATAAGAAGAGTAAATGCAGTCGAACTAGCTCCAGTGCCAGAAGAGATCTTGGAAAGAAAAAAAGAATGAAAGAGGAGTTTAAAGATGAACCATATGATGGTTTTTTCTACTTTCAATGTGGAGTTCTTGCATCTGAAAGATCCATCTTGCCTCCACAACCAGGAGAATCAGATGAATCAGCGCCACTAGTTGGTGATTTCACAACCGAAGAATAATAATATTTATTATTAAATCATTGATAATAATAGTCTTATCTATTTTTTATGTTTCATAAGTTAATAGCTTTAAGATTAGAGCTTAAATTTCATAAATCTCGGTGATTCATTTTACAAGATAGGATTGAGTCTCGAGATTTTTGATTCCTATGATTTAGGGATAATTGATGGATAAACAATTTCAGTTTACTATTGAGACTGGCGCTCTAATATGTGCTGGTAGAGATTTTAGCTAAGAAAATACTATTTTGATGGTGGGCCCGGCAGGACTTGAACCTGCGACCACTCCGTTATGAGCGGAGCGCTCTAACCAACTGAGCTACAAGCCCAAAATTTATAGTCTAGTTAGTTTGAATTAATCTTATATAACTTTGGCCGAAAAAAGTCCAGAAAAAATTCTGTTGATTATAGGCATTATTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCAGAGGGGCGCAGAAGTAC
>sequence40
AGAGATTTTTCTGAATATTATAAGTTAGCTACGAGAATAGAAGAATCTTATAAAGTAAATCATCTGTGTACAGACGCATATGAAGTTTACAGTAAATATAGAATATCAAAACATCACCACCAAACCAAAGCAGAAACTGCTCTAGTAGAAAGCTAAAACTCAGGGATCAGACATTATCTGGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAAGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCCCTTTTACAATGCGTAGCATAATTCGTCATTGTGAGCGAATGCGCGGTGATCCACTAGTTTTAAAATGTGTATATTCTGGAGTCTGCTCACTGGATTGCCGCGTCGCTTCGCTCCTCGCAATGACAAGTAGCTAACAAGTAATAAACTCTATCGGTCATAGCGAGGCGAAGCGCAGCTGTCCAGATATTTTACTAAACAAAAATTCACTTATTATTGAGCCTAATAAATTGCTGAGTCGGTTACGCCCGACAATAGCAGAAAATTATGCCGTCATAATTGCATATACACAGCGATTTATAAGCAAAAAATACTATTTCTTACTATTCTCTTGCTCTTTCTTCTGAACGGTTTTACGTACCGGCTTTTTCTCATCTTTTTCTTCAGCAGACTTTTCCACTTTTTTGACTAGAGCTTTTTTCTTACCATTACCAGGGAATTCAGGGTCTTCTTCTGAATCTATAGAATTTCCAAGCAATAAATTTTTGATCTGCTTACCCGATAAAGTTTCATGCTCGATTAAAGCTTTTGCAAGAGTATGGAGCTGATCTAAGTGCTTTGTTAGAATATGCTTTGCAAAATCATATCCTTCATCAACTATTCTTCTTACTTCATGGTCAATTGCCTCAGATGTTTTTTCAGATCTAGTTTTGTCGCCAGCACCTGATGCATACATATCTTCATTGCTTTTGCCATGAAAAACAGGTCCAACTTTATCACTTAATCCCCACTCTGTCACCATTGCTTGGGCCATTTTTGTTGCCATCTTAATATCAGATGACGCACCTGATGTTACTTTCTCATGACCAAATATAATTTCTTCAGCTACTCGACCGGCCATGGCAACAGCAATATCCGCTTTCATCTTCTCTAGAGCCATTGAGAACCTATCATTTTCCGGAAGACGCATAACCATTCCAAGTGCTCTACCCCTTGGTATAATTGTAGCCTTGTGAATTGGATCGGATGCCGGACAATGAAGCCCAACTAAAGCATGCCCTCCTTCATGATATGCAGTTAGCTTCTTTTCAGCATCGGACATAGCCATGGATTTTCTTTCAACTCCCATAAGGACCTTATCTTTTGCTTCTTCCATATCGCTCATATCAACAATCTTCTTCCCGCGTCTTGCAGCAATCAGTGCCGATTCATTAACTAGATTCTGCAGCTCTGCTCCAGAGAATCCAGGAGTGCCTCTGGCTATAATTTTAGGCTCTACCTTATCAGAATGCTTAATCTTCTTCATATGCACTTTAAGAATCTGCTCACGCCCAATCAAATCAGGATTAGAAACTGTTATTTGTCTATCAAATCTTCCAGGACGCAAAAGCGCAGGATCTAAAACATCTGGTCTATTAGTTGCAGCAATAATAACAACTCCTTCATTTATTTCAAAACCATCCATTTCAACTAGCATCTGGTTTAATGTTTGCTCACGCTCATCATTACCACCGCCCATACCAATTCCTCTATGGCGTCCAACTGCATCAATCTCATCAATAAATATTATACATGGAGCATTCCTCTTACCCTGCTCAAACATATCGCGAACACGGCTAGCACCGACACCAACAAACATTTCAACAAAATCTGAACCTGAAATACTAAAAAATGGTACGTTAGCTTCACCTGCAATTGCTTTTGCAAGCAGAGTTTTACCAGTACCTGGAGGACCTATTAGCAAACATCCCTTAGGAATCTGACCGCCTAATTTTTGGAACTTACCAGGATTTCTAAGAAAATCTACGATCTCAGCTAGTTCTTCTTTTGCTTCGTCAATACCAGCAACATCAGAGAATGTTATCTTTGGTCCTTTATCAGAAATCAGCTTAGCTTTTGACTTACCAAATCCCATTCCTTTACTTCCCCCTTGCATTTGACGCATAAAGAATATCCAAACACCAATTAGCAAGATCATTGGGAACCAAGAAACAAAAATACTGAATAATGAATTCATTTTTGTATCTGGAGGTGTTACTTCAACATAAACTCCATTAATGCTGAGCTTATCAATTAAGCCAGGATAATCTGCTGAATAAGTAGAAAATGAAGTTCCATCGGCAAGCTTCCCTTCAATATACCTACCTTGAATCTTCACTGAATTAACTTGTCTATCATCAACTCTCGCAAGAAAGTCAGAAAATGCTAGTTTTTCAGTTCTACCTCCAACTCCATCACCTTGCATTGCATTAAATGTCATGATCATTAAAATAAAAACAACGATCCAAATTAAAATGTGCTTATTTTGATTATTCATTAATTCTTCCTATAAATATTTCCTAAAAACATACCAAAATTATGTTGGTGCAGCTATAGGAAATGAGTAAAACGTGAAACAAAACCTGGAGTAAAAATAACATCAACTCCAGAATTAGATTTAAAACCATCATAATAAGATATATGGGGAATTGCTACGACTTTTTCAAGGTTTTTAATAACAGGTAGTGTAAATAAAATATCTTTATGGTTATTCATGCTTGATTTACTAAGATTTTGAAAGTCTAATTTATCTTTTATGTCTATGTAATCCTCCATATCCAGCAGGCAAATCTTTAGCTCCTCATCAACGAATTCATTGTCAATATTGAACTTAAATCTATTGTCCCATATAACTCCATTCTTCAAATTAACACTATTTGAGTTAATTGCATTTTTTTCCCTGAATATCAATATTTTATCGTTTACTTCTCGTAAAATACATTCGTGCAAACTACTGTCAAAACTATCTCCTGCACTAACTTTATCTATTAATTTTTTAGTGCTCCTATAACGTGGAGTATCTATTTTTCCGCTGATAGATGTTAGAACAAAATTTATTATATAAACCGCAATTTCATAATCCAATTTTCTGTACGAATCTAAATCTATAAAAACAAACCCTAATTTATTAAATTCAACATTTTCAGCAATTGCTTTTATAAATTTATTATTAAATTCAGTAGCTTTTATATCCGCTGTGTTAGCCTCCTCTTCAAGAGATATTTTATCTTCTTTTGGCATTGACAAAATATGATGACGAACTCTATTTCTCTCATAAAAATCTAGATTATTAGATTTGTCCTCCATCCACGTTATGGAATTAGCATTTAAATAATCAACTAAATCATTTTTTTTAATATTAAAGAGTGGACGTAAGATTTGTATATTATCGTAGAAGGTAGAATATGAATTACTTAAACCAAGAATCCCACTTTTTTTCCTTTTACGCATTAAATAATTTTCTAAAAAGTCATCATAATGATGAGCGGTTAGAAGGCTATTAATACCTAGTTCATGACATTTATTAGTCATCATTTCATATCTTGCTAGCCTTGCCCTTTCTTGAAGAGAGTTCTTAGAATTATCGTGCTGCCAGATAAATTCTACAAATTTATGCTCAAGAGTAAGTGAAACCCTCTTAACAAATTCTAATTCATCAGATGACTCTTTTCGCAATCGATGATTTACTGAAAAAACAACTAACCTGATTTGGTTTTGTTTAGCCCATTTTGAAGCTAAAAACAAAAGAGCAATAGAATCTGATCCACCAGAAACAGCTAAGGCGACTTCCGAAGAAATCGCCTTATCAAAATTCTGATTCATAAAGTCATTAAATTGCTCTTGTAGCATTACTGGAAAATACCTTGCACTGTAAATCTAGCAATAGTATCTTCAAGATGAGCTGAAAGTTCTTTGCGAATCTGAGCTTCATCTTCAATTTTCTTATTATCTTTATTTAAAGTAATTTTACCCTCTGCAGATTCTTTCATTAACTTATCTAGAATTTGCTCTTTAGTATTTTTACCATTCATATGTTTAACGGCAAATTTATCAAAGAAGCTAATCGAAATTGGAGCATGAGCTGGATTAGTAACCCAATTATTTGTTGTTTTTTCAACTTGATGCATGACTAGCTTACTAACATTTGGCTTATTAAATTTTACTTTTTCTTTATCTCTATTATGAAGATGAATATCCATATAACCTTTGATCACAAGATTCATAGCATTCTGCAAAATTTCAGACTCAATTATATCCTTATTATTTCCTTTTAGTAACTTATCAGCTTTGTTAACAAGATCTTTGAACCCAACTGGATATCCTTTATTTTCAATTAAAACGTAAAATACTGCTTTTAATGCCGGAGAAGTAGTTGACATAAACTGTTCTTTATCACCTTTGAAATAAAATTTCATAGGCTCATTATCTTCAATAACTGCATCTTTAATATTTTTTTCAGCAGCAATGTCAAGTGAAATAGCAAAATCTTTAATAGAATCGTTATTTAAAGACCTATTTAACTTAATATCATTATGACATAATAATGTGCTTCTAAATCTTCTATTGGTAATAAAATCCATATATTGTTCAGTTCTCACAATATCATTGATCTCTTGAAGCTTTTCAGCTACTCGTTGCTTCATATTTCCTATATACATTGAAGATAAAGAGCAATCAGCTAAATATTGCAACCCATTATCATTAGCTTTTTGCATAAAGTCACTAAAATAAAATTGTTTATTATTTTCTTCTAAATGTTCGTGTCTAATATAGTGATCACCAAGTATAGAGAGCAGTTCTGCTTCTTGTTTTAAAACTTTTGCATATGGTGAGTCTGTTCCCTCTAAACTTTCTTTTATAAATTCAAGCATTGCTCTTGACTGCGCTACTTTATCGTCTTCAGCAAATGACTTAGCATGATACATCATCATATCTCTAACAGTTCTAACCATATTCCAACCTGGAAGAGTATTGTAACTGATATATGCAATACCGTTTTTATTAAGGTTCTTTTTTGATACTTCAATAATTTTATCTTGAACAACATCAGAAACAAAAGAAAGCACTCCATGGCAGATAATATAATCAAACTTCCCAAAAGAATCATCAATATCTGTTATAGAACAATGTTTAAGCTCAATATTCTTTAAACCCATTTCTTTAATATGCTTATTACCTGCATCGATTTGAACCTTTGATAGATCTACGCCAACATACTCACCTTTTGGATAATGCACTGCATGAGGAATAATATTACCACCTTCAGCACAACCAAGCTCAAGAACTCTTGCTGTTTCAATCTTTGGTGGATTCATACCAAATAAAGCGCCAAGTGTAGCTAATTTTTCTGTGCTACTTTGAGCATGAGGATAGCTTTGATAAGGTGTTTTAGCATAAGCTTTTTGTACGTTATTTATCATAGTTTTTTTAATTCTTCTTTATTTTAATTATTACTTAACTGGAATTTTAAATGTAAAACCTAAAGTAAATTCTCCAACACCAATCGTTTTCTTAATTGGAGTTTGAGATTTAAAACTTTGTGTTGTCATATCCAGAGTCTCATATTTAATTTTAATATCCTTTACAACTTGCAATTTTGCTCCCAAATCAACAGCAAAATGATCACTTATATCCTTCGATATACCACCACCTAGCTGATATGCAAAGCAATTATGCACGTTCTTTTTTACTCTAAAAAATTCAATTGGTCCAGCAAATCCTGGAAGAGTTGCTAGATTGCCCTCCGGTTGCCAGAAAGTTTTATTCGGTCTAATATTAATTTGAGCAACCCCAGCACCAAAGATAACATAAGGCTTTAAGCCCATTTTTTGTTTCTCAAACTCATATATCCAATTCAACGTAAATACATTAGCAGAAACTTTGGTAATATCGTGAGTTGTAGGAATTCCTGCAGATGGGAATTGAGCTTGTGCTACCGCAGAAGCAGCCGCCGGAGCTAATCCTTGTCCTATTATAAGTGATTGAGTAACAAGTCCTTGTATAGTTGATGTTAAATCAATCGCTGGCAATCTATAAGCTAATCTGTATTTTGGTTGATGAGTGCCTGATAGTTCTACTGCCATATTTGGGTAAAAACTGTAACCGATACGTCCGCCATACATCCTAGACTGCTTTAGGCGCATCTTAGTTTCACCTCTCTGGGATTTATAAGAAAATTCTTTAACGACAGGTTCTGAAATACCCAGCTCAGTTCCAATATATACATATCTATCTTCTGCATTACTTGCAAGAGCAACATTGTGGTTTAGTAATATTACACTTGCAAGAGCTGCTATTTTTAGATTTTTCATAGTTCCTTTCCTTCATTATATTAAGTTAGGTTTGCAAGATTATATATCCCAAATTTTGCACGTCAAATTAAAAACACAATCTACATAATATATAAAGTTTATAGCATAGTTTTTATCAAAAAAATTTATACAAATTAATACAAAATCATCTACAGCACTATATCTATGAAGTTACAAAAAAACCATCTGCTTCAAACCCCTTTTTATCCAACAATTTTTAATTTCTAAAATCAGTAAAAATATAATTAATATCCTACATATAGTATGTCAAGAAAAAAAATATACAATATATGCAAAATACCTATTGAAGCTATATAATCAAAAGTTTATCATTAAGTAGTATGGCATTTCGCTAAATAAATAACTTATATAATAAATGAGGGAATGTAAAAATGACCGTTGCTAAAAAAACCAAATTTAACATTAAAATAGATAGAAGCAGAGATAGCAATCTTACTGATTTTGGGAAAGCAGTTTTAAAAGATAGGTATCTTCTTGAAGGTGAAGATTATCAAGATCTATTCGCCCGTGTTTCATCTTATTATGCTGACGACCAAAAACATGCTGACAAAATGTATGATTACATGAGTAAATTATGGTTTATGCCAGCGACTCCTATATTAAGCAACGGAGGAACAGACCGAGGTCTACCTATTTCATGCTTCTTAAATGAAACTGAAGATAGCTTAGAGAGTATAGTAGAAACATGGAATGAAAATGTTTGGCTTGCGGCACGTGGAGGAGGCATCGGTAGTTATTGGGGTAATGTTAGATCTATAAATGAAACAGTTCGTGGTAATGGAAAAACATCTGGTATCATCCCATTCTTAAAAGTACAAGACTCTATGACCCTTGCTATCTCCCAAGGATCTTTAAGACGCGGAAGCTCAGCTGTATATCTACCGATTGATCATCCTGAAATTGAGGAGTTTATTGATCTAAGACGCCCAACTGGAGGTGACGTCAACAGAAGAGCTCTAAATATCCATCACGGAGTATGTGTTACTGATGCTTTTATGGAAGCAGTTGAAAAAAATGAAGATTGGAAATTAATAAGCCCACTTACAAAAAAAGTAATTACAAGCATTAGCGCCAGAGAGCTTTGGAGCAAGTTGCTTACTACTAGAATAGAAACTGGCGAACCATACATATTATATGTTGATAATGTTAATAAGCACATTCCTGAGCATCATAAAAAACTTGGTTTAAAGGTAAAAACTTCTAACTTATGTGCTGAAATAACTCTACCTACTGGAGTAGATCATTTAGGTAAGAATAGAACAGCAGTATGCTGCCTATCATCACTAAACCTAGAAAATTATCAAGCTTGGAAAGATGATAAGGAATTTATTCCAAACGTAATGCGTTTTCTTGATAACGTATTGGAAGACTTCATCCAAAATGCACCAGACACAATGTCTAGAGCCACCTACTCTGCTCAAAGAGAACGTAGCATTGGGTTGGGTGTTATGGGAATGCACTCGTTCCTTCAATCACAAAATGTACCAATAGAATCCGTGATGGCGAAAGTATGGAACAATAAAATATTTGAACACATCAATAAAGAAGCAAATAGAGCATCAGAACTGCTAGCAGATGAAAGAGGCGCTTGCCCAGATGCCGAAGAAGTTGGAGCAAAAGAAAGGTTTAGTAATAAAACTTCAATAGCACCAACAGCTTCTATATCCATAATATGTGGTAATTCTTCACCTGGTATTGAGCCATATGCAGCTAATAGCTTCACTCAAAAAACTTTAAGTGGTTCATTCACAGTGAAAAATAAAAACCTAGTAAAACTGCTTGAAACAAAAGGATTTAACAATGATCAAGTTTGGTCATCAATTTCAACCCATGAAGGATCAGTTCAACATCTAAATTTCTTAACTGATCACGAAAAAGATGTATTCAAAACAGCTCCTGAAATTGATCAAAATTGGCTAATTGAACTAGCATCTGATCGCACAGCTTTTGTTTCTCAAGCACAATCATTAAATATCTTTATGCCTGGTGATACAAGCAAACAATATCTACATGATATTCATTTCAAAGCTTGGAAAAAAGGCGTTAAAAGCTTATATTATTGCCGCTCGACATCAATACAAAGAGCTGATAAGGTCTCTCATACAGTAACTCAAGCTCAAGAAATGGTTGAACTCGAGAAAAGAAATAAAGCTGAACCTGGCTTGCCAGCAACACGCCCAGAAAGAATCGAAAATAACTACGACGAATGCTTATCTTGTCAATAAAATTAAAGGAGAAATAAACAATGTCATTACTAGACGCACAACCAATTTACAAACCATTTGCATATCCATGGGCATATGAGGCGTGGCACACACAGCAAAAAATACATTGGCTTCCTGAAGAAGTTCCTCTGGCTGATGATGTAAAAGACTGGAAATATAATCTGTCTTCAGGAGAAAAGCATCTTCTAACACAAATTTTTAGGTTTTTCACCCAGGCTGATATTGAAGTAAATAATTGCTATATGAAGCATTACTCTCAAGTCTTCCAACCAACAGAAGTACAAATGATGCTTGCAGCATTTTCAAATATGGAAACTATTCATATTGCTGCCTACTCTCACCTCCTAGATACAATTGGCATGGATGAGACTGAGTATCAAGCATTTATGAAATACAAAGAAATGAAAGATAAGTATGATTATATGCAAAAATTTGGAGTAGAAACAAAAGAAGATATTGCAACTACTCTAGCTGTATTTGGAGCATTTACCGAGGGTCTACAGCTTTTTGCATCATTTGCTATTCTGCTAAATTTCCCGCGCTTTAATAAGATGAAAGGCATGGGACAAATAGTAACTTGGTCTGTTAGAGACGAAACCTTGCATACAAATTCAATTATCCATCTATTTAAGACTTTTGTCCAAGAGAATCCAGAAGTGTGGAATGAGCAACTAAGAAGCAGGCTCTACGAAGCATGCGCTACGATCGTTCACTTTGAAGATGCATTCATTGAACTTGCATTTGAAGTTGGCGGTATCGAAGGACTAACAGCTCGTGAAGTACGTCAATATATCAGATACATTGCCGACAGAAGATTGATGCAGCTTGGCCTTAAAGAGATCTATCTTGTAGATAACAACCCTCTTCCATGGCTTGATGAAATGCTAAATGGAGTTGAGCACGCTAATTTCTTTGAAGCAAGAGCCACTGAATATACTAAAGCTGCAACTACAGGAACATGGGAAAATGTCTTTGCAGACATGGATGCTAAAAGATCAAATAATAAAGAAGAAGAAAAAACAGAATAGTTATTTGTTTTCTATCTAAACTAACCTGAACTATAACCTCTCTGATATTTCTTACACGAGGGGTTATTAAGTAAATATAATATTAGTTGAAACTCTCTTTGACATATTCAACAAAATCTCCTAGCCTAATTTATGTAATTAATTAATCTGGAGAAAAATTATGTCTAAACAAAAACCAGTATTTGGCCCCGAAAGACCATCTGAATCAGCATACAAAGCAAATACAATCCCCAACATAACTCCAGAGTTTTTTCATAAATTTTGGATGCCCTTAGTTGAAGCCCAACTAATTAAAGCTGGTGGAATAGAAGAAGTATTTAATCAAAACCCAATTTTTAGACAATTTGCACAAGATTTACTAAATGAAAGAGGTTTAGAAATTGCAAGCTGGGTAAAAGAAAATTGTGATACTGGAGCACAAACACCTACACAAATAGTAGACTCATTTCAAGATAGAATAAATGCATCAAGACAAGAAACACCAATTGTAGGAGAAGATTCGGAGGAGTCATTAGATAGTTGAAATAGTTAAAGATATATTTGGTAATTTAGAAAATAATACTAAATATATCTTTTATACTTTCTATAAATTACTTCTATCTACGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGAACCTAGCAAG
>sequence41
ATAGACGGTTCGAATTCTTATACACTTCATCTGATAATGTTTTTAGCTGATCTTCGCTGAACTTACCAACCGGCAGACGTAGCTCATGATTCACATTATTCAGTATCTTCTGCGCAGTCGCTCCCAGCCTCTCTATCTCCTTCTCCTGATCACTTATACGCTCATTATAATGCACCACCTTTTCATGCAAGTACGTCACTTCCGTCTCTAGCGTATCTACCTTCGCTTCTGTCTCCTCCAAATGCTCTTGCTTTGGTTTGAAAAAGATAATTAATGTACTGCTGATTAATAATAGAAGATATACCACCTTAAATTCTAATGATGTGAAATCATTCCTAATTTCTAGAATATCTATATAATATTTATAATATAGTAACGTGATTGTTATACCAAAAATTATAGAAAATAATGACCAACGCCACCTACTTAGAGATGCTATTACTATTACATTGAACATGAAAGACATTAATTGCATTTCCGAAAAATTACTCAGCAAGATCAATAAAAATCCAAAGCAAATTAATATTAACACTGAAACAAAATTCCATAATATAGATACAAAATTAGATTTCTTCCAGGAGCGTAGCCATAATGGGTAACTAATAAGAAGAGATGATGTGCAAAGCGTAATAATATATAAGCTATCCATCAACAATACATTCTGATCATATATATCATCCGGTAAAGTATTTACGCTTGAAAATACAGATACCATCACAAAAAAACCCAAAAATGCAATCAATCCATCACTTTTTGGCGCGTTCTTTTGGCATACCTCCAGTAAACTAAACGATTTTATCTCATAAACTAGCTTCTCTAGTTTTTTTTTACGCTCCTCTTGCAAAGCTTCTATTACTGATGGATCCTTGATTCCTACCCATCCTCCAGATTGATTGAATATATAATGATATGACAGTAGAACCACTAAATTTGCTAGCATGCCAGGTATCAAACCTCCTACATTTCCCATCTCGCTTTTTAATATTAGTTCCCATAAAACTGTTACAGTAAATCCAGCTATCATGCCCGCTAAAACTGACTTCTCACTACTCCTAAAACCAAACAAAGCCATCATAAATGGCACTGTTACTATTGGCATATAGCATGTACTAGTCCACAAAATAAGCTCAAAAAAGTTTCCACCACGCAATGCAATTAATACAGAAACAATACCAATAAGTAATGAGCAAACTCTAGTTGCATATAATTCACGTTGAATAAATTTAGTATTTAAAGAATTATTCAAATCATGTACTAGTAAGATAGAATTAGAATTAATATATGAATCGACAGTAGACATTATCATCGCCATAATTCCAGATACTATCAGACCTTTAAATCCGTTAATCCAGCTATAGTTAGAAATAGTATGTTTTAAAATTTCTTGCCCATCAATATTAGGATAATATGACAATACCAAAACTCCGATCCAACAGACAAGTGCAGCGAGTAGCAAACCAATAAACGCTGCAATTACAAAAGAATCATGCACTTGTTTTGTGTTTTTAGCCATTGCTACCCTCTGAAAAATCGCCGGGTCAAAATTAGGAATAAAAAGCCATAGAAATAGTGAAATATAGTAATAAATCTGAGAATTTTCAAAAGAGAAAACAGATTTATAGTCAAAAGACGGATTTTTAGATAATGTATCAATAATAACTTGACCATCACCAATATTACTCAACAAAGTATAAGCAATAAAAGGTATTATAACGCCAAAGGTCCCAAATTGAATTATATCAGTAAAAGTTACAGATCTAATGCCTCCTAGAGAAGAGTATAATGTAATAATAATACCTGCAAATATAGTACCGTAAAAATGTTCAACACCTAGGGCATACTCAAAAAGCAACCCAGCAATCTGCAGCTGAATTGCTATCACACCGACTACACCAATCACTCCAGAAATAGCTGTTATTGCCCTTACTCTATTACCAAACAATTCGCCCATTGCTTCAGCGATTGATATTTTACCCAAAAATTCCTTTAAACGCGCTGCAAAAAAAACTCCTATAAACAAGTAACTTAAAAAGTCTGCTACCAAGATTGTCATAAAGATCAATCCTTCTTTATACGACTCAGCTACAATGGTAAAAAAGAATTCACCGCTTACCCATATTGAAACAATTGTAAAAACTAGAGTTGCAGTGCTAAATGTTTTATCTCCAACAGCATAACCTCGTATAGTGTTCACTCCTTTACTCGCAAATAATCCTAAGGCTAAATTTACCACTAAAAACGTAACAAAAATCGTGCTGTCTATATCAAAATTCATAATTTTCTCTTACTATATTATGTCCAAATTACACATAATATATATCTAAATCAAATAAAAAATTCACCCAGAATTCTAGGTGAATTTTATGTATTAAATAAAGAGTCTTGAGCAAAAAGCTATATTACTCACCATTTGATGGGTTATCGTCAGCCACTTCTAACTTCGCTTTTTCAATAGCTCTATCTAGATCAACTTGAGTGCATATACCAAGCAATACTGGATCACGCTGACGTATGTTTGACATATTCCAATGTGTACGATCACGAATAGCGGCAATAGTAGATTTTGTTGTACCAATCAATTTTATAATTGTTGAATCTTTAATATCTGGAAAGTTCTTTAGAAGCCAATAAATTGCATCTGGCTTGTCTTGACGACGCGCAATCGGAGTATAATGCGATCTTTTTTTATTAGCTTTATTTGCCGCCTCATAAGCCGAACTTGTTTTCAAAACCAAACGCGCTTTTGGATCTTTAGAACAACGCTCAATTTCACTTTTTTCAAGCTGACCAGAAACAACTGGATCTACACCAATAATACCTGATGCAACTTCTCCATCTGCTATACCTTTAACTTCAAGTTCATGAATACCACAAAAATGTGCAATTTGTTCAAACGTAAGAGTTGTATTATCTATCAGCCAAACTGCTGTAGCTTTTTGCATTAGAGGGTATTGTTGTTTTTTACTCATGATATATCTTTCATTTTTTGATTATTTGCCATCAGAAATAAGGCATATTACAACTGAAAAATACTATTTTTACTACGCAAAGTCAAACATTATAAATTGCTATTACAGGTGCATGATCCGAAGGCTTTTCCTTTTCTCTAGTTTTATAATCAATTATGCAATCCTCCAAATTTTGTAAAGCATTGCTAGATGATATTATTGTATCAATTCGCATTCCCTTATTTTGTTCAAATGCGCCGGCTCTATAATCCCACCAAGAAAATTCCTTTTTTGTAGGATATTTTGCACGAAAATTATCGATAAATCCGCTATTCAAAATAATGCGTAACTTTTTTTGTTCAGTGAGTGTAAAACAAGTTGAATCTCTTAACTTATTTGGAGAATGCACATCTATATCAAAGGGCGCAATATTATAGTCTGAACCAACAAATAGCTTCTCCTCAAATGATTTTTTAGAATTAATGTACTTTGTAAACGCATCATAAAAATTTAACTTTATTTCAAATTTGTCACTGCCCACTTCCCCACCATTAGGCGCATATAATGATATTATTCTGGCATATCCAATTGGGGTATCAAAACTACATTCAATAAATCTTGCTTGCTCCGGAATTGGATTATCTGAAAACTCTGTTATAACTTCATCAGCCGGAATTTTTGAAAGTATTGCTACTCCATTATATGTTTTCTGACCATGTATATATAAGTTATATGGCAAATCACTTAGCTCCTCAGAAGGAAATTTATCTGTTTCACATTTTAACTCCTGAAGACAAATTACATCTGGATCATGATCAGCAATAAATTCTCTTAAATGATTTAATCTAACCTTAATGGAATTCACATTCCAAGTAACAATCTTAAAACTCATACTCTAACCTTGACATTTTGGGCAAAAGAAACTCGATCTTCCTGCCTGCTTTATTTTCTTAATTGGGTTTTTGCAAGAATAGCACGGCATTCCAGCTCTGTCATATACATTTAGTTCCTGCTTAAAATAGCCCGGCTTATTATCTCCACTGACAAAATCTTTAAGTGTTGTTCCTCCTGCTTGAATTGCTCTTGTTAAAACCAACTTAATTGCATCTGTTAATTTTGCTACTTCATCCTTAGTAACTTTTGCAGCTATTCGTTTTGGACTAATCCTTGATTCAAATAAACTCTCAGCTGCATAAATATTTCCAACACCAACAACTATCCGACTATCCATTATCGCAGTTTTAATCGGCGTATTTTTATTTTGTAACTGATTCTGTAAATATGACGCGTTGAATTCATCTGTTAAGGGTTCAATCCCCATATTTTTTAGAAAATCTTGCTTGTGAAATTCATCGGAAGCACAACCATAGATCATTCCAAATCTTCTTGCATCATTGAACACTAATTGATTCCCACTAGAAAAACCTATCAACACGTGATCATGCTTCTGTCTTTGATAGCTTTTAGGCTGAACCGTTAGTCTCCCGCTCATCCCCAAATGCACAACAAGCGAATTATCATTACTTAACTTAATATTTAAAAACTTAGCTCGTCTTTGTACATCTATTATCGAGCTATTTTCAATCAGCTCCTGAAGATTAGAAGCTAAAACATATCGTAAATTATTTCTATTTTTCTGAAAAGAAACTATTTCTTGATCTAAAATATTCTTTTTCAGGTAACGCATTAAAGTTTCAACTTCAGCTAATTCAGGCATTTTATCGGGTTATTCATTGATCTAGATAATTATTGATGATAGTTTATGAAACTTATAATAAAATTGCAAATATGAAGTTGCGTATAATAGATACTGTTAGTTAATTATAGGAATTTTATGAGCGAAAAAGATGAAAAGAATTTTGGATTCGAAAAAGTATCATCCAAAGAAAAGCGAACTCTTGTAGATGGAGTTTTTTCAGATGTTGCTGGCAAATATGATTTAATGAATGATTTAATGAGTTTTGGTGTACATCGCCTTTGGAAAGATGAATTTTGTAATATGATTCCTAATATGGATTCGAAAATTCTTGATGTAGCTGGAGGAACCGGTGATATTTCATTTAAGCTAAAGGAAAAAGGAAAAGCACAAAATAAAGATACTCATATTATTGTCAGCGATATTAACCAAGAAATGTTGGAAATATGTCAATCAAGAGCAATAGATCGCAATATCTTAAATAATTTTGATTTAGTTGTTGCAGATGCTGAGAAATTGCCATTTCCTGATAATAGTTTTGATTATTATACAATAGCATTTGGCATTAGAAACATGGTCTCTATCGAAAATGCGCTTGCAGAAGCACTTAGAGTGCTAAAACCAACCGGCAAGTTTTTATGTTTAGAGTTTTCCAAAGTTCAAAATGACATAGTAAAACCCCTATATGATTTTTATACATTCAACGTCATTCCAAAAATTGGCAATTGCGTTGCCGGAAACCAAGACGCTTACAGGTATTTGGCTGAAAGTATCAGCTTATTTCCCGACCAAGAAGACTTCAAAACTATGATTCAAAAAACTGGATTCACGAATGTTGTATATAAGAATCTTACTTTCGGCACAGCCGCTATTCACTATGGCTTCAAGGGGTAAAATAATATTCTAAGCTATGATTAATTTTGTAAAATATTTTCCAAAGATCATGTGGGTAATCTATATTATTAGCAAAAAACAGCTGCTGACTCACCCAGGGCAATATAGACTTCCAACATCGATAAAATGCATTGGATATGTATTTTGTACTATATTTTATTTTAAAGGGCTTTTTATAAAACCTAAAGATAGCTTTGGCAAACGTTTAACCGACTGCTTCTATGATCTTGGCCCAATTTATATTAAGTTCGGCCAAACACTATCAACTAGGCCAGATTTAATCGGCATTGAGGTAGCTGAAAATTTAAAATATCTTCAAGATAAATTACCTCCATTTGATAAAAAGATAGTTCATGAAAAAATCGAAAGTAAATTTGGCAAAAAAATCTCTGATTTATTCACTAAGTTCAATGAAAAGCCAGTTGCCGCCGCATCTATTGCCCAAGTTCATAAAGCGCAACTAAAAAATGGAGACATTGTAGCCGTAAAAATACTCAGGCCTGATATTTCAGAAAAATACGAAAGAGATATGCAGTTTTTGGAATTTGGTGCGAAAATAGTTTCTATCCTAATCAAGAAAGCAAAACGCCTAAAACCAAAAGAAGTTATAGCTGTTTTTAGGCAATCCATGAAATTTGAATTAGACCTAAGATCAGAAGCAGCCGCTGCTTCAAGACTATATGATAATTTTATTAATGACGATAGTTTGTTAATTCCTAAAATTTACTGGGAACTTACATCAAGCGACATAATAACTTTAGAATGGGTCGAAGGAGTTTCAATATATGACAAAGATCAAATCATAAAATTGGAACTTGATCCAAAAGAAGCTGCAGCAAAAATTGCTGTTATTTTCTTTAATCAAGCATATAGAGACGGGTTTTTTCATGCAGACTTGCACCCTGGTAATATACTAGTTTGCCGAGATGGACGCATTGCTCTAGTCGACTTTGGTATAGTCGGATTTTTGCCAGAAAATGATAGGTTAGCTATTGCTGAAATTTTATATGCATTTTTAAAAAGAGACTACCAGCTAGTAGCTGAAATCCATAAACGCATTGGATATATACCGGAAAATACTGACTTATATCAATTTGGCATGAGTTGCAGGGCAGTTGCAGAACCTATTATTGGGCTGGCGATTAAAGATATTTCAATTGGGAATTTACTAGCTCAACTCTTCAAAGTCACCGAAGAATATGGTATGGAGACTCAACCTCAATTACTTTTACTACAAAAAACAATGGTGGTTGTTGAAGGAATTGGTCAAAGCTTGGACGAAGATATTAATATGTGGCAACTTGCAGAGCCTTGGATCAAAAAATGGGCAGCAAAGAATCTATCTCCTGAGGCTAAGATTCTACGAGTAATGAAAAAACTATTTAATGACTTGATATAATTATTATGAGAATCATCACCTGGAATATTAACTCCGTCAGGCTACGCATTAACCTAGTTGAAAAACTTAATAATGAACATAATCCTGACATTATTTGTCTGCAAGAAACAAAAGCTGAAGATAAACACTTTCCACAGCAAGCAATAAGAGATATAGGTTTTAATCATATAGTTTTCAGTGGACAAAAATCGTATAATGGAGTTGCTATTCTCTCAAAGTTTTCAATAGAAGATAGCTTCTCAATTGATTTATATAACGAAGATAGAAGGCATATATGTGCTAAAATCAATGATTTTGAACTTCATAATTTTTATGTACCTGCCGGAGGAGACGAACCAGATACCGAAGTGAATCCTAAATATAAACATAAGCTTGAGTACGTAAAATCAATGCAAGAATGGTTTGAATCTAATACAAAACCATCTGATAAAATAATTTTAGTTGGAGATCTTAATATCGCCCCGCATGAGCAAGATGTATGGTCAAGTCGTCAATTGAGAAATGTTATAAGCCACACTCAACCTGAACGTGAATCACTACTGTCACTACAAAATTCTTTTGATTTTATTGATACAGCAAGGCGCTTTGTCAATTTGGATGAGAAATTATATAGCTGGTGGAGTTACCGTAATAGAGATTGGAAAAAATCTAATAGAGGAAGAAGATTAGATCATATATGGACCAGTCGCCCACTAGAAAAACAACTAAGATCAATTGAAATTGTAAAGCAAGCACGTGACTGGGAAAAACCATCTGATCATGTACCTTGCATATTAGATATAAATTGATCCAAAATGGAAACACTACCATAAATCTCCCCTCTTCCCCTAAACTCAAGTAAGAAAAAAATCACAAACACCTTTAGAAAATCTGCGATTGAAAGATGGAACTTGATCGGATGCTAAAAAATGTTTAGAAATAATTCCTAAATGACTGAATCTTACTATCAATATCCTTACTTAACTCTCCAAATTTTAAAACTTTATCAATATCTTGAGTGGAGTTTTGTAATTCTGGATGTTGTGATATTCTTTTCTCAATATTATTGATAAGACCATATTTATCTAGCAAGCTTCCTATTGAATTTTCTGTACTAAAATCTTTAACAATCTGATGATCTGGATTATTTTTCTTAAAATTATTCCATAACGGACGGTAAAAAAATTCGGAGATTGAACTGTTTCTTGCACGCCTAAAGATGATAAAAACAAAATTCCTGAAATATGCTTGTTGAATCTTCAACTAAATATAACTCAAGAAGATAAGCAACAACCAATAGCAGCATTTCAAATTGGCTATTTCGGAGAGAATAAAGATTTAAAAATTATTCAAACTCTACCTCTAGGCATAAGACTTGAGGCCGGAACATCGATCATAAGCTCGAAAAAGCTAATTGCACCTGGCAAATACACAATTTGTACGCAGACCGGCTGCCAAGCGGTGGCTCCAATTTCGGACGCAGATTTAGAAACTCTTATGTCAACTCAAGAGAATCCTGTCGTGTTCACGAATCTAGAAGGGAAACAATTAACTCTTCCACTTTCTATAAAAGGGCTAAAAGCTGGACTTAAATACATAAAATAATCCTATCTTAGTAGACTGATTTAACATGAAAATAGAGGCCTCAATTTTGGGCCTCTTTTTTTTATTAATTACAATCGAAACTAAATTTAATTTTCTGAATTGGCTAAATCTGTCTTCCCATTCCACTTACATCTTTTGTGCTCTGAACCTTTGGCCTCTTAGTGACAACTTTATTTGCTCCTGACTCCTTCATCTCCTGTGAGATCTTTTTTGCTTGATCTTGTAGTTTATTACTAATTCCAGATTTTGATTTAGACTCCTTTAAACTTGCATTAAATGAATTTGCTAAAGCCTTTAAATCTTTATTCGATGTTGATTTTCCAATTGAACTAACTTTAGAAACAAGACTAGCAATCGCATCAGAAAAACTCTGCACTACTCTGCCGATTGCACTACCTCTAGCAGCTTCACGCTTATCTAATTCTTTTGCTACTTCATGCATCTTCCCCCAAGATTCGTAAGGTACCGAACTAAGAACAGCTCGACAAGTTTCTTTTCCGTTCAAGGGTTTATCATTTTGCTTATCAGTGCCAATTTTTTTACTTTCAGCTTCGATAAGTTTAGCAATATCAGTCGCGCTATGTTTATTAAAAATCTCAGGAGTTGCTAAACCCTTTCCTCTTAATTTTTCTAAATTTTTTATTCGCTGCTTAACATCAACACCCTTTTCCTCTAAAAAAGATTTTGAATTATGCAACTTTATCATAAATTCTGTTATCTCTTGCTTTGATGCTCCCTTATCTTCAAAAGACTTAGCCTTTTTATCAAGATCCTGATTTAAGGACTCTACATCAATCTTAAATTCCATCTTTTTAAAACTAGATTTATTTTGTCTATTAACAAAGCTCTCTAACTTTTTTCCTAAAACCAAAACTTTATCAATATCCATCTCGTTATTTAGTAAATCTGGATGCTGTAATATTTTCTGCTCTAAATTATCCCTAACTTGATATGGATCTAAATCACTTCCTGTGAAAAGTTTTCTACTAGAATCAATAACAAATTCATGCTTGGGACTTTTTTGGCTAAAATCACTCAATTTTTGTTCAAGATCTAACAATTTTTCTAAATCATTACTTTGCAATGCCGGAATCATTCCATCTACAATTTCCTTAATATCTGGATTTTTGCTATCAGCATATTTTACTTGCAATTCTAGTGCTGCCGCTATATTCAACGCTTCTTCATCCAAAGCGGTTAACTCTTTCTTTGTGTTTTCTGAAGAAGGCTGCTCTACATCAAATATATCCTCTAAATCAGGCCTTTCAACGCTATCAACAATCCTATCTTTTACAACCTGAAGGCTTTTTGGATTATCCTTATATTTAATGCAAGCCGCATACATTTTCTTTATCGTTTCTTCGGTAATTTCTTTTTTAGCCATATACAAACACCCCGTAAATTAATCAATCGTAAACTAATCAGTACTATATTAATATATGAACTATAAAAAATCAAAATAAACCGACATACCTTGGACCAAATTTATTTTTAAACTATCTATCTACTCATCCCACCTACATCTTTATTTCTCAGTTTTTGCCTCTTATTTTCTATTTTATTGGCCCAAGATTTTTTTTCTGATTTCATGACCTGCTTCGCCTGCTCCTTAAGTTTATTACTAATTCCAGATTTTGATTTAGACTCCTTTAAACTTGCATTAAATGAATTTGCTAAAGCCTTTAAATCTTTATTCGATGTTGATTTTCCAATTGAACTAACTTTAGAAAC
>sequence42
ATACATCAACTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTCGTTATTTAATAATGCCCATATGTTAGCGAAAGAAACATTGCTTATTTCTTATTCTTTTACTATATTTGCTCATAAGAATAATAATGGATATTACTATGCAAACAGATGTAGCAATTATTGGTGGCGGACCTACAGGAATTTTTAGTGCTTTTCAAGCTGGGATGCTTGGTATGAAATCATGTATTATAGATGCTTTAGACGTTGCTGGAGGTCAGTGCAGTGCATTATATCCTGAAAAACCAATATACGATATTCCAGCATATCCAGATATATTAGCCCAAGAATTAGTAAATAATCTTGTCAAGCAAGCATCTACATATGACCCACAATATCTTCTTTCAAGACAAGTCACTGCTCTTGAGCAAGAAGGAAATCAGTTTATCTTGGGCACATCTTCTGGGGATATTATAAAAGCCAAAACTGTATTAATTGCAGCAGGAGCTGGGTGTTTTGGACCAAATCGTCCGCCGCTAAAAGATTTAGAGTCATATGAAGGCAAATCGGTCTTTTATTTAGTATCTAAAAGAGATAAGTTTGTAGGTAAAAAAATTGTGATTGCAGGAGGGGGTGATTCGGCAGTTGACTGGGCACTGTCATTATCTTCAATTGCTGATGTGACAGTAGTTCACAGGCGTGCAAAATTTAGAGCAGCACCAGCCAGCATAAAGAAAATGCATGAATTAGCTGATGCTGGGAAAATAAGTCTTGTAACTAATTTTCAGTTATCTGAGTTAAAAGGTAAAAATGGAGCTCTAGAGCAGGTAATCGTGTCAGATCTAGATGGCAATAAAAAGCCAATTGATGCAGATATTCTGTTACCATTTTTTGGTTTGGCACAAAATTTGGGCCCTTTGCTTGAGTTTGGGCTTGATATAAAAGGACATCATATTATAGCTAACCAACCTCATTATGAAACAAATATACCTGGTATCTATGCTGTTGGTGATGTTGCAACATATGAAGGTAAACTTAAATTGATTCTAACTGGTTTTGCAGAAGTAGCATCAGCTCTTCACCATTCTTATGCTAGAGTATTTGATGGAAAAGCTTTGCATTTTGAATATTCAACTACAAAATGTGCAAGTAAGTAATAAATCATAATTCTTTAGAAGATGATGTATGTTGGACTCAAGAGTTAGAAAGCTAATAGATAAACCTTTAGATGTAGTTGGCAAGAAGTTAGGATTGTTTGGAGTTACTGCAAATTCAGTTACAATTTTTGGTTTTATCAGTGGGATTTTGTCAATAATATTTATTGCCAATGACTCTTTAAATTATGCTCTTCTTTTTTTGTGTTTGAATCGCTTGTCAGATGGCCTTGATGGTGCGGTAGCTAGAGCGTCGAAGCTTTCTGATTTTGGTGGTTTTTTAGATATTGTATCAGATTTTATTATATATTCCGGTATTGTATTTGCTTTTGCAATCAGAGATACATCAGTTGCGTTATATGCGGCATTTTTGATTTTTAGCTTTGTAGGTCCAATTACCTCATTTCTTGCATATGCTATCATCGCTGCTAAGAAAGATGTTAACACGGTAAAAAGAGGTAAGAAATCATTCTACTATCTTGGTGGTATTTGTGAAGGTACAGAAACTGCTTTTATTTTAATTTTAATGTGCATTATGCCGAGCATATTTGCAGAAATATGCGTAGTATATGGAATATTATGCTGGCTTACTACTGCTGGTAGAGTTTATGCTACCTGGCATGATTTTGCAAAAAATAGCTAGTCGCTTTAAAATTATCTCTCTGTAGGTTATCTATAATTAAAAAATAAAATCAATGCTCGATTTTCGGCTGCATGTTTTTCAATAATCACTATTATTGATTTATTAGGATCATAGAGCTGATAATGTTTACAGAAAAGAAACAACAAGAATTTTACCAAGCACTACTTGCAAAAGATGCTGAATATGAAGGAGTATTTTACGTAGGAGTAAGGTCTACAGGGGTATTTTGTAGACCAACTTGTCCAGCAAGGAAACCTAAATTTACTAACTGTGAATTTTATGCATCTGCGCAAGAAGCACTGCTTGCATCATATAGGCCATGTATGCGGTGTAAGCCTCTTTCTCATCCCAATGAAGTATCAGAATTAGTTGCAAAGCTAGTGGATATGGTTGAATCTAGGCCAGAAAAAAGGTGGAAAAACGCTGATTTAGAAAAACTATCTATAGATGCATCTACTGCTCGTAGGCATTTTAAAAGTAGATTTGGTATAACTTTTATAGAATATGCTAGAGCAAGGCGTCTCGGTATGGCAATGAAGCATATTCGTAGTGGGGAACCTATAATTGAAGCTCAGCTTACTGCAGGATATGAGTCTAGTAGTGGTTTTAGGGATGCATTTTCAAAAATTATGGGAGCTGCTCCAATTGATCGAAAAAAGCACAAGAGTCTTTTATATGCTTCTTGGATTGATTCTCCGCTTGGTCCAATGCTTGCTGTGGCTAATAAAAAGTATCTATATTTACTAGAGTTTGTTCAGCGTAAAGGTTTGGAGCGTGAGATTGAGCGCATGCGTTTGAAGACAAAATCGATTATATTACCAGGTGCTCCAGAGCCAATTAAATCAATTAAGGAGGAGCTGCAATTATATTTTTCTGGTAAGTTAAAAATTTTCAAGACACCAATCTATATTTATGGTACCGATTTTCAGAAAAAAGCTTGGGAAGCGCTAATGAAAATTCCTTATGGAACTACTAGATCATACAAGGAACAAGCAGGTATTATTGGAAAAGCATCAGCATTTCGAGCTGTTGCAAATGCTAATGGATCAAATCAGTTGGCAATAATTATTCCTTGCCACCGTATTATCAATAGCGACGGTAATTTGGGTGGTTACGGAGGCGGTCTGCATCGTAAGAAATGGTTGCTTAATTTCGAGCTGAAGAATAAGTAATTCCTTTAGTTTAGAACGTGTAATTTAGGGTTTATTCATAGAGTTTATTAATATTCGTGTGCTGTCATTGTGAGGAGCGAATGGACGCGGCAATCTATGGATAAGCGATGTATTCGTAATTTCTTTCAGGATAGCCGCGCCTCGCTCGCTGTGACGTTATGGTGTATTAATATTACGATGCTGTCATTGCGAGGAGCAAAGAGACGCGGCAATCTATGGATAAGGGATGTATTAGTAATTTCTGACTGGATAGCCACGCCTCGCTCGCTGTGACGTTATGGTGTATTGATAGTCGTATGTTGTCATTGCGAGGAGAGAAGCGACGCGGCAATCTATAGATAAGGGATGTATTCGTAATTTCTGACTGGATAGCCGCATTTTGCTCGCTATGATGATGATTTAGTTATCTTTTGCAATAAGCAATGCGGAGTGGCAATAAGACATTTTGATCTTAGTGCGCTGAAATATTAGTTTACAAAGTGACTATATTTATTATGAGTAAAGTAGTACTATGACTTTTTCTTAGTTCTTCTTTTTATAATCTTATAAATAATAGGTAGTAGAGCTAATATTCCTAGTCCAGTTAGTGCAACTATTATATCGGGGCTTAGTAGGCTTTCCGGAGTGAAATTATCGTGATTTAATAATGTTTGCATCGCAACACCAACTGATACATATACGTAGCTGCCAGGTATTATTCCAATTAATGTTCCAAAGAAGAAAGTTTTTAACCTTATCTGTAAGATGCCCGCAACAATATTAACTATGACGAAAGGGAAGATTGGAATTAGCCTAAGAGTTAACATGTATGAAAAAGCATTTTCTTGAAAGCCTGCTTTCATCTTCTGCACCCAAGATCCATGTTCTTTTTTGCTTGAATTTTTTGCAGCAAATTTGGTACTAAGAAAAATGCTGCAGGCTCCAAGGCTTGCTGATAGTACAACACAAAGAGTGCCAATTGTTTGGCCAAAGAGAAAGCCACCAGTAAGTGTCATAATAGTTGCTGCTGGGATCGAAAGACTTACAATGACAAAATATAGAAAAGAATATATTAGTGTTGCAATAATAAGATTATTTTTAACATAGTCTTTTAAGAAATTCTGGTTTTCCTTTAAGGTTCCTAGGCTAATATATTTGTATATACCAGTATACCATATTGTAAAACCCACTGTTATTAAAACTATTAAGGGGATGTATTTTTGAAGTTTTCTCAAAGTAGAAATTAAGTTTAATATGGTTTAAAAGCTTCGTTAAACACGCAAACTATTTTCTTTCCAGCTCTAAGTGTTAGTTTATGAAAAACTTGTTCAACAATTACACGATTGCTATTATTTGGGTCTAATCTAAAGTTTACCATAGATTCTCTTAACTCCTCATCGACAGCAAAGATTGCAGGTATCTCGTTATTTTTATCTCTAAATTGTAGATAAGTGAACTCACCATCATCAAATATCTTAATTGGCGCAATTTCTTCGTGCCCACTTATTGAATAATTAAAATTAAGCTTTTCAGGGTGAGACATATCCGGTCCTGAGCTGCCCATTCCTCCTGAAGATGCAAAAGTACGTATACCATCTTCTTCTTCCTCTTCGTCAGGGTATAAGAACTTAACGTTAAATACCATTCCAGGATCTCTGATATCTAATGTTTCTTCGGCATATAATTCAAAGAAATATGTACGCTTATTTGTTATAAGTGTCATATTAGTAGTTGCATCTTGTTCCATTGGCTTGATAAAAATTCTATTTCCCGCAGGGACAATCTGCCAAGCAGTTGTATCACCCATAGATATACTTATTACTTGTTCGTTCTTACCAAGCTCAATGCTTGCTTGATAGCCATAATATCCAGTGAATTTGAATACGTCATTTGGGTTATAAACCATCACTCTTATTCTGCTATCAATTGGAGTTGGCCTAGACTCACGAATAGCGTAAGCTGACTGAGCGATAAATAGTAATATTACGAATGTTATGAACTTTTGCATATTTTTATTTTTTGCTTCTATCTTTTATTAGTTTTAACTGATAATCTGTCACTGTGAAGTTAAATCGTGAACCAGACGGCAAATTGGGATTAATTTTATCGATTTCATAGTCAATTGTGGCTTGCCAGACTATATCTTCGGTAATTTCTCCGGCAGAATTTTGTACAATTGAATTAAATTTCACTACAGCTTTTGTTTTGCTAGGGTATGAAGTTGATATTATTTTTGCTGTTCTTTTTGTATTTTTTTGATATTTCAAAACAGGTGATGAAGGATTATCTATATTCATAAAATTATAGAATCTTCTGAACACAATGCGAGTTGAATTATTTTTTACAAAAATAAACTGTTTCTTTAAATCTGAGTAGCTATATTTTTCTCGGCTTAAAACATAATTTTTTATCAAAATATCTGTTACAGAACTTTGCGGATCATTTTTTATTTGATTAGCTCTAATTATTTGTGCCGTTTTATTCGCCGAGGTTGTAGCACTAATAGAATACTTTACCTGAATAACAGATGGGAAAAGAGAGTTTATATTAATTACAACTCCAACAAATAGTACGCAGATGATGACACTTAATATAAAAATAAAAGATCTTTGAGAGAATGGATGTATATACTTATATTTATACCAATGTCTTGCGTCGGTAAAATACTCACCGGTTTCTATGTATTCTTTTAACGATTTATATAATGGTTCCATTCTTTAAATGCTTTAAGAGAAATTACATTTATATTATTGTATAACTTCTGAGTGAAAATTATATATATTTTTGAATCTATAGAGATGTTTAAGCTACAAAACTATTATTTGTTGCAACTAGGCATGATTAGTAAAAATAGTTGTTATTACTCATAGATACTGTTAGTTAATTATGTATATATGCAACAAAAGCTTAGATTGTAGCTTATTTTTAGAGTTATATATTAGAGTTATTATAGAAAATCTTGAGCCTTGAGTATGAGTTTGGTTAACATAATAGTTAGTATATGTAATTTATAAATATAGTTATTATGAAATCACTGTTAAATATTTTTATAGTTGCTTTGAGTACTATATCTATATTATCTTGCACACCTTCAGCGCCTTATGAGATAAAAAGCCCGTGCGTTTCCATAGATTCTGATTCTTCTGGGGCTATTACTCCGTGTGTTCGCAGACCAGTAAATATCTCAAGAGCCATAGTTTAGGTTCTGGTAAATATTCTAGGGTTTAGAGTAGAGTTGATCTTTGTTTACTCTAGATCTTTATTATGAGCATTTCAAAGGAGCATCTTATGTCAAAAATTTCTAATGAATCATCTAGTGGTGATGATTTTTTAACGCCAGATTTTTGTGTTATTGGAGCAGGATCTGGCGGTTTATCATTTGCAGCTGGTGTTGTTCAAATGGGAGCAACGGTAGCTTTAATTGAGCGTTCAGAGATGGGAGGTGATTGCTTAAATTATGGGTGCGTGCCGTCTAAAGCTCTTATTGCAGCAGCTAAATCTTATCATGAAGTGCAAAGGGCAAGCAAATTTGGTTGGTCGTGCTCATCTACTAAGGTTGATTTTAAGAAAGTTCAAAAGCATGTAAAAGATACTATCGGAAGGATAGCGCCTCACGATTCAGTTGAACGTTTTGAAAAGCTTGGAGTGAATGTTATTAGAGCAGAGGCAAAGTTTTTAGATTTAGATACGGTTCAGGCTGGAAAGCAAAAAATTAGAGCAAAGAGATTTATTATTTCGACAGGAAGTAGTCCATTTGTTCCAGATATAAAAGGAATTAATGACGTAAAATATTATACAAATGAAACTATATTTGATCTCAAAACTTTACCAAAGGAATTAGTAATTATTGGTGGCGGGCCAATTGGTATTGAACTTGCTCAGTCTTTCTTGCGTTTTGGAAGTAAAGTAACAGTTTTGGAAGCATTTTCTGCATTACCAAAAGATGATAAAGAAATCGTTGATAGATTGAAATCAACTATTATTAGCGAAGGATTAGATCTTAAGGAAAGTGTTGAAATAAAAGAGATCAAGAAATCTGGTAGAGGTGCTGAAATTCACTTTAAGCATAATAATAAAAAGCACATTATAAAGGCGAGTCATTTACTAGTTGCAGCTGGTAGAAGAGCGAATTTGGATAGTTTAAATTTAGACTCAGCTAAAATAGAATATACTGCGCGTGGTATTGCGGTTGATCGTTTTCTCAAAACTTCCAATAAAAGAGTATTTGCTATTGGAGATTGTATTGGTGGTTATCAGTTTACTCATGTTGCTGGATATCATGCTGGTCTTGCAATTCGTAATTCTCTTTTTAGGTTAAGATCAACTATAAAGACAATACAAATACCCTGGGTCACATATACTGACCCAGAAATTGCTCATGTTGGTTTTACTCAGAGTGAATTAAAGGAGCAATCTATGGATCATAAAGTTTTTTCTATGGATCTCTCTGAAAATGATAGAGCTCAAGCAGAGCATAAAACAAACGGAATGATAAAAGTTCTTGTATCTCCTAGCGGTAATATATATGGAGCAACAATTATGGGTAGTGGAGCAGGGGAGTTAATCCTTCCTTGGGCTATGGCAATTCAGAATAATCTTAAAATATCTGCCATAGCTGGCCTTATTGCTCCGTATCCAACTATGTCTGAGATTAGTAAAAAAGTCGCTGGAGAGTATTTTAAAGACAAAATATTCGGTCCATTTATGCAAAAAATAGTAAGGTTTTTAATGGGAATTACTAAATAGTTTTTGTTAAGTTTTGGTTAGAATTTTTGTTCCTTCTATATAATAAGTATTATATATTTGTTTTTGTTTAAATCCTCCATATTTTATCTCTTAGTATGGCAAAGATTCATTTATAAGGGAATAAACTGCTAGATTACTGTTTTGCACTGGAATGACATAATATTATTAAAGACGTAGACTATAGTGTTTGAGTTTTTTAAATTTGCGTTTGAAGTATAGGTATCAATACCTTGCTATGTAAACGTGGTTGAGCCATAAACTCGCAATGAGTTGCATATAATATAAGAATTAATTCTATCTCCCTGGACTATTTCATACACCATTTACAGACTATAAACTTCACAATGCAGAGCTAAAATCACAACAAGCAAAGAACATACCCCTAGGGTTCGTACCAGACCCAATTGAAATTGCAGGCTCAGCTCTTTTTCTTGCTTCTAATAATGCCTCGAAATACGTCACTGGCTCTTGCATAACAATTGATGGAGGAAACTCTTGGGGTGGGTAAATTTTAGGTAATTGTGATCGCAAACTATTTTATCAAGCCAAATAAGAAACCTACTTAAAAGTTATCTGAGGATACATAAAATAGAAGTTTAGTAGTTATATGTTTATTATAATTAAAAAATCTATTGACTAGACCTCAAAGAAAGTATATAAATTCTTTGCAAACTGAAATGGGGATGTAGCTCAGGGGTAGAGCGTCTGCTTTGCAAGCAGAATGTCGGGGGTTCAATTCCCTCCATCTCCACCATTTCCATTTAAGGTATATACCGATCACATAGTTAACAGAATATACCGATCACATGGGTAACGTTTTAGCCAAAAGGATTAGCGGTAGGTTCGATTCTACAGCTATCAGTATCAAAATATCCTATCTCATAATCCATAAATTGTACAAGCCAAATTTTATCATCAATTTGTGTAATACCAACATTTTGGCCTGCAAATACTGAGCTGACATTGATTTTCTTTTTTCCAATGCAAATTCTTCCACATGTTGTAATAGTAACAATTCTGTCGGCGAAGGGATAATCTATTTCTGGTAAACCTCTATAAATTCTAGATGAAGCTGTATACAGATCAGCTGGATATTTATTTGCAATCCCTTGGTGAGGTCGTTCATTATTGTATACTTTCTGGAAGTGATCAAATTTTTCTTGCTGTTGCAGAAGGTTAAATGCTGCAGGCTTTGCAGCATCTTGTTTTAAAGTCCTATGCATTCGTTCGTGGCGACCATTTTGTTGTGGGTTACCAGGTTTAATTCTCTCTATTTTTATACCAAGTCTAAGCCACCAGACCGATAATTTGCTCAGACCGTGCAAAGCATTAGGAGAAGAGAACGGCACACCATTGTCACTACGAATCGCACCAGGTAATCCAAATTCTTTAAAAACCGTTTCAAATACTGAGAAAGCTCCAATTTCCTTTGTAGATTCTTGGCCTTCGCACGCAAGAAGATAGCGCGAATGACTATCAGCAATAGTTAAGGGGTAGCAATATTGTTTATTACCCAGCATAAATTCCCCCTTATAATCACAGCACCAGAGTTGCTTGACTTTAGTAGGACTCGAAAGCTCTGTTCCCTTCGCTTTATATAGACGGCGCTTACGTCTCTTAACAAGATCATTACGATCTAAAACTGCATGAACCGTACTTACAGCAGGGTGTGGGATATTAGGGAACATTTGTATTAATTTCTCCCGAATCTTTGGCGCACCCCAGCTTGGATAATCTGTTTTAATACCCAGAATCGCTCTCTCTACTTGATAAGGCAATTGATTTGCTTGACGATAAGGCCGACGACTACGGTCTTGCAAACCTTCAAAACCATAATCTTTATATCGATTATATATCTTATACCCGGTCTTTCGCGATATGCCAAATTCACGACATAACGGCGATATCTTCTCGCCTTCTAATATTCTTGCTACAAACTTTATCTTGAATCCATTATGCTACTCTCTTTCCATGTCATCTGATTTATCCTCAAATGATAAAATGTAACCTATCTGTTCGGTATATTCTGGATACTATGTCTCGATATGTACATTCTTTAGTTGCTTTTTGTATTACAATAAATCAAAAAAATTCTGTTTAAAACTTATTATACAAACCTACGTTTGGAATAAATAGTATATCCCTATAATATTATTTTTTAAAAGTAAGCACGTCCTAAAATATTAGACCGCCTTACTAACTCTCTAGGTAATGTTAATATTTAAAAGCCATGTTGGTGATACTAAGTTATTCCAGCAATCTGATATTATAAAACTGCCATTATAATATACAACTCATTGCGAGTTTTAAAAATCCTGCCAAATAATCATTAATCACTAGTATTTAAAGGGTTTGCAATTATATTGATTACTTATCAATATAATTTGAGGCAATCAAATAGAATGAGGAGAACAAGGCAGTACAACAAGA
>sequence43
AGACATTATCTTGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAAGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCAAAATTTACAGTCATTTGTGGAAATAAGTGTTTATATTGCTAAGCACATAAACACTTTACCTAGCGAGTGCATCAACTAATCTTTGTGCAGCTTCAGGGATTTTATTTGCAGCTTGAAGTGCAGTGATAGAGGCGACTATTGTTCTAATTAGTTCAGAATATTGCTGAGCAGACAAAACATAATCAGTCTTTAAGTATGAATCAGAAGCTTTCTGAGTAACATTTATTGTCGCTCGCAAGGCATCAACGGCTTCAAATAAATTTGTTTTTTGATTGCGCAGATTCGCTTGCTCAGCTCTGATTTCATTGATAGCCGAAGTAAATACATCAAGTGCAATAGTTCTTCCAGCAGTAGTGCTGATATTAGTGTCAGTTTGATTAAGAAAACCAGCAAATTCAATTTGCACGCCTGCATCTGCCAACGCTCCTGCAATCTGATGTCCTGCAGCTGTTTCAACAGTCACAGCAGCGCCATACAGCCTATCTAATTCTGCAGTCATTTGCGGTAGCATTCTGCCGGCATCACCAAAAAGTTTAGGTTGTACATTTCTTATATTTTCAATCGCAGTACCAGCATCAGCATTACTCATTAATCCTCCAGTTCCGACTGAAGCGTAAGCTCCATCAATATTTGCAAAGAATAAATTTTCATTATTTTTGACCGCTTCTGCAAGCTCTTGAGCGTTTGCATGTCTGTCTGATCTGGCGCCTGTTGGGTCAGCTGCAATCCAGTCGTTTAAGGCTTTATTTATTGATGTTCTATATAAATTATCACCACTAATATTTCTTACGCTAACGTTTAATTTATCAACAATGTTTAATCCTACTTGTACGTCAATGTCTTGAGCTTGGCCGCCAAGTAGAGCTCTTCCATCAAAACTAGCAGAAGATATTAATAGATCAATTTGAGCTCTTATATCATTAATATTTTTTTGTAGAACTGCTACTTTATCAGTAGATAGTGAGCTAACAGTTGCAATGGTAATAAGGCCTTTTTGTAGGAATGATGCTATTGTATCTAGATATTGTTCAGTTATTGAAACTATGTTTGTTGCATATGAAGTTGTTTGTGCAACTGCGCCAAGAATAATTTCTGTATCTCGCAGTGAGCTTCCTAAAAATCCATCTACTACTTCGACGCCTTTATCGTCACCAGTTACCATGCTATCGCCAAGTGATTTTAGTCTACGACTAGCTTCTCCAACTTCGCGTGCTGTGGTTCCTGTTAGGTCATTTCCAAGCGTTAGTGTCATAATTTAGATCTTACTTAACAAAACAATTAATTTAATCTAGTTTTCTTGAGTCTGGTAGAAACAGTTTATATATACTTTTTCTACTTTTTTCTAACAAACAGTCAGTAAATAAATCAGATTTAAACAACCTTTGTGCAATAATTTAACAAATTACTTTTGGAGGTTTCTAATCCCTAATCTAAGTTCAAAACTATTTCATACCTATTTTTTGTTTAAAAATCCAAACTACAGGTAGAGGTATATTATCAAGCAAGATTTATGCCAATTAGCTAGTATTTGTTATTTCACTTCTTTCTCAAGGAGTTTCTCTAGCTTATCTTTGCTGTAAGTTTTTTCATTTACGATGATTTCATTATCAAAAATTTCTTTCACGCCTTTTTCTTCAAGTATAGGGCCTTTCAGAGCTTCTAGGGCTTGACGATCTTTTTGATAAAATTCAATAACTTGCTGTTCTTGACCAGGGTAATTTCTTGCTTGTGCAATAATTGCTTGGCGAACATCATCTTCGGTTATTTTTAGATTTTTCTGTTTTACATATTCTGCAAGAACTAATCCTATTCTAACTCTTCTTGATGCTAGCTTTTCAAAATACTCGGCTTTTTCTTTGTCTGATTTTTTGCCGATTTCAGGATCTACGAATTGATCACTTTGTTTCTCTAAGATGCTAACTTCTCTTTCGATCAAAGATTTAGGCACATCAAATTTTAACATTCCTTCAAGCTTATCAAAAAGATTCATTTTCATCATAACATGAATTGGCTCTTCATAGCTTGTTGAGAAATTTTCTTTGATTTGTTCTTTTAGTTTTGCAACTGTATCACATTTGAATTTTTTGGCGAACTCGTCATCGATTTTTGGAGTGCTTGGTTTGTGCACAGCTTTAACTTTAACTTTGAATTCAGAAGGCTTACCTGCCAAGTCTTTTGCATGATATTCTTCAGGGAAAGTTACTTTCACTTTTACATCATCACCGGTTTTGCTGCCAATTAGCTGATCTTCAAAGCCTGGTATGAAAGCATTACTGCCAAGTACTAGCTTATGATCATCAAGTTTTCCACCATCAAAAGCTTTTCCATCAACATATCCTACAGCATCAATTGTAAGCTGATCACCACTAGCAGCTTTGCCTTTAGATTCTTTGTCATAAGTTTTTGAAAAGTTTGCAATTTTATCAATTTGCTCGTCAACGTCTTTATCAGCTACTTCCAAGATCGGTTTTTCAACAGATATCTTTTTGAATTCAGGAAGTTTGATTTCTGGAAGTAGATCAAATTTTACTGTAAATTCTAGATCTTTACCATCTTCATCTTTAAGATCTTCTATTGCTGGATCCATTGCAACATTTAGCTTATTTTTCTCTACAATCTCATCAACTGAAGAGTTGATTTTTTTTCTCATAATATCAGCTTTGATTGAAGAGCCATATTTTTTCTTTAAGATGTGTGCTGGAACTTTACCTACTCTAAAACCATCCATTTTGGCTGTTTTTGCAATCTCTTTTAGTTCTTTATCAACTTCACCCGTAATTTCTTTTGCTGGGATTGTTACTTTTGCATGAAATTCAGTTTTATCGTTTTTCAGCTCTGCTATCTTCATAATATGGAACCTTGCGTTTTGAAAATTTGTACATTATTTGATAGTTAAAATTGCCTTTAACCAAATCTAAATTCAAGGATTTTCAAACAAGGAAATCATTATCATTAGAGATTGGTGCGGATAAAGGGACTTGAACCCCCACGCCTTGCGGCACTAGAACCTAAATCTAGCGCGTCTACCAGTTCCGCCATATCCGCATTTTAGCAATAATTCCTATATAAAATCTATATCTACAGGAACTTAACTAGAGTGTTATAATACACATTATAAAGTGTTTGTAAATCAGAAATTTTCGTATGTTCATTGATTTTATGAGCAAGATTACAATTTAATCCGAATTCTACAACTTCAGCATATGAATGGATAAATCTGGCATCGGAAGTTCCTCCGCCAGTTTCAATAGTTGGTTTGGTTTTGCATTCCTCTTCAACAATGCTAGCGAAGTCTTGCATATTTTTTGAATATTTCTGAATAAAAGGTGAAGAAGAGCTTCTATGTTTTATATCGTAATTATCGCTATATTTTGAGACGATTTTTGTTATCCTAACATTTAAATCACTGGCATTTTGCATGTCATTGAAACGTATATTAAATTTTGCGTTTACAGATTCAGGAATGATATTAGTTACTTTATTTCCAGTATCGATGGAGGTTAATTCAAGATTAGTTCTTTGAAAGAACTCACTCCCGTTGTCGAATATCTCATCATTTATTTCTTTCAGAATATTTACCATAATTGGTAGTGGGTTGATCGCTTTTTCAGGGTAGGCAGCATGGCCTTGTTTGCCATTAATTGTTAAATCAAAATTTACGCTTCCTCTTCGACCTATTTTGATTATATCACCGATATTTTGCATTGTTGTTGGCTCGCCAAGGATACAAAAATCGATAGAGGGCTTTTGGTTTTTAATATGCTCTAGCATCATTTTGGTGCCGTATTTTGCTTCACCTTCTTCATCTGTTGTTAGTAAAAAGCTAATAGATCCATTTGGTTTATTACTTTTTAAAAACTGAATAATTGCTGCTAAGGCGCAAGCAACAGCACCTTTCATATCGACAGTTCCTCTTCCGTAGACTATATCCTCTACTATTTTCATCTCGTATGGGTTTGCGTTCCATAATTCTTCATGCATCGCAGGTACAACATCTAAATGTCCAGCAAAACATATATTTGGTTTATTCCTTCCGTAAACCGCATATAAATTAGTTACTTCTTCCTCGCCTTCTCCAAAGCATTTTACCTCGCACTTAAATCCAAGAGGCTTAAGTATCTCGCTTACATACTTGATAGCATCTGCCCCTTTTGGAGTAACTGATTTATAGCTGATTAGTTTTCCTAGTATTGATAAAATTTCTTGGTTCATTGTATTAGATGTTTTCAATTTTCAATGTTTCAACTTATATAAATTCTGATTTATTTGCTACAAATTTTGTGCAAAATCGTGTATAATAGCTAACAAATTACAAATCAGGGTCTGATAAAATGTTAAAAAACTTAACACAAATATATTGTCTGATTATATGTCTGGTAGCTACTATTACACTTATGATTACACTAGGTGTAGCGTTTAATAGCGTAACTGAGATCGCTTTAACAGAATATAAATTTTCAAGCTCGCTTGATAAGTTTTCGTCAAATGAAAAGTATATTGAATATAAAATACAATATAATTCAGACAAAAAGAATGAATGGGATTCTTTTAGTTCTGAAGAAATTATGGAGAAACGGACGTCAGAAAAAGAAGGCTACATTGAAAGTCGAAAGAGAGAGGCTTTTAGCACTATAATTAGTTGCATGACATGGCTTTTTGTTGCAGCTCTATTTTTTATAGTGCATTGGCGTCTGCATAAAAAATACTCATTATCAAGTTAACTAATGTACAACATGCCTCAGAAAATTCCTTTTGTTAAAATGCACGGTCTAGGTAATGATTTTGTCATTATTAATGAAGATCATATGCCTAAAAACTGTGATATTAACAGTTTTGTGCAAGAGATTTCTGATAGAGAGCTTGGCGTTGGTTGTGATCAGTTCATCGTGTATCAGCAAAATCCTGATAAAATAAACATGGTGATTTATAATCAGGATGGTTCTGGAGCAAAAGCTTGCGGAAATGCATCTAGGTGCTTAACTAGGTTATTGTTTGATCAGACGGGAGCCAGAAACATAAAGCTTGATGTTGATGGGAGAGTGGTTTCTGGTGAGTACATTGATGAAGAAACAATAAAAGTTGATATGGGACCTCCATCTTTCGAAAGTAAATGGATGCCAGATAGTGCTGATTTATGGTCGCTCGCAGAGCGCTATATGATTGAGCCTAAAGAGATGATTTGTGTTGATGTTGCGAATCCCCATCTGGTAATTTTTTCAAAACTTTCAAAAAAAGATATGGGAATAATTGGCAGTAATTTTCAAGAGAATGAGCTATTTCCTGATGGTATAAATGTTAATTTCGCAAGGATCGATGATAATAAGATTCATTTAAAAGTTTGGGAACGAGGTGCTGGCTTTACTTATGCATGTGGAAGCGGCGCTATTGCAACTTTTGCAGCTGCAAATAGACTAGGATTTGTTGGTAATGAAGTAGATATAGCGTTTAAGCTTGGCTCATTAAATATGCAAACGCAAAATGATAGTGTTTTAATGAGCGGGCCTGCTAGCTATGTCTTTACTGGAGATTATTTATATGACAAATAATCAAGAAGTAGTCACATTTGGCTGTCGTTTAAATATTTATGAGAGCGAAATTATCAAAGATAATTTAGCAAAATCTGGTAATGATAATGTTGCTGTTTTCAATACTTGCGCAGTGACAAAACAAGCAGAAAAACAAGCAAGACAAGCAATTAGAAAGCTTCGTAAAAATGATCCAAGTAAAAAAATAATTGTAACTGGTTGTGCTGCTCAAAACAATCCTGAAATGTTTGCTAAGATGGCGGAAGTTGATAAAGTTATTGGTAATGAAGAAAAGCTTTCTGATAAATATTATCAATTAGATTCCGAAAGAGTGATAGTCAATGATATCATGTCGGTTAAGGAAACAGCAAATCATATGGTAACTAGCTTTGATGGTAAAGCTAGAGCATTTATTCAAGTCCAGAATGGTTGTGACCATAGATGCACCTTTTGTATGATCCCATATGGAAGAGGCAATAGTAGGTCAGTTCCAATTGGTGTTATTGTAGAGCAAGTACGTATGCTGCATGCAAAGGGCTATAAGGAAATAGTTTTGACTGGTGTAGATGTTACTGCTTATGGTGCAGATTTGCCAGGAGAGCCAACTTTTGCACAGATGATTAGGAGATTATTATCTTTAGTTCCAGAACTTAAAAGATTACGACTATCGTCAATTGATGTTGCAGAAATTGATGGTGATTTATTTGATTTGATGGCTCATAATGAAAGATTAATGCCACATTTTCATATCAGTCTTCAAGCAGGTGATAATATGATTCTAAAACGCATGAAACGTAGGCATAATCGCGAGCAGGTAATTGAATTTTGTCATAATTTACGTAAAATAAGGCCTGAAGTTTCGTTTGGTGCTGATATTATTGCAGGATTTCCAACAGAGACTGATGAGATGTTTGATAATACGAGAAGGTTAATTTCTGAAGCTGGAATCCAGTATTTACACGTATTTCCATATTCAGAACGCGCTGGAACTCCGGCAGCTAGAATGCCGCAAGTTCCTATGCATATTAGAAAAGAAAGAGCTGCTATTTTACGTGGCGAAGGTGTGAAAGAGTTGAATAAATTTTTTAATGAAAATCTAGGTCGTAGAGTTGAGCTATTAGTTGAGAAAAATAATATGGCGCATGCTGAAAATTTTATTCCAGTAAAATTGGAAGGAGAGTTTGTTTCAGGACAGGTGGTTGATGCTAAGCTTGTATCAGTTTCTCCAGAGCATATGTCAGCAAAAATTGCTTAGATTTAAGGTATAAAATATGTCTGCTAGTAAAAAAATATCAGTGCTTGGTGGTGGAAGTTGGGGATCGGCTCTTGCATGTCTTGCAACGCGTGCTGTTGGTAATTGTTTAGTACATACTATAGAGCAAGAGGCGGCAGATGAAATAAATAGTCAGCATACAAATTCTCGTTTTTTAGGTGATAATCGCTTGCCAGATGGGTTAAAGGCTACATTGAATATTCAAGATACAATAGATAGTGATATAATAATAATTGCTGTACCATCATTTGCATTTGTTGAAACTCTTGAGGATTTAAAAGCTGCTGGAGTTTCAGATAAAACGGTTTTTCTAATTGCTACAAAGGGTATGTGTGAGAATCCGCTACAGCTTTTTTCAGAGCGAATAGAATCTATGTTTAAAAATTCTTTTGGCTTTATTTCAGGACCAAATTTTGCAAAAGAAGTAGCGCAAGATAAATTTGCGTCGGTGACTATCTCTTCAAAAGATACGGATTTGGCTAGAAAGATTGCAAGCACGCTGTCTACTGATAAATTAGAAGTTAGTATTACGGATGATATAATCACAGTTCAAATAGCAGCATTGGTAAAAAATATTGTAGCTATTAAAAGTGGTATGATGGAGGCTGAAGGTCATGGAGAGAATGCAAGAGCTTGGCTGATTAGCATGGGCTTGAGTGAAATAAAAGCAATAGCTGGAACTCTTGGTGGCAAGCCTGATTCCTTATCATTGCCTGCTGTTGTCGGTGATTTAGTATTAACAAGCTACTCAAAAACATCCAGAAACACAAGATTCGGCTTTGACTTCCATAATAATTCCTATTCGCGAGAATATTTGAAGAACTATCCAGTGCTTGTAGAAGGAATTTCTTCTGCAAGATTGCTTAAAAAATATCTAAGCAATTCCAATCTTGAGCTTCCTATTATTTCATCCGTTGCAGATAGGGTTTGACATTAAGTTTTTATTCATAAACTACTGTTATACAGTATACAATAAATTTCTTGTTATTATTTTCAATTTAGCGCTAGACTTGACAAAAAATTAAAATTTGTTAAGTTACTTGCAACTAGCTTTATGCAAAATACAGTATTCATAATGAAAATTAATAAATATTCTTTTAATCCGGTATTTATAAGTTCTTTGCTTATCATATTTCTTATAACTCTATTTGCTTCTATTTTTCCAATTTATTTGAATGATTTTTTTGATAACATTCAACAGTGGATTTCGACTAATTTAGGCTGGATCTATATTTTGTCAGTTGGAATAGTTTTGATGCTTTCTATTTACCTATGTTGTAGTAGGTTGGGTGATATCAAACTTGGTCAGGATCACGAGCAGCCAGAATTTAAAAACTTATCATGGTTTTCAATGCTATTTTCTGCTGGTATGGGAATAGGATTAATGTTTTGGGGTGTTGCTGAGCCCATTATGCACCTATCTCAACCGCCAGTGGGAGAAGCTTTTTCATTGGATAGTTCAAAAGCTGCTATGCAAATTACATTTTTTCACTGGGGGATACATGCATGGGCAATATACAGTATGCTGGCTGTAACACTTGCTTATTTCGCTTATAGAAAAGATTTGCCTCTACTTCCAAGATCAATTTTTTATCCTCTATTAGGACAAAAAATATTTGGACCTATTGGTAATTTAATAGATACGTTTACTATTATAAGTACTATTTTTGGTTTAGCTTCCTCATTAGGTCTTGGTGTTAGTCAAATAAATGCCGGATTGAATTATTTATTTGGAATTAGAGAAGGAATTATTTCATATATTACATTAATTTTATTTATAACTTTAATTTCAATAATATCAGTAATATATGGAATTGATAAAGGAATTAAAAGGCTATCTAATATTAATGTTGTAATTGCTTTAATATTAATGACTATAATTTTATGTTTTGGTGACTCTATTCTATTATTACAGTCATTTGTACAAAATACAGGATCATATTTTTCAAGTTTAATTAATAAGACGTTTAACTTATACGCATATGAACGTAAAGAATCTTGGATTGGTGGATGGACTTTACTTTATTGGGGATGGTGGGTGTCGTGGTCTCCTTTCGTAGGAATGTTTATAGCTCGTATTTCTAAAGGTAGAACTGTTAGGGAGTTTATGCTAGGAGTTTTATTTACTCCTACAATATTTACTTTTTTGTGGATGACTATTTTTGGTAATTCATCAATTGCAATAGCAATTAGTAGTGAAGGAAGTACATTGGTTGAAGCTGTAAACAATGATATTACTATAGCTTTATTTAAGTTTTTTGAATTTTTTCCTTTTTCATCTATGCTATCATTTTTGGGAGTAATATTAATTGTAACTTTCTTTATTAGTTCAGCAGATTCAGGAGCATTAGTTATAGCAACTCTAGCTAATTATGGGCGAGCAAGCTCGCCAGTTTGGACAAAGGTATTGTGGTCATTGATAATTGCTATAGTAGCTTCTACTTTATTATTAGCAGGAGGAATAAATGCTCTTCAAACCATGACTATTATTATGGCTGCACCTGTTCTAGTAATCATACTTCTTGGGTCATTTTGTTTAGTTAAATCTTTGCGAGAAGATACTCTTCTTCATATATCTGTAAAGCAGCATAATACAGTATTGCAATATTCTAATGCGAGTTCTACTTGGAAAGAAAGGCTTCAGTCTTTGGTTATGCATCCACAAAAAAAAGAAGTTGCTGGTTTTATAACGCACACTGTCCTGCCAGCATTAGGAGAATTAACAGAAGAAATGAAGATTTTAGGTATGAATTCATCTCTGGAAAAAATTAATACTAATTCAATTGCTTTAAAAGTAGAAAAGGATGAGGCTGAAGATTTTTATTACGAAATAAAACTTAGAAAATATGAGATGCCTGAATACTCTATTGATAATAATAAAAAATTCTATCGTGCAGAAGTTTTCCTACTTAGCGGAGGGCAGAATTATGATGTCTTTGGTTACACTAAACAACAAATTATTGCAGATGCATTGACCCAGTATGAAAAACATATACACTTCTTACATCAATCTATTGGTGAAGAGTCTTTTCATGAAGAATAATCTTATTGCTATATAAAGTACCAATTATTAAATACTCTTTTAATGGCATTATTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTAT
>sequence44
ACATTTGTACTTCTGCGCCCCCTCTGGCGAAATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACTTCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTCGTTATTTAATAATGCCGAAACCACCAATATTCAAAGTTGAATGTGGTTCTATTACTATTTCCAATTCTTCCGTAAGCCCTAAGTTTCCATTAATAGTTAATGTTGCGCCATTAGGAATCACTAATCTAGCTATATTGTTTTGTGCTCTATCTCCAAAGTTAGTTCCAATAGTATCTGCGCCTGCGCCACCTACAGTGCCTCCTATTACACTACCAATAGGATTAAGGCTATAGTTTGAGTATCACTATTTAATAGATACCTCATCAAGGCCAGCACCACCAGCACCAATTGTTCCACTAACTCTTGCATTTCCAGTAGAAGTTATTACCATGTTATTTACCTTTTAATTTGTTATATGTACAAATTTATAAAATATTTTAATGAAGTTTTCAATTTAGTAATTAGAATTTTTTTATATAATTGTAATAAATTTTTTTAACTTACTATAGATTTAAAAATTATCTACAATTCATCCCACATATCATCAATTTTCTTAATCACATCCTCATCCATATCGATTTTTTCTCCCCAGTTGCGTTTGGTTTCTGGGGGAAGTTTATTTGTTGCATCAATTCCAAGTTTGCTTCCCAAGCCCGATTCAACAGATGCAAAGTCTAGATAATCGATTGGTGAGTTTTCGATGAAAGTGCTATCACGTTTTGGATCAGTTCTGGTTGATATAGCCCAGACCACTTCTTTCCAATTATGAACATCAATATCATCATCAACAATAATTACATATTTTGTATACATAAATTGTTGTAAGAACGACCACACACCCATCATCACGCGCTTTGCTTGGCCTGGATAAGTTTTTTTGATTGAGACAATTGCAAAGCGATAAGAGCACCCTTCAGGTGGTAGATAAAAATCAACAATTTCAGGAAATTGCTGCTGGATTAGTGGTACAAAGACTTGATTGAGTGCTTCGCCTAATATTGAAGGTTCATCCGGCGGCTTGCCAGTGTAGGTACTTAAATATATCGGCTCTTTTTTCATTGTTATGGCAGTGACAGTGAAAATCGGAAATTCTTCAACGTCATTATAGTAGCCAGTGTGATCACCAAATGGTCCTTCTGGATACGATTCTGTTAAGCTTATTTCACCTTCAATTATTATCTCCGCGTTTGCTGGGACTTTTAGATCTATAGTTTTACATTTTACAAGTTCAATAGATTTATTTTGTAGCAGACCTGCAAAATTGTATTCAGACATAGTATTTGGTATTGGCATGACTGCAGCGAGAGTTAGCGCAGGGTTTGCTCCAATAATAGCAGCAGCTGGCATTGACTTTTCCCCTAGACTTTGCCATTTTTTGTGATGTTGAGCTCCGCCGCGCATTTTTAACCAGCGCATAATTAGCTTGTTCTTGCCAATTGGCTGCATTCTATATATGCCCAAATTATAATTATCAGTCTTTTCTTTTCCCATACCTTTAGTTACAATCAATGGCCAAGTAATTAATGGTCCTATATCACCCGGCCAACATGTCTGAATTGGTAAATCAGTTAGATCTGGATTAGTAATCACAACTTCTTGAGACGAGCCTTTGGAAACATTTTTTGGCGGCATTGACATTATTCTCTTAGCTATGGGCAACATTGAGAAAGTTTCCTTTAATGAAGATGGTGGTTCCGGGTTTTTCATAAATGCAAGCAATTCGCCAAAAGCTCGAAGTTCGCTTGAGTCTTTCATGCTAAGCCCCATGGCAATTCTTTCTTTGCTTGCAAAGAGATTTGTTAGAATTGGATATTTTGATGGTTCCCCATTTTCTTTAATCACGTTTTCAAATAGTAAAGCTGGTCCATCAATTGCTAAATATCTTCGGCTGATTTCCGTAATCTCTAAATTTGTTGATACTTGTTTTGTAATTCTTTTTAGATGATTATTTTTTTCTAAAAATTTTAAAAAAGCGGGAAGATCTTTATAGCTCATAGGGATTTTCTAGTGTTTAACCATATACTCAGGATGATACAAATAAATACGTTGGCATAACAGAGAAAAATATAATTGAGGTCTTTATAAGCAATCTTTTGTAAAGTGAAATGAAAATATGATGCTATCAGTATTGGAGAAAAGGTTAGAATATACTGTTTAATATTTGATTTTCTATTGTAAGGCTGTTTTAAGAAGATACTTAATGCTAGAAAAACAAAAACAAAATTGAATAGCGGCCAGATAATTCTTACGTGACCATCTGTTATAAGCCTATTTTGCTTTTCAATAGGCAGATTACTATCTGGCCAGAGCATTTCATTTAAATATAGTTCAAGGCTAGTTTTGTTACGAGATTCTTCACCAGCTGTTTCGCTTGTTATAGCAACAGATAGCGCATCAAAATAGAGTTTAGTAAGCTTTCCGTTTCTGTCATACGAATGTCTAGTCCCATCAATTAGTTCAAATTGAGTATTTTCTGGATTTGTCGTAATAATTTTTCCGTGCTTTGCAAAAAAGATAGTTCTATTTTCTGGCATTTTATTATCAAAAAAGATTACACCATCCATTGAGCCATCAGAATTCTTACTATCAATATAAATAGTAGAAGTTCTAGATATTTGATTGAACGTTCTTGTATCAATTATATTTGATACATAACCTTTTTGAAAATTGCTAGTTTCATGTTTTAATTTACTATACGAGCTCGGCATTAAATACGCCGATGTATAGAAAGCAAAAATAGTAATGAGCATAGTAATATATAGCGCAGGTTGTGAGAGACGAAAATTACTCAGGCCAGCGCTTTGAAAAATGATTAATTGGCGTTCTTCTTGTAATCGGTTATATACAACAATGACAGATATAACTGTAATTACAGGTAATATCATAAAAAGCAGTGAAGGAATTATAAGCATCACTATTTTAATAAAGCTCTTAAACTCAATTCCTTTGTCAATAAGATGAACTAGCCGCAGAGTTTGAGTTATCCATACTAAGCTAGTTAATACTGTGCTTAGTATTAGAAAGGTAGGTAAAATCGTTTTAAAAATATATTTTTTATATGTATTCATGATTAAAATAAATACCTTTCTTTGGCAAGCCCTAAATAGGGCAATTCAGATTTTTTAGGGTTTCATTATAGTAATGTATAACTCTTACTCGATTACCTAATGCTGACTATCTAGGTCAAGCTATTTTAAGTCAATTCCCCATTGATCGCACAGTGCTTTGTGCTTCTTTTCATACTTCGCAATTTTTACATTGATTTTTGTAGAATATAGTTTCACAATGAGCAATGGCATTGAAGCATAAAGTAGTTGACCAATAAAGGCAGCTCCATAAATAATCATCCATGTACCAACATCAGCTAAAATCTGTTTTGCAACATAATCAACAGAAGAACTTTCCCACATACGTATCAAATATGGCATCACACCAATTAAGTTGAAGCTACATATGGTTGCTGATAAACATCTATGTGAGTTCTTATCAAAAAATATTGCAAAAATTGTTGGAAGCATCGCGGCTGCAAAAAAGATAAATGCATATCTCGAAATTACTAGCACCATTAAAGAGATCACAAAGGCAATGACTTTAATTAGCGAAGATGCAAATTTAAAACTTTTATCCGTGGTTTCTTGAGACATAATAAATTCCTATATAATAACAGTTACTGTCACTATGAAGCATAGTACATATGATAGTAAAACAGTGGTCTTCTGACCAAGTAATAAAGCACCGTTAAATATACTATCTTGATTATTTAATGCTTTTATTTTTTGTTCTATTATTTTAGCTTGCCTGCAAGCTTCATAATATCCATTATAATCATTAATAAATTGTTGCTGGTCAGAAAGCATCTGAATTATTTGGTCAAGACTGCCTTCTTTCGAAATTTCATCAATTTTACTAATAGTTTGCTTTTTGAACTCAACATTATGTAGATGTTCTTCAAACATCTGTTTTAAATCTGATGAAATCGCCTTACATATATTTGGTATTTCAATAGAAGGTTCGTGCTGTTGTAAGAGATTAAGAATGCTTAAACCACGAATTACCGGATGTTCAGAAAACTTTGGAAAATTCGGCAAAATAGCAGCCTTAACATCCTCTTTTAGGTCAAGTTTAGCAGCGATAAAAGCAATAATATGCCTGTCTATAGTAAAATTTTTAGGGTGCTTTTCTGCATAACTATCAAGACCTATAAGGAGTTCTTGTATGTTCGTAACATATTTTCCCTTTAGCAACTTACTTTGGCAAACTAGGGTTGGATTTAATGAGTACGCCAACCTCTCTATACCTCGTGCAATTGAACCTGATTGTACATTATTTGCCTTACCAACAAAATTATCGGAATCCGACCTATTTAAATGACCTGACGCGCTAAGCCTGCTGCTATAAAGTTTCCAGTCTTCATCTTTCATGATTTTGATTACTTTCTCAATCACATCCTTATTATTATCCATTACTAGATTGTGAATGAAAAATGGTATTGAACTTGCTGATAATGCAAGGCCTTCTTGCCTGATAGAACCATTATAATCAATGAGCGATAATAGTTTTGATAGTTTGATATGTGAGCTCAGCGTGTTAGTTACAACAAAAGGTGATTCAGATTTTTTATCAACTATAGCTTGTATTGCCTCAAGTGAATCAGAGCTGAGCTGTTCACGGCTTGCCCATTTAAATAGCTTAGTATCTTTAATGAACTTCATACCATCCGTCCAGCTATTATACAGAGCATAAGCAAGAGATTTTAGGGTAGAATAATTATTTTCTTTAAAACCAATGATATTCTTAGTATCTGAAAGAGACTCATGAGTGGATTTGCTGTTTTTTCCTTCAATCCATTCTTTTATTTTAGAGGTTTTCCAACGTACTGATGCATCATCATGCATAGTCCATTTTAAAAAAGTTCTAAGCCTTTCAGGAACTTTTACCCTACCAAGTAAATATTTATTTGTAGAATTTTCAAATCTTGCATGGTTATAATCATGCATGGTTGGATGATCATTCCAATGTGGTTTATTTGTATAAGCTTCAAACATTGAAATACCAAGAGCATAAATATCACTTATAGGATTTTTAATATATCTAGCTGCCCTATGACACTCTATTAGCTCAGGTGCTAGATATTGTTCTTCTTGGTGAAAATTCGGGTATGTATCAATGAATTCTCTAAGTCCATAGAACGTACCATCTTTCATCAAAATATTTGATGGATTAATATTACAACAGAAGATTTTTTCATCTTTTAGGTTAATCAAAATGTTATTTATTGATTCAACAATTTTTTCGATTTCTTGGAGCTTTATAGTCTGTCCATGCTGAAGTTGAGATGCAAGAGTTGAGTTTGTATCATAAGAATTTACTATTGCAACTAAATGCTCTTCTTTTGTAGTTGAGAGACGCACGATAGAGTATGCAAGTACATTATTTAAACCGGCAATAGGGGTTTTTGACAGAAACTCTAGAACATTAATACGTGGTATGAAGTTATTTTCAAAAACTACAGCGAAAAATTCATCCTGTTCACTATCATCTGTAGCATAGTAATATTTACAAAACTCGTTGCTGAGCTCAACAACTTCTTCGTTTAGGTGTATTCTGAAAATGTTATCAACAGTATCATCAGTATTACTTTTCGGTAACTGAATATTTACAGACTGTTCTTTTTTATTTTCCATATTTTTAAAGTTTAGTTTTTTCTTATTAGTAGTGCTATGAGTTTGACTCAATAACTACATATTCAATTTTATTAAATTGCTCGACTGCTTTAACAGATGCAGTATTGCCGGTTATGTTTACAGTTGTTGCAACGGGTATTCCTTTTGGAAAAATCTTCCCATCACCTGAAGTATATAATGTTTCTCCAACAGAGATATTATGATCTTCTTCTAAATAAATTATTTTTAAATTATCATCTTGTCTTGCAATTATACCTTTTGCTTTTGATGTACCTGATACAACGGGTATTCTTGAATTATGATCATTAATTAAAATTGCTGTTGAGTAATTCTCGCTCACTTCACTTATTCTACCAATTAGTCCGGATGACCCTCTTACAATATCATTTACTTTTATATTGTTTCTACTCCCTGACTGTAATGTAGCTGAGCTAGCAAAAGGGGTGTTAGAGATGCCAATTACTTTAGCAGTTACAAAGTTCTTAGTTACATCTTTTGTGACATTTAACATTTGTTTTAAGGCTCTGTTTTCCGCTTGAAGATCTGAAGTGATTTGGATAGTTTTTTGCAAATGTGCTACTTGTAATTTGAGTTTTAGATTTGTTGTTTCTAAGTCTTTAAAGTATGATAATCTACTACTCACCCATCTAAATGAATTTACAGTTTCGTTGTAAATTAATGAACCTGCTGAGAGAGTTTTTCCAGCTGTTTCAAGCATGATGTTTGAAATTGGTTTAGGGATAGAGAAATATAGTAGATAGCAGGAGCTAGCAAGTAGTATAATAGTAAAAAACCTGCCTACTGAGTAAATTATAAATTTACTCAGCTCAAGCAGATTATTTCTAATTTTTATTCTATTTGCTAATATCGCCACTTAAAATTATTCCTGTTTAAACAGAACATGCTTTAATTTTGGAAAGTCTTCTAACACTCTTCCTATTCCGAGTGCAACACACGCAAGAGCATTATCTGCAACAAAAACTGGTAATTTTGTTGCGTCTCTTAAAACGTATCCCAAATTATCTAATAGCGCTCCTCCACCTGTGAGAACAATTCCCTTATCAACTATATCAGATGATAATTCTGGTGGTGTGCATTCAAGAGCGGTTTTAACAGCTTCAACAATTTGACTGATGGGCTCAGTTAAGCTTTCAGCAATTTGTTTTTCATTTAAAATCATCTCTTTAGGGATGCCATTAATTAAATCACGTCCTTTAATTTCCATTTCTCTGAGTGGTGAGTCAGATGAGACAAAAGCAGTACCTATTTGTTTTTTAATACGTTCCGCAGTAGATTCTCCAATTAGCAGATTAAAATGTCTTCTTATATACGAAATAATTGCCTCATCCATCTTATCACCACCTACTCTTACAGACCTCGCATAAACTATGCCACCAAGTGATAAAACAGCAACTTCTGTTGTTCCCCCACCAATATCAACTATCATTGATCCAGTTGGCTCTGTGACAGGTAGACCTGCACCAATTGCTGCCGCCATTGGTTCTTCTACTAAGTAAACCTCGCGAGCTCCCGCAATTTCTGCTGCTTCTTGGATTGCTCTTCTTTCAACAGGTGTTGAGCCAGAAGGTACGCAAACTAAGATCATTGGTCCTGTGAAAGATCTTCTGTCTCTTACGGATCTTATGAAGTACTTAATCATTTCCTCAGCGCCCTTAAAGTCTGCAATTACACCATCCTGCAAAGGACGTTTTGCAACAATATCTGTTGGCGTGCGTCCTAACATCATTTTTGCTTCATGACCAAAAGCATATGGCTTTAATGCGCCGTTTTCGTTAATTAACGCTACAACTGAAGGTGCATCTAAGACTATTCCTTTGTTTTTTTCATAAACCAGAGTGTTAGCTGTGCCAAGATCTATCGCTATATCAGACGAGAATCTGTCAAAAAGATTCAGTAATTTCATTATATTTATTCTCCCAAGTATATTGGTATTATTTTAATACCCATTATTAGTATGTATTATTGTCGAAAAACTGAAGTATATCAAGCTTCTTGAAAATGTAAAATAACAAAGTTACTCAATAAAATTATAAATAATATAGGTAATAAGGCTGCAAGTATTGGATGTATACCACTATATGCTAAAATTCGTAAGGTCATTTCAAGAAAGAAATATGTACAAATTCCCAAAATTAATCCGATAACAATAGTTTTTGCTCCAGAGTTATCTCTAACATTTAGACTAATAAACCAACAAGCTATAAAAGCCATTGCCACCATCGAAATTGGTCTGAATAGTTGCTTATAATAGTGGATCTGATATTTTGTTATTGATAAACCTGATTTTGCAAACTTTTCAATAGAGTTTTTTAAGCTCCAAATAGGGATCATTTCTGGTGCCGTGAAGGTCTGCATTAAATTGTCAATAGATAAGTTAGTTGGTAAATTAACCTTTTCCTTATTTCTAGTAGAGTCCTTTAGTGTAATCGTGGAATTATCTAGAATAAATGATCCAGTAGAGATAAGAGCAGTAGGTGCATCAATTCTTTTTGTTAGATTATTCTGAGAATCTACCATCAAAATAGTTACATCATATAATGTTCTTTCCTTAGAATTTATTGATTTTGCCTGAATGATTCTGTTATTTCCTGCAAATTTTTCGAAGAAGAATATTCCAGATTGTGAAATAACAAAATTTAAGTGTGGAGTATTAGTGACGTTTGCTTCTATTTTTTCATATTCCTTTAAACCATAGGTGCCAATTGGACTTATTGTTGTAAGGATTATAACTCCAAAGATAAAAGTTACGGATATTGGAATAACAAAAATTCTCCATATTGGTATTCCATTGCTTAGTACAATAATTAATTCATTTTGTTTTGTGATGTTTCTTAAAAACAATATTGTTGCTATAAAGCAGCATAGTGAACTGACTTCGCAGAATAAGTAAGGTACTTTGAATATAATTAGCTGCCAAAAGTGTTTTGGCGTTAATTCAACTGATTTAAATTTTTGTAATGTATCAAATGCATTCGTAGTAAACAAAATACAAACAATAATTCCAGCAGTTACAATGAGTTGCCAAACATAGACTTTTGCAAGGTATTTTGTAATCGTTTGATAGTTGATCATTGAATTTAGCTATAATGGAATTTTTAATGACTAGAGTTTATTATTTCTAGATAATAAAATAAAGAAGTATATTTTCTGCGCTTTGGAATATTAATTTTACTACAATTTATTTCATATCTGTGTTAACTTTACTGTTATAATTATAACCAATTATCTTAAAAGTTTTTATAAGATGAAACTCTTTTTTTTAATATTTTTACATTTATGTATACTCGCGACAAGTGTCCGTGCAGATGAATTAAGGAGTGGTTTTGTTTATCTGAGTGATGTTGACCCATCTATTTTAATTAATCTTAAGTATCATCGTAGCGAAAATTTTACAGGTAAGCCAGTTAGAGGATGTAGGAGGAGTCGGGCTGTTGTTACCCAAGAAGCTGCTGAAGCGCTAAGAAATGTTCAAGAAGATTTGGTGATGTATGGTTATTCCTTGGTAGTTTACGATGCCTATCATCCAGAGAAATCTTATAACGAATTTAATGAATGGTTGCAAAGTGAGGACTCGCAAGATATTAAGAGCTCTCATTACCCTAATATTAAAAAAGCGGATATTCAAAATAGAGGCTATATAAAAGCAAAATACGACCATGTACGCGGTAGTACTGTTGATGTGACCGTTATATCATTAAAGGAAAAGTTGAAAAGCCCTGGTAAAAAGAAAAAAAGATCATATAAAGGTCAAAAAGACATAATCTATGTATATGATGGCTCTCTTGATATGGGAACTTCCCATGATATATTTGATCCTCTATCAGAGCTTGATAATATGAATATTCCGGAAATTGCAAGAGATAATAGGAAAATGCTTAGGGATGCTATGCAAAATCATGGATTCACTGCAAATAATAAATTTTGGTGGCAATTTACACTAATTCGTGAGCCGTATATAGATAGTAAGTTTGATTTTGATGTATAAATTCTGCTACTTTTACTTCACTACATGCGATGTTTATTATAAATCGTTCTATTTATGAATCTTATCTTGTTATCACACTTAAATCTAACTCATACAATAGAAATTGCCAAAGAATATAATCTGATCAATTATATAAAAGGTAGGACAGGTAAACTGTAAACTAAATAGAAGCATAAGACTTCGAATGCGAGCTTAAACCTGTCCTTAAGAAGC
>sequence45
ACGCTATTGTTAAAAATAATTCTTCTTGGGCTTGTGAAGAATAATCTTCTTTAATTTTTTTCTTGATTATTATTACGTATGCTCGCATTTTTAAGATAAACAAGTTGATATTCGCTTGTATAAATGTACTTTATTTTCTTGTCTTAATTATAACTAGAGACTAACAATAATCACTACAACTTTAGTAATAACCAAAAAGAATATTCGTCATTTCGAGAGAATGCGCGGCAATCCATCTTTCCAACAACTCTTTTTTATTAGAACATCAAAAATAAATTACTACACACTACAAATCGCTTTGTAAAATAGATAAATTATTACTACACGCCTTCTAATAAACAATATTACGCCCAGTGATTAGATGCATCTTGCCATTGCAGCATGATATCCAATGGTATTTCACGTTTTTTGTAATTGATATAATTGTTGGCTCTGAAGGAATAAAACCGGAAGCATCTGGCTTAAATTGGTAAAGATCACCATTAGATGCAATTACGTTAATCGAGAAACTATTGCCATCTTGTGCAACAAATGGCTCTTGGAACAAAGCTGTACGAACTTTTCTTTTGCTACGATCTTTCTGCGCAATCAAATTACCAACCCATAAAGCTTTACCATTATGTGAGGATAATGCAGCAACTTGTCTTGCATTATTTGTAACTAACAAATAATCTCCAACTAAGCTAAGAGATTGAATATCATCAGCAACCTTTATCCATGCCGGAGCACCATTATCAAGATCCATCTTAATTATTTTTCCATTACTTGTAGCAAAATATGCGTATTCACCACTTATTATTGGAACAGTAACAATAACTGATGGATCAAAACTTGGTATACCAATATCACTAATCTTAGTTAAATTGTAACGCCATTTCTCTTTTCCAGACTGAGCATCAAGGTATACTATTTCACCAGAACTATAACTTACAATCACATTGCCATCATACACTACCGGATGAACATGGCTTCTTGTAGAAATAGTCTCAAGCTCACCTTCATGTAACCACACAAATTTTGATGTTTTGATATCATAAGCAATAAGTTGGTTACTTACAGTCTGTGCTAATAGTAGTCTGTCTGTAGCCATAACAGGCTTATTTCTTACAATATCAGGATATTCTTTGCGAATTATCTCATCTCCAGATTTAGCATCAAGTACAACAAGATATCTTGAACTATTGGTTACATATAGTTTTCCATTGCTATAAAGAACTCCACCATCATTAAAGTTTCTATCTAGAACACCTTTAGCAATATCAGTTTGCCATAATATTTTCTTCTCCTTCAAAGAATACGCAGAAACAAACCCCTTCGAATCTGTACTGTACATAACCCCTTTAGCAAAAGCAGGTTTTGCTATAATTGTATTTTTTGCTAGACTATAAGATTTAGATTTTTGATCCGAGAATGGATTTTTCTTTATTTGCGACGCATTAAATTTTAATTTTTCTTTGCTCTGAACCTCAAGCTTAGGGGTCAGGTCAATTAAATTTTTAACTCTACCGCTACCAAAGCGGTCACATGATATAAGTAATACTGGCAATAAACCAAATAAAATAATTTTTTTCATAATATTATACTTTTAAAATTATAGTTTCTTATGTTTTTAAAGACCCGATAAAATCGCTCTAGCTTGTTCTTTTGCTATTAAAGAAGCACTTTCTAAATCTAAGATAGTATTAGCATATTCAGCCGCCAAATCATTTTGATTATTCTTCTTGTAAAAAACTGCCTTTAATAAAGTTGCATTTATAAAAAATACTTGGCTAGGCTCTTTAAAATATTGCATATGGTTGCGTGCTTTCATCTTCAACTCATCAGAAAGATTTTTTTCATCTAAAATAAGATTTAACCACAATAATCTTGTAAAAGATCTAGTAATATCATTATAGTTTGCATTTGCAATAATCGATTCTAATTGTTCAAACGCAGCAGGCGAATCACCAGATTCAATTACATTTACAACCCTTTGAATTTCAGCCATTTCAACCTGACGATTGTCACCATCTTGAATTAAATTATCTAGCGATTCATTAATTAGTTTTTTCTCACCATACTCACCACTGATTAAGTCAACTAGCATGTCTCCAACTTTTTGATTGTGAGACTCAATACGATTTTGATACCAGCTAAAACCACCCATAGCAATTGCAATTATCACTGTAAGAGTAATTATTATTGGAAATATTTTGCGAAAAAGCATGATTTTCTTTTCATCTTTCTCATCACTTAACGCTTCATCAAGAATATCAGCCACCAGGCACCTTCAGATTATAATTTTATTAAAATATATTGCATTATTTGCAACGAAACTTAGTTCTAGCATCTTTAGCCCTTTTAATCGAGCTAATTGGACGCTTTGGAAATTCTAATTCCAATTTTTCAAGCATACTACACGCTTCCTTATTCTTATTCAAGCTTGCAAGTGAATATGATAGCTTCAATAAAGCGTCAGGTGCTTTAGATCCTTTTGGATATTTCTTATAACTCTGTAGATAGTTAATTGCAGCTTTATTATATACACCCCTTCTATAAAATGTCTCAGCATACCAGAATGTAGCATTGCTCTGAAGTCTACTAGAAGGGTATTGTTTAATAAAATCAGCAAATTTAGCTTCAGCTAATGCAAGATTTCCATCTTTCAATGTAGCTAGAGCTAAATCATAATCAACCTTATCCTTAGGCCCTGATTTAGATGGCTTGTCACCAAAAAAAGTATTATCCGCATCTGGCAATAAAATAGCTTCTGCTGCATTATCTCCAACCACTTCGCCAAGTGAGGCAACAGATACTCCAGCAGTTTTATGCGTCGAAAGACCAGCTTTTTTAAGAATTGATTTCATTTCCTCTATACTATTCTCAAGATCCAGCATCCTTCCTTTCAATTCCTGAATTTGCTTTGATTGACGTTGTATAATTGGACCATAGCTTTGACTATCAGCAAGCGCAGAACTACATATAGAAATCAACGAAATAGATAATAGTATTTTTTTAATCATTTTACCCAAATATTTTTTACAATTTTTGATACAACATAATATATGAAAATGCAAGCTAATTTACAAACATTAACATTATGCGGTACTAATTCTCATTTTAAATTAAAGATTCATATTTAAAGGTCAAACTGTACATCTTATATTTAAATGAATTGAGTATAATATTTTATAAATCAATACTATCACTATATTCAAAAGTTATTGTTACTGTTGTACCTTTGCCTGGTTTACTTTGCAAATCAAATTTACCATCCATAAGCTCAATTAATTTTTTTGTAAGTGGCAAACCAAGACCTGTTCCTTCATACCTTCTACTTAGCTTATTATCAACTTGTCCAAATGATGATAATGCTTTTGGAATTTCCTGATCACTCATCCCTATGCCAGTATCAGTTACAATTATATTCACTAACTTTCTAGTACCATCCTTTTTCAAGGTAAGCGTCACCGAACCTTCTGGCGGTGTAAATTTAACTGAATTTGAAAGTAGGTTCAACAAAGCCTGCTTTAATCTTTTGGGATCCGCAACGATAATTATATGCGAACTCGGCATTTTTTCTATTAGTTTTACACTTGCCTCATCCGCTCTGGGCTTTACAAATCTCATGCTAGACGACGCCAATTTATTCAAATCAAGCTCAACCTTATCAACTTGCAGCTTATCAGCAGAAGCTTTTGAAAAGTCCAAAATATCATTAATTACACTGAGCAAATGCTTTCCCGAACCATTAATATCTGATACATAGTCCTTGTATTGATCATTACCAATCTTACCATAAGTTTCGGCTATCATAATCTCAGAAAAACCAATAATAGCATTTAATGGAGTTCTAAGCTCATGACTAATATTTGCTAAGAAATCAGTTTTTGCTGAACTCTCTGTTTCCGCTCTAGTTTTTGCTTCTTCAAGTTCTCTGTTTGTCTCAAATTGCTTATTAATAATGCGTTGCGCATAATTTGTGTTATACATAACTATTATAAAAAACACTAAAAATACAATTACAAACGCAATGAATATACGCTTCTCGAGATATATAATGTTATCCCATTGCTCGGTAATATCAGTAGTAATTTCAATAACACCAACTATGTTAAATCCTCCCATTGAAGATTCAATAAGTGGTATATAGCTGCTAATATAGGATTTCTCATACACATTGTAGTTACTATCCGTAATAATTGCACGAGACACAAGGGAATGTGATGTTTTACCTCTAAAAGCTTCAGTCAGAGGTTGTTCTGTAATATAATTTTGCAAAAAATATCTATCTAAATGTAATAAAAATTTATCGTAATATCGAGAACTATTATGTTTATCAACATTAACAATATTATTCGTATTATTTACTAAAAACTTAGCCCCTGAATGATCATATAAGGCAATATCTGAACCAATACTTTTTAAAAAACCCGATGAATCTTGAATAAAATTAATAAATTTTTGATCTTGCAAAAGCTCCAAATAAGATATTTTTTCTAATTTAGAAACTACTTTCCTATTTTCGTCCCAAACCCTGTTCTTATATGTCTCTGCAACGTGTAGATTTTGATCAGCCACTTGCTTTAGAACAACTTCTTCTATCATAAAATATCGATATAGCACGATATTTGCTACAATATTGAGAAACAAACCTATAAATGAAAATCTAATGATATGTTTGTTTTGTATCATATGCTAACAACTTTGTAATGGTAGATATTAAAATTAAGGATATCAGAGTATTACCCGGCTCACTAGATTTAAAAAATAATGCCGGCAAATCTCTATCAGAAATATTGGGGCAGTTGCAATCTGGATCGATTGTTAAAGGTTTAGTTGTTGGCACTACACCTAGAGGGGAAGTTATTTTTCATACTGCGCACGGAAGATTTGCGGCAAAAAACGATATAAATTTAGTGCGTGGAGATACTATCAGTCTAAAATTGGCGCATGAAAACAAAGATCTATCGGGCACAATAGTTTCAGTTAATGATAAAAAGCGAGATAACATAGAACCTGTAAAACTAAGCTTACCACCCACAACCGAAAATACAAAATCAACATTATCAACTGATAAGACATCAAGTGCAGTAAGTTTTAGCAATAATAGCAATATACCAAAAAGTATTAATGGAGAAATTTCATATCTTAACCTGTCAAAAATTGACAAGAATACACCTTTGTTTCGAGTACTAAATTCAATAACTACACCAAAGGACAGCAAAATAGGTATAAGCTTAAACATAGTATCTAATAAGCAAGTATCGAATACAGCTTTTACTATTTCTGGGGAAGTAAGTGGAAATGCAAAAGATGGAAGCCAGCTTATTAAAACTGCTTTTGGCGTTATATTATCGAAAAACACAAATATGCTTGTGGGTCAAAAGCTAAATTTAGAAATTTCTAGTGTAAATAATCAATCTTTAGCAAATGCTACAAGCAGAAGCGTAAATGACTTTTTATTCTCTGCAAATAAAAATTGGCCTCTTCTAAAAAGTTTGGTTCAAACGGTTCAAGGAAGTGGCGGTACTACTGGAACTCAATCAGCAACTATTACCTCAAATAGTAGCGTAGCACAGCAAAACAATCCAGCTAACTCGATAATATCTAATGTTGCAACTGACACTCTAAGTATAAAAACTTTGCAGACACAGCAAAGCAGCACCGTGTCATCTTCAAATGTGGATACAAGAACACCTATCCCAAACCTATCAGCTAATATTTCTAGAACTGATACTCAAGCAATAGGTAAATCTCCAAATATATCAATCCCTTCCGGAGAACAGATTGCTGCTAAAACATTAGCTCAAGAAACATTCATCGGAACAAAAGAACTTATTGCAAATGCTGAAAAACTACAAACAATAGTTCCGAGGAATATCAAATCACGTAATAGAAGCGACAGCACTAGCAAAGAAGATATACAATCACCTAGAAGATTTAGAACTGAACAAAAAAATAATAACCAAATCCAAACTACTCAAGATAAAGAAAAAGCAAGCATTAATAGTATCATTAAAAACCTTGGGCAAACTGAAGAAATCCGCAAACTTTCTTCAGAACTAATGAACTTAAAGGAACTAATTCTCCCTTCAATTCGAGAAGGAGAAAATCCAGAAAAATGGCAAACTATTTTAATCCCTTTTTATAATGGAAGAAATGTAGAAGATCATGAAGTAAAAATTCAAAGATCTCGTGAATATTTTCTAAGATTTATTGTTGATGTTAATTTGCTTGATAATCCAATGCAAATTGATGGCTTGATAAGGTTTGAAAATGACAATATAACACCAAAGAATTTTGATTTAACCGTTCGTGCAAAAAACACTCTTGAGCCACATATACGTTCTCACATAGCTGAAATATACCAGCTAAACCAGAATCTTTCTGGAGTACGTGGAACACTGGCAATTGAACAACAAGATTTTTAATTGTATCTACTTAGAAACTATTAGCTATTACAACAATTTCTCCACTTGATCCCGTGGCACTTGAAAATGATGGTAGTCAACTGGCTCCTGCCAATTTCCACCCCAAACAGTAAAACCAAAATCATAGAAAATGTCTACAATAGGTTCAACCATACCCGGTCTTTTATTACTTCTATCTAGAAATTCTTTTCCGTTACTAGGAAATATTTTACCTTCTTGAATAAATGGATTCTGCAGAGGATTAATATCAATAGCTAAACCGTATGAATGTATAGATAATAATTCAGAACCTTCTATTTTACGAAAATTAAAACATGAGCTATTATTTGCATCCATTGACAATTCATCATCTCCATCAAACTCATCAATTAACCTAATAGAATGAATTGGAAATTTTAAATTAAATAGCTCTTTAAAAATTGATATTACAGAATTTACCATACTATCTAACACTATAATTTGACCAGCCGTAACTTCATATTCAAAATTATAATGACTCACATTTAGTAGCTTTAATCTTTGAATAGGAATCACACATTCCGAAGACCAAACATTTTTTTCGATCATTCTATTTTCTATATCTAGAGGAATATCTTGAATTTCAAATTTCATCTTAAGCTGGCTCTATTACAATATGTTTAGACTATCTTTGCAATATTACATATTACACCTTCCTAAAATACCAAAAAATGCTAGTATGATCTTTGCAATTAATAAAAGTGTTACATTTATGAAGCTGATTCATCTTCTAATTATCATTTTAATAATCCTAATAAATTCAGCTAGGGCAAATATAATTAGAGATTCTGAGATTCAAGAAGCAGTTGACATAATTGTAAAGCCACTTAAAGAAGCAGCTAATCTACCAAACCTTAAAATTCATATTATCGATGATCCAGTTCCAAACGCTTTTACAGCAGGTGGAAATGATATTTTCGTAAATAGTGGACTCATTATTGATTTCCCAGATCCTGATATATTAAGAGGAGTTATTGCTCACGAAATAGGTCATATACTAGGCAATCATATTATTCGTCGACAAGAAGTAATTGACAATTACATGAAAGCATCCATAGGAGCAACAGCTCTTGGTCTTGCTACAGCAATCAGCGGTGGTGCAGCAGAAGGTTTAGCAATCGCTATGGGAGGAACGCATTTTTCTGAAAGATCAATATATGCGTATTCTAGAACTTTTGAATCAAGCGCCGATCAAACAGCTCTGAAACTACTTGAAAAAAGCTCTCACAGTGCAGTCGGACTTATTAACTTTTTTGAAAAAATGCAAATCTTTTCTAAAACTGACATGATCAATCCGTACGAACAGACACATCCTCTTAGTAACGATAGATTGCTTATCCTACGAAGTTATAACAAGCGTTCAAAATTCAAAACCAGCCAAAATCATGATGATATAGTTTATAAATATGCAAGAAGCTCTGCAAAATTAGCAGCATTTACGCTTGATTTAGACAAAATTCTGGATTGTACATACGAAGAAAACTCTGATGAGCTAACACATTATATGAAAGCTATAAAATGTTTTAGAATAGGTAATTTTGATGATTCACTGAATCATATCAATCGACTTCTAATGCAACATCCTGACGATCCATTTTATCATGAACTAAAAGCACAAATCTATTTTGAAGCAGGAAAATCAGCCGCCTTTACAGAATACGACATTGCAAGTAAAGCCAGACCAAATGATGTTTTGATAAGACTTGGAATGGCAATCGTTGGAATAACAACGCATATAGATGATGCACACTATATAACACGCTTTTACAAAGATCTAAAATTTGTTATCAAACATGACCCTGATAACCTCCTAGCTCTTCATTACCTTGCGATTTATTATGAAAAGAAAGGGCTTATTGGTAAAAGTCATCTAAACTCAGCTCTTATTGCACTTAAATCTGGAAGGACAACTGATGCTCGAACTCTCGCAGCAGCTGCAATGCGAACATTGCCAAAAAAGTCTCCGGATTGGTATAAGGCTGGTGATATTCTTGCTGCTACAGAATAAGATTGAAATCCTTTAGTTGATTTATTTTGCAATAAGAATATATATCCTGTAAAAGAATATTAGTTAATCACAAATTAATAAACCAAATATAATTATGCTAAGAAATATTTTCAATTTTGCGCTTGCTATTACATTTATTGTACTTGTTGCTCTCTACGCCTACAAAGCAGTTAATAAACCTGAAATAACAAAGGTTCCTATAAGCGATTCAAAGCAACAGAAAGAAGATATTGCTAAATCAGAAAAAACTCAAAGCTCATACACAAAAGAAGAGATCGAGCTAATAGTGAAAAACTACATAATAGATAATCCAGATATCTTAGTTACTTCACTCGAAAATATGCATAAAAAGAAAGTATTAGAATCGACTGAAAAGGCAAATAAATATCTTGAAACTAATAGAGATAAAATAGAAACTTCAGGAATTCCACCAATCTTAGGTAATAAAGATGGGGATATATCTATTGTTGTTTTCTACGACTATAATTGCACATTCTGTAAAAAAGCTAATATTGAAACTAATAAAATTATTAGCTCAGACCCAGGAGTAAAAATTATCCTAAGACCTATTCCAATTCTTGGAGGAACGTCACTATATGCTGCAAAAGCTTCTCTTGCTATACAAAAGATATCTGCAGAAAATTTTCCAGCAATACATGATGACATGATGCAAATGCAAGTTTTAGATGAAGTTTCGATCAAAAAACTTATGGAAAAATATAGTATAGATTACTCTATCGTTGAAAACGAAATAAATAGTTACTCGACAAAGCAACTTATTACGAAAAACTATAATCTTGCCAGATCACTAAACATATCTGGTGCTCCGTCTTATATTATAAATGGCATTTTTGTTCCAGGTTTTATTCCCGAAGATAAATTCAAACAAATCATTCTACAGATTAGAGCTTCTGAAGATTCAACTGAAGATAACTCGACAGAAATCTCAGATAAAGAATCAAATGAAGAGCTTAAGAAATAGGCTACTGATCCAGAATATTCTTGACTTAAAATCGAATTTATTCTAGTTTAGCTCAAGATTGTGGCGGGTGTAGCTCAGTTGGTTAGAGCACCAGATTGTGATTCTGGGGGTCGCCGGTTCAATTCCGGTCACTCGCCCCACTTGCTCTTAATACCAGTCTTTACTTTAAATTATTCTTAAGCTAAAAATTAATTGATTCAAATATACTATTCCTATTACAATCACTTGCGACGCTAGGAATGGAAGTAAATAAATCAATTCTATTGCTACAATCCATATAATAATTAATAGGTGAGCGATGCAGTAACGGACGTCCGGAGATAAAAGGATACGAAAGAGATAGTGTATCAATTTTATTTCCAGAATAGGAACAAAGAGCGAAGCCTATACTAATAGGTGAGCGATGCAGCAATAGACGTCTGGAGATAAAAGGATACGAAAGAGATAGTGTAT
>sequence46
CTTACACAAACTAAATGATTGACTCGCTAGGTCCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCTTATGTTCTCAAGTATTTAATCGTCAAAAATATCCCATTCTTCATAACTTTCTTTTCCACAACACCCAAAACAACTTAGAACGTAGGTAAAACAATTTAAGCAGCTGAATAATGATTCAAGACATCCTTCATTCCACTGTGCAACTACCCTTTCAACATTTGCCTGAGTTTCTCTATCTATAGGTGGATCTTGTCTCTGGTGGGTTGCTTCATATTTATACTTATTCGCTTCACGTCTGAGTTCTTCTTGCCTTCTAACATCTCCCATGTGTTTCATGATATTTCTCCTCTATTTGTTATAAAATTATCTTTACCAGTAAAATGCAAAGATATCTTTAGACATATCAAATACAATCAATAATTGCAATAATGGTCAGGATTATTGAACAAAAAAATGTAAGAATTTATAAGCACTTAGAATATGTTTAGTTTTATTCTAAATTAAGTGATGTATAGATTTGCTGGTAGATTTAGTTATCAGGGACGGCTTTAGTCTGCCAAATTATCAACTAACCTTTGTGCAGCATCTATGATCTTATTAGAAGCCTGCAGAGCAGAAACAGATCCAACAATAGTGCGAAGATTTTGTGCATACTTATTTGATGTTTCTACATAATTAGTTTTTAAATATGAGTCTGCTGCTTTTCCAGTTACAACTGTTGTAGTCTTAAGAGCATCAATAGCAGAAATTATGTTCTTTTTTGTGTTTGAGATTTGTGCCTGTGCAGAACGAAGTGTACGGAGTGCTCCTTTGAATATGTCATAAGCAACCGCTATATCTTGTGAAGAAGATAATGATAATGGTTGGTTATCATAAATCACTCTTTTAATTTCGTCTGCATAATATCTGGGCCCACCACCGAAAGGAGCGTGTATTGCTGTTGCTACAAGAGCTTGTCTGATTTCATTTGCTGATGCATTTGAAAAATCTCTGTTTGGATTAGCGACTCCAACATTTTTTAGTGCAGCTAATGTATTTGGTGCAGCCTTATTTAAAGTTGCTGCATATTGAGCTCCATTTGGACCGTTTAATATCGCATGCCAAACATTTGCAACATTTTGCCAGCCAGGAATTCCTCCAGTTCCAGAACCAGGATAAGGAGCTTCTCCTTCTGCTAATTGAAGTAAATTTTTGTTTTCCCTATAATCAGTATCAATTTCTGATTGGTTTTGGTAATAAACAATATCTGCCTGAAGAGCTGCAAAATTTGCATGAATATACTCGTTGTATGCTGATGCTAAAGATGATCTTAAAAGTTTTCCATCACCTATATTTATTATATTCATTTCAATTTTATCGTTAACATTTCTGCCAACTTGCATTGCTAAATCTCTTACACTACCATTCAGCAAATATTTTCCATCATATTTAGCAGCGTTGATCAGCAAGCTTATTTGTTCTTGCTTGTCATTTAAGTTTTTTTGTAGAACCGCTACTTTATCAGGAGATTTACCTTCAGCTGTGCTTATTAAGTTCATTGAATCTCGAACTAATTCTCTTGTAAGGGAAATATATGCATCAGCAACATTAAGCATATTTATTCCATATGCTGAAGTTTTTGCAATAGCACCTTTTATTATTTCATCACTTTGTAATGTGCTTCCTAGAAAACTATCAACAACTTCAATATCTTTATTGTTACCAGTTGTTAAACTAGCACCAAGCGTATGATTTAAGTTAGATGCAGCTCTAATTTCACGCGATACTGTTGAAGTAAGGCTGCTTTTTAGAGTAAGTGTCATTATTCTCCAAAAATATAAAAATAATAGTTAATCCATATTAACATATCTTTTAAATTATTCAACCTATTTTTTTATACTAGGTTTAAGAAAAATAGGCTGTAGAGCAAGTTTTATTTGGAGAAGGTAAGAAGTGATAACGACTTAATTTATTTGAGCTAATGAAATTTAATAAAATGCACATAATAAGTTGCATTATTTAATAGCTTAAAACTACGCAAAATAATAAGATTTATGACTCGCTATTGCACTTAGTTAATTTTAAAAGTAATTCTTCGGTTTCATGTAGGAGTGTTTCAGATTTTAGACTTATTAAAAATACTAGTTTATTGTCAGGTTTAATTTTTGCGTGTCTTGGATGTTTGGCTACGAAGCTTAAAACCATTTCAGATACATCAAAATTTTCATTGAACTTCATAACAAAGCCATTTGGTCCACTGTCTAGAGATTCAATTTTAAGTTCTATACATGTATTTTTGATTTTTACCATATTTAGTAGGTTATCAAATTCATTTGGTAGAGCTCCAAAGCGATCTACCATTTCATCTTTAAATGCTTCAATTTCTGTATTAGTTTTTAAAGAACCAGCTCTTCTATATATGGCAAGACGTAGAGATGAATCTTCTATATATTTACTTGGAATGAGAACGGGAATACTCAGGTTAATCGATGGAATAAATTCTACTAACTTAGTGTCATCTTTATTTTTCTTTAATTCGATAATTGCTTCATCAAGCATTTCTTGGTAAAGCTCTGATCCAACTTCTTTAATATGCCCTGATTGTTCATCGCCAACAAGATTTCCGAAGCCTCTAAGATCCATATCATGACCAGCAATTGTAAAACCAGCTCCTAATGAATCAATATTTTGTAGCACGTCTAGTCGTTGCATTGAATGTTGTGTAGTTTTTTTGTGATGAGGTAATGTTAGGTAGGCAAACCCTCTTACTTTACCTCTACCAACTCTTCCACGGAGTTGATAAAGCTGGCTAAGGCCAAGCATATCTGATCTATGAATGATCATAGTATTTACAATTGGTATATCAATACCAGATTCTATTATTGTAGTTGATAGCAAAATATCAAATTTCCCATCGCAAAAATCATTCATTACTGAATCGATTGTAGAAGCCGGCATTTGGCCATGAGCAATTTTATAGCGCAGTTCAGGAACAAACTTAGCTAATTGTTTTTCTACCCATTCAATATCCTTTATTCTTGGTACTACATAAAAACTCAAACCACCTCTGAACCTTTCTCTCATCAGGGCATCTCTAATGACTACAGGATCAAATGGAATTATATTTGTTCTAACTGGGAGGCGATCAATTGGTGGTGTTGCAATCAAACTTAAGTCTTTTATTCCAACCATTGACATTTGTAGAGTTCTAGGTATTGGAGTTGCTGATAAGGAGAGAACGTGCACACCAGTTTTCATTTGTTTTAAATGCTCCTTTTGAGCTACACCAAAATGTTGCTCTTCATCAATTATAATCATTTTCAGATTTTTGAATTTAATGTTTGATGCAAGCAGGGCGTGCGTGCCAATGATAATATTTATTTCTCCATTTTCAATGCCTTCTTTAACTTTCTTAGCTTCAGTCGGTTTTACTAACCTAGAGAGTTGTCCTATTTTGATACCGTGTTCTCTAAAACGTTCAGTGAAGCTAGTGTAATGTTGTTTAGCCAAGATAGTAGTAGGGGAAATTATAGCAATTTGAGGTCTATCATCATTTATATCATGAGCAACCATGAAGGCTGCTCTTATCGCAACTTCAGTCTTACCGAATCCAACATCACCACAAATTAGACGATCCATTAGCTTACCACTTTCAAGATCATTTTTAATATCATCAATGGAAGTTAGTTGGTCTTCTGTTTCGCTATAAGGAAATTTATTTGCAAATTTCTGATACTCATTTATGTCAAATTTGATTGGATTTGTTTTTGCAAGCAGCCTTTTTGCTGTAACTTTTATAAGCTTATCAGCAATATCTTTTATTCTATTTTTCAGCTTAGCTTTTCTTTTTTGCCAGCTGACGCCCCCAAGCCTATCTAGTTGAGCTCCATCATTACCATATTTTTTAATTTGGTCAATATTTTCAACTGGAAGATATAGTATATCGCCATTTGCATAAATTATTTTTAAGCAATCATGAGCAATGTCATCGACATATATGGTCTGAATTTTCTCAAACATACCAATCCCATGCTCTTTATGAACTATCATTTCTCCTTCTGAAATATTATCAAGTTCAGTAAGAATATTTTGTAACTTTTTCTTTGACGATTTATGGCTCTGGGTAATAAATTTATCACCTAAAATATTTCTTTCAGAGATTAGTAAGTATTTATTTGAACTAAAGCTGTGTTTTAAAGGAGCGATTGCTAAATTAATAATATTCTTTTTTGCTTCAGATAGATTTTTAATATCTACTGATACATATCCATAATCAGAAGCAATCTTCTTAATTCTCTCTACCGAGCTTTTTGAATTACAAAAAATTATTGGGATTTTTCTTTTATTATCTGTAATAATTTCAAATAATTTTTCAAATTCAGATTTTTTCTCAATCTTTGCTATCTTTGAAATATCCTCAAGTGTTTCAAAACCTTCTTTGTTGCCACCTTCAATTCGTATATTATTGTTTTTTTCTAATAAATCTTTTGCTTCATCGGAGCTACATATTTGGTCTTTAGGTGGTATGGCAAAGTAAAAAGAATCTGGGTTGTTTTTATTAGATAGTAAGCGCGATTCATAAAAATCTTTATAGCTATTCTCATGTTCTAATATAGCTTGCATACATAAATTATCATAGATGATAGTATGTTTATCTAAGAAGTCCGGAAGCAAGCACATTTTTTCATATAAAAGTGGCGTAAGGTGTTCATATCCATGGAATTTATGTCCGGAGATTATTGATTCATATAATGGGGTTGATATATAATTTACTCCAAAAATTTGTAAAAAATTATTTTTAAAAGTAGTAATAGTCTCAGAATTTAATAGGCTCTCGCTAGCCGGCGATATTGTAAGAGTTTTTAAATTTGCTTTCGATATCTGGCTATATGTATCAAATTCTCTGATTGATTCAATTAGTTCCCAACCAAAATTAATTCTGTAGCCTTTATTATTAGCGTTTACAATATCTACTATTTCACCTCTGACAGCAAACTCTCCGCTATCAACAGCACTTGCTGCTCGAGTGAAGCCGTTTTTAACTAGAAAAATAAGCAAATTTTCTACGTCAAGCTTCATTCCAGGCTCTAAGACCATTGTAGAATTGCTAAAAACATCTGGAGTTGGGAGTTTCGTAATTAAATTCTGAGCAGCGGTGACTAAAATATATTTATCAGCTTTTTGTGCTAGGGTTGTTAAAATATTTGCTCTTTTCGACAGAACCTCTGTACTAGGAGACACTCTATCATAAGGGATTGTATCTAGACTTGGGAAGTGTAGAATATTAGATTTTTTATTCTTTTTATTATCAAAAAATTTAAACTGTTTATATGCAGAAATTGTACTTTCTTCATCTGCAAATATTAGCAAAATATTTTCATTATTGTTGTTAAAATGTTCATGTGCAAATAAACACTTTGATACTAAAGGGATTTCAAACTTTTTCATTTATTACTTGGCTCAAAATCTAAAATTTGTAACATTAATTTTGAAGATTTTTCCTCTGGTAGGGGCTTTTTCTTCGTATACCAGTCATATATATCAGCATCATTCATCTGCAAAATTTCTTCAAAAGTTGTAAGGTCAGAATTATTCATTTTATCAAGGTTTGACTTGGCAAATTGGCCAATAATAAGATCTGTTTCTTTGCATCCGCGATTGCAACTTTGGTAGAGCAATTTTTTGAGCAATTGCTCTCTATTTTTTATATTCATGATTATTGATCTTGCAAAAAAAATTTATGGTAATATTATTATCGACAACAGAAAAAAATCAAGATTAAATTACCTCTTGTTCTTCAATCATTTCATAGTCTTGAAATTAAGAACTGGTTCTCTTTATTTTCGTTAGTTACAAATTTTTATACTTTAGACAAATTTAGGTAAAATGAAACAGCTTAATTGCGCAAATTCCAAGCAAAACGAAACAGCTTTCGACGCTGCTGTCTGGAATGATGTAAGTCGTGATTTAAAAGCGCATTACGGTGATGATTTATATAAAAGCTGGCTAAGTAAAATAAGTTTTGAAGAAAAACAAACTGATGGAACTTTAATATTATCTGCGCCAAGCAATTTTGTTAGAGATTGGATAAAATCAAACTACCTAGAAATAATTTCACGCTTATGGATACATCATGATCCAAATATTAGATATGTTGATATTATTACCAAAGAAGCTCAAGAAGATTCAAAGTTAGCAAATTCAAGTACCACTGTAGAAGTAATAAAGCCAAATTTTTTATCTGATAATGTAGATGAAGAGCTGGCATCTTTAGATCCAAGATTTACATTTGATAATTTTGTTGTGGGCTCACCTAATGAACTTGCATATGCCGCTGCTATGGCAGTTGCTGAGTCAGATGAAGCAGTGGTTAAATCTAATCCACTTTTCCTATATGGTGGAGTAGGTCTAGGTAAGACACATTTGATGCATGCAATTGCATGGCACTGTAAAGAAAAGAATCCCAAAAGAAAAGTGCTCTATATGTCAGCTGAGAAGTTTATGTATAGGTTTATTAAAGCACTTCGTAGTAAAGACGTTATGTCTTTTAAAGAAGAGTTTCGTTCAGTCGATGTTTTGATGATTGATGATATTCAGTTCATTTGTGGTAAAGAAAGTACTCAAGAGGAGTTTTTCCACACATTCAATGCTATTATTGATAATAATAAGCAAATGGTAATATCATGTGATAGATCTCCAAGTGATCTAGACAATGTTGAAGATAGAATTAGATCAAGATTAGGGTGGGGGCTAGTAGCTGATGTGCACAGCACAACTTATGAGCTGAGAGTTGGTATTTTAGAATCTAAATTAGAGAAGATGGATATCAAAATATCTCAGAATGTAATTGATTTTTTAGCTTCTAAAATAACATCAAATGTCAGAGAGTTAGAGGGGGCTCTTAATAAAGTTATTGCTCATTCTACACTTGTAGGTAGAGAAGTTACATTAGAGAGTACACAAGATATATTAAGAGATCTATTGCGTTCTAATGAGCGCATTATTAATATAGAAGAAATTCAGAAGAAGGTTGCAAGTAGATATAATATCAAGATTGCAGATATGTCCTCAGCAAGAAGACTTAGGTCAATTGCAAGGCCAAGGCAGATTGCGATGTATCTTTCGAAAACTCTTACATCTAAAAGCCTTGCAGAGATTGGTTCTAAATTTGGAAAAAAAGATCATACAACTGTTATGCATGCTATAAAGAAAATTGAAGAGCTTATTACGAATGATAGTGATTTTCGTGAAGAAATTACTCTACTTACTCGCATTCTTCAGAGTTAGTTTATTGATAAATAAGGAAATTTTATATGTCGGAAAATAAAAATATTCTTGAGATTGTTGTTCAAACAAAAGATTTGGTACATGCGCTTAGCTTTGCAAGCTCTGTAGTTGAGAAGAGAAACGTGATGCAGGAGCTAAGTAATATTAAACTACTTAGTTCAAATGGTGTTCTTGAAATCGGTGCTACGGACATGGATTTGTATCTTAACCAAAATATTGGTGCAGAGGTGATTTCAGAAGGAGAAACAACTGTTTCAACGCAAACCTTATCTGATGTTGTGCGTAAAATATCTGATACTGAGATAAGATTAAAGCAAATTCCAGATAGTGATAAACTTGAAATTACTGGCTCAAATTGTCGTTTCGAATTATTAACACTTCCTGCTGTACAATTTCCTGCAATGGAAGACATTGATTCTAAGAGTTCGTTGAAAATTTCTTGCGCTGATTTTGCTCGAATTATTGAATATACTAACTTTGCAATGTCTAGTGAAGAAACAAGATATAATCTTAATGGAATTTACATGCATGTTAAGAATGGTGAGTTCGCTGGCGTTGCAACTGACGGTCATAGATTATCTATTGCTTCAACTAAGCTAAATGAAAAAAGTGATGAGTTTGGGGTAATTGTACCTCGTAAATCTGTTTCTGAACTTTTGAAAATTGTAAAAGATACTAAATATTCCCAAGGAGATTTACAAATTTTCTTATCAACTACAAAGATAAAATTTGTTTGCGATAACTTAGTTATGATTTCAAAGTTAATTGATGGAACTTTTCCTGAATATTCATCATTTATTCCAGAAGATAACGACAATAAGCTAATAATTAATACTAAGTTATTAGCCGGCGCAATTGATAGAGTGGCAACTGTAACGGTTGATAAGTTTCGTGCAGTTAAACTTTCTATTAGTGATAAAGAGATGTTTATTACTGCTTCTGGGGAGGCTAAAGGAGCTGCAAGCGAAACTCTAAAATATTCTGAAGAGGATAGTGATTTTTGTAATTTTTCTGGAAGTGATGTGAGTATTGGATTTAACCCGAGATATATTAGCGATGTATTAAGCGCGCTTTCTGAAGATCAGGTCGAGATATATTTCAAAGACGCTTTTTCACCTGTTTTAATCAAAACTGCAGAGAATCCGAACGATAATTTTGTAGTTATGCCTGTGAAGGTGTAGTGATTATTTATTTTATTCTTATTCAAGCGGGAATCATCTAACTAGAGTTTTTATCTAATTAGAAAATGTAAATTGATTCCCGGCTTCTACAGTCTATCTTTGAGAAGTAATATTATTCTTCTCCATCGACATCATGTTTGCTATCGCCAATTAGAGCGCTTTCTATATCATCAATTTCTAGTAAAATAGCCTCATCGACATCATCTTTAATTGGATCGTTGCTAATTACTTCTCCTAAAAATCTTCTTAGTATTGGCAAGACAAAACCCATTTCTTCAAGAAGCATAAGATCTCTATTAATGTCAATAGCTTGATCAACATTTTGTGTATCTAAATCACGTAATCTTCTGACAATTATATGTATATCTCTATTAAAATTAGCTACTTCTATATCTGGTGCTCCAGCTGGACCAAATTGATTGTTATATATTGCCGTTGGTAAGTGCCGTTCTAGTTTGGGTTGGGCTAAGACTAAAAGCTCTTGTAGATCTATATCTTTAGCATGTTCTGCAATATAGAGTTGTCTTGTTTCCGATAGTATAAGCTCAAATAATACTGGCTTGAATTTATCTAATATATTACTCATTCTTTTGATTGCAGCAAAGAAGGTAATTTGCTTGTCCCCAAAATTAATAATATCTCCGGCTCTTGCGTACCGCCATATACGAGGCATAATCTGTCTAATGTTAGCGTTGCTATTATCTGCTAAATCATCCAAAATTTGTTGTACTAGCTCTATTCTACTATGTTGATCTGTATAAGTTTCTTGTGTGTTTGGTCTTTTCATATTTAATACTAGTTAATTATTATGAAAAATTAACAATACTATGTTAATAAATAAAAATCAATATTAATATATTAATTTTTTAGGCATTGCTAAATAAGTATAGACATTACTACAAAAAATGATAAGGTGCCATAAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCCGCCAGAGGGAGTGCAGAAGTACAAATGTAAGAGTTGTGGAAGCACGTATAGATCTGGTGATAAAAGGTTAAAACACAGCAAGGAAAAGAGGCTTCGTGTCGTAAAGATGTACATAGCAGGAATGGGTATAAGGTCGATAGAGAGAATAGAAGGAGTTTCAGGCGCGTTAATA
>sequence47
ACCTGTAATATCAGCTCCAACTCCACCTACATACAGACCTCCATTAGCAACACCAAGAGTTCCACCTACTGTTCCTGACTGGTTTACTGTACCTGTATCTACAGCTACATTTCTAGCTACATTACGCACTGTTGCTGTACCACCAGTAACTGTCAAGTCACCATTACCAGCTCCTGCAGCTATATCTTGCCCAATGGTGATTGCGCCACCAGTTACTGTCACATCACCACCAACGCCTTGTTGAAAGTTTGAATTACCAGCATTTACTGTTATAGAAGCTAGCCCACCATTAGCTGTACCAAAGTTAGCAGCTTGTGCAAAAGTAACAGTATGATTAATTACAAATGCACCTCCATTACCGGCTGCATCTATACCAGTACCGCCAGCTCCAAAAGTAATATCTTCTCCTGTAGTAACAGTAACACCACCAGCATGAATAGCAAGATCATCACCAGCATTAAATGCTGCATCAATATCATTATGTCCTGCTGCTTTAAGAAGAGCATTATTACCGGTAGTATTTACTGTCGCGGCTATACTACTACTCGCTCCACTGATTATAGCAAATGCTGACGCAGTTGCTAAAAACTTTTTAAGTCTAAACTTATTTTCCATAGTTTTTATTTCCTTTTTAAGTTAGTTAAAAATTTAGAAAGTTTGAGATTAGGTTAAAACTAAAAATACTTCCAAACCTTTCTCAAAAATTTCATTTTGATTATCGATCGAGATCTGCCTAAAAGCCTACGTTGAAGCATGCTTTACAAGGGCTTTTATTACCTCGCAAGGCAACAAAAGGATAACCAATTACACGGCAATTATATACACAAAGACTAGACTTACGCAATGTTTAAATAGAGTTTTTTAGAGCTTTCTTATAGAAATGATATTTTTGCAACATAGGTTAATAATTAAAAATCTATTGTGGTTTTGAAAGCTATTATTTACATAAAATTATAGCTTCATTCCATAGATAATTAACTAAACCACCTGTAAGCAGAGCATAGCAATCCACACGCTCATTACAACGTATAAATACCTCTTGTTGTAAGATCTTATAGATTGCTAAATTTACTTATAATCCTCACAAGCGAAGAATAAATTGATATTTTAGAGATATCCGTGATTGCACTCGATGTAACATTATTAAACATAGTCAAGCAGAGCACTAAAATGTCTTAAGCACTGAGGCTCTCGGACAATTTTCATTCCCTTAATATCGTCTTTGCGCTTCTTGATTTTTGCAAAAGTTGATGCAACATGTTCAATATGTTCACTGCCATATACACGCCTTGGAATCGCCAAACGCAGCAACTCTTTTGCAGCATTTTTACCAAACATCAGAGAACCAATTTCAGCCCCTCTTACTCCACCTTCTATATAAACCTCAACAGCTAAGGCAACTCCTGGAAACTGATCACTAGGGATATGCGGCAAAAATTCCTTTGCATTAACATATACCGCATGCCCACCAGTTGGACCAATTATTGGAACCCCAGCGTCCTCTAGCATCTTACCAAGCTTTTTCACCTGGCTGATCCTATGATCCAAATAGTCAAACTCCATACCAGAAAGCATACCAGTTGCTATTGCCTCTAGATCGCGACCAGCTAAGCCACCATAGGTCTTAAATCCCTCTGTTAGAATTAATAAATTTTCTATCTTTGCAGCTAGTTCATCATCATTTGCTGCAATCCAACCTCCGATATGAACTATAGCATCTTTTTTCGCACTCATGGTCATACCATCTGCATAAGAAAAAATCTCGCGAGCAATATCTTCTATGGACGTATCAGCATAGCCCTCCTCACGCGTCTTAATAAAATATGCATTTTCTGCAAATCTACAGCTATCAATAAAAAACGGCTTGTTAAATTTTTTTGCAAGATTACTAACATCTTTTATGTTCTGCATAGATACTGGCTGTCCACCGCCGGTATTATTAGTGATAGTAATCATAATAATAGGAATTATATCAGCTTTCTTCTCAAGTAGCGCCTCGAGCTTCTTAATATCCATATTACCTTTAAAATCCCTATTAGATTCTTCGACTAAGTCCAGAGCTTCAGCACCCATAAACTCAATATTCGCACGTGTTGTATCAAAATGATTATTATTAGGTACGATTTTTGTTTTATCTGTAAGTAAGGTGAATAAAATCCTTTCAGCAGCCCTTCCCTGGTGCACAGGATAAATATGTTTAAAGCCCGTTATATCCCCTATAGTATCAGAAAAATATCGGTGAGAACTTGCCCCCGCATATGACTCATCTCCTGTTATAAGTTGCGCAGTTTGCTCAGCGCTCATAGCACCCGTCCCAGAATCGGTGAGAAGATCTACCATAACTTGATCAGATCTTAAGTTAAACACATTATAACTCGCTTGCTTTAACCACTCCCTTCTCTCATCCATTGAAGAAAGAAATATCGGTTCAACTGTTTTAATTTTAAAAGGTGGTAGAAGATTGGTCATTTAGTCTGCTCCTTTAGTCTGGTTGTTTTACGTTTTAGTTATTTGGATAAATAAGAATTATTATCGGAACTACTGACGAAATAAATTTAAGCAAAAACACCCATATTTTTGCAATACAAGAATTACCATCAGTAAAAGATTCCATCTCAAGATGCTTGGGCAAAACCCATCCAGCATATATCGCGATCAGCGCACCTCCAATAGTTAACATATAATCAGTGGATATATGAATAGTAAATTCAAACATATTGAATTTTTCAAAAATCAAAAATTCGCTACAAATATTAAATGATAGAGATAAAAGTGATCCTATAAGCCATACTATTATTGCTATTATCACCGAAGATTTTTTTCGAGAAATATTCATTTTTTCGTGTAATGTAGCAATTAGTAGCTCTGCAATATTCACGGACGAAGTCAAAGCAGCAATAAATAATACTACGAAAAAGCTGAGACTCATCAGCTGCGGATAAGCCATATTGGAGACTATAGAAGGAATAACAATAAACATAAGCTCCGGCCCTGCCGATATCTTCGACAGGCTAGTAGTGAAAACAACAGAAAATATTGCGACACTTGATAGTAAGCCAACAATCAGCTGTGCGAAAACAATAATATAAGAAGAACTAAGTAATTTTGTATCATCCTTTAAATACGAGCCATACATTATCATTGCGCCAATTCCGACAGCAAGTGAAAAAAAAGCTTGCCCTAAAGCACTAAGCAAAATATCACTCGTCGCAACATTACCAGCGTCAAATGAAAAAATAAACCTCAAAGCCTTTATAAAACTATCATAATTTTCAAATGCCACATAAAAAATTAATATAAGTAATAATATGAACAATATAGGCATTGCTATTATATTAAGCTTCTCTAAACCACTATTTATACCCCTTGAAACAAACCAAGCAGTCAAAAATGTAAATATTGTATGACACAAAATAACAAGCTCACCCGAACCAGAGAAATTCACCCAAATCTCAACACTCTCTGCTGTCGTCACATTTGAAAGCTTACCAGTTAATGAGATTATTAGATAATACAGTGACCAACCTGAAACCACCGTATAAAACGACAATATTAGTAAAGCTGTCACTAAACCTAATATCGGAACGTAATTCCAGAACTTTGAGAGATTATATTTTCTAGATAAATCTTTAAAAGCATCAATTGTATTTTTCTTACTATATTTTCCAATTGCAAGCTCAGCTATTAAGATAGGTAAAACACAAAAGAAAACGCAAATAATATACGCTAATAAAAAGTACCCCCCACCGTTTGCACCAATTGCGTATGGAAATTTCCATATATTACCAAGCCCCACAGCTGCACCAATCGCACTCAATACAAAATACGTAGTATTATGCCAAGATTTTCTTGCTTGTTTCATAAATCCCAGAAATTAATAATGTATTTAATTAGTTCTATTAATAGTTGATAAATTTTGCACTGGTTAGATGCGAAGTTTACCACCATAAAGAACATTACCTGATGATTATTTATTAATCAAGCAATCTAATCTTAAAAATCATTGCACAATAAAGAATAGAACCAGATTTTAGCTGTAAGAAATAAAAAAGCCTCCCCAAGTTTGAAACTTGAGAAGGCCTAGGGGAAGATAATTGTTTTACTAATTTAGTACTATTTCTTCATTCCAAAAGAAAGACCACCAAACTTTTTATTAAAGTCACTTACATTCTTATTAGACTGATTCACAACATTACCAGCTTCTTTATTCCACGCTGGGTGCTTTCTATAATCAACATCCATAAGAATTTCGCCAGACTTTAGAGTTGAACCAGTTATGAACTCGTCTTTTCCAATCTTAATTTTCAGCTTTTGATACGCTGGGTGTATATCTTTCTTCATGCCGCTGCTCCACTAACTTTTTTAGTTATTTCTCTTTTTAGCTTTTTTGCTCTTAAAGACATGGAAGAAGCTTTTGCTTTTAGCATAAATGCATCAAGCCCACCTAGCTTTTCTATAGTACGCATAGTCTTTGCAACAACTTTTAGCTTGTATTTTTCACCTGTAACTTCGCTAGTGTAAATCACACTACGTACATTTGGCTCAAAACGTCTTCTAGTTTTTCTTTGAGAGTGTGATACATTATTTCCATACTGTACTGCCACACCAGTTAATTCGCATCTACGAGACATTATATTAACCCTTTAAATTTATGAGTTCGATTTGCAAGCAATATATATATATTTGCCAAAACTGTCAATAATATATTTTTCTCCATCTTAATAAATGTGAAGAAGCTTACATAGAGAATGGCGCACCCGAGAGGAGTCGAACCTCTAACCGCTTGATTCGTAGTCAAGTACTCTATCCAGTTGAGCTACGGGTGCAAATAATTACATAAACATCTTTAAAATGATTTATAGAAGAAGATGGCTCCTCGGGCCGGATTCGAACCAGCGACCGAACGGTTAACAGCCGTTTGCTCTACCACTGAGCTACCGAGGAACAATTTAAATAGCTACATCTAAAAACTGCCAAAATAATGACTGGCAAAAATAGCTAGCACACTTATAGCAAAAGTTTTTTTACTGGTCTAGAGTTTTTTTTAAAAAATGCATATGAAACATTTAGTAACAAAATTTTCGTTGCCCTCTTACTCAGTGTATACTTAGAATGCTGTTATGAGAAATTATGTATGTTTAGTAATTAATTGACAAGTAATTATGCAGCAAACCCTTCAGAACCCTATTAGTTGCTATGGAATTGGGATGCATTCAGGAAGAAAAACACAGGTGACTTTAAAGCCAGCACCTGCTAATTGCGGTATAGTATTTATACGCACAGACATTTCTCAAGTCGATAACAGAGTATTTGCACAATATAGCAATGTATGCGATACAACATTATCAACATCAATCAAAAATATCGCCGGTACGCAAATTTCAACTATCGAACATTTAATGGCAGCTATTTGGGGATGTGGCGTTGACAATATCATTGTAGAAATAGATGGACCTGAAGTACCAATCATGGACGGAAGCAGCAAGCCATTTGTTTTTATGATAGAGTACGCAGGTATAAAAGCACAAAACGCATCCAAAAAGCACTTAAAGCTTCTTAAAGAAGTTTATGTTACAGATAATGGTTGTGATCTTTTTGCACAACCTAATGACGGACTACATATTGACTTATCAATTGATTTTGCAAGCCCAGTAATAGGTAAGCAAAAACATAGCTTAGTTAAAAAGCAAAATTTTAGGGATGAAATAGCTGACTCTAGAACTTTCGGTTTCTTACATGAATTAGATTATCTACAAAGTAAAGGACTTGCAAAAGGTGCATCACTTGATAATGCAATTGGAATTGATAAAGATGTTATTCTAAATCATGACGGCCTTAGACACGACAATGAATTTGTACGTCATAAGATGCTTGACTTACTTGGTGATCTTTTCAATGCCGGAGGAGGCTTTATCGGCAAAATCAACGGCCACAAAACAAGCCACGCCTTAAATAATAAATTTCTACATAAAATCTTTGAAGATCCATACGCATATAGATGGGTTGAGGACAAATAATCCAAGAACGCCTTATTTTTTTTCACGCTCTAAAAAAATAAAATAACATAGAGATTAAATTTTCTTGAACAGCTTATGTTTAATGCTAATCTTAATTGACTAGGTACTGTTAGAATAAATTTTGATTAGGGAAGATAAGCAATGTCAAAAACAAACTACAAAATACTAGAGCAAAACAAAAGCAGCGTAATCCAATTCGCAGATGGTATACAAAGTCAACCTGCACCAAGTAATGATGAAATATCATCTAAATATGCTAACGTACGCCGCATGATTTCTAATGCTGACCTTAGTGGAGCAATCCAAAAACTAGATGAAATAAAAGATAATAAAATTGGGATTGTTTGGCATGAAAGCGGCGATCTTGGGAACGGAACAAAAGCATTAGTACGGGACGCAAGAGGAGTTACTAATAATCTTGATGATCTAAGAAATGATGCAGGCGAAAAATATGCGATGCAGATTTTAAATGGAGTTCGCGCTGGTATGCAACTTCTTGATCAAGCAAATCTAACACCAGATCAGCTAGAAACTGCAAAACAAAAATTAATGCATGTAGCAACAACAGCTGTTAAAAATCCGTCAGAACTTAATGACAAAACCGTAAAAGAATTTAACACACAAATAATACATACTCTTGAACAAACAGGAATTGGAACGGATATCTCAGTAGCTGACCAGCTAAATTTTGCAAAAGAGACTGCAAATTTACATGATGATCATAAACATATTGTCACCCTCACCTCAGCAGAAGACAAGTCTGGCAAGAAGCACACTGTTATGGAAGCAGAAATAATGCTAAATGGCCTGACTAAAACCCAGAAAGAGCAATATGAAGCTATAGCAGCTTCAAAGCCAGGATCTCCTTCAGGTGTTGAATGGTTTGATAAAATGCCACAACATAAACAGAACCTACTGCGAGATGTAGCTCCTGATATAGCTTCTGGTAAAAAAGTTATCCCTACTCAACTACTGGGAGATGCCGTTGGTCTGAGAAATGCATATCAGAAAGTTACTGCAATAAAAGGACCAGACCAAGACAAACCAAAAATCTTGTCTGAAACCCTTCACTGCGGTGCACCAGCCACAAAAATTAAAGTTGTAGATAAAGAAGCAAGGCAAAAAATTGTTGATGAAAACATTAAGCAACTACAAAGCTTTGCACCTCCTGGAGAAAAATTGAATCTAAATATTCTTAATAGTAAGACACCTTTTAACGCACGCAATGAAAACTTTATTTTTGACCAAGTTAAAAAAGGTGGAAAAAATATTGGTGCATCGGTATCTGCATCACCAATAAACAGATGGCGTCTACTTGGAGGCGGACGTGATACTAGCCAATTTAAGGATAACTTAGGCAAAATTGGTGGGGACTTAAAAGACAAACCAGAACTCGAAAATGTTGCAAAACACCTAAACAAAGGCACTTCTACTTTTGCAAAATTTGCAGAGCGCATAACATTTGGAGCCTATAAAAGCACAGAAACAAAAGCAAAAATCGAGCTTGAAGCACTTAGCAAAAAAAATCCAGACCTAGCACGAGATCTTGGAGTTGCAATAGAGTCTAGAAATCTTGCAGACTCATCTACTCTATTTGCCAATTCACAAAATGTGAATCTTGAACTTACATCCAAAATGAACATTGTAAGAAATTCAGTCAAACATGGAGCTCTAACAAATGCTTTAAAACCAGAAACTGTTAAAAAATATCCAAATACTGTAAATTTCTGTAAAAGCGGTAAAGATAGAACCGGCTATGTACAAAAGAAAAACACACAGAGAGTAGTTGCAAACCATTTGGGTGTAGATCCGAAATCAGAACTTGGTCAAAAAAACTTTTTAAATCAAGTAGCTGGCGGACATACACAAGAAATGGCTGGAATACAAGGAGGAACAACTGGTTGCCACTCAATAAAAACTAATCCAGAATTTGCGTTAAATTCAGAGGACAAAATTGCAAACAAAATAGTAAATCAAAAATCATCTCACTTTAATAGTAAGATCAAAACAGTAAAAAAGGAAAAAAAAGCGGCTAAAGTAATTGAAAGTTTCGAACAATCCTGCAAAACTGCTCCTAAATATAGTTTACCCGCTGCAAAAACTCGTCCAAGATCAAATACTATCTCATCAGAGAGTACAGTGAGCGTTACTGAAAAACGCTCAAGATCAAATGCTGTAGGACCAAAATCTGAAGCCGCAAAAATAGCTGCAAATATGAGAAAAAGCAAACTAAGCACTTCGACATCAAAGACTAGCTCATCGCTCCCTGGAAAACCACCAGCAAATAAAGGAAGCGGTCTTGGAATGTAGTTTATAATATCACTTGTAAAAGTTATGAAATTAATAACTTAATTAAGTGAAGCACCATACTATGCCAAGAGCAAGTTTAAAAGGTATCGCAACACCCTTCTTAGATTTTATGTAATTGCTTGACTCAGATCAGCGCAAATAGTCTTTATATTTTTCTTGCCCTTACCGTAGCTGCAATTTGATAATAAGAAAAGAATTCACTAAGCTTACTAACTTTGAGATCAACAACTTAATTCTTATTTCGGTTAAAAGCAAACCGTAAGCACAATCTTAAAACTTTTTTGTATAGCCTTTAAATAACTGATATATCTAAGGAATTTTTATATATATTTAGGTTTTTCGAGTATTGAGTTGTGAGTTATTTTTTTGGATACCGCGTAAAAAAAATACCACCTAGTATCCCTTTAATAGACTTGATAACTTCTCTAATCTTCCTAGTAAATTCTATTTACAATTTATCTCTTATCAAAACTATGCTTAGACTTCTATCTCTAGAACGTTAGCTTCCACTACAATCTTTGCACTTATAGCGCTGCACTCCATGATATATCATAACGTTCTTTACTAATTTATCTTCGCTCTATTTTCATATATTAATAATATTATATTGCCTCAAAAGATTACGAATTCTTAATTTATGTATCTATACTTTTTTAGTAATACCAATTAATCGGCATTGTTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCATAGGGGGCGCAGAAGTA
>sequence48
AAAATGCCGCAAAAAAATGGACTATGCCAATCAAAAATTGGACCCTAGCATTGAATCAATTTGAAATTCTTTGTGGCGATTTTAAACAAGATTTATTGGAGCATAAATTTTAGAACTTACACAAACTAAATGATTGACTCAAATTATCTGGTTTTCGATGCCTAGAATGTTCAATTTGACAAATAGATTTCAATTGTTCAATCACTGTTTCTACAATAGATCTTTGTGCTAGAAGATATTTCTCAAAGACAGATCTAGTAATTTTTTCATATTGCTCTTAGTTTTTGTGATCATTGCAAGACCTTTGTTTTCAAGCTTTTGAGCCACCTCTTTAGAGATATAGCCTTTATCTCCACATCCAACTCCCTTCAATCCTTTAAACAAAGTTTCCATCGGTTTACGGTCATCTACATTGCCAGCTGTAAGGCAAAATGACATTATCTCGCCTTGGTGATTTATTACTAAATGTAACTTAAATCCAAAGAACCAACCCATTGAACTTCTCCCTCTTTTTGCTATATCTTTGAATACTTTATGCTGATGAATCCTTTGATTACGGCAAACTTTTAGAGTAGTAGAATCAATATAATATATTCCTGTTTTTATACCAGCTTTATGCTTCATATACATAGCTAAACCTGGTATTACAAATGATTTTACTTCAAGAAATCGATTATAACTCAGGAATTCAGGAAAATATGGTTTTAGATGTTTTACAACACATTCATGGTAATAATCCTTGAATGTACGGTAATGACTTAGATGGAATAAAATAAGGATAGTCATTATTTCACTAGCCGATAAACGACAGGGGCGTATCCTCTGGCGTTCGGGATTTGGCAGTATGTATTGTGATTCTTTTGTATAATATTCCTTGCAAAAATCATCAATTTCGCAGAATATATCTTCTATAGGTGCCAAGCATTTTAATCTCCAAAGTTAGTTGCTTGTACCTTACTATATACCTTTCCTCTTTACTTCACCTTTTTTCCTTACACCGAGTTGAGGTTAGTTTAGGTAATATTCATTATTGATTTTATTATGATTTTTCTAATTGTAGAGAAAAGATTAAGCAAAGTTATAAAGCTTAGTGATGATGCAAATGGTTTGATCAACTAGCTTGAGTAAGGTTTGTCATTAGTCTATTTTAAACATGTTTTTGTAAAACATCTATTGTCTATTTTTTTATTAAAATCTTACAGAATATATAAAAAAAGAGGTGCTGGGGGGCACCTCTTTAGCCGTTAAATAAACATATTGCTTATTTAGACAACATTCACTAATTTATGATTTCTTTTTGATAGGAATTCAATTTTTCCTTCAGTTAGAGCAAACAAAGTATGATCTTTACCCATACCTACGTTTTTACCAGGGCGGATTTTTGTACCGCGCTGACGAACGATGATGTTACCTGGGACTACTCCTTGTCCATCACCTTTTTTTGTTCCTAGTCTACGGCCGGCCGAGTCACGGCCATTTTTGGAACTACCACCGGCTTTCTTGGTTGCCATATTTGCCTACCTTATTTCTTTACAATGTCTAAAATTTTAAGTTCGGTCAGAGATTGTCTGTGACCACTTTTACGACGATAATTTTGACGTCTTTTTTTCTTGAAGATAATAATTTTATCATCTCTAAATTGGTTTGTGATTTCAGCAGTCACTTTTGCGCCTTTTACAATCGGTGTACCGATAAAAGAAGCTTTTGAAGACTCGCCTAGCATTAAAACCTGATCTAGTTCAACTTTGCTACCCAAAGTGCCTTCGATTTTTTCAACTTTAATTACGCTGTTTCTAGCAACTTTATACTGCTTTCCACCTGTTTTTACAACTGCAAACATATTAGGAAAATCTCATGTAATATTTAAATAATCGAAAATAGTATATACTTTATTTGTTCCAAGTCAATAGTATTTCTTACAAATATCCATCAGTTTTTATTTATTTTATTTAGTTTTACAGCAATTTATAATTTCTTTTGAGCAATGATTTAAATGTATTTACTCATATTGATCAGATCTCAATTATCCTATAGTATTCAGGATGAATTGGTTAGCTTTTATGTTTTAGCCGGATTAATTTGAGCAAATACCATTCTGATTCAAATTTTTACTATTTGTTTTAGGTATATTATTTTGCATCTAGTTATAAAAAATAATCCGCCTAAACAGTTTATAGATAATAAATATATTGTTGATAGATTATTACGAATCAGCTACTAGTCATAAAGGTATATATTAATTACGTTCCTCTTCCTCCAGCCCCTCGGCTAATAGGCTTGCTATTTGCAGTCTTCTTAGTTGGAGAGTTTGTATTACTTGTTCTGGCTTTTGTTCCAATAGATTTTGCTTTATCTAGAACGTCTTTTGGAATACCAGATTTTATGCTATCCTTAGCAAATTTTTGGATATGTTCTTGTTTTCTCGCTTCGTGGCCTTTGCCAATATGAAGAGCATTTTTAATTTTTTGCCATACAGTTTCTTTGAATTTAGGAACAGAAATAGACTCCTTTCCTTCCATTACTTTATCTACTGCATTATCAAGTTTTGATGATTTGAATTTTCCAGTTCCAACTATTTTGTCGGGTTGAGCAATTTCATTAATTTTCCCAGTTCCAACTTCTTGGTAGCAATTTTCCATCATTTTTTTACGCATATCTTCAGCTGCTTCATTTAAGCCGGCGCTTTCAAATGCTTCTATGCCTTCTTGATATTCTTTTATTACACTAGGGTGGACCTTGGGTACAAATTCTTTACCAGTATTTTCTATTTCTACTCTTGCTTCTTGAGGGATAGATTCCATAATTTCTTCCCTATGAGTTAGATCCTGTAGTTCAGTATCAGAAATCAAACCTTGAGAATGCGCGTCCTGAAAAGCAGCTTCGAGTTGTTTTTGAATTTCTTGCTTTGGTATACCATTTGGATTGCCCATGTAATTTTCTACAAGAGCATTCATGCGTTCATCAATTAATTGTTCTACTGGGCTGTTATCACTCATACTTCCCTTCCTATTCTTTATATAATTTATATTAGGATAAATAAATTATAAAGTCTCAGGTATTTCAGTGTAACCATTGATGAATTGTTGAAAGCGAGGATTTTCTGCTTCGTCTATATCATTAATTTCACCATTCCAGACGATTCTTCCTTCGAATAAAAACGCTACTTCTTTTGCTATTTTTCTTGCGCTTTGCATATCATGGGTAATGGTTATTGTCGTTGCTCCAAGTTCATCTCGGACTTTGATGATTAGATCATTAATTACATTTGACATTATAGGGTCTAAACCAGTTGTTGGCTCATCAAAGAAGATTACTTTTGGGTCAGTTGCAACAGCTCTTGCAAGAGCAACTCTTTTTTGCATGCCACCTGATAATTCAGAGGGAAATAGATCGAGTATACGTTCTTCAAGACCCACTGACCGTAGCTTTCTACAAGCTAAATCACGAGTATCTGTTTTATTCAGAGAAAGTTTTTTTTGTGCAAAAAAAGTTATGTTGTCCTGAACATTCAACGAATCAAATAATGCTCCTGCTTGGAACAGATATCCACAGCTTTCAAGCATTTTGAGTCTTTCCTTATTAGTAAAGTTTATTGATTCAGCTCCATTGAATAATATACTGCCAGAGTCAGGCCTCAGCAGGCCAATCATTGATTTAATTAAAACTGATTTTCCACTTCCTGAACCACCAAGAATTACTAAAGAGCTATCCTTTTTGACATCTAAATCTATTCCTTTGAGAACATGATGAGTTCCAAATGATTTATTTAAGTCTCTTATTTTGAATTTTAGGTTATCTTTCATTAGCTAAAGAATATTTCTGTTATTAAATAATTACTGATTAGAATTAGTATAGATGAGCTAACAACTGCTGAGGTTGTTGCATTTCCTACTCCTTTAGCTCCTTTATCGGAATAATAGCCATGATAGCAACTCATAACTGAGATTATAAAACCAAATGCAGCTGCTTTTACTAGACCAGATATAACATCAATTGATTCCAAATATTGGACAGTGCTAATTATGTAGCTGCTACTATTAAAGCCAAGCTTATGAGTGCTGACTAAATATCCTCCCATAACTCCAATAATATCACCAATTAGTACAAGCAATGGTAGTGTGATAACTGCAGCAAGCACTCTCGGAGCTACAAGATATTTTATAGAATCTGTTGATAAGGCATAAAGGGCATCAATCTGTTCAGTTACTCGCATTGTACCAATTTCTGCAGCAATTGAAGCGCCAACACGACCAGCTACCATTAAACCTGCAAGAACAGGACCTAGCTCTCTTGTGATCGAAAGTACAACCACAGTTGCAATTGAACTCTCTGCTGAAAAGCGAGAGAAACCTGTATAGCTTTGTAGAGCAAGTACTGCTCCTGAGAAAAAAGCTGTCATAGCAACTACTGGCAAAGAGTAGTAGCCGATTACAATAAATTGACGGAGTATTAATCCGAAATAATAAGGTCTTTTTGTGAAGCTTAAAATTGTTTTGGATATGAAAATTGATAATACTCCAAGATTTCTCAAGGAATCGATTGTTCTACCGCCTAAACTTTGAATTGCTGAGAGCATATTTTAAATATATTCAATTAATAAGATCTAACTATATATTCTTTCGTACCTTGAGCCAAGAGAAGTTAGAATTTCATAGCCATTGGTAGAGCATAATTTAGCAATTTTATCTGCTGTGAGGTTTTCACCCAATAGCTCAACTTTTTGTCCTAAGTGAAGAAGATTGCGAGGTATATTAGTCATATCAATAATTGTTAAATCCATTGAAATTCTGCCGATTATTGGTGCTTCATATTCGCCAATTATAACCTTTCCTTTATTGCTAAAATGTCTTAAAAATCCATCTGCATAACCAACTGGAATAGTTGCAATTGAGCAACTTTTTTTACCTGTATTAGTATATGTTCCGTTATAACCAACTGTCTCACCAGGTAGCAGAGTGTTTATTTGTATTATTGGTGCAAATAACGAAGCTACAGGTTTAATAACGGAGTTATTCATATATGGTGTTGGGTCGATACCATATATAGCAGCCCCGGGCCTTGTAAGATCAAAATGATAATCAGGTCCAAGGAATATTCCACTAGAATTTGCTAAGCTTTTTGCTGAGTTTGTAAATTTTTTGCTTAATTTATTGAAGCGTTCCAATTGGTTTTTATTACGATTTGAGTCTATATCTTCAGCAGAAGTTAAATGACTAATTACACACAAAATATCAAGATTTTTTGTATGAGTATCCAAGTTTAATTCTGTAATTTCAGTTTCTTGCATTCCAAGTCTATGCATGCCTGTATCAATATGTATCATGCAAGGAAGATTACGTTTCAAACTATTTGCATATTCTTGCCATATTTTGATTTGTTCTAGATGGTTGAGTACAGGTACTAGGCCATATTGTAAAAAAGCTTCTGCTTCATCATGGAATACTCCGTGAAAAACATAAATATTAGCATCACCCCCTACAATTGACCTTAATTCTATACCTTCTTCACAATTAGCTACAAAAAAATGCTTACACCCTGAGTTTAGTAATATTGGTGCTACTTTATGTACACCTAAGCCATAAGCGTCTGCTTTAACTGCTGCTCCTACGTCTGAACTAGGGCAGGCTTTTTTTAGTTCCTCAAAATTATGTTGAAGGTTTTTCAGATTTATTCTTAGCGTAGGCTTTGAGCTCTGCATTTTATTTTCCGTTGTTTTTATAATACTCTATAAGTCTTTGTCTGATTTCAGGAATAACAAAAGCTGAAATATCACCATCCATACTCACTATTTCTTTAACAAGCCTTGAAGAAATAAATTGATTCTTTTCGGATGCAGGTAGGAAGATGGTTTCAATTGTTTCGTCAAGTCTTGAATTCATGCACGCCATTTGAAATTCATACTCAAAATCTGATACAGCGCGAAGGCCTCTTACAATGAATTTTGCATTAACAGAGCTTGCAAATTTTGTTAGCAAACCATCAAATTTCATTACCTCAACATTAGAAGCTATATCATATTTATTAAGATAGAGATTGGCCATGAAACATCTATCTTCTATAGAAAACATAGGATTTTTACCCGAATTTTCTGATATCGCAAGTATTAGAGTATCGGTGATTTTACTTGCACGAGCTATAATATCTGCATGACCATTTGTAATTGGGTCAAAAGTTCCTGGATATATTCCTATAATTTTATTAGTCATAATCTTGAGTTATAAGACATTCTTTTCTATATAAGACTATAAGACAAAACATCATGCCAGTAAATTGTTAACTCGATATTTTCTAGTTAATTGACTCAAGAAGTGATTTAATATTTAATCTAAAGTCAAGTAACTTTGCGCAAATAATAAAAGACTGATTGCAAAATCGTAAAAATTTCTTTAAAATAAGTGCGCGTAAAATTAAGTAACATTACCTAATAAATGTTTGATATACTAAAGAGAATAACGGATTACGGAGATATAGCATTAGCATGTTCTGTCGTTGGTATTCTAATGGTTTTGCTTTTTCCAATTCCAACAAGTTTACTGGATTTTCTTTTGGCGTTTTCTATTGGTTCCGCATTTGTTATACTTATGACAACGTTATTTATTCTGAAGCCCCTTGATTTAAGTGTATTTCCAACAATTCTACTTGTTACTACTCTTTTAAGGCTGTCTCTTAATATTGCATCAACTAGATTAATTCTTTCAAAAGGGCATGGTGGATCTGATGCTGCGGGTGAGGTTATCGAAGCTTTTGGTGGTTTTGTGATGCAGGGAAATGTAGTAATTGGGATGATAGTTTTCCTTATTCTAACATTAATTAATTTTATTGTGATTACCAAAGGTTCTGGTCGTATTGCAGAGGTTGCAGCAAGATTTAGCCTCGATGCTATGCCAGGTAAGCAGATGGCTATTGATGCAGATTTGGCAGCAGGGTTAATTGATGAAAAGACTGCAAAATCTAGACGTAAAGAGCTAGAAGATGAAAGTACATTTTTCGGTGCTATGGATGGTGCTAATAAATTTGTAAGAGGTGATGCTATTGCTGGCTTAATTATAACATTCATTAATTTGATTGGTGGAATGGTCGTTGGCATATTGCAGAAAGGCTTAACTTTTGATGTGGCGGTTCAGACATATACAATTCTTACAATTGGTGATGGTCTTGTTTCGCAGATTCCTTCTTTGATCATTTCAATGTCTGCAGGTTTACTTGTTACTAAAGCTGGTGCATCAGGAACGGCTGATAAGCTCATTTTTGGTCAGTTGGGTAAGTATCCGCAGGCACTAATGATGACATCAGTTGTCACTGGTCTTATGGCATTCTTGCCAGGTTTGCCATTTATTCCTTTTGCGATTATTTCTGGTGTTATTGGTGGTGCTGCATACGCTATTTATAATATGAACAACCAAGATGGGTTAGCAACTAGTTATGGTGCTGCCGGTTCCGCTCCTGCTATGGCGGGAACTGGGAATGTTGGTGAGGGAGAAGATGCAGGTTCTGGAGAAGATTCAGAGAAAATATCAGATGTATTGCAAATCGATCTGATTAGATTGGAGATTGGTTATGGTTTAATGTCGATTGTAAATAATAATAATGGACATAATTTAACTGAACAAATAAAAGGGCTTAGAAAGCAAATTGTACAGGAATATGGTTTTGTTATGCCAGCAGTTCGTATTCAAGATAATATTCAGCTAGATACAGACACATATGTTATTAAGATCAAAGAGCTTGAGGCTGGTAGGGGCGTAGTGCGTCCAGGAAAATTAATGATAATGGACCCACAAGGTAGCGATATAGATATTCCTGGTGAAAGTACTAAAGAGCCAGCATTCGGATTGCCTGCGAAATGGATTGATGAAAGTTATAAAGAAGAAGCTTTATTCAATAATTGTACAGTTGTTGATCCATCGACTGTTATTACTACGCATTTAACAGAGCAAATCAAAGAAAATATTACTGATTTACTTTCATATAGTGAGACTCAGAAATTACTTGATAAGCTTGGAGACGAACATAAACAGTTAGTAAAAGATGTTATACCTGATATTGTCTCAGTCGCTACCTTACAGAAAGTATTGCAGAATCTATTATCTGAAATGATCTCTATTCGTGATTTGCCGAATATTCTAGAGTCTATTGCAGATGCAGCAAGAGCAAATAAGAATTTAATGGCTATGACAGAAGCTGTAAGAGTACAGTTATCACGTCAAATTTGTCATCATAATACAAATCGTGATGGATTCATTCCAATCGTTGCACTTTCACCAGAATGGGAGCGTGTATTTATAGAAAGCTTAGTAGATGATGGTAGTGGTGATAAGCAATTATCAATGCAACCTTCAAAATTACAAGAATTTGTAAAAAGCGTGAAAAAAGCATTTGATGATCAAGCGATTAAAGGTCATATTCCTGTGCTATTAACAAGTGCTTATACAAGACCTTATGTTCGTTCAGTAGTGGAAAGATTTAGGCCTGCAACTGTCGTTATGTCTCAGAATGAAATTCATTATAAAGCTAAAATACGCACACTTGATTCTATATAATTTGTATTGATAATTATATATTACCAATATTTATTGCTGATATTATTGCAGTTTAATATTGGTTTGTATGTCCACCACTTCTTCAAATAATCTTAAATAACAGTCAACTAGCTTTAATACGAAAGTTAAATAAAAAATAAAGGCTAAAAGAATTAAAATTACTGAAAGGTTGTTTTTTAAGAAAATAATTCATTTAGAATGATTATCATATGAACACAGAACATTAAATTCAAAATAATCTAAGAAATGTAGATTTATAGTCGGAATATAGATTGTTTCGCTAAATAAACATAAATTATGATACGATCATACGTAATAATAATCAAGAAAAAAATTAAAGAAGATTATTCTTCACAAGCCCAAGAAGAATTATTTTTAACAATAGCGTGCATAAAGGCAAGAAGTTTACGCATAACAGCGTTAAGAGCAACTTTAGGAGGTTTGCCGT
>sequence49
ATACATAAAATTCTACTTCTAAAATCATGAATAGAGCTTCAAATTATCAAGATATTTTAAAAACAATAGCGATCTTTACTATGATCCTTGATCATTTGGGGGCATATATCTTCCCAGAAACTCTAGTGCTCAGATCTATTGGAAGATATGCTTTTCCCATATTTTGCTTTTTCGCGGGCTTTAACTATAAAGGAAGTCAGAACTATAAAATTCTAATATATGGTGTTCTTTTTTATATATTTGAAGTTGCTGCTATTTTCTGGCAAATAACTGAAGCAAACATACTGATATCAATATTCTTGGGACAAGCCTATATAAAACTATTTGAAAAACATTTTACAAATTTCTGGAAAAGCTACACTCATATAATTATTCTTGCGTGCTTATGGCCAGTAACTAATATGTTCATAGAATACGGAACCTTAGCTATTGCTTTGATGATTCTGGGAAAATTAGCACGCCAAGATCAGCAAAAAGTTTTTCTGCCAGCTTGTGTTGTATCATACCTATCTCTTATTCATATGCTAGCTCTATACCATTCAATTTTTAATATTTGGGAAATGCTGATTGCTGTTTTAATCATGATAGGATTATTTTTCTCACTAACTCTAAAAAACTACTTCAAGGCTAATAATCTAAAACTAGTATTGATAAGCCAAAATTCAATGAATATATATTGCTTTCACTTTGCAATAATCTTGCTGATTTGGAGATATTACATATTTGGCTAATTTTAGGCTTGACTATTTGCTCTTCTAGCTATATTTTACGTAGGGTATTTTATAAAAATTTGTTTTTAGGAAGGTTATAAACCGTGTCCAAGAAAAAAAGTAAAAATCTTCTTGTTAAATTAGTCAGCACTGCTGGCACAGGATATTATTTGGTTAAAAAGCGCAACCCAAAAACTCTTACAGAGAAGTTGTCTTTTAGAAAATATGATCCAAAAGTTCGTAAGCATGTTGAATTTAAAGAAGAAAAAATTAAGTAGAGTTTCACATTTATGTCAGTTAAAATTCGTTTAGCAAGAGGTGGCGCAAAAAAACGCCCATATTATAGAGTTGTAATAGCAGATGCACGTGCACCAAGAGATGGTAGTTTCATAGAAAAAATTGGTACATACAACCCATTGCTTAAAAAAGAAGATGGTGATCGTGTGACATTTAAAGCTGACCGTGTTGAGCATTGGTTATCTAAAGGAGCGCAACCGACTGATCGTGTCGCTAAATTTATAAAAGCAGCTGGTATTAAGTTACCTGAGTCTATTTTGAAAAAAATGGCTGTAAAAGAAAAAGCTCAAACAAAAAAGCCATCTAAAAAGGAATTAAAAGAGCAAGCAGCTAGCTAAGCCTGACTCTTTAAGAAGCGCCAAAGCTTTGCGCAAAGTGGCATGATATCCTAAATATCTTAGCTTTAAAAAAGCATTCTATACGCCGGATTAGCTCAGTGGTAGAGCAACCGCCTTGTAAGCGGTCGGTCGTCAGTTCGAATCCGACATCCGGCACCATTTCCATTTAATAAAATTTCAAGTATTTCTTATAAATAGGTGGTACTTATACTATTCTATTATATAATATTTAAATATATTTCTCTTCCAAGTTATTATAGTTCTTTTTGCCTTTGTATTATTAAAACCAAATTCAAAATGGATGAATATTAAGCTTAATGCAGAAATTCATTTCTATAAATTATTAAAATAATATAAAATATGACTAAACTATCTAAAAAAATTCTTTTTATTATTACTATTTTTTTTTCATTTAGAGTATTAGCAAGTGATTTAGTAGATGATCAGTATGTTAGAGGATACATATCATCACTATTCAGGAATAGTTATAATATTACTGAAGAATCATTTAGTTATAAAAATGGAATTTTAACATTAGATAAAAACTATACTGGAGGAGAAAATCCAGAAATATTTATTGAAAAAATTACTACTAATACAAAACATATAAAAAAAATAAAAAAAATTGTTTGGAAAGATGAAATAAGTAAGAATATATCAAATAAGAATGCATCTTCTAAAAAGAAAAAAAGAAGGCCATTTTTAGAAAACTTATCAATGCCCTCAGGTTATTTATTCCAACCATTAATTGCTGACCCTAGTTGGCCGCGTTTTACATTATCTTACCAATACTATACCAGAGATAAATACTCTACTCATGTTTTTGCACCAAATTTCGGTGCAAGTTTTGGCTTACTCAAATTTACAGAAGAAGATAATAGCGAAAGTTGGGAACTGGGAGTTCAAGCAGGATTATTTGCTATTATGGATATAGGTTCAAAACCTACAGCATTAATTAATGCAGATTACTATGTAGGTTTACCTCTAACATATAGTTCTGGTGCTTACTCACAAATGTTTAAGTTTTATCACTTAAGCTCACACCTTGGGGACGAATTCATGTTAACAAAAGAGGGCAAAAAAATAAAAAGAATAAACCTAAGCTATGAAGGTATTGATGCTCTCTTTTCTTATTATTTTGGCAAAATTAGAGTATATGGAGGTGGAGGATATTTGGTTCACAAAGAACCTAACTTTGTAAAAAGAGGTAAAGTACAATGTGGCTTGGAGTATATATCAGAAACAACATTCTTAAATGATATGCTAAGACCTGTTTCAGCTATTGATTTCAAATTTCTAGAAAGTACAAAATGGTCAAGTCAAATTTCAATTAAGACTGGTATACAGTTTGAAAATCACAATAGTTTTTCAAAAAAAGTACAGTTAATGCTAGAATATTACCAAGGAAACTCTATACACGGCCAATTCTTTAGAAATAAAGTGCAATATTTCGGAATAGGATTACATTCATTTATATAATAAGTTAAACAATCTATATTCTAAATAACGCTGAAATTATTGTCTCTAGAAACCCCTCTTTATACAACGCTATGAATATTTCAATAGCTATTAATATAATAATTACCATTTCAAGACGGCTTGAATGCTTATGATCAAGATCTGAAGATAACATATTGTATAATTCTTGTATTAGGTTTAAGTGGTTATTCAATATTCCTTGTCTAGTCCCAATATCCTGAAATTCTACAGTCATTAAGTATATAGGTTCATATCTAGGTCTTCTCCAAAAAAACTCAGGTGTATCTAGTATATCACTATGCATATTTACAGAATATCTACTACTAAATAAGACTCCTAATTGTTTTGAAATTTCAGATTTTGACAGCGACACACGCCCCTTTTCTGCCAGTTCTTGCTGTATTGGCTTAGTATTTTCAAGAAGTTTCGTTACTGACTCTTCAAGAACATTTAGCTTAACTGCTTGGGCTAATGCATGTGAAACTGACAGCTTAATAAGAGTTTCAGTACTAGCTAAAAATATAATATTCTTCTCCTCATCTATATAACTCCTATCCCCCTTGACATTATAATTAAAATCAATAAATTCAGAATGCAACTCTTCTAGAGCTTTTAACTGACAATTTTCTAGAGTTTTAAGAATTCTCAATTCTTCGTCTTCATCAGAAGCATTCCATATTATGCAACATCCAAAACTAAATACAAAGATATCTATGTTTTTCTGGTTAGCTCTATTAATATTCTGCAAATGCATAACTTTATCGATAATTTCACACTTATAGTTATATTTCTCAAAATTAACATTTTTTTCTGAAATTTCATAACTTTCAGCAACGCAATATGATGAACATCTCATTTGATTATTTCTCTATAAATTAATTAGATTTTTATAGCGCAAGTTTTAAGTGAATGAATATATATGTAGATCATAAAATACATATTACTGCCAATTTTACAATTAACTTAATTTTTTACTATTTTGAAAAGTAATTTACTCATCCGGATAAACACCCCAAAGAAATTTTCTGGCAATCCAACCTTTATAGGATCTACAGCTTACTTTACACCAATCTTTTTCACATCTATGCAAGCTGCATCTAATTTGCGGAGTAAGTTTAGCTACAATTTGATCATACTTGCCAGGAGATGCAACAAGAGGCATTGTATTCTTAGCAACAAATACAACTGAACGATTTCCAGAAATCACCCTTGAATGTACCCAACCTCCTTCACCATTTATATCTCTTATTTTTCGCCATTGATCATATTCTGCTATTACCTCAACAGGCTCACCTTTTTTGATGAACACCCATTCAATTGGACAGTCTTCAGTTGGACCTGTCCTTGCGTTAACCTCATTAAATTTAATAGTCACATAACGAGGAACCGGTAATTTTTTAGGAACTGCATATGAAGAGAATGCAATAAATACAGTTAAAATGGATAAAATAATATTTCTATTCATTTTCTTCTGCTTCAAGCATATTATCATGCTGCATAACTATTTCATAGTTTCCAGCGCGGAACTGATCTTTAATACGATTTAACTCATATTCACTTATTCCTACTGATTTTAGAACAGCACTACCGAGTTGCAAGCCAGTCTCACAATCTTGAGGAATGATTGTAGTTACACCCTGATTATACATTTCAGTCGAATTTTTAAGATCTTTAAGCCTAACAATCACTTCTAGATTACTAAACTTACCATTCACCATTTTACTAATTTTCTTAACTGTAACTTCGTTATTTACCGTTACAACCAAAGTTAATGCTCTATCAGCACCAACAGCGCGCATTGTAGCGGTTAGAGAAGCATCTCCTTTAAAAACAGGCAATCCATTAGCAATCTCCTCACGGACAATTTCATCATTAACATCAAGCGCTATATAGTTAATTCCTTCAGCTTCCAAGACTCTTGCAACCATCTTACCGACCTTACCAAAACCAGCAATAATTACGTGATTTGCAAGATCTCTAGCACCATATTCAATGATTTGATTAGGAGTTCTACCAAGCCCCTTCTCAATTCTCTCTGCAAATTTCTGTCCTGCGAGTGCAAGCAATGGAGTAAGTGCCATCGAACAAGTAACTACTAATAGTAATATATTAGAGATTCCTTCTTCTAAAACACCAAATTCTTTACCAAGACCAAATAGGATAAAGGCAAACTCACCACCTTGAGAAAGAAGTAGCCCAGCGTGAACAGCAACACCTCTATTGAAGCCAAATAATATACACAAAGCTGCAATAATAGTAGTTTTTAGCACAATCAGCGCAATACAGAATGTTACAATATTATATATCTGCTCATACATTTCCCAAACATCAATCTTCATTCCAACACTCATGAAGAATAATCCGAGCAATAAGCTCTTAAAAGGATATATACTCTCTTCAGCTTTTCCTCTAAAGTCAGTCTCAGCAACAAGCACACCAGAAACGAATGCTCCAAGAGCTAGTGATAGACCAAAATGTTCAGTTCCCCATGATGCAGTCAATACTACAAGCAAGGTAACAGCAATAGGCAGTTCACTACTTTCATTATGATCTGGTGATATGAATGAAAATAAAGGACGCAGAAGCACCCTACCGGCAATAAAAATAACTCCAAGTGCAAGAACCGCCTTTAGCAGTGAATTACCCAGAATCATTGGAAGAGACTCAACTCCAGCACCACTACCAAGAATTGGAACAATAACAAGCAAAGGTACAACAACAAAGTCTTGTAGAAGTAAAATAGCTAGAGCTACCCTACCAACCTGCATTGATTGACTTTTTGTCTCAGTTATAACCTGCATAACAATTGCCGTAGATGATAAAGCCAATCCACCAGAAATAATAATTGCAGCATTATAGTCACCACTAACTAAAACAACCGCACCAGAAATTATTACACTTGTAATCAATACCTGCAAAGACCCTAGCCCAAAAACATACCTTCTCATTGCTTTTAATCTTTCAATAGACAGCTCAAGCCCGATAGCAAATAATAGGAAAACTACCCCCATTTCTCCGAGAAGACTAGTTTGGTCATAAGTCACAACTTTAAAACCATTATCTCCAATCAAAGCACCGGCTACTAAATAACCAAGCACAGGACTTAAATTTAAACGCTTAAAAATTGCAACAACAAATACCGCGGTTGCAATGAGCATTATGACTACTACTAAAATTTGGCTTTCCATAGTTCCTTTACTTAAACCTTTATAATTAACAATTTACTTTTTATCCCACAATTCTTCTAGCTTCAGATGCTCCCTGGCTTCTGGATGAAATAGATGAACAATAACATCTCCAGCATCTAAGAGAATCCAATCTGAACCTTTTAAACCTTCAATATCTGCCCTCCAATTCAGCTCTTTTTTTAGCTCAATAGAAGTAAATTCGGCAATTGCTTTGATATTACGAACCGAGCGCCCACTTGCAAAAATCATATATTCCGCAAGAGGTGTTTCATTCTCAATTTTGATGCAAGAAATATTTACTGCGTTTTTTTCTTCCAGACATTTTAAAATAAAATCTCTTAATTCTTCTTTTGATAAATTCACCTAAAGCTCCAGCTCTTTTTGTTTTTGTCTAATTTGCGTTGAAGAAATATCATACAAATCGTTTCTATCAATTATTATATTATGTACTTCAGCATTATCAAGGTTTCCCGTAGGTTTTAACCCAAAATCTTTAGGATTTACATCTCGAGTAGCACAGGGACGATCAAAAATGATAATATTACACAATTTTGGTATCTCACGGCTTCTATGCCACTTTGGAAAATCCACAACATTATCTATACCCATCATCCAAGTAAATTCTACATTTGGAAAATGCTTAATTAAACACGACATTGAATCATACATATATTGTGTATCAAAATCATGTTCTACTATTGAAACTAATATTCTATCGTCATCTACTATACTTAGCGATTGCTCAGCTCTTTTAAAAATATTTCTTTCATTCTTCTTTTTTAATGGATTTTGATTCGCTACTAACCAAATCACGTAATCGAAATTATAAAAATCAAGCGCTCTCTTAGAGATCATCAAATGTCCACTATGAGCTGGATCAAAAGTCCCCCCCAATACTCCGACTTTTACTTTGCTGTTATTTAAAAAACTAAGCTCTTGCAAACCATAAATTTTTTGCGTAGATTTCATACGAATAATATTTATAAATTATAACCTCAAGTAAGAGTAATAAATGGCTATATCAGAAACCAAACTTATATCTATTCTACAGCAAAGCTTCCCAAATGCGAAAATAAAAATCACCGATCTTGCTGGAGATCAAGATCATTATTCGCTAGATATAACATGTACAAGCTTTAAAGGACTTCCATTAATCAAACAACATAGACTTGTTAAAGATGCATTATCAGAAGTTCTAGAAAAAGAACTTCATGCAATTACTATCAAAACGCGTGATGAATAAAACTAACTTGAAAATAGTAATCTACATTAATTTATACTTCATATTTACTAGCTTAATATGACAATTAACTGTACATCTTTGGTTTCTTAATGATCTTTTTGCACGAGAGCCTGTTTTTTTCTGCAAGCCCAAAGTTCTTAAAAACCTCATAGTCTCACTATTAAGATATTGCAATCTTACTTTTGCAGTTCCTTTATTCCTCATTCCTATTCTAGCTGCAGCTCTTTCGGATAAATCTATCAATCTATTACGTACAAATGGCCCCCTGTCATTCACAAGCACAATAACAGATTTTCCATTCTCACGATTTGTTACTTTGACAAGCGACGGAAGAGGTAAAGTTTTATGAGCAGCAGTCAACATTTCTTTATTATAAATATCACCATTGGCTGTCTTTCTACCATGAAACCCATGGCGCTTCCCATACCACGAGGCAACACCTGCCCTTGTATATCTACTCACCTCTCTAGGTCTATATCTTTTACCTTTGATTTTATATGGTTTACCAACTTTATAATGCCCAAGGTACTTATTATTACCTCGATCTTCTTTTGAAAGATATCTATATGTTTTTGCGTGACTTTTTCTAGAAGATCCACCACCTTGACAAGCAGAAACCAAAATAGAAATAATAATCAATAGCGCAATATTAAAAATGTTTTTTGAAACAAATATCTTACCAATCATTCCCGACATTCTCTAAGGTTAAGTCTTCACCTTGATCAATCAAATACTCACTACTACCATCTGAGTCGACACTAGTAGAATCAAGATTATTTGATCCAGATTTTGTTTTTCTTGCTAATTTCTGCACTTTTACATGGCTAACTACTTTTTGAACACCGCTAATATTTGATGCAATACTTGCAACTTTTTCAAGCTCTTCTTCTGATCTTGCTATGCCAAACAAGTAAACAATATCATTAATTGTAATTACTGTGTAATTGACGAATTTAATATCTCTATTCATAAATGTCTTAGATTTGATCTGACTGGTGATCAAAGCATCACGCGTATACTGAACTATATTGAACTTATTACTATTCTTATCAACCTTTAATTCGTTTATAACTTCTGTAACCCCTTCTTGATTCCAAGCAATCTGAACAGCAGTAATTGCATCTTCTTCCTTATCAATATCCCCGGTAAATAGCACCCTTCCTTGTACAACTTCTATCTTAATTTTAGAGTATAAATTACGAAAATTATTTTTAAGAAAAGCACCTTTAATAGCTGTAGAAATTCTAACATCTGTTAAAGTATCACCCGCTGGTCTATCTTTTGCAAATTCCATAGTCGTGCCAGCAGCACCCGCAAAAAGTGTTGGCAGACAACCAGATAACAAAAAAATGGATAATGTAAATAATATAATATTTAAACAAACATTTTTCATAATATATAAGCTCATATTTTCTCTTAAAGCAGGCCTTAAATTAAAAATTCATAACCTCAAACAATACACAAAAATATTATACAAAATAAAACCCCAAGAGCAACTGCAATTATATCTTAAGACGATTTTATTTTTTGAAATTATAACTAGTAGAAACAGTTTTAGAACTATACTTCAAGGGCATTGTTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCATAGGGGGCGCAGA
>sequence50
AAACTCTCTCATCAGACATTATCTTGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCTAGGTTTTCATACAAGATTTAACAAAAAATACAAATGCAAAAACTATAGACAGAGCTCAACTACAATCAGCTAAAGAATCACACTGGTTAACTAAAAATAGATTCTGGAATCTAGAGTTTTTGTTTCTAGTACCCTTTCAGGCAAAGCTGAATCATAATCTAATATTAAAAAAACTCTAGTTTCTCAGCTTAAATCTAAAATCTTGGAACTCGTACTTGCCTAAAGCAGCTGATACTAATTTGATAGCTGATAAAATAACAAATGCATACAAACATTTGAAAGATATTTCCTTCAAGACAATTGGACCAATTGTAGAAGCTGATAAATAGTTTGCAAAATATACAGACATTGCTACGCCATCAATTACAGCTGCAGAGATAAGTGCAATGAAAGTGCTTTTTAATGCTCCTATCTTACCTTCAAGCATTGCCGTAGTTTTCATGAGTGCTAAGGAAGCAAATAAAACCGCTAGCAATGAAGTTGGAACTAAATATTCAAAGACTTGACCACCAAATGTATAATCATAATCAGCTAAAAATAATATATTTATTCCAACATACGCCGAAATCGTCTGTAATGCTCTTTTAAAACCAAAGATTTTGGAAATAGTATTTACAGTTAGCATAAGTAGTGTAAATACAAAAGCACATGCCGCTATTTTGGTACAATAATTTAATAAGAACATCAACATTCCCATTACTAATACTAGTGGTGCGTATATTTTATAATTATTCATGAATACCTCTAAATTACATTTTAAAAAATATTGCGAGACAGAACTAGCCTACCAACACAAAAATATAACTCGCCTATAATATTTGTGTTTCAATAATTCTACTAGTATAGATCAGAAGCTTAGATAGAATATACTAAACCTTTTCAAAATGTAGTAAAAGCATTTGAAACATATCAAACGAATGTAAGAGTGTGTTAGACGAAACAAACAATATGCAGGCAAACACATCTTATAAATATTGAATACAAAATACTATATATACAAAAATTAGCCAAGTAATTTTTGCATTGTTTTTCCAATATCGGACGGAGAATCAGATACAACTACACCAGCACTCTTAAGAGCCTCTAACTTATCTCCAGCAGAACCTTTGCCGCCAGCAATAATAGCACCTGCATGCCCCATTCTCTTGCCTGGAGGAGCAGTAACGCCTGCAATAAATCCAACAACTGGCTTCTTAGTTTTTGATTGTTTAATGAAATCTGCAGCTTCTTCTTCTGCCGTTCCACCAATTTCACCAATCATAATTATAGCTTCTGTTTCATCATCTTTAATGAATAGATCTAAACAATCAATAAAATTCGTACCATTAATTGGATCACCACCAATACCAACACAAGTGGACTGCCCCAATCCAACTGCAGTTGTTTGAGCTACTGCTTCGTATGTTAGTGTACCTGAACGTGAAACAATACCTACCTTACCTTTTCTATGAATATGGCCTGGCATAATACCTATCTTACATTCTTCTGGAGTTATAACACCTGGACAGTTCGGTCCCACTAATCTAGTTTTAGACCCAGCAAGAGCCCTTTTTACCTTTAACATATCAATCGCAGGTATACCTTCTGTAATACAAATTGCTAATTCTATCTCTGCATCAATTGCTTCTAAGATTGAATCAGCTGCAAACGGAGGAGGAACATAAATCACAGATGCATTTGCACCTGTTTTATCTATAGCCTCCTTAACTGTATTATATACAGGAAGATCCATGTGTGTTTGACCACCTTTACCAGGCGTTACACCACCAACCATCTTTGTTCCATATTCAATAGCTTGCTTTGAATGGAATGTACCTTGAGAGCCAGTAAAACCCTGGCAAATTACTTTTGTATCTTTATTTATTAATATTGACATATTTACTAAACTCTCCCAATTATATTGCCTTAACAATTTTTTCTGCAGCATCACCAAGATCATCAGCTGCAATTATTTTTAAACCTGAATTTGCAAGTATCTCTTTACCAAGCTCAAAGTTGGTACCAGCAAGCCTTACAACCAATGGCACATCAACTCCAACTTCTTTTGCAGCTGCAACTACACCTTCTGCAATTACATCACAACGCATAATCCCACCAAAAATATTTACTAATATTCCTTTAACCGCTTTGTCTGACAGAATAATTTTAAATGCCTCTGTAACTCTTTCCGTATCAGCTCCACCTCCAACATCAAGGAAATTTGCAGGCTCTGCACCGTATAGCTTAATAATATCCATGGTTGACATTGCAAGACCTGCACCATTTACCATACACCCAATATTACCGTCCATACGAACGTAACTCAGATCATGCTTACTTGCTCTTACTTCCAGTGGATCTTCTTCATCTTCATCACGAAGAGCTGCAATTTCAGGATGTCTAAATAGTCCATTTTCATCAAAATTCATCTTAGCATCAAGGGCTAGTAAATTACCTTCTGTTGTAACTACAAGAGGATTAATCTCGACCTGCGATGCATCAGTCGAAACAAACGCATCATAGACACAACTCACCATTTTCATCATCTGCTTAGCTTGATCACCCGAAAAACCAAGACCAAATGCGAGTGATCTACAATGGAAAGGTTGCAAACCAGTTGCGGGGTCTACTGATACTTTGATTATTTTTTCAGGAGTTTTTTCCGCAACATCCTCAATATCAACACCACCTTCAGTCGATGCCATAAATGTGATTCTGCTAGTCGCTCTATCTAAAACTGCACTGAAGTAGTATTCTTTTTCTATATCACAGCCTGATTCTACGTAGACTCTCTTAACAACCTGACCATCTGGACCTGTTTGATGAGTAACAAGAGTTTTTCCAAACATTTCATGCGCTTGCTTTCTTGCTTCCTCTTTGTCTTTAACAACTTTAACACCACCAGCTTTTCCTCTACCACCTGCGTGGATCTGAGCTTTAACGACATATAGATCAGCGTCAAAATCCTTCATCAGCTCATCAATTTCTTCCTCTTTAAGTGCTACAATTCCACTCGAAGTTGGAACACCATACTTGTTTAAGACCTGTTTGGCCTGATATTCATGAATATTCATTATAGGTACTAATTTTGGTTATTTTTTATACTAGTAGTTTGATTTTACAATATAAAAGAAACAAAAGTAAAGTAAAAGCAATAACAAAATATGATATCAATTGGTATTTTAAACTATTACACTACTTCTAGCCTAGATTTGGTGTTTTTAACTACACTATAAATAATATCTCGAAGACCAATGCATGAATCAGCAAAAGGAATTTTCCCATTTAAGATTGACTCGTATGAAACCCATTGAGGATAAACAGGAGCACTTTCTAGATCACCAACTTTATTTAGCTGCGCAAAATCACTAATTGATTCCGCCATGTATACATTACAAATAGTAAAAGCTCTAATACTGGGATCTGGAACGCGTTCCCAAAAAAAGTGGTAATTACCTACATATGCTCCCAGTTTTATGTCTAGATTTAGCTCTTCTTTAGCTTCTCGAATAGCACATTCTTCAAATGTTTCCGCAATTTTTTGATCAAAATCTACGTCTAGTCTACCACCAGCAGGTTCAAAAACAACCTGACCATCTATCACTCTTGAAACAAGCAGCAATTTATCCTCAGTTGGATGCAGAATTAGAACTTTTGCAGCAGCAAATTTTTCTATTGCCATTAAATATCACCAAAAAGTATATTTTTACGTTTATAAGCTGTAGCTTATTCTTAATCATCTTTAATCAAAATAGTAGCACTAACTGTCGTTGAGATTCTGCTTTGACCAGGCGATGCTACAGGAACTGATTCAGCATCCATACTTTTCATCGTCATACCCGAAGCACGCATTGGCATAGGTGATGGGTAGTAATTATTTGAATCAACATTGATATTCAACACTTCTATTTCATCTTTGCCCAAAACTTTTGCAACTCGCTTAGCTTTGCTCAGAAGTTTTTCTACTGATTTTTCCATAAGGGAATCACGAGTTTCTTCACGCAGATCAGGTGATACGACATAGTTTAAACCATTTACTGCTAAACCCATAGATTGTAGTATGCCTGTCGTTTTAAGTATTTCTGCAGAATCCTTACTCTTTAGCTGCATTGACTGACTACCTTTCCAGATAGTTCTTCTTTTTTCACCTTTTTTCACGCGTGGGCTATATTTGTAAACAGAATAATGCTCTGTCGATACTTTAATTTTTTTGTACTTTTTCACTTCCGCAAGCGCAGTTGTAATTTTGTCATTTATTGCTTTTTGCACTTCCTGAGGATTTTTTCCTTCAGTCTCAAAACGTAAATTTACAACTAGTAGATCCTCTTCAACTTCTACACTCTCTGAAGCAGAAATATTTAAATGCGCTCCTTTTCTTTTATCATCATCTGCATACGCATTTGAAAATGAAAATGTTATAGCAAATATTATTAATGTAAGTAGTTTTTTAGTCATAGCTTTCCTCTAGCACCTCTTTTAAGTTATTAATTCCTTTGCAGCATCAATTCCTGCTTTAGTTATCGTCTTACCAGAAATCATTCTCGCAAGTTCAAGCGATTTATCTTCTTCTTGCAAAATTTTTGCATTAACATGAGTATGATCATCACCCTGCAATTTTTCAACTAAAATATGACTATCAGCTTTTCCAGCAACTTGTGGCTGATGAGTAATAACAATAATTTGTACAGCTTTACTTAATAAATTTAGCCTTTGACCAATTGATTCTGCAACAGATCCGCTAATTCCAACATCAATCTCGTCAAAAATAATAGTATTTTTTGGAGCACTATCAAACAATGCTACGCGAAAGGCTAGCATAAAGCGCGAAAGCTCACCACCAGATGCTACCTTATCTATTGGTAACAAGGCCATACCTGGATTTGTAGATGCCGTAAATCTTATCTTATCCATACCATTTGCTGAAGCAAATTGTTCGTCTGTTTCAAACTCAACCCTAAAAACTGCTTTTTTCATCTCTAAAAATGCAAGCTCAGACATCGTCTTTTTTTCAATATTTAAAGCAGCCTTATTTCTTTTTTCTGATAATAGTTTTGCATTTACAAAATACTCTTTCTTATAGTTTTCTGCTTTTATCTCAAGTTCTGAGCTATCACTTATTGTTGCTTCTAGCAGATACAGCCTTTCTTTGGACTTATTTAAAAATTCAGGCAATTCATCAACTCGTACATTATGCTTTCTTGCAAGATCCCTAATTTCGTATAACCTATCATCAATTTCTTCGAGTGAATATTCACTCAAATCATAGTTTCTTATCACACTATTTAGTGCAGATTTTGAATCCTCTATTTTATCATAAGCCAGTTCCAAATCAGCGTTAATTTGTGCTAAAGCAGTATTATCTTCAATCTCAGCAAGAGCTCTTTGAGCACGCGCAATTATTTGAGAAAACGAACTTTCTTCAATTTCAGAAATAATATTATCTAAGAGCTTTACTTCCTTATCTTTATTCTGCAATCTCTTTTTGATATCGGCTAGCTCCTGTTCTTCACCAATTTTTATTTCTGCTTTTTCGAGCTCATCACATATATGTTTTAAATATTCTGTTTCATCTTCTAGGTTAGACTTATTCTTAGCAAATTCTGATATTTGCTTCTCCACATTTTGCCATTCCTTATATATTTTGGAAATTTGTGATTTAAGACTAGCTAAGCCTCCATACCCATCTAGAATCTCCATATGAGAATTAGTGTTTAGCAGCAATGTATGATTATGCTGCCCATGCATTTCCAGAAGAAAATCAAATAATTGTTGTAGAATTTTTACCGATACAATCTGATCATTTATAAAGAACTTCTTTCTTGCCTGATTATTTTGTGTGCGTTTAATAATAATTTGCTCATCAGACTCTATATCATGTGATTCTAAAAACTGATTGGTTTTTTTATTTGTAGAAAATATACACGAAACTGAACAATTTTCGCCCCCTGGACGCACTGGATTACCAGAAAATTTTTCTCCAAGACAAAATAGTATTGAATCTAATAATATGGATTTACCAGCTCCTGTATCGCCTGTTATTACAGTAAAACCTTCAGAAAAATCTAATTCTAGTTTTTCAATAAGAATAAAATCTTTTATATGAAGGCTCTGTAACATCGCATTATTTTAATAGCTTTTTACTGAAATCCGTCCATTTACTTTGTGGATAATTATGCTCTAGAACACCTGCATATTTTCTAGCCTCATCAGCAAGACCTAACATAAGATTACTCTCGACTAATCTATGCAGCGCTTCTGGAATATGAGTTGTTGTATCATACTCTTCAACTACTGTCTGAAATCTTTTTATTGCCGCAACAGGATTTCTTTTTTTAAGATAGTAGCGCCCAACTAGCATTTCCTTGCCAGCTAAATGATCGTTTACCAAGTCAATCTTAAGCGCTGCATCTATTGCATATTTAGACCCTGGATAACGACGAATCACCTCTTCCAATCCTTCTTTTGCATATCTTGTTCTTGATTGATCTAGTTTTACATTCGATATTTGAACATAATTTGCCAGCGCCTTTAGATAATATGCATATGCAACATCTTTATGTCTTGGATGTAATTTCAGGAAAATATCCAAAACATCACCAACTTCATCATATTCACCATCTAAGTACAGTGCATAAGCCTGCATAAGCTCTGCATCAGCCGTTATACTATTTCCTGGATGTTGGAAAAACACTTTCTCAAATGCATTTGAAGCTTTACCATAATTTTTGGCTTCAAGCTCCTTTATACCCAAATTATATAACTCTTGTGCAGGTACTATTTTATCTGCATCTTTAGATTTTGACTGGCACGCAACAAGAGATATTAGTGCAGTGACAATAAAAAGTGATCTGATTATTTTCATAGTTATTATTTATGTATTTGTACGATTGATCTTTTATACATGAAAAATTTTTTCAAGTACAGAGTGATTCTATAGCTCATTTAGAATAAACATTAATTTATTTCTTATCCTCACCAGAACTATCATCTTTTTTTTCCTCTTCATTTATAGCTGATTTAAATGATTTTAGTCCCTTTCCTAAATCTGACATTACCTTTGGCAGCTTCCCTGCCCCAAAAAGTAGCAAAACTATTAATAAAATTACTAGCAGCTGCAATAAACTGACACCCATATTTTAAAACCTATTTATTGGAATCTTTACTATGCGTTGATAATAAACAATGTTAAAAACTTTAGCTAGAAATCTTTTTTTATATATTATCTAATCACCTAAAATTTCTATTTTATGTTTATGGTTTGATACAAGCTTCTTTAATAATTTAATATCATCAATTGTGCCATACCATTCAGATCTAAAATTATTCCATCTCAATCCTAAACTTCTTATTTGATCTCGCATTTCTTTTTCAGGCTGAGTTTCAAAATTAAGTATCACAGAAACAGATTCCATCTGCTCTTTGTTTAACTCTTTTTCGCCTTTAACTACCCATGCAGCCATGACCAAATCATTTTTCTCTAGCTCTTCTTTTATTGAAAGTAAAGCTCCATATAGAGCATTATTAGGTAGATGATCTAAACCCGCTTTAACAACAAGTCCACCAGTTTCAATTAAGTGTCTAGTTTTCGCTTTCCTTTCGGCAAACTTCAACTTCATCTCTTGAGGATCAGTTACAGCTTTTTCTCTTTTTTTAAGAATATCCATAATTAATTTATTTTAGCAAAGAAAATTCAAATATTATAATGATACTATCTAATTAAAACTTTAGCTAGAAATCTTTTTCCTGAATGCAATTAGGCTTTGCTCGCTGTCTGATAATTGTTGTTTATCTTCTCCACTATGGTGATTATAGCAACCAATATAATCCATACTCATATATTCACAAATAAGTTCAAATTGTTTTTCGAAAGTTGGAGATGCTGCAGTCCCATTACTTGAAACTACATATATTTTCTTGCCTCTCAACGACCTTCCTATATCTTTTAGCGGATCTTTTAATAGATCACTAAATCTATCCAAGAAAATTTTGAGCTTACTACTTGGCCCATACCAATAGATAGGAGTTGCAAACACTATGTGATCATATGCACGCATCTTTTCTATTACAGAAAGAAAATCATCGTCATGATTTCTTGCTTCATAGTCAAATTCTGATATTGAAAAATGTTGTAAATCTATAAATTCGTGATCCACATTTTCAAAAGCTATATCTACTGCCTTTCTGGTATGGCCATTGCTTCTAGAGCTTCCGAAAATGATGACATATTTTGATTGCATAAAAATTTAGATGATCTGGCTCAAGAGATAAACAGATGGTGACCCCTACGGGAATCGAACCCGTGTTTTCACCGTGAAAGGGTGACGTCCTAACCGCTAGACGAAGGGGCCATAAATTATCATGGGCCCCATCTTTATACAGTTATTAGAAACATTTTGCAAGAAGATTTTTATACTGCTTAATATAAACAATCTAGGGTCAGATCATAATTAACAATATAACACTCTGACATTATCTCAATTTCTATAAAAATACTAAAAAATAGGTGCCGTATAATAAAATTATTGTTACACCACCCGTCTTCCACAAAGCAATATTATATTTTACTTTAAAAAACACTGTTGTGACTGCAAGAATATAAACAGGAAATGTGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATATCAAATGCTTTTGAATAGCGCTTTGTCTTTCTATGGAACC
>sequence51
AAACTCTCTCATCAGACATTATCTTGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCCGTTTTATGCTACGACTAAACTTGACATCTTTGTTCCTTACACTGCAACAAAGTCGTCATAGCGAGCAAAGCGCGGCTATCTATTTCTAGCAAAATCTATGGTTTTAGAGTTGGTAATATTGTCTCACAGCTTTTTTTGTAAGTGAAGAAACCACGATTAAATTAAGTCATTAAGCCCTTACTTGCGGGTAATAGAGAAATGATTCTATATTTTAATTTTGACCCACTTGAAATATTGTAGTTGGTCTAGCGTACAATTTCAGCCCTTGTAGTATTGGCAACTATATTACGGTTTCGGTTCTTTTTAGGTTGACGATTAATTAGTGAAAAAATCACTATCTAAGATATTAAAGTTTTTAACGTGCTCCTTGTATAATCCTTTGACAGTTTCTGAATTATTTTCTCCATTGATACTGGTCAATACTACTTTTCCACTACCAAAGCCAAATTCGTTTTGAAAGTCATAAATTGCGCCAAAGACTGTAAGCTCACCATTTTCTATCTTGTCGCTGTATTTAGATAGAGCCTTTTCGACTTGATAATTTATATTCTCAACAATGGCTTCTTCCATTGATGTGGATTTAAGCTTTATTGTGCTAAGCTCTCTATCAATTGCTTCAATATTAGTTTTGACATTTTTTATAGTGCATTCAACGGCGCCACATCCAGAATGGCCTACGATTAGTAGAAATGGAGTTTTTAATATTCTTACGCCAAAATCAATAGAACCTTCGCTCGTATGAATTTGATTTCCAATATTTCTTATAGCAAAGACACCATTTTGTGGAGTTTTATCGAATGATTCCATTTGTACCCTTGAATCAGAACATTTTAAAATTGTTAGATAAGGATTTTGTTCTTGTTTGAAAGTCTCAAAAAATTCGTCACTATGTGTTTCAGAAAAATCTGTATTTGTATCAAATAGTTTATTCAAAAAATTTAGAGTTTTAGTTGTGGTTGGTAAAGACATAATAATTTAAATCTTCTTATTTTAATGATAGGTTCTTAAATACAGCAAAATAGTTTACATCTATATCATCTGTCAACTGCCAAATTTTATTTGGTAGAGATAATTTAAGACCTTTAAGTTCAGATAAGCTAAGAGATGTATCTTTTAGCATTGAAACGAGTTCGGAAGGTCTTACAAATTTAGAATGTTTATGAGTGTTTTTTGGTACCCAACCGAGAACATACTCAGCTATAATTATTGCTTGAGCAAAAGATTTTAAAGTACGATTAATTGTAGAAAATATTAGGATACCATCTCGCTTAACTAGTTTGCTAATATTTTGAGCAAATTCTATAGGATTTGCAACGTGCTCTATAACTTCCAAACATAGTACGACATCATATTGTGCTTTGTGCGCTGGGGCGTATTCTTCTACAGTAGAATTTACATATTTGATATTAAGATTATGTTCTTTTGCATAAGCAGTTGCTGCTTTAATATTATGTTCGTTTGCGTCAATTCCAGTGACATCGCCTCCAAATTCATACATTGGTTTACAAACTAATCCACCGCCGCTTCCTATATCAAGTATTTTAATATTTTCTAGTGGCTTTGTTAATGAGTCTGTTATGTTGAAATGTTTTAAAATTACTGATTTAATATACTCAATACGTACAGGGTTTATTTCATGCAGAGCTTTAAACTCACCATTTAAGTCCCACCATTCTTGGCTTGTTTTACTAAATTTTTTGAGTTCCTTATCATCAATTGAAGATACATTATTCATAATTAATAAAAATCCAAAATAGGAATTAGTTTAATTTATTAGATTAACTTATTAAATATAGCTAGTCTAGTCTAAAAATACACTTGATAAGTTTAGAAATATAATGCTAATATTACCCGGTATGTTTTTCCTATAGTTTAAGTCTTGGGTCATGGCAATAATTGTCCAAAAATTTGGTGGTACATCTGTCGCAGATATTAAGCGAATAAAGAATGTAGCAACTATTATCAAGTCAGAGTACATGGCTGGCAACCAGCTTGTTGTCGTTGTTTCTGCAATGGCAGGTGTTACTAATTCTTTGATTTCAAAATGTAGCCAGGTTTCAGATCTTAATAGTTTTCAAGCCCTTCGAGAGTATGATGTAGCAATTGCTAGTGGAGAGATCGTGACATCTGCTTTGCTTGCTTTGGAGCTACAAAAGTTAAAGTTAAATGCTAAGTCTATGCAAGGTTGGCAAGTACCAATCAGAACAGATGATGTTCATGGAAATGCACAAGCTATAGATATACCATCTGATTCACTGAAAAATCTTGTAGCAGATGGTATTATTCCAATTATCACTGGTTTTCAAGGGATTACTAATGAGGGTAATATAACGACTCTTGGTAAAGGAGGTTCAGATACAAGCGCTGCTTTGATTGCCGCGTCATTACAAGCAGAAAGATGTGATATATATACGGATGTTGATGGTATTTATTCTGCTGATCCAAGGGTCGTTCATGATGCAAAGAAGATTGACCAAATAAATATAGATGAATTATGTATTCTTTGTTCATCAGGAGCAAAAGTTTTGCATCCAAGAGCTGCGCTTGCAGCAAAAAGATACGGGTTTAAATTGAGAATCTTATCTTCATTTAATATGAATGATGGAACAATCATTGAGGAGAAAAAGTCGCATATGGAAAAAAGAAAAGTAACAGCTATTACCTCGAATAAAAATTTACTTAAAATTGATATAAGTCATAAAGACACTAATCTAGCTGATTTATGTAAGGTTTTTGCAGATAATGCAATTCAAATAGAACAAATGAATAATATTGACAATTCAAATAGCTATATTATTTCTAATTTATCAGATAAAGCAAAATGTTTTCCGATTTTAGAAGATCTTAAAAACAATTCAAAAATAGTAAATTACAATCTAAATACAAACATTTCTACAGTAACAATTGTAGGATATGGTATAAAGAATGATAGTAGTTTAACCTGGCAAGTAATTGATATTTTAAATAGCAATAAGATCAAAATAATATCTTCTCAAGCAGATGATATTAAAATGTCGATTCTAATTAACGATCAAGATAATGAAAAGGTAATTAAATTATTGCATGGGAGCTTTTGTTGATTCGTTAGATTAAAATAGCTATGAAAAAAAGAAAAAGCACAAAAATTCATAATATATTTTTCGATGCTTTACTTAAGATGCGTCCAAAGCACCTTATTAACAATCCTATGCTTTTTATAGTATTCATTTTTGCCTGCATTGCCACAGCATTATTTCTTAAGGAAGTCAAATTAGCAAATGGTCATATTGGATTATATTTTCAAATGACCTTTTGGATATGGATGACTCTATTTTTTTCATCATTTGCTGATAGCTATGCAGAATCAAAAATGCATTATCATGATGAGGATGAAGATGATATTAAATCAAAAAGTTACATTAAAAAAGTAGCAAATATAGATAATATAAAGAATTTTAAGAAACTAGACTATCATGAAGTAAAATCTGGCAATTTAATTCTTCTTAAGAGCGGAGATACAGTTCCATTTGATGGAAAGATTGTTCGTGGTCGATGCTATGTTAATGAGACAGATATTACCGGTGATCTTGAGAGTCAATTTAAAGACTGTAATAATGGCGATATCTTGACAGCTGGAAGCATAATACAGGGTAGTGATTCGGTGGTTTTAAAAGTAAGTTTTGCTAAAAATATATCATTTTTTGCAAGAGCGGCGAAGAGAATAAAAGGAATTAGCAGAGAATCTCTACCATCTGAAATTGCTTTGCAAAGACTTATTCTCGGATTGTCGATATTATTTATGTCTGTAATTTTTACGGTTTGGGTGATTGCAAAATATTCTGGATTCAATATTCCGGCTATATACTTGATTGATCTGGTAGTCATATTATTGCCGACTACTATATCAGGGCTCCAGCATGCAATCATTATCTTTGGCAAGGCTAAGCTTTCAAAGCATGGTATTGTAGTTCACGACTTAGTGTCACTTGATAATGTAGTTGATGCAAATATTATTATTTTAGATAAGACTGGTACTTTAACGGTTGGTCAAAGACAGATGACAGGTTTTACTCTTTTATCAAAATTATCTGAAGAAGAATATCTAGAATATTTATTTTTATCCTCTGTAGAGGATAAAACCATTGAAGGAGAGGGTGTAAAGGAATATGCGCTTCGAAAATTGATAAAGACACCTGAATTAATTGAACGGGAGTATAAATACTTTCCGTTCTCATCATCAAAACCAATTAGTGGATGTAATTATAAGGGTACTCATATCAGAAAAGGTAGCGTGAGTGAAATTTGCAAATATATAGGTAAAAAAGAAAGCAAGCTTCCTGTTGTGATAAAAGAACTAATAACTTCTATTGCAAAATCGCACGGTACACCTCTCTTACTTGCGGTTAATAAAGAGATCATAGGTGTAATACATTTAAGAGATCGATTCAGGAAAGGAGTTCAAAAGCAGGTTGATCGACTTCATAAGCAAGGTGTAAAAGTAATCATGGTGACTGGAGATAATGAGCAAACAGCTTCATATGTTTCAGAGAAACTAGGTATTGAATCATTTCATTTTGATGCTACTCCTGAAAAAAAGCTGGAGATAGTTCAGAGTTTACAAGAAGAAGGGTATATTGTTGCAATGTGCGGTGACGGGATTAATGACTCATTAGCGTTAGCTCAATCAGATATTGGTTTTACATTTGAAGGTACTAAAGATTTGCATCCAATTATGGCTGGTAATATTATTTCAAAAACACATGATTTATCAGCTTTGCTTGAGCTTAAGAATACATGTAAAAAAATGACAGTAAAGAGAGGGGCTTTAACAGTTTTTTCGCTAGCTTCTGATATAGCAAAATATTTTGTTATTGTGCCTGCTCTATTTACTACCGCCTTTCCGCCGCTTGCAATCTTGAATTTTATGAATTTTCATTCTCTAGAGAGTGTTGTTCTAGCATCTGTCATGTTTAATTCTCTGGTTATTTTTGTTCTGACTCCTGTTCTTTTTAAAGATTTTAATAAACCGAAGAGTAAATATTCACTATGGTTAGGGATAGTATTCTACGGTATTGGTGGCCTTGTTTCTCCATTTATTTGCATCAAAATTATCGAGATATTTATTTTAAGTGTGGGGCTATTATGATTAAAAATATTTTTGCTAGTCTTGCTCTCTATGTTGTGTGTTTGGCTTTTATTTGTATCTATTGTGGAGTTGTATATTTTGCTGGTCATACTTTCTGGCAAGATAATGCAAAGGGGAGTCTAATATATGATGAAAACAGAAATATTCGTGGTTCAATACTTCTTGCACAGAAGCTTGAAAAGAAAAAGTATTTTTCTCCACGTACAAAAGAGAAATTTGATTCTAGTTGTGATGTAGCATTATATAATGATGATCTCAAGAAGAGCTTGCTAGAACGCTATAAAGAAGCAGATGATCCGTATGATATATCATCTATTATGCCATCTTCAAGTCTTCTGGATCCATATATAATGAAGAGAGATGCAATAAAGCAAGCAATTCAGATTGCAGAAAATCGTGGTATTGATTCTGATGTTTTGCTGAGGCTGGTGGAAGATAATTCTCTTAATAATTCTGAGCCATTTTTTGAATTAGAGATAGTCAATACTACAATTCTTAATGCCATTTTAGCTGGTTATTCAGAGTAGTGGGATACATCTTCTATCTTATGCGAAAATTGACTGTCTTGAATTTTTTAGTGCTCAATTTTTCTATATGTCGTCCCTTTTGCGCAAGGCGCGGATCCACTGGGTATTTCTGTCAAAAATGCAAAACTTGTTCGTCACTGCGAGCGTAAGCGCGTGAGTCCATTATTTTAGATCTTTATACTTGTTGAATCTCAAGTGAAGATATTATCACTCTACTTTTATTCACTTGTTATCTCGAGAGCCACATAAATAGAATAATATAAAGCAAACAAGATTTATTACTGTTCCAACGAAAACTCCTTTGAAGTTTATTGAAGTAGAAAAAATAGTTTCCCACCCTATAAAACCTATTGCTCCAGCAAGGCATGAAATAGCAAAAGCCTTTTTACTGATTACAATATTAAATAGGGCGAATATAAGAGGTGTTAAGATAACTGGTCCCCAAAATCCGGCAATGAATATTACAAGATCAGCAACACGGTCAAAGCAAAGCGCTATTATAATTGCCAAGCTTCCAATTAGTACATTAATAATTCTAACAAAGAAAAGCATTCTATTTTGCTGACTAATTTTAAATATTGGTTTTAAAAAGTCCTTTACTAAAGTAATTGAAGTTATATTTAAATCTGAATCTGCCGTGGACATTACTGCAGCAAGTAAACCTACTACGACAAAGCCTTGAATTCCAACGGGTATTATATGATCAATGAGTTGTGGTAGTGCTAGACTGGCTTTTGCATTTGGGAAAATGGCAAATGCAAGTAGACCATTGATTGTTATAAAGACAAGAAAGAATGCGTATATGATGGATTTAATGTAAATAGCTTTTGATGTAGATGCATTATTTTTATTGATCAAAGCTCTTTGGATAAAAGTTGGGAACATATTCATTACAGCAAAACCAAGTGCTGCAGAAATTGTTGCAGTCAATAGATCTTCATTATTAAATAAAGATACTTTTTCATGTGGGATTGATTCAATGAAATTAGATATTCCTAACTCATATATTCCAAAAATTGAAATAACTGGTATGGCAAAAAGAATAGCGAAGAATTGTAATTGATTGGCAAATAATACTGATCTAAATCCTCCAATTGTCGTATATACAACAACTATACCATAGCTAAGTATTACTCCATATATATAGTTTATTTGCAGGATATATTCAAAAATTCTACCGCTGACGCTAATTTGCGCAGCAACTAATCCTACTGATACAAGTATAGAGGATAGTCCGGCAATATATCTGCCCACAGAGCCATAATATACATCCATGATATCACCAACACTTTCTGCTCCATAATGCTTGATTATTCTAGGTATTATGTAGTAAGCAATTGCGAGGTCAACTGGAATAACTAAAAATAACCCATAGCTATAAGAGATATTGTCTGCAAAAGTCTTTTCAGCGATACCAAATGTTGTGCCACCTCCAATGGTAGAAGCAAAAATAGTTGCAACCAAAATTAACTTGCTTTTTTGTATTGTGCTTCCTGTCGCTCTTGAAAAGTTTTTAAATCCATCTTGCTTGGATCTTTGAAAAATCCCTATAAAAAGAAGCAAGATAAGATACGAAAAAACAATGATTATATCAATCATAGGATTCCTGCTCTGTTTTATTATGAAGTTTTTCTAAGTGTAAAATCATTATTAGTGCTGGGACTGTTGCAATAGTTGTAAATAAGAAGAATACAGTCCAGCCAAGATTTGCCACCATATAACCAGAAAGAGCAGGGAAAATGGAGCGCGATAATCCCATCATCGAGCTAAAGAAAGCATGTTGTGTTGATCTGAACTTGCCATCACATAATGTTGCAATAAATGCTATATATGCTGTCATTGTAATCCCTCCACTAATGCTTTCAAAACCAGTTACTATAAACAAAAGATATATATTTTGTCCACATATATCTTGTACGACAAAAAGAATGTGTGCAATTGCATGGATTGATCCAAATAGTAGTAAGCTATCGAAAACATTGCTCTTCCTCATTATGTAGCTTCCTAAGAGGCCACCAATTAATGCAGATATTGTTCCAAATAGTTTGCCAGCAGTTGCAATAGTAACAGCTGGGTATCCAATATGAATAAGGAAAGGATTTATCATCATAGAAATAAAATTATCTGGTAGCCTGTACAATACTAAAAATATGAGAACAAAAATAATATATTTAGGGCTGCCTACAGGTCTTGTAACTTTGCTTATTATTGATATAAACTTTTTGAATTTATTTTTACTTTTGATCGAGATAAGGTCAAGGGAATTATCTAATTTGAATCGCGCTGGTTTTATATCATTTGACAATAATATCAACAAAATAGGGAAAGTAATTACTATAACGCTAAAGAGTTCGTATACTAAATTCCAGCTGATATATTGTGAGATAAAAATAGCTCCAGCATTTGATAATACCATGCCGATTCTATAGCCAAATATATACACGCCTGATATGGCAACTTGATCTTTCTTTTTAACAATTTCTGTCCTGATTCCACCAAGAGCTGCGTCTTGCGATGAGGATAAAAAAGATACTAAAACTGCAGCGCTTGCAATTTTTAAAATATCTTCTGTTGGATTAAATATACTCATTAAATATATTGAAGCACTGAGTAAGATTTGAATAGTAATTACCCATGAAAGTCTTTGTCCAAAAAGCCTATCTAAGATTGGCACTTTCACTACATCAAATATTGGAGCCCAGATGAAGTTAAGAGCGTAGGGCATTGTAACAATTGCAAAAATTCCAATTGTACGAATATCTATTTTTTCAATTGCGAGCCAAAAATTTAGTGTATTTCCTGTTATCATGAGTGTAAAACCACTCATCAAACCCATCAGCCAAACAATTAAAAATTTCTTTTTTGTAAGCATTGATAATACGTACTAAGTACATTTATTTCTTATCCC
>sequence52
GGAGATTTGCTTGCAGAGATTCGTAGTAGAAAAAAACCAGATGCCCCAGAACTTTCATCTGAAGGTTTAGGTGCGCAGAAGGGTACAATACCGGAGCCACCGCCACCACCACCAAACTTAAATCAAAATGAAGAAGTAGCAAAGGAAAGTACAGGAAAATCTTCGCGTGGAGATTTGCTTGCAGAGATTCGTAGTAGAAAAAAACCAGATGCCCCAGAACTTTCATCTGAAGGTTTAGGTGCGCAGAAGGGTACAATACCGAAGCCACCGCCACCACCACCAAACTTAAATCAAAATGAAGAAGTAGCAAAGGAAAGTACAGGAAAATCTTCGCGCGGAGATTTGCTTGCAGAGATTCGTAATAGAAAAAAGAAGGTCAAGCTATCTAAGGATCATATGAATGATGTTGGTGATAGAGATTTTGTTTATGTTAAATCTGAAGAAGTAAAAGTTGCTGTAGATTCTGGAAATGAATTAATGAGTGCCATGCGTGAGCAGATGGGAATAAGCACTGAAGTCAATCCTAATAATGTTTTAAATGGCAAGGGCAAGGAAGCTCAGATGAATATGTTGTATTCTGCAATGGTTGATGGAAATGATAAACTTGTTGAAGCATTTAAAGCGCATGAAACAGAAGTAGATTCTGGTAGGGTAGACGACTGGGATGAGCCTATTATGGAGTCAAAACCTACTTTTTCTTCGGAAGAAATAGATTCTATTGAGCAAGCTGCTACTGAAACACAGCAGAGACTTGAAAGAGGTGAAGATTTGCCGAGTAAGAAGTCAAGCGTGGAAGTAGATAGTGTTGAGGTTGAAGAATCAACGTCAACAAAAAATCAGAGTAGTGGAAAAGTTGTAGAAGAGACTATAGAAATAGAATCATCAACTGTTTCTAAAGATAGTATACCTGATGCACCACCTTTACCACCAGAAGAGAGTATAAGTAAAAAGAAGAGCGATATGCCACCGCCACCTCCTAATCCATCAGCTCACAAGACTAAAAAGCAAGAAGTTTCCCCACCAGACACCTCTAACTTGTTGGAGGAAATTAGGAATCGTGCTGGAAAAGGTTTAAAGTCAGTTAAGCCTGTTGAGGAAGCTAGTATGGATATGGATGGATTTACATATGTTAAGCCAAAACCAAAAAAACAAATGAGCAAAATGGAGCTTGCATTGGCTCAAAGAAGGGGCGGAATTGCAGGAGAAGATGACATCGAATCACAACTCGATTCTATGTCAGAGGAAGAGCAGCTTGATACGCTTTATTCCGCTGTTATTGATGATGATCAGAAAAAAATATCTGAAATTTGTAATGTTTGTGATGATGATGTTTTTACACCTGAGGCAGTAAAAAGAGTTTGTGAAGCTGCTGTAAAGGTCGCTGCAACTCAATCAAGCACTAAGAAGATTAGGATTGAAAAAGCTGTTCAGAAGGTAGGTAAAGAGTTTGATGTTGATGTATCAGTAGGTAAATCGCAATCTGTGGGTAGGTAATGGATATATAATATAGATTAATTGTGCGTTATGTCAGAAGTCGACGATAAAAAAAGGAAAAGAGATGAGGAATTTGAAAGTATTTTAGATATTATTGATCCTCACATAAAAAATAAGTTTGAATCTGAGCTTTCTCATATTTTTGAAGATATGGAGAAAGATGATGATTTGGGTGCGGCTGTTGATAAATTGATTGACGAATGTAGTGAATTGACTGAGCTGCAAAGTAAATTGATACTTTTAATTCAAGAGCATTTAAAGAAACGGAAAAAAGAATTGGATCCCAAAAAAGCAGAAGGAGTTGATGCTGATGAAGAGAAGATTGCTCGAGATGCCGAAGAGCTATGTAGGAAACTTTTGAAAGATGTAGATGAAGAACTAGACCCAACTTTGGGAAGAATTAGTCGTAAAGATAGAGCGCATATTTTGAGTCTTGAGGCAAAAAAGAACATAAAACGCATAATGAAGAACTTTGCAGTATATGAAGTTTATAAAGTTATGAACCCTAAAAGAATTGCTGGTGAGACGGCAAAGGATAATTATAAACACAATTTAATAGAAGGCGGTGAAAAGCTTGCTTCAAGGTATGAAGGAGGAAAAGAGTCTGATCTCAAAAGATATGGATCCGTTGAAGTGGCCCAGCTTAAAAGACAGGTAGCTGCCTTTAAAAAAGGTGGTGGTGGAATGGACCGTGGTGGTGGGATTGGCCGCTAAATTATGATACTTACATATTCTGTCATATTCATTTTTGGCTTACTAATAGGTAATTTTGCGACAACTTTATTATATAGATTGCCTCGTGATATTATTCCTTACGGGTTTAGTAGGAAAGGTATGAAGCCTCCATTTTGTTCTAAGTGTAAGCACGCTTTACGATTTTATGAATATCTTCCAGTTTTAAGCTGGGTTAGCACTAGAGGTATTTGTAATTATTGTCACGAAAAAGTATCAAATTCTTACTTCTATCTTGAAGTAGCATGCGGTGTTTTTGCGATATTATGTGCATATTTATATAGTCAAAATATTGATATATTTTTCCTTAAATTTTGTTTTTGCGTCACTGCTTCTTTGTCAATTGCTATTTATGCTGAGCATAATAAGGTATCGCGCGTTTTAACAATTGCTCTAATTGCAGAGGCTGCGTTTTTCAGAACGTTGCAAGATCAGTCTATAATATCTTGGGTAGTGGCTTTTTCCTTTGGAGCTATATTTTCGATGCTTTTATTCCAAATGCAAGATAACAGACAGCTAAGGGAAGAAACTATACATATTATTCTACCTACTTCAATTCTTATAGATGGATATTATTTGTTTTTTATTTTAATGATATTTGCATTACTCTATTTTTTAAGAAAAAATCTATATAATGGTCTGAGCTTCTATAATTTTTGTATTGTAATAGTTTTAGCTTTTAGTTTTTTATAGTGCTGATGAAGATGCTATATTAGTACTTTTTGCTAGATATCAATGGTTAAGGCTAATTAAGTAGAAGGTAAGCGATGTATATATCGCTCACCCAATTTTCAAAGTTAAACACAAAACAAAGCAAAGATTTAAGATTACTTTAGTACTTATCTACTTGCTCATTCATTGTTTTATATTTTCCGTCTTCTTTCTTTACAATATCATATTTGCGCTGGGCTATAGAGTCTATAAAGTGAATACTACCTGATATCCCAACAAAAGGCTCTGTAGTATTCATTTGAGTAATGAAATTTGTTCTGTTATATCCTGAACCAATATAGTCTCCAATCATTTTACCCGCATCATATGCAATAGCATGCATAAATGATACGTGTTTGATTCCAGATTTCATTGCACGCATAACGAGATTTGTATTCGTAATATTCAGCGAGCCCGTGAATGTAACATCTATTGGTGGAGTGAAGTCTATGTCAATTCTGCTATCACCAGCTATTATCGCTCTTTTGTCTAGATGCAGGTTTTTTGCGTTGCTATACAACACCTCAAGGGTAGCTGGGTCATCTGCGATGAGGATGACTGGTTGCTTTAAATTAAGATCATTTTCATTCAGATTATCAACTGTGTCTGAAACTAAATGTACAGATTTTGCCATGTCTTCTGGAGCGCCGCCATAAAACTCAACCCTAGCAAGAGTTCCTCCTCTATTGGTGATCATATCGTTTAATATTTTACTAACTGTTGTTGAATATCTTCCAGCAGGAAGAAGGGCAATGTAATTTTGATATTTATGATCAAGGAAGTAATTAGTGATTTGCTCTAGTTGTCTCATTGGAGCATGACCATAAATATAAACATTTTTTTCAGCAAGCACAGGGTTGTTGGATAAGGATAAGACAATTGTACTTTTATCTTTTACCTTCTGAGCAACAGTCTTTGTAGTTTCAGAATAAATTGGACCGATGACTATATCAGTTCCTATATCAAGTATTTTATCTATGGATGCATTAAGTTTTGCTTGGTTAGTTGAATCATATGTTGTGACTCTGATTTTAGTTTTTACTCCATCAGAGAGACCAATTTTAATCATTTTTGCATATTCTTTACTAAGTTCAGCTTCAGGTCCGGTCATTGGTAGGAGAATAGCAATATCAACTACGTTTTTTCCAAGTACGTTTTTAAAATCAGTGAAATTCTTTACTTGATCACAAGAGGTAATAAAAAATAGGCAGGCAAAAGAAATAATGAATTTTAGGATTTTTTGCTTTATATTATGCATAAATAATTCTCCAACGAGCTAAATTAGTGAATTTCAAACCAGGACTTTATATTGTATCTACACCAATAGGAAACTTAAGCGATATTACGCTCAGAGCTATAGAAGTGCTTTCCGGTTCTGATATTATCTTTTGTGAAGATACCAGAGTGTCCAGTAAATTACTAGCGAAACATGGTATTAAAGTCCCATTAAAAGTATATAATGATAACAGTGATGAAACACAAAGATCTTATATCAAAGCTTTGATAGCAAGTGGCAAGATAGTCAGTCTTATTTCAGATGCCGGAACTCCTCTGATTTCAGATCCAGGGTATAAATTAGTTCGAGATTTAAAAGAATCTGGCGTAAATATTGATGTTGTGCCGGGAGCTTGTGCTATCATAGCTTCTCTTAGTATTTCAGGACTTCCAACTGATAGATTCATGTTTGCCGGTTTTTTGCCAAAAACAAAAGAAGGGAAAGTGAAAATATTTAAGGAATTTATATCTTTAGATTCGACAATAGTTTTTTATGAAACAGCTAATAGGTTGCTACAGTCTCTTGAAGCAGCGCAGGAGATATTAGGAGATAGAGATGCAAACGTATCTCGTGAATTGACAAAGCTATACCAAGAATCAAGATATGCTCCTCTTTCCGAATTAATAAAATACTATACTGATAATCCTGCAAAAGGGGAAATAGTGTTATGTATATCGGGCAAATCCAATCAGGTTGTAACTGAAGATATTTTAAAAGCTGAATTAAAAGCTTTATTAGTAAACGGAGCAACTGCAAAATCTGCATCTGATTCAGTCTTTGCAAAATATAAAAATCAGTATAGTAGAAAGGAAATATATCGACTAGCAAATAGCTTGAAATAGAGATTTGTATTATATGCTTTAGATATTTATAACTTCTATTGACTATGGTTGTTTTTTTTATAGAATCATGTTTTTAATTAGCGCATATATTGGAGAGTTAAGTGTCAAAACATCTATCAGAGAAAGAAAAAGCAGATTATTTAATTAATGCTGTGACAAAAGGAGAAGGCAATATTGAGGTAAGAGAAGTCGAAAAAACAGGTGACGTTATTTTAAAGACAGATGATAAAAGCGCGGGGTTTTTGCAATCAATATTGAATGCTCCAAAACGCCTAGTTGAATATGTATATCATGCAATTGTAAAACCTGGAAAAAACGAGAAAGCTGAAGAAAAGAAAGAATTTGAAGAGAAAGAGAAAAAAACTGTAGAAGGTTCATCAGAGCTAGATGAGAAGGACTTAATAGAAGAAGTTATAGAACTAGATATTTCGAATACAAAAACTAAGCAACAAAGGGGTACTAGAGATGTAATGAATATTGAAGATGAGGAAATGCTTGAAGAAGTATTTACTGAAAGAATGGTTTCTGACTTTTCAATTGATGAGTTTTCATCTTCAGGGTTTGGTTGTGTAAAGAAGGTGAGTAACTCGTCATCAGGATTCTGGGCAAAAAGACAAGTCTCTAATTATGAATTAATACAGTTAGCTTTAAGTAATCCAAGACAAATAGCAAAAATACTTTTAGGTCGTACTACAAAGATTGATAGTGAAAATGATATAGAAGCTGAAGACTTATCAGAACATGCTAGTGATATATTTTCTATTACTAGACATGGTAAGCAAGTTACAAGCGTTTTTAATGTTGCGGCATTTAAGAAAATGCTTCTAGTGCATTTAAAATGTAACTTAAGTGAATATTCTCCAATTGTTTCAAAGATTATTTCAGGGAATAAAAAGGGACTATATTCAATAAATCTGGAGCATCTCAAAGTTTATTTAGGGAAGCAAGTAGCTGAGCTTGTTTTTAATCCTGAAGTTGGTAAAGACAATAAGATGGTCTTAAAACCTGTCATGCTACCATCTATTAAATCAAGCGAAGAAGAAAGTCAATCGACTGATAGCGTTCATGTGAAATTGTTGATTGATTTGAGTGAAAGTATGGAAAATTGCATGTGGACGTGTATGAAAAAGGTCAAGAATGTGATTACTAAAATTGTTCAGTCAGCCGAACATTGGCAGATAGACTTAACACCTTTTAACACTAAATCAACTACTAGCAGTTTTAATTCTGATGAAGACAGCTTGGAATCTATTATTAAATTTTTATATAATCTAGAGTCTAGGGGGTGTACCAAACTATACGGTACTATGCATGAAGAACTAAAAGAGATGAGTAAAAATAACACGAAATTTACTCATTCCGTGTTTATAGTATTTACTGACGGTGGAGATAATGCAAGCGGATCCATTGGTGCAAGCGACGTCAATAGTTCGGCTCTTACTGTTAGGGAAAATGTTGGTAATCTGCAAATGTTTTCCATGGAGCTCGGTGACTCAAATAAGAGCTTTTTTGAAAAAATTGGTGTTGAATCTGGTTTTACACATATTCAACTTGGGAAAATAGAAGATTTAGGATTATTTGAACAATATGTTGCAGGTTTGTTGAAAAATACTGTGATTCTAAAGCTTTTTGATGAGTCATTAAAAGTTTGGGCGCAGCAAGTTGCAGTTGAAGGTGAGATAACAGTTGGTAACATTGTTGTTAAGCCAAATACGATGCTTGACTTTGGCGACGTAACTTATACTATATCCAATCCCTCAGAAGATTTTGGCGATCTTTTGGGTGATAATGATTCGCTTGAAAGCTTATAGTAAAAAATTACTTGCTAAATTTTGCTGAAGTATATATAATCTCGGCTTGAAAAAGCAACGTGGCCCTGGTATGCCTAATTTGCTTGGCTATTAGTAGCATTTGTTAAATACCAAAATTTGAGGATTACTATGCCTAAAATGAAATCGCACTCAGGTGCAAAGAAGCGTTTTAAACTAACAGCTTCAGGAAAAGTAAAAGCGGCTCAAGCTGGTAAGCAGCACTTCATGAGACGTCGCACAAAGTCACAACTTCGTGATCAAAGAGGAACTGAAGTTCTTTGCGATCAAGACGCAAAGAGACTGAAGAAAATTTTTCTCCCAAACAGTTAATTAATTAGGAAGTTTAGAATATGACACGTGCAAAATCAGGAAAAATATCAAAAAATCGCCATAAAAAAATTATTAAAATGGCAAAAGGCTATAGAGGCAGAGCTAATAACTGCTTCAGAGTAGCAATCGAAAGAGTCGAAAAAGCCCTACAATACGCTTATCGTGATAGAAGAAATCGTAAGCGTGACTTTAGAGGTCTTTGGATTCAAAGAATTAATGCTGCTGCTCGCCAGCACGGTATGGTATACTCAACATTTATTGGTGGAATGAAAAAAGCTGGTATTGAAGTGGATCGTAAAATGCTAGCGGAAATTGCAGTAAGCAATCCAGAAAGTTTTGCTCATATTGTTGAGCAAATTAAAAAGGCTGGATAATTAATTATACCTTTACCCTAATATTTTTAAAAAGAGCGAGGCTAGGCTTCGCTCTTTTTCTATTTTTAGACACCAAGTTCAATCAGAGCAAATTATATTTCAATCTCTAAACTGATAATTTAGTTTACAATTCAATAATCTCTCCATAATCTTTTAATGTAGTTGTTTTTTATTTATTGGAGAAAGTAATATGTCAAGTAATTCTACGAGTTCAGGAGGGGGTGGTTTAAGTCCTGAAAATGTTGTTAGTATAGTTGGTATGGGTGTTTCATTATGTCTATCTATTATCACATTCCTAACAGTAATGCTTACATGTACATATATAGCTATCAGATCTAAATTTAGAGATAAACAAGATACAAATATAAAAATATCTACAGAGACAACAAAAGATGGAGATATAACATCAACGCTCCACATTAGTTTGAAGAATAATGAATCATATAGTTTGAATTCTAAGAAGTTTGATAATAAGAAAAAGTCAGATAAGAAAGAAGTTGAAAAAAACTCAGGTGATCAAAATGATGATTTAAAAGATGTATTAGATAATAATATTGATGGAGATAATATAATTGCAGGTACACGAGGTGAAGTAATTCATGGTGCATATCAGACATATCTTAAATCACAAAAAATTCAGGCATTACATTTAAATGGATCGAATCGAGCACCCCTAGAAGTATCTACATTATATTTAAATAAAAAAGAAGAAAAGACTGAGACGGTGCTAGTAAATATAGAAGATGAAGAGAATAATTCTAAAACTGAAATACTTGGAGATGTTATAATAGAATAATAATTAATCCTAGTTGTAGTATTTTGATCTTCTGAACATACATAAATATATATAAAATCAGATAACATTATAACGGCATTGTTAAATAACAAATGATGATAACAAATTTCTAAAGAAACGAGTCTGTCATAGAATTTGTGTAAGTTACAAAAAAATATAGTAGTAAATACTATAAAAAGTAACTTAAACCCAAGAGGCACAAGATGGCAAAAAAAGCATCTAAAAAAGTTGATGATGTAAA
>sequence53
ATCCATAAAATTAATTACTTATTAATTATAGGTGCTGTATCAAGAAGAGACTCAATAAACTTAAATCTCTTTGTTTCTTTGCCATTTATTTCTATAGTTTCATTGAACATTTTAAAAGGTCGTACCCACATTCTGTAATCGCCATATAAAGCTTTATAAACTATAAGTTCTTCAAGAGTCTCGGAGTGTCTGCAGACTCCGATTACTTCATATTTTAATCCTTTATAATGTTCGTATAGTCCTGGTTTGATCATAGTTTTGCTTTGTATTTTTAATGATGCGGATTTTAGCATGTTATCAGATTATTCACACTTCTTTTTTTATACCGTGAGGAGTTTTATTCCATTTGAAAGGTGATTTAATGGTTTCCCAAAATGCTCTATAACATGCAATTGTATGTAAGATAAAGTAAGCTGGCCATATGATCAGAGTAATCCAATCTTTTATAGTTAATTTACTCATAGGAGGCTTACTATTTTTTATAACAAGATATGCGATTGCATACATATAAGAAAAGGAGAATAAGCTATTTATCATCCATAGATAGTAAATATTATGATTGATTTCTAACATAAAAATTAAAAACAACCAAGGAAGGCAGAAGAAACTATATGTTGAAAGGCCAACGAAAATATAAACGCTAGCAATTTTTAAAAATCCAAATCGTTTATAATCCTTTTTTGTTTTGATGAAGACAAAAAATGTTTGTATAAATCCCTTAATCCATCTAGCTCTTTGAGCGATCCATGTTAATACATCATTAGGTGCTTCTTCCATAGTGGTAGAGTTTATTAAGTGTACTTTATATCCTTTCATATAAAGCCTAATGCCAAGATCAGCATCTTCAGTCACATTATAAGGGTCCCAGTATAGGGCTTCAGCAAGCTTACTTACTTTAAAGTGATTGCTTGTTCCTCCAAGTGTGACTGGAAGATCAAGTAGACTTAATCCTCGAAGCAAATATTCAAACCATACGCTATATTCAATACTAAAGAATTTGGTGAGAAAGTTTTCGTTTTGATTATAAAAATTAAGTTTTGCCTGAATGCATGCATAGTTTTCTGGAAGGGAGCGAAAAGCGTGAACTGCCTTTAATAATTGGTCTGGATCTGGGATATCTTCAGCATCATAAATAGTCACATACTCTCCTTTTAAAAAAGCGATAGAATAGTTTAAAGCTTTAGGTTTTGTTCTTGGAAGAGAGAAAGGAACCTTGATGACTTGAACATAGTCAGGTATGTTATTAACGGCAATTGTTCTTTTGGTTAGAATGTCATCATTTTCAATAATTAGTTTTACATCTAGCTTATCTTTTGGATAATTCATCTTATCCATTGCTTGTAATATTGCTTTTACCTTAAATTCTTCTCTATAAAGCGGAATTAATACTGAGTATACAGGTAAATCGTCCGATAATTTAGCAAGCGGAGATTTTTCTCTTTGCACAAGGCTCCGATTAAATAATACAGCCTTTAGCAGATTTTGAGTTAAATATGCAATATTATTTAGTACATTAAATAAGTTGATGAATAAAAATAAAAATGCTGTAAAGATTATAGAAAATCCGGCTATAGATTTGATGTAAGAAACATTCTTTGCAGAAGATGAAGGAGATTTGTTGCTTAAATAGTTAATTGCCCAGCTACTATTCTCCTCAGCAAAATCACGCTCTAGAATTTCTATAAAATCTTCTTGTTTTACGCGGAAAATTTTTTCTTTACCAAATTCAATGCTACAATCTTCGGTTGCTGCAATTGCTAACTTTCCTTCGCTATCAATAAATTTGAAGTATTTTTTCTGATAATATTCATTTAAATTTTGGTAGTTTGTTGCTTTGATACCTTTTGTATTTATATCAATATAATCAATTTTCATACGTTTAACCATACTGATAAGATTGGTCCAGATACTACAAATGTTTTATCAATTAAACTACTTTTCCAGAAATATCCTATTTGAGCAGTAAAATCATTTGTTATCAATTTATTTGGTTTAAATTCTCTAGCTACTGAGAGTTGTTCATATATAGTGTGGCTATAAATGAGATTTTTGAGTTTAGATCTTTCATATTGAGTAAAATTTGTCAGCATTATACCGTTCTGAAATTTTATTCCATCCATCATAGAAGCGGAATATCCAGTTTTACTAGCTATAGAGTTTCTAAAATATTTTCTAAGGCCAAAGCCAAACTCATGAAAAAGATTGGTGCCATTTTTTTTCTGTTTTGAGTAGCCAGCAAAAATGGCAATGTCAGCAAACTTACAGAAACTACTATTATCGTAAGAAGAAAATTGCACTGTCGGTTTAATGCTTACTGCCCATTTTTTATTTTTAAATATTTGATATTTATAAAAAAGATCAGCTTCTTTGCCAATGAATTGTTTATTGTGATCAGGATTATTATATCCAGCAAATTTATCAAGTACATATCCGAGTTTTACTCCAAAGCTCCGTTTTTTGCTTGCTCCATACTCTACTGAAAATTGAGCAAAATGCTCGTCTCTAAAAGCAGATAGCATATTAGATTCTTCATCAAGATCCCTAATTTCTCTTTCAATTGTTTCAAGCTGTCTTATTTCGGAATTTCTAAGTTTCCTTTTTTCGTTTGATGCTTTGCTGTGTATGGCTGATTTTATGGAATATAATGCATCAACCTCATCTCTAATTTTTATAAAAGAACTTGCTCTTCTGTTCTTTTTATTTTTTGATCTTTTATCAATTGTAGAAAAAGTAGAAGAAAAATGGTAATTATCTTCATCAGGTATCCACGCTTCGCCTACAGAATTAGCGTTATATCCCAGAATATATAGAACCAAAATAAATAGTAATCTAGATTTTATATATTTTCCCGTAACCATAAAAATGTTCTTTTAAACAACCCTGCATCTTCGTCTATGCCATGTCTAAAGGAATTTTTTTGATATTTCAAGGATTTTGCTTTAACCATACCTATTACAGTTGAATACATGTATGGGTTATAGTTTTCTGCAAAACCTGGAATGATTTCTGGCTTTGCTGTTCTAACTTGTTTTTGGAATAGATTAGCTGCCATGCTTGTAAGTCCAGGTAAGGATGCCCCACCTCCAGTGATTATCATTCTCTTTGCAAGTAAATGATCCATAGAGATGCGATCACATTCTTCTTTGATTTTAACAAAAATTTCTTGTGTTCTTGTTTCAATAATTTTTGCAAGATCAATTGCTGTAATTGATAGTTCAGAATTGTAATTATTATCTGGGTCAAACTCATCAAGCCTGATTGTACTATTTTTTACTAGTTTAGGATTTGCATTACCATACAAAATTTTGAGCTTATCAGCTGCTGCAATACTTATAGAAAACTCTTTTGCAATATTGCGCGTAATATCTCTACTTCCAATTGGAACAAAGCCTGTATAGATAAGCTTCTCATCTAGAAATATTCCAAAACTAGAAGTGTTACTGCCAATATCTATTATGACAGATCCTAGTTCCTTTTCATCTTTTGTAAGGCAGGATATACCAGATGAATAAATTGATAAAAATATATCACTAACTTCAACATGACATTTTGCCAGGCACTTAGTCAAATTCATGAGCATTAGACTATCTGCAGATACGATGTGTAACTGACAAGATAGATCACGAGCGTACATACCAATAGGATCATCCACATTTTGGTTTCCATCTACGATGAATTCTAGCGGAAAATAATGAATTATTTCCTGGTCCTTAACTTTGAATTCCGCGAGCGCTTTGCTAATTAGTTTTTTAATATCTTGTTTTGAAATAGGCTGATTGCCAAGTTTCATTTTATGATTTACATAAAATGATTTAACTCCAGCGCCTGAAAGTGATATAGCAATTTCTTTTATACTTTTATCGCTTTCTTGTTCTAATGCATAAATAGCTGCAACTACGCTATTTTCAGCGAGTTCCATATTTGTGATTGAACCAGATTTAAATCCTTCGGAATATTGTAAGATTTGTGAGTTAATTTTTGCTTGTCCACTTTTGCTAATATTTGCTGCAATAGCTGCGATCTTGCTGCTTCCTATGTCAAAAGCAATAAAATTAGAGGATTTTCCCTTCATAATTATTTTAGTATAGTAATCAATTATCGGTTTATTATAACTCGAGTTTTCTACTAAATATACAACATATTACGGGATATTAAAATTTTTATCTTGAAACTAGTGAAATAATCTGGTATCAAACTAGGCAGAGCGGGACAGGTGTCCGAGTGGTTTAAGGAACTGGTCTTGAAAACCAGCGTGCGTTCACGCGTACCGTGGGTTCGAATCCCACCCTGTCCGCCATGTTTTTTGTTATTAAGTGGCGATACTTAAGATTAAGAATGTTCACAAAATGTTCTTTTTTAAGTGCTTAAAATGATAATTATTACTGTGGTAGTTTTTATAGAGTGATGTAGTATTGGTTCTTGTTATCTAAGTTCTTTAGATGCTGTAATATATGGTTATTTTACGTATATCTTTCTTAATATCTTTGTTTTCTATCGTTGTCTTATCTTACAATGCTTCAGCGTTTGATTATAAGTCTGAATTAATTGATGATTTACAGTATCTCCTGTCTTCAGAACCAACTATTAATTATGAAGACCAGAAATTACATAAGATATTGAATAAGTATAATTATAGTTTGTTCAAAACATATAAGGCATTTATTGAATTTGATAAGAGTAATAAGTCTGAAGCAGATATCCTGAAAGCAAAAAATGCTTTAATTAATGCATATAATTATCCGACTAGCTATTGGAACGTTTTTTGGAAAGATCAACAATTAAATAAAGAAACAATTAGACTTGCTTTTTTGAGATGGTTAACTCATTTTTCAATTGAAGATGATATGCTTGAAATATTACCTGAAGAGAAGCAGTATTGGGATAAGTTCTATGATTATAAATATATCAAGATACCTTTTTGGTTGGTAAAAAAATACCCGGATGTAGTATTTCGTAGTACAGGTCATTATGGCTTAACAGTAAATGCAAGAAAATCTGTTAAAAATATTGCAGAATTTAATTTATTTATATCTGCGCTTAGAGAGATTCTATTAGGATATTTTACACCTGATTTTGGTTGGCAGGATTTTGATTCATATTTAATAAATAAGCATTTTATTGATATTATAAGCTTTAATCCAGGTTGGTACATTAAGCATGATAAGCGAAGCTGTGATATTTGTGCTAAAAAATCTATCAAAGATAGATTTGAGAAGCTAGAATTATGGGCTAATAGAAGTGAAGAAAACATGCTGAAATATAATAAACTCTTACTTTGTTTTGATAAAGCGTCTTCGGCACTAATGAATTATTACAAAAAAAATTATGATTTAGAGTATTATGCTGACCAAGTAGAGAATATTCTTTCATATTATATATGTGACAAAACGCTTGATGCTTCTATATTAGAATATTGATCTACCAATTTCTATTCACTTTATACAAAAATCTGGTAAATCCAAGAGGAAAGCAGTATATTTTCTAATCATCTTTTGTTCACTTTTTACTTCAATTTGTACAAAATCTGGAATATTAAAATCTTTTTTACATCGGCAATTAAAATCATCACCAGGACGACCTATGATTGGTGGATGATCAATGTGAAATATTTTACCTTCATAGAATTCATGTTTTAGCCTTACCTTGCCATCTGCCCTAGTTCGCCAGATATAATACTGTTTGTTGTTTCCTCGATTATCAGTATCGTTTTCATCTATTAATAATTTTCCAACACGCGGTATTACGGTTTTTCCTGGTTCAATTTTTATTAATATATTATCTGGAATGGGATTGTCATTAGGTTTTGAATATACTGGACATTTATAGGATTCAAGCATTAATGATTCACGATCCATTCTTACTTGAACACCAATTTTTTTTCTTTTGTTTGATTTATATTTGACTTCATTGATAGCCTGTTTTAGGTATTTTGAGTCGCTGGTTTTTATATAGTTCCTTAGATTTCGTGAAAAATTAGTATCCCAGTATTTAGATTTTCCATCATAATGTCTTACTAGAGTATGACTGTTAAAATATAATGATTCAATAGTAACTTTTTCGTTTGGTGTAAAACTATCCCAATCTCTTCCAAAAAAGTGCTGTAATTGAGTCCTGAATTTATTGATTTGATAATCAAGTAACTTAAGTGCTTGACTATTTGTGATTGTATTCTTTGAATCTTCATCATAGACACAATCAAACGACAATTTATCACCAAATACATTTTTCCAATCTCTCCTTGCTGCTGGATCATCCATATTGAATCCAATTCCTATAGTTTTTCTTGGTGGATAGGCGGTATCATTATAAACAGCACACGGTATATTTGGTTTGCTGGGGACTTGTTGTTTGTCAGTGTACCATGTTATTTCGTTAAACATAATATGTGTCCTAAGATGTGATTCATAAATCTCTTTATGCTCTGTGATAGATAGGTCTAAGTTATGTAATCTGTCGCGTGCTGCTCGAACCCAATCTTCTTGCCAAATTGTTGTTGAGTCTTTATTTTTATCTACTAATGCAACCCATTCTTCTCTAGTTAAATCTAATTTTGTACCTTTCATAGAATAAATATTTGATTAATTTTTTATCTATTCTATAAAATTTCATTCAGTCACTAAGTCTTAATCAATGAAGTGATCGATAGTCCAAGTCGTTGATGGTTTCGTTCGAGCTACACATAAGCAAAAATAACAAGTAAAATCACATTTAATAAATTTCTTTGTCTTTTTACGAGATAATTTTATTTTTATTGGTGGCTATATGATTATACTAGAGTGATTAACAGTTTTATTTATAGGAGTGAGAATGTCATCAAAAGAAGTTATAAAGCATTTAAATATAGTTTTAGCTGAAACATATGCGTTATATCTCAAAACGCAAAATTGTCATTGGAATGTAACTGGGCCTAATTTTCATAGTTTGCATAGCATGTTTGAAGAGCAATACAAGGAGCTAGCTGAGGCTATCGATGAAATAGCGGAAAGAATACGCGCACTTGGAGAAAAGGTGGAAGCTAGTTTTTCACATTTTGATAAGGCTAAATCTATTAGCGATGCTAAACTGCTGAATTCTTCAGAATCTATGCTTAAAGATTTGTTACAGAGTCAAGAAATTGTAATAGATAAATTAGTTGAGCTATCGGATATTGCTTCAGATCAAGGTGATAAAGCATCTGAAGATATGGCGGTTCAAAGACTTTACGCTCATGAGAAACAAAGATGGATGTTGAGTAGTAGTTTATAAATCTGCATTCCTAAATGACTTTTAAACAAAATTGGGAAAAAACTGAAAGCCAACATAAAATATCTGATGATACTATAAGAGATATGTTTCGTGCTTCGGCAGGTAATGAAGTTGAGTCATATGAGATAGTTTTTGGAGGCTGCGCAAATCTCAACATAAAAGTTAAGCGAAAAAATAGAGAGACTCCGGTACTATTGCGTATTTATTTGCAAGATAAGGAAGCTGCTTATCGTGAGATGAAAATTAGCGAAATGCTGCAAGGCAAAATTCCTGTACCTAAAATATATCTAGTTGATGATTTTCAAAAGTATAAATTTGCTATATGCGAGTTTGTAGATGGTATAACTTTAAGGGATCTTTTGCTTAGCGATAAGGAATTTTCTATGCATTCGGTAATGTATCGTTGTGGTGAAATACTTGCGGAGTTTGATAAAATAAAATTTCCTAAAGCTGGGTTTTTTGACAAAGATATCAACATAGTGAAAGATTTTGCTAGTGATGAATTTATCATTTACATGCAAAATTGTCTAAAACAAGAGGTCGTAAAAATACAGCTAGGTCCAGAACTTTTATCAGCTATAGAGAATTTATTTACCAAAAATAAGAGATTTTTTCCAGATAGAAATGAAATGCATCTTGTGCACGCTGATTTTGACCCATCGAATATTTTAGTTAGAAAAGTTGATGATTCTTGGCAAATTATTTCAGTATTAGATTGGGAGTTCGCATTTTCAGGTTCTACTTTGCATGATGCAGCGAATATGTTGCGTTACGCCCACCATATGCCGGCTGAGTTTGAAGATTCATTCATAGAGGGTTTAAGAGATAGTGGAATTGTCCTTTCAGATAATTGGAAAATTACTATAAATCTTTTAAATTTAGGTTCACTGATTGATTGCTTAACTAGGTCCGCCCCCCAAAAAAGACCTAATCAATGCCAAGATATTAAAGTGTTAGTAGAAAGAATTGTGGATAGTTTTGTCCAGTAGCGCCTAATACCCGGGCCTTTGTCATTGCGAGCGGAGCGTGGCAATCTAGGAGTTACCATATTTATAGCCTGTTGCAAGGGTTTTATAGATTGCTGCGTCGCTTTTGGCCCATCGTCAGTGGCTGGATAGCCGCGCTTCACTCGCTATAACGTAGGCTTCTATGAAAAAAAAATTTAGGGGCTGACACCTAACATTTAAATTGTTAGGATTCAGTTATGTATGTAAAGCATTGTAAACTAGGCAGAAATAAGCAGTTAGAGCTCATAAAATACTTCGTTTCCGGTACGACAGCCAGAACGGCATCAGAATTAACAGGG
>sequence54
CAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCAAATAAATATCGAAAACTTTTAAATTTTGTAGCTTGCAACATTCAATTATACATTCAAGCTCATCTGGAACGACCTGAATCTTGCTTCTGTCTGTTTGCAACTATATTTTGAGTCTGCTTAGCAATTCGCTTGGCTCCAGATTCGCTGCCAACACTACTTCCTACTATTTTAGCTTGCTTAGCTATTTTTTTTGTCATTTCCACGGCACCAGCTTCAATTTTATTAATTTTCTCCTGATTATCAACACTCATTGCCTTTCGACAACTTCTTGACAAAGAAGAAAACCCAAGATTAGTGCATATTTTACTTAACCCATGTAGAATTTTATCTTTTAACGAAGTTAGGTTTGGTGCATCAACTTGACCTTTATTATTAAACTCCATTGAACTTTGTATATCCTTCTGAAATTGCGATGGACCATCTTCTACTACAGTCCTATCTCTATACACTGCTTTCTTGCCTTTTAAAAAAGCTCCAAATCTTTGTCCAACTCCAGGATCTTCTACTTTTACTCTAACCTTTTTTTCTATTTTTTCAGGCGCAATATAAGCATCCATTTCTTTTTGAGTCAGAACGCCATCTTCAACCATATTTGACATGATTTTCTTATAAGTTTTTTCTAACTGTTCTTTAGAAATTGGTGTCCCATCAGTATGCGAATTAACTAAAGAATCAATTTCAGGAATAATTCTAGCTTCAGAATATGTTTTTGCATGCAAATCTGCCGCAGCGTCAACAAAATTATCAGCTCTTTGACCTGTATGTTCAACACTTGGCTCCGGACCTAGAGCTTCTCTTTCCATCTGCTCTCTTAATTTTCTAGCATTTTCTGCAAATTCTTTAGCCATAAAAAACCTCTATATTTTTAATTAAAAACTCATTTTTTCTACATTCTGAATTTAGAGTAACGTACCTAGATTGAATTAACTACTTATTGCCAGAGAACATAAACTCCACTACCCATCATTTAAGTATATTATGATTTTTTTTGAAAAATCTATAACATTCGCATTCGAATAGTTTTTTTTGGATTGATTTCTTTACTAAAATTTAAAAACTGACTCACAGAGTCAACAATGTCATCATTCTTTGAATTTGGAAAAGTAGTCAGCTCTCTGAGCAAACTTCTATTATATGCTGATTGTTTGGGTAATAAAATTTTACCAATCTGAAATAGATCTACAACAGATGCAAATCTTGTGACTTTATCAAGCCTTGGCTTTATAGACTTGATATTAGTATATCCTATAAGTTTCAAATCTTGAATGATTGATTGACCACTTGCTTTATCTTCAACTAAAATATGTTTTGGTGAATAGCGCTTTGCAAACTTTTCAATAGTTTGTTTTAGATCAGGATATGCTAGTTTTTTTCGAATCATTGATACTAAATAATATCTGTTATCGACTATTCCGAAACATGTTCCCACACTAAAATCTGATTTTTCAGTCGTCTTAAGAGCAGTATCCCAACTCTGAATATAATAATCGAATTTTTCAGGAAGCTCATGATAAAAACTTATATCCTTTTCAGATAGCAAATTATAGTTTGATGGCAAAGGTGCTTGCAAAAATTGAGCAGCAAAATTTCTTGCCCCCATCTCTTTCTCAATTTTTGATATAAAAACTTCATCAACCCTTTTAGAATTTAAAACTTCATCTTGTTTAAATTCATATTTTTTCTCACCGATAGAGTAATATAAGTCCTTTGGAGCAACCATAGGAATTTTTAATAACTCCCAATCACCTCCGGATATTAATTGAGCTGATAAATCTTCTTCATGCAGTCTCTGCATAACTACAACAATTACACCATTTTTACTGTCATTTAGACGGGTAACAAATGTTTGCTCAAACCAATCTATTGCCTTATTTCTTAGCTTCATTGAATTAATCTGCGTTGGGTTGTGAGGATCATCTACTATTAAATAATCTCCACCCTCACCTGTCGCAGAACCCCCTACGCTTGTCGCAAAACGAAATCCATTTTGCGTTGTTAGAAACTTATTCTTACAATTATGTTTTCTACTAAGCTTAGTTTTAGGAAATAATTTCTTATACCAATCTGACTCCAAAACCAACTTAGTATCAAGCGAATGTTTTACACTTAAAACCGAAGAATAGCTTGCAGCCATAATTCGTGCTTCCGGAGTTTGCGCTAAAATCCATGCAGGCCATGCAACACTTATACATACAGATTTCAAAGCTCTTGGTGGCATATTTATTATTAATCTCTTAATTTCACCAGATCTTGCTGCTTCTAAGTAATCTGCAATTAAATCAATATGCCAATTAGAATGATATTTTGCTCCAGGATTAATAGTGCTAAAAACTTTACCGATAAAACTAGGAAAATCTTGACGAATTATTGCCTCAAGCAACCGAAATTCATTACTCATTTTTTTCTTTTTGTTTCCAACTTAATCTTGTCAATAAACTTATTCAGAATCTCTCTATCAGATTCATCAAATCCTACCTCTACTTCGAGCTGTTTTTCTTTAGCAACTTTATTAAGCTGTGATATAAGGTTAACAAGTTTATTCAAAATATCTGTAATATTCTTTTGAGTGGAAATTGTATTTTTTGCACTTCCAACTTTGAGCTCTTCTAATTCATCTTCTAAAAGAATAACCAGCTTTGTAATAAATTCATATATTTTGTTTATAGTTGTTTTCACTAATTATTCTCCTGATTCTAAATCATTAACCTTATCACCACCTTTAATAGGACTAAGTCCAACGAAAGCACGTTTTTCATTTACAGTCATAAAATTTGCATTCGCGATTTTAGACCATAAATTCTCACGCCTTTTAGTAAGAACCGAAATAGCATCACGATCGAAATCAATTATCAAATCTTCTTCATACCAATGTGAAAGCCAATTACTAAGCGCATCTGAATATTTATCAAGCAGAGGAATAATATTTTCTTCCCACAGAGCAAGCCTGGCTTCTTGCATATTGCTGTATGTATTATCTCCACTTATTCCGAGTAATTGAGGTGGCACATTAAAAGCAATCGCAATATCACGAGCACTTGAATCCTTTAATTCAATAAACTTTTCAAACTTTTCGGCATTATTTGTTTCCTGCCATTTTAAGCCTCCTTCTAGAATCAAAGGTTTTCCAGAATTAGAAGCACCACTAAATCCATCATAAAATTGCTGTTGTAGTCTTTCAAACTGCTCTTCGCTCAAATATCCGTTTCCATCTTGAAACACCAATGCACCGCTCGGCCTAGTAGCATTCTTTAGTAATGATTTATTCCAATCCATAATTTTTGCATGTAAATGAATTGGCTTTGCAGCGGCTGACAGAGAAGATAATCCTTGATTATCATCCATAGGATTATAATTCTTCAAATGCAAAACCCTACTAATTCTAGTAACTGGATCAATTGAGTAATATTGTTCATTCTTAGCATTTTTATATCTATATGCTGACCTCATATTACCTGAAGTAACATATTCCATCTGACTTGAGTGCAGATTATATAATTCACCTGGAGCTGAAGATTTTCTTCCAGATGCTAAAATATAGCTATTCCCATATAATAAAAGACTTGAAATACTAGATGTAAAAAAATCCGCTCCAGAAATATTTGGAGCTGGATTTTTTAGCAATCTTGCCACTGGATGTAAAGGAATTTGTTCTCGTTTACCACCCTTTTCTTTGTAAACTTGCCAAGGAATATGACTTGCAGAACAAGCAATTAAACTTACGCATCGATGAACAATAGCATTTGTTTTATATATGTCTACGCCTACCTTATCTTCACTTGAAGAATGTATAAAAGGTAAATCTAATGTATTGAACGATTTTTTAACAGATTGCTTAGAGAATTTCTTAAAATATGACTGTAACATAGCAAAATAAACCAATGATTTAATTTAATAGTGGAAATTCTTATACCAGTTTGATATGAATACACTAAGTTAAATACAAATAAATACTTTGCAAAATATTAGTTTTTGCAATAGAATGTATAAATAAAAAAAACATAGGATTGATATGTCTGGGCAACTTCTAGAGCTTATAATTTTCGCTGGTATTGCATTCTTTATTATTAATAAGTTAATTGCTACACTTGGCAGTACTTCGGAAGAAGATCAAGCCCGTAGCAAATCACTCTTTAAAAACAATGCACACGGGATGAGAGATGTTACAAATTCCACAAAGAATAAAGCAAGCATTTTAAAGCCTAAATTTCCTAAGACAAAAAAAGTTAACTTAAAGGGTTTAGTTGTAACTGGCACTGAAAAAGATGTAATGGAAGGTCTTGCCGATGTTCTTGCGAAATTACCTAACTTTAGTTTGGATACATTTCTCAAAGGTGCAAAAAGTGCTTTTAAAATGATAGTTGAAGCTGGGTCAAATAATAGCGATGAAGAGCTTGAAGAATTGGTAGATAAAAGATATATAGACCATTTCAAGAATATGTCGTCCAGTTATGGAGAATATTCTAAAGAAAAAAATAATTTGACTGCACAAATTTCTGAAATTTATATGTTTGGCAACAATATATTTGTTAAGGTATTATTTGCTGGCAAAAATATAACTAATAAAATCGTGGATATGCATGAGGAATGGACTTTTACAAAAAGTACATTAAACTCTGGCCCCGAGTGGTACTTAACAAATATAGACAGACCACAATAGATTATTTATTTGCTGAACTTGCGCAGAGTGAATGGCTTTTTTACAGAAGGCAAATTAATGCGATACATACTCTTATTGATAATTAAATTTTACCAATATTTTATTTCACCTTGGCTTGGAAGGAACTGCAGGTTCTATCCAACTTGCTCATCTTATGCAAAAGAAGCCATCTCTACTCATGGATCTTTTAAAGGATTATTTTTGAGTATCAAACGCATATTAAAATGTAATCCTTTATTTTCGGGTGGGTTTGATCCTGTTCCTTCGGAGAAAAATAATGAGCAAAAAACAAGGTAGAGAAATAATAAAATCTCACTTAAATAATACCCCAGATCTACCGGGTGTCTATAGAATGATGGACTCAGGTAACAACATTATTTACATTGGCAAAGCAAAAAATCTTAAAAATAGATTATCACAATATACTCTTGAACAAGAAGGCAAAAATAAAATTATGGTCTCGCTTGTACATAACGTTGAGTATAGCATTACTGATTCAGAATCATCGGCACTTCTTCTTGAGGGGCAATTAATCAAAAAATATAAACCTAAATTCAATATATTATTAAAGGATGACAAATCATTCCCATATATAAAATTACGCATTGATCATAAATATCCACAATTATTGAAGTATCGTGGAAAAAACTTAAGTAATGGGAAGTTTTTTGGTCCGTTTGCATCAGCTGGTCATGTAGACACTACGCTACTAGAAATACAAAAAATATTTCGTCTTAGATCATGCAGTGATAGCTATTTTGAGAATAGAGATAGACCTTGTATGCAATATCAAATAAAGCGTTGCTCTGCCCCATGTGTTGGAAAAATTACAAAAGAAGAATATGATGAAACTGTATCTGAAGTAAAAAAGTTTTTATCTGGAAAGAATAAAATTCTACAAAATATGCTATCTAGAAAAATGGAGAATTTCAGTAAAAACATGCAGTATGAAAAAGCCGCGGAAATAAGAGATAAAATTAAGGCAATAAGCTATGTTCAGCTAAAATCTGACAATGCAGAAAAAATTGAAGATTCTGATATTATTGCGCTCTCTAGCAAAAATGGCGAATTCTGTATCCAACTATTTATATATAGATCACATCAACCATGTGGTAACCAGGCTTACTTCCCTGATCATACCTATGAGGCAAAACCAAATGAAGTCATAGAGAACTTCATTATGCAACTATATCAAAATAAACAACCACCAAAAGAACTAATTATCAGCCATGATATTAACGATAAAAGCACTTATGAATCAGCATTAAAGCTGCTACATAAAAAAACTGTTAAAATTACTCACCCTAAATTAGGTAGCAAGAAAAAAATTCTTGATAATGCGATTCATAATGCCGAAATATCTTTAGAGAAACATTTAAAAATTTCTGCAAAGAATATTGCAGCATTAAATGAAGTACAAAGATTATTTGATCTTGATGGATCTCCTAAAAGAATAGAAATATATGATAACAGCCATATCCAAGGAGCTTTCGCAGTCGGTGCTATGGTAGTAGCTGGAGCTGATGGTTTTGATAAAAAGGAATATAGATTATTTAATATCAAGGAAGAACAAAAAACTGTTTTTGGAGGAGATGATTATGCAATGCTCCGCGAGGTTCTCACCCGTCGTCTTAAACGCTTGAAAAATGAACCATACCGAACTCCCGATCTGATGATTATAGATGGAGGAAAGGGGCATATGAAGATCGTATCTGAAGTAATGAAAAAGCTTAATACTCATATTCCATTTGTTTGTATGTCAAAGGGTGTAGAGAGAAATAGTGGAAGAGAACAGTTCCATAGACCAGGTCATAAAACATTTACATTAGATCGCAACCTTGGTGTTATGAAATATTTGCAAATACTTCGTGATGAAGTGCATAATTTTGCTATTAAGAGTCATAGAAATAAGCGAACAAGAGCAATTAAAATATCATCTTTAGATCATATTCCAGGAATTGGAGAAGCTCGTAAAAAGGCTCTACTAAACTATTTCGGATCATTTAAATCAATATCAGATGCAACTACCAACGAATTAAGTAAAGTGGACGGCATAAGTAGAGAACTTGCAAAATCTATTTATGAATTATTGAGATGAACCATTAATTTTTCTTTCTTTATTCACTCGACGCCAAGTAAGAATAAAGAAAAATGCACCAAGTAGCGCAGCTCCAATAAAAAATCCAAATGCACCAGCCCAACCATAATTATCTATTAAGTAGCCAACACAAATGCCTGATAAGCCAGACCCAACATATCCCATTGTTCCAGCAAGGCCATTGGCTGTTCCAATTGCTTTTTTAGACGCAAAATCAGCCGACGCAACACCAATTAACACTTGTGGGCCATAAACGAAAAAGCCAACTAAAATAAGAGCTGTTGCACTAAAACCTGTATAATCTTCTGGCATAAACCAAAACATTGATAGTGCACAGGCCAAACAAATCATAAAGACGAAACCTACAGGGCCTCTTTGTCCTCCGATGCGATCAGATAACCAACCTGCTGCAAATCCACCCAGTAAGCCAGTGACTTCATATGCGGCAACTTGCCACCCTGCATGAACAAGATCTATACCTTTAAACTCCTTTAAAAACAGCGGCGCCCAAAAAATAATTCCAATACGTACAATATATACACACATATTTGCAAAGCATATATACCAGAGATTTCTGTTAAAAAATACTTTCCTAAATATCTGCATTGCAGTGAAATGATCTTCACTAGTATCTTCTTTAAAAGATTCATTGCCTTTATATGCTTCAACTGGCGGAAGACCTAGTTCTTTAGGAGATTCACGCAATCTATTAAATAAAATAATTGCAATACTTAAAGCAATTATGCTTGGCACGAAGAATGCATACCTCCACCCATAATTTGCTACTAAGTAACCTGAAAAAATCAATGTCAGAGCTCCTCCTACCTGATGTGATGCAGCGCCAAGAGCCCATTTAGTGCCAAGCTCATGCGGAGCAAACCAGTGAGTGAGCATTCTAGCTACTGGCGGCCACCCCATAGATTGAAACCAATTATTTGCAATCCAGAAAAAGCCTAAAAAATATAAGCCATTTGTAAATCCAAGAACAAAGGTAATTGCAGCAGAAGCACAAAGACCTATTGTAATAAAATATCGAGCATTTGACTTGTCACTAATATAACCATTAACAAACTTACCAACACCATAAACTATTGAAGCAAGAGTAAGTATGAATCCAAGTTGAGTTTTAGAATATCCATACTCTTCCATAAAAGCAGGCATAATCATTGAAAAATTTTGCCTACATAGATAGTATGTTCCATAACCCAAGATAATTGAAATAAGAATCCTCAAGCGCCACCTATTATAGACCTTCCTTTCTTTCATTGTCATAAAAGGTTTGTCATCTGCTTTATTTGTACCAGCAGTCCTTTTGCGGTCTATCGCACTTGCCATAATTTATATGAATCTTAGTTAAATCTTAGGAGCAGATATTAACTTCTAATTTTGCCATTTGCAAGGAATGTTTAATTAACAATGTCTAATACAAACCATTATAACGCCAGTTTAGGACAAGAGGCGCGCTAATTTATTGATTTTTTATTATTTTTACTACTCATTGTCATCGCGAAGGAGCTTTAGCGACTGCGGCGATCTATTTGTGGATTACTGCGCCCGCCTTCTGCTCTTCGTAATGACGCAGGTCAAGCCTCATTTTCCTATGGTCTTAAACTAACTCATACAATAGAAATTGCCAAAGAA
>sequence55
AAACTCTCTCATCAGACATTATCTTGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCATTTATAAATATTTTGCTCTTAAATAATCAGTAAAGATAGTTGGTTGGATCATATTGTGCCCTGTAGACGCTTCTAATAAATCCGCTGAATTTTTAGAATAACCATATCCACGTAAATTCTCAGTCAAATATTGATTTAAACTTTTAAAACTACCTTTAGCAATTTCTGCATCAATCGAAGAATTTGTTTCTTTTGCCTTTTTCATAAGCATACTAGCTATTATAGCTCCATTAGTATATGAGGGGAAATATCCTAAATAACCCGATGGCCAATGAAGGTCCTGCATACATCCATCTGCATCACTATCAGGAACTATGCCAAGATATTCTTGCATTTTACTATTCCAAAGTTCAGGCAATTCAAACGCACGCAAGTTTCCTTCAATAATTGCTTCTTCAATTTCAAAACGTAAAATGACATGCAACGGATATGTTGCCTCATCGGCATCAACTCTTATAAAACTTGGTCTTACTCGCGTAACTAATTTATACAAATTATCTGCAGAATATTCTGGACCGGAAAACGAGAACTCATCTTTCAGCATTTTAGCTAAATATTCCATAAAAGAACGTGACGTACCAACCTGATTTTCCATTATCAATGATTGGCTTTCATGGAATGACATCCCTTTAGGACCACCAACTGGCTGATTACGGTATTTAGCTGGTAAATTTTGTTGATATAATGCATGACCTGTTTCGTGAACTACACCAAACAAACTAGAAAGAAAATAATTTTCATTATATCTAGTAGTAATTCTTACATCATCATTTGACCCAATACAAAACGGATGAACGGATTTATCAAGACGGCCACAGTCGAAATTAAACTGCATTTGCTCCATTAGCTTAAGACCAATGGCTTTTTGTGTATTTTCATCTATCTTTTTTGATAATGAAATAACTTCTTCACTCTTTTGCTTATCCATAATTTTATTGATCAAGTCTGGGAGCTCAGCCTTCAGAGAGTCAAACACCATCTTAACTTCTGCACTCGTTCTATCTGGATCAAAAGTATCAACCAGAACATCTAATGGTGATTTTTTTAATTTTTCAGCTTTTAAACCAGCAACTCTTCTCACAGAATCAAAAACTCTATCTAGATAAGGCTCCAGCTTTTTAAAATCGTTTTCTTTTCTTGCTGTTCTCCAAGTAAATTCACACTCACTTGATGCTATTGAATGCTCATGCTGTATATCAGCTGTAAGACAGGTCTGACTATCATATGATTTTTTTGCACTTGCTAAGTTTGAACGCTGCCAGTCATCCAATTGATCAAATTCGGCTAGAGAGCCGTTGATCAGATCACCCATTTCATTACTTGTAGCCATTTCATGTATAACTGAAGAAAATGTAGCCATTTCTTTTTGGCGGTTTGCCGCAGAACCACTGCCGAGCATCGTTGCAGAATCCCAATGGGCAATATTAGCTATATTTCCAAGATGGGTAAGTTCTTCGAGCTTCTTCTCTAACTTTAGATAATTTTCAATTTTAGATGACATAGATATCCCTTATATAAATGTATTCTTAGCAATTGCTAGCTAATTCATGTTATAAGGCAAACTCATCTATAAATCAAAATATTTCACTAAATCTGCTGATGATAGTTTCTTGCGCTCATCACCAAACATATCACGAACAATTTCTCCGTGATACATCATAATTGTACGATCACCAAACTCTAGAGCTTGAGACATGCTATGAGTAATCATAAGAGCTGTTAAATTATGCCTTTTTACAATCTTGTTCGTAAGCTGCATCATCTTTTTAGCAATTTTTGGATCAAGCGCCGCTGTGTGCTCATCTAAAAGCAAAATCTTCGAACCAAGCAGAGTTGCCATAATCAAACTTAGAGCCTGCCTCTGACCGCCAGATAGGGATGCAACTTTGTCAGTAAGACGATTCTCTAAACCAATACCAATATCAGATAGGGCTTCTCTAAACTTATCCCTAGCAGCAGCATTTAGGCTAAGAGCAAGACCTCTTGATTCACCACGCTTCATCGCCAAACTCATATTCTCTTCAATAGTGAGGTCAGCAAAAGTACCAATCATTGGATCCTGAAATACTCTAGAAACCATAGAAGAACGATTCTCTGGTGACATTTTAGTTACATTGAGACTATCAATAATAACTTTACCTTTGCTTGGTTTAATATTACCAGACAACACATTCATCAATGTTGATTTTCCTGCGCCATTACCTCCAATAATGGTAACAAACTGGCCATCTAATACTTTTAAATCTATGCCCTTTAGAACATGATTTTCAATCTTTGTTCCTTTGTTAAAAATAACATGTAAATCTTGCAATTCTATCATATTGATCGAGCCCCGCTTTTCTTTCTAAACCTTGTCGCAATCATAGTAAGAGCAACAAGTAGAGCCGTAATTAAATTTAAATCAGATGCTTCAAGTCCAATATCATGGGCATTCAGCGCAAATGCAATTGCAATACGATATAGAATTGAACCAATTGCACAAGTAACCAACGCTACCCAGATTCTCTCCGGATGAACTAAAGCTTCACCAATAATCACAGATGCAAGACCCACAATAATCGTCCCTGTTCCCATAGAAATATCAGCAAACCCTTGAGACTGAGCAAATAAAGACCCAGCAAGCGCTACAATTCCATTACTGATAGCAAGCGCCACTATCTTCATCACTCCAACTCTAATACCATATGCACTACTTACCTTGGAGTTTATGCCTACGGCTCGAATAGCTAAACCAAATTCGGAAGCAAAAAAACGAGTTAGCTTAAGAATTGTTACTATAGTCACAAACAATATTACTAGAATTATTGACCAACTACCAAATACCGTACTCTCGTCAATAATTGCGATATTAGGTCTTCCCATAATCCTTAAGTTTATTGAATATAAAGCGGTCATCGTCAAAATACCAGCGAGCAAACCAAGTATATTCCATCGGACATTTAAATATCCAGTCACAAATCCAGCACACGCCCCAGATAATATCGAAACAATTGTTGCTATATATGGGTTATATCCAGCAAATATCATTGCAGAACTCACAGCAGCACCAAGAGTAAAGCTTCCATCGACTGTAAGATCTGGAAAATCGATTACTTTAAATGTTATATATACTCCAATGGCAACAAGTGAGTAAATCAGTCCGATCTCTACTGCCCCAAGAAGTTGTAGTTGATTCATTTTCTCTCTCCTAAATTATCAGGTATTTTTATTGAGAACTCTTTTGCTAGATCCTCATTTATTTTTAATTCTTTAATTTTCGTATTTTGAATATTATCCTTTATATCAACACCCTCAATCAAATCTGCAATCATATTCCCAAGCTGCTTACCACTTTTAAAGTAATTCGAACCAAGAGCTACAAATACACCTCTTTGCACTAACGTAGGATCATTGGCAATTAGAGGAATTTTATTTGCTTTAGCAATGCTAGCAATATTGTCTAAAGCAGATACAACCGAATTATCCTGTGGAAGATATATTAAATCTACTGAAGAAACCAGCTTATTCATTGCAGTTTTTACATCACTGGAGTTAGCTATCGACGCCTTTTTAACCTTAATATCAAAACCAGATAACACTTTTTTAAGTTTTTCAGACATTTTCACTGAATTTATTTCACCAGTATTTGAGATAATACCTACTGTCTTTAAATCAGGAAAAATTTTCTTTACAACATCAACTAGTTCAGCAATTGGCGGGTTATCGCTCACTCCAATTACGTTATCAACGCCAACCAAATTAGCTGCAGATGGATCCGTTACTGCAACAAAAGCTAGTTTTGAATTCTTATTCTTAGCTTTTAGATTTGTTTGCGCTGCTGGAGTTGCAATTGCAATCATAAAATCTGGAGATAACGATGCATGATGCTTTGAAATCTGCACAGAATTTGAAATATTCCCCTGAGCATTACTAGTAACTAATGCTGCTCTGTTTGGTATAATTTCTCTGGTTTTTAAAGATTCCATCAAACCATCATATGCAGCATCAAGTGCAATATGATTTACATATTGATTTACTGTGATTAGTATTTTATCATTTGCCAAACCCGAGCCTATAAAGCTCAAAAATATAAATATAAATTTTACTAAATTACTCATCACTTTAAACCTACAATATCTGTCTTTATACCCAATATTTCTTCTGGAGTTTCAAAACCCATAATTTTTGCCGTTTTTGCATTAATAAAAATTTGTGCTTTAGCTGGCTTTTTAACTTTTAAATTTCTTTCTCCATTAAACACTTGCACAAGAAGCTTACCAGCCGTTCTCCCAACTTCATATTGGGTATAACCAATACATGCAAACACACCTGATTTTACAGAGTCTGGATCACTTGAAAACACTGGCAGCTTATATTTACGAGACATCTGCACCAACTTTGGCATTGCAGAATATACAACATTATCAGATGGAATATAGATTGCATCAACCTTACCGATCAAGGACTCTATTGCCTGACTAACTTGATGTGAACTTGCTACTTGCGAATCAATATAATCAATTTTACCTTCTATTGCTTCTTTCATAAGATCAATAGTTTTAACTGAGTTTGCCTCACCAGTACTATATAAAAAACCAATTGTTTTTATGTTTGGAATATAGTGCTTTATTAAATCTATTTCCTCTTTAATTAGCGGATAATCAATAGCACCTGTTATATTTTTCTTGGCCTTTTCCATATCAGGAATAAGACCAGCAGCAACTGGATCAGTTACAGATGAAAAAACAACTGGAATATCTGTACCTGAAACAGCTTTTATGGTACTTTGTGCTGATGGAGTGGAAATTGGTATAATCGCATCAGGCTTTAACTGCACAAATTTCTTAGCAATAAGCATTGCATTTGCAATTGCACCTTGTGCATTTTTATCGATGATTGTCAAGTTCTTGCCTTCTTCATAACCACTATCACGAAGCTCATCAACTATCCCTTGTTTGGCTTGCGATAAAGATGGATGCTCAACAATTTCTGTAATTGCTATAGTTTTAGAATCAGCTGCTATGCTAATATTTGTGTAAGATAATAAACTTAAGAAAACTAATACAAACAATAAGCACAATTTCATTATAATTGCGCTCGAAGACTCTAGTAAAGTTTTTGTATTTGGTTTAGTTGGTTGCATTTTATTTTCCTATTCGATTGATTTAATTTATTTCCTGATAAATGATAGGCATACGCTGAGTTGCCATAAAAAAACATGGTGAATTGATAATATGAGCTAAAGCCCATAAATCGTGCGAACCCGAATAGGAAAAAGTTCTTAGCCATGTTTAGTAATGATGTCATTTATATAAAGACTTTGTAAATTACAATCAGATGGAATTCTAGCTCATATTTAAACAAGAGTCAAGATCCTTGAATAGAAATGCAATTTATAATCACTAGCCCATGAGTATAATAGGTCAACAATCCATAGCAAATTAATACATACTACTAATGCTTCAAACCAAATACAAATAAAATTACCCGAGATTCTTGAAAATATTATGTTTTAATCGTATTATCTTGAGCTTACTAACACAAATTTAAAGCTTCATGTCAGATAATAACTACTATATTACCACTCCTATTTTTTACGTAAATGACGTACCACACATAGGTCATGCATATACTAGCATTGCATGTGACGTAATCTCCAGGCATATGCGATTATCTGGCAAAAATGTAAAGTTCCTTACAGGCACGGACGAGCATGGGCAAAAAGTTGAAAAATCAGCTGAAAAAGCAAAAATCTCTCCGCAGGATTTTGCAGACAAAACCTCTGAAGCTTTCCGTCAAATGACAAAGAATTTAAATCTATCTCATGATGATTTTATTAGAACCACTGAACAGAGACATAAAAAAGCTGTTCAAAATTTTTGGCAAAAACTAGAAGATAGCGGAAATATTTACCAAGACAGCTACTCTGGATGGTATTCAGTACGTGATGAAGCATATTATTCCGAAGATGAACTCACTGAAGACGGCCTAGCCCCGACTGGAGCACCCGTTGAATGGGTTGAAGAGCCAAGCTATTTCTTTGCACTTTCTAAATGGCAAGACAAGCTACTTGAATATTACGAAAACAACCTAGATTTTATATGGCCGAAATCTAGACGCAATGAAGTCATAAGCTTTGTTAAAAACGGCCTGATTGACCTTTCCATCTCAAGAACTAGCTTTAAATGGGGAATTGAGGTACCTGGAAATGAAGAGCACGTAATATATGTTTGGCTTGATGCTCTGACTAACTATATTGCGGCATTAGGGTATCCAGAACAAACTGATGAGCTAAACAATTTCTGGCCAGCATCTGCACATGTGGTTGGTAAAGATATTTTACGCTTTCATGCTGTATACTGGCCTGCATTCCTAATGGCAGCTGGTATGGAACTGCCAAAGTCGATAGTTGCGCATGGTTGGTGGACCAATGAAGGCGAAAAAATATCAAAATCACTAGGCAATGTCATCAGTCCATTTGACTTAGTCGAAGAATTTGGATTAGACCCTGTAAGGTATTTCTTGATGAGAGAAGTCACTTTTGGCAATGATGGGAATTTTTCCAAAGAGAATTTAATCACTCGTAATAACAGCGAGCTAGCAAATAAAATTGGCAACTTACTTCAAAGAACAAGCTCTTTTGCGTATAAACATTGCGAGCAGAAAATACCTACTGTTGATACTTCTTATATCAATACAATATATGATTCAGAGTTATTTAAAGAAATGATTTCCTTAATAGAAGAAAATAATACACACATGGAATCATTTAATATCAACAAAGTGCTTGATAATATTATCCATATAGCAGATCAAGCTAATGCATATATTGATGCAGAGGCCCCATGGTCACTCCGCAAAAGTGACCCAGAAAAAATGCAGCAAGTGTTATATAGTCTACTCGAAATTTCTAGATGTCTGGGAGTAGTATTGCAAGCATTCATACCTGATGCTGCTAGCCAAATGCTTGACCAACTAGGAATTGACAGAAACCAGAGAAGTTTTTCTAATTTGACTAAAGAATTTGCATTAAAACCAGGATCCAACTTGCAAGAACCAAAGCCAATTTTCCCAAGGTTATAAATATGATTATAGTAGATTCACACTGCCATTTGGACATGCTAAAAGACTATGACAGCACTGATAATATTGTTGCTCGGGCAAAAGAAGCTGATGTTCAATACCTACAAACTATCTGTACAAGGCTAGATAATTTTAAACATATTCTTTCTATTGCAAAAAAATATGATAATGTTTTTGCTTCAGTTGGTGTTCATCCTAGTGAAGTCGATGAGGTAACGCCAGCTGAAAAACTTATAGAACTCGCCGATCACGAAAAAGTCATTGGCCTTGGAGAAACTGGTCTTGATTATTTCTACAATAAGGCGGAAGAGCATCAAGAAATCCAGCGCGAATCGTTTAAACAGCATATAATTGCTTCACAGGAAAACAACCTACCAATTATTGTACATACACGCGATGCAGAAGATGATACACTAAATATCATCAAAGAATGTAAGAAAGCTCAAGACTTCCCAGGTCTTATTCACTGTTTTACTGCATCTAAAGAGTTTGCTACCAAAATGCTGGATCTTGGGATGTATATATCGATTTCTGGAATAGTAACATTTAAAAATGCAACTGATCTTCAAGAAGCTGCGAAATTTATTCCACTAGATAGGATATTAGTTGAAACCGACTCACCTTATTTAGCTCCCGTTCCAAAAAGAGGTAAAACTAACGAACCTTCTTATACAAGATATGTTGCCGAATTTATTGCTCAATTGAAGGGAATTGATGTAGAAGAAGTGGCGGAACAAACTACCAATAATTTCTTCAACTTATTTTCAAAAGCTCAAATTAGCAACTAAGGGCTGGTGATAAAGTTAGTTTTTACACTGAACCCAAAGCCATGGAGAGCGCAAACACAGCTATACTGCAACTCAAAAGGGCTAAAAGCGACATAACCATCTATAAGACCCTTGCAACATACTAATATATGGCAACTACTAGATTGCCACGCTTTGCTCGCGATGACGATGAGTTAGGGTATTAGGCGCTGCTGGTAAAGTTAGAATTCCAGGAGATTTCAACGAAAATTAATTTATCTTCTGTGTAAAAGTTATTTTATCAGATAATAAATTTTGGGGCTGACACCTAATAATTCTCTTTGAGGATTTTTTTAAGATCTTCAAGGAGATATTTTGGTGACCCTATATTAAACCTCCATTCACATTCTTTCAAGAAGAGATTGAAATGGTTTCTGGGGATTCCATTAAACTTT
>sequence56
GACCGACTGACATCGCAAACTCAATGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGTCGTTAAAAGAATATCTTATCCACGTCTTGTTGTCTTGTGCTATGATGCGATAATGACTCTATCTATTATGAAGCTTTCTTTAAAACTATAGTTGGGAACATTGCTTGTTTATCATAGATGATATTTTGTACTTTAAAGCCAGATTCTTCAAACATAAGTATTTTTTCTGATTCGGTTCGGTATGTTTGCCAGGCAACTTCCAAAATATCAGCAAAAATTGCTTTTTGTTTTATTGCATCTTGAGTGGAAAAGTCCCTCCAAGGTGATTCTTCTGACATTTTTGGGTTAGGTGTTAGGAAGCTTGTGATTAGATATCCATTTGGTTTAATTGCTGTTGCGAGTTGGATATATAGTTCACATAGTTTTGATCTATCTGGCTCATAAATATTAAGTCCATTGCTTATTATTACATCGTACTCTTCTGATATATCGAGGTCCCAGGCGCTTCTTACTAAAAACTCAGTTTGTGCGCTAGTATTATATTGTTGAATATTTTGCTCAGCTAATTTGAGTGATTCTTGATCAATATCAATACCCGTTAGTTTGATATCTGAAAACTCTGAAAAATCCATTGAAAGTAGGTCATCCATTAACCCACAAGGAGTAGAAGCAATATTCATATTGTCTTTAAGCAGTTTTTTTAGTTCTGTTTGAAATATAAAAAACCTTTCACGAGTTGCGACTATTATGGGTGAGCTATTTAACATCCATCTTTCTAATGGATGTAAGTTAGATTTTTTTATTCCATTTAGAATAACATACGCTGTCCAGAAACCATTTAAGCCTTTATTAGAGAGTAGGAATTTTCCTAGATCAAATTCTGTAAGCTCTTGAAGCATTTCTAAAGTCTCATTAAGTGGTAAACTTAGAGATTCCTTCTTCTTTTTAATTTTTTCTTCATGATCAGCAAAAACAAATCCACTATTTAGTGCATGACTAATGATTTTAGAGTTACTAGGCATTAATTTACGCTACATTTAAATATCTAATTTGGTTATATCCTAGTTTGCGCGCGGTTGTAAAGGCTGAATAATCATCGTAAGCATTAACTATAAATCCTGATACTTTATTTGGAAATTCTTGTTTTAAAGTTTTAAAGATATAATCAATTACTCTCATTCCGTAATAACGTGTGCTGCCAGGCGGATTTGATAGGGTTATACGCTCAGTTGCCTCCATTAAAAACTTTCTTGCTGAATTTAGGTTTTCAACTTCATAAATCATATTTTATAAACTCCTTAAAACATTTGTTACCACTCCCCAAATATGAACTTCTGAATTTTCTAATATTGGGATAGGCTCAAAATTTGCGTTTTCAGGTAGTAGAAAAGGCTTGCCACCTGTGTAGCCTAAGCGTTTTACAGTTAGCATTCCATCAAGAGCAGCAATTACTATCTTACCTTCTGCGGGTGTAATACTACTATCTACTATAAGAGTGTCACCTTCATAGATCCCAGCATCAATCATGGATAGTCCAGTAACTCGTACGCAGAATGTAGTATCAGGATTACGTATTAATAAGCTATTCATATCAAGCATATCTTCTATATGATCTTCGGCAATAGACGGATTACCAGCTTCAACCTTTGAGCTGAAGAATGGGATTTTATATCCACCATTCATTGAATAGTCTTTTACATCATTAACCAAATATTCTGGTACTCTGATCGCTTTTGTTGCAGTCCCATATTTTCCCTGGCCTTTAGGGCGTCCAGCACCAGCCCTTTTTCCTCCATGATTCATAATTTTATACCTTTTTTGAAAATTCCTCTTGAAAACTGTACAATTATTTTATAGCATAAATTTATGACGATAAGCAAGCAAAAAATTTGATTTGTTTTGAAAATAAAAAAAGAGGTGAATATGTTATTATCAGAAAATATGAACACACTAACAAAAGATTGGGCGCTTAAGAGAATAGGTCGTACTCCCATTATCAAATCAGATATATTCACAAAATCTAAACTGAATAAAATAGAGAAAGTAATGCTGAAATATAAGGCCATTATTTCTATAGTATTTTTATTATTAACACAATTTGCACTTTACGATTTTGATGTAGCTGAATATACGACAACTAATCATTACGGAACTAATGCTAAAATTGAATCAATAGAGATGCCAAAGTTGGAATCTCTATCAGTCTATAATTATAACTAAATATATTTGATTTATGGAGTTAAAGTTTGAATAAAGATATTGATGAGTTTCAGGGAAAATCTATTCTGATGGGTCGAATAATCAGTTTGAAGTTGCAAAAAATATAATTGCTAGTTTGAGTCTTGAAGGCAATGACAAAATTCTTGATATTGGATGTGGTGATGGGAGAGCTTCTGCTGAACTTGCTATGTTAGTACCAAATGGAAGTGTGCTTGGTATTGATATATCATATAGTATGATCAGATTTGCTGAAAAAAACTATGCTAGTGGTAATTTGCAATTTCAGCAACAAAATGTACTAGACCTCAAATATATCAAGAATTTGATACCATAGTGTCTTTTACAGCGTTACACTGGGTTAAGCGTCAGAAAACTGAATTACAAAATATATATAATGCTCTGAAAATAAGTGGTAAGTTTGTTGTTAGAATTCCTGGCAAACCTTGGTGGGTGCTAATATTTTTGTTAAACTCATCTCAACAGATAAGTGGAAGAGTTACTTTGAAAATTTTGTAAAGCCTGGAGTGAGTTTGGACTCGATGAGTATATAAGCTTGCTTCAGAGTGTAGGTTTTAAAATTGAGTAAGCTAGTATGAAAGAGAAGAGATATGGTTGTAAGATTAACGAGTTTCGTAAAATGAATGATGCTATTTTTGTATCTTTTATTAAAAAATATATTAATAAAGATTTATATGCGGAGTTTATTGAAGATTATATTAGATGTTTTATGGAGCACAATAACCAAACTGAAGAAAATATACAATTCCCAACAAATTTGCTACAAGTCAGTGCCGTTCGTACAAGCTATTAATTACTATCATAATTAAAGAAATTTCTTTAAACTGAAATCTGTAATTAATTATGAGTAGAGTAATGTCAAAACAGCTAGAACAAAAAGAAGATGAAGGTTTGATAGGAAAAACTTCATCAAGATTAGAAAATTAATTGCTTTTAAAAGAATTTGAGTTAATGCAAGTGCTTTCCTTAAAAGGAATAAAAAGAATGATGGAGACAGGAACTCTGACTATGGAGAATTTAGAGATGCTCTCATTAGAGCTTTCTGCATTTCATGGATTAACTCGGGTGATGAAAATCCTACTAACTACGGGTGGAGCTGATGTGAACAGAGTTAATCCTAAGACGGGTGATACTGCTTTGCATTGGCTGTTTGAGCAGATCAGGTTGCAATATGATAAGCTTACTAAAGCAGCATGGAGCTAAGTCAAAAATTAATAAAAGGTCAGAAACTCCAGAAAAAATAGCGCTGATTATAGAGAATGAATCAGTCCAAAAATGCTTAGGATGCTTTGTTGCTGATAATGATGAAGATATTGTAGAGTTATTAGGTTTGGATGGAATTCAAGGGCTGGACGATCCTGATGTAGGCGCCTAGTTATCTACTAGAGTATAAGATAAGTATTTGAGAAAATAGATTCTAATGAACTTCTTTAAATTAGAGGTATTACTATTATATATTTACAATTTAACTCCTTAGTTTCAAATTCAGGCTCAGAAATAATAAGCAAAAATCATATTTTAGTATTTTAAACTATTATTTTGGTTATAGGACTTAAAGAGTATCAATCGGACTTTATTTTAGCTAAAATATTCTCAATAGCACTTACTACTTCTTCGCATTTTTTCAAGCTAAGAGCATCCGCATGAGGAGAAGAAAATTGTCCTAAATCATTGTCAAAATATTTACCTGATACATTGGCAAATTCCTTTTCTAAAGCGGTTCGAACGAGTATGTTTGCACCTATTTGAATATCATTGCCATCTAGACCAAACCCCTCTTTTACCATCTTTGTGGCAAGTAATGATCCGGGATTAACAGCAATAAAAGAGGGGCCTTGTTTGAATAAATTCGCCATAGCGAATGACCACATAGTTAGTGCAAGTTTGCTTTGTGAATAAGCCGGCATATTGTCTAGACCTCTGTGCTTTGCAAGATCTTCTAAATCTACGGTAGATTGAGCTGCTGAAGATAGGTTAATGATCCGACCTTTTTTATCAAACAGCGGCAGAAGTTCTCGAGTTAGAAGGTATGGAGCAATCGTATTAACTGCAAACCTAACATCTAGACCATCTTGCGTTATGGTCTCAGGCGCTTTCAGGATGCCAGCATTATTGACGAGAACATCTATTTTATTATGTTTTTGGATTACTTCTTGAGCAAAATTTTCTACGTCAGATATGCTTGATAAATCAGCTAAATAGCTTTCAATTTTTCTATCGTTAGATAGAGGAAAGAGTATTTCTTTTGTTTTCTCTAATTTTGCTGAACTACGACCATGCAGTAAAACAAAGTGTCCCAATGAAACTAACATTTTTGCAGTTTCTAAGCCAATGCCATCTGTAGAACCAGTAATCAAAATAGTTTTTTGCATAGTTTTTTCTCTAATAAATGTATAGAAAAGTATGTTCAAAGCTTTGTTACTTTCTTGCTGTAAATAATAAGATGCAAATTTTAATTAGCAAAGACTATTAATAAGTTCTGAAAAATAGAAGCCTTTCTTTGTGTCAAATCGAGGCTTCTATTGATTACATATATTCTATTTTCTCTATAATATAAGGCATGAAACTCCACAGAAAGAATTATCTCGCGAAAAGGCAGAATCGCCTGATATATCAACCTCTTTTTCTTGATCTTCTGTTACTTGATCAGTAGCAGTAGTTATTGAATTTATCCCAGATTCACTTATTATATCAGTTAATGATGAAGAGCTGCTTGTTCTTTCTAAATCGTGTTCTGGTGCATCGGTTGTTTGAATTGTAGAGTCAGCAGTAGCTTCTGGTTCGGATACGCCTCTACTATCTCTTGGATCATCTGTTGCATCAGAAAAGCTAAATGCCTTCGATCGTATAAGTGGTAATGGGCCTGGAAAGTTTCGAGAAGGAGCATTAAAATCCATTGATAGACTCCTGGATAAATCATCTCTTACTAGTGGGCTAAGACTAAGATCTGTATCCGGTGAAAATGGCTGAAAATGAATAATTGGAAATTTTTGTGTTTCCGGAGGAATATTTAGAGGAGGTAGTTCGGCCGGATCAAACCTATCACCTTCAGATTCCTTTTCCATAGATTTTTTTCTTGCTTGTTCAATGCAAGCTTTTAGTTGAATATTTTCTTTTTGTAAAACGGATAATTTATCTTGTATTTTTCTATATTGATCGTCTAATCTCTCTAGACCATAATCAAACTCATCTAAATCTTCATCAGTATCTGGTACAAGTAGGTGTGGTGGATCAGTTACTACTAATCCTAATTTCCCAGATACAGTCATACCGATTGTTTTAGGGATATACTCATTGTTGTATAAACTTTGATTAGTGGCAATAAGTTTTCCTTGAAATTTTGTTCCTTCAGCAAATGTAACTTTCTTACCTGGTGCAATTACATAGTTTTTATCAATCTCACCACTTAATTCTAATCTATTACCTGTACTATCTAAATAACGTATCTTCATAACCTTTTCCCCCAGAATTTTAATTGATTGATACAATAAAAAATTGTAAAGGAATAATAACTAACAATTAATTAATAAAAACGTAGAAATTAAGAAATCAGTCTGGGTACAAGATAATTATGGAGAAGTAGACCAGAATTAGTTAGTCCAAAATTAGTACTATTCTTGAAAACTAGATCATTTTTCTGGAAATGAGTAAAGTTCTTTTTGTTTAGTACATCATCAAAATAGATACCAGTAAGCTTGCTAAATGTATTGAGATTCATCCCTTTTTTCAATCTTGTTCCCATCATAACTATTTCTTCAATTAACTCATTTTGTGATAGAGAAACATTAGTTTGAATTCCATGGTTTGTTTGGCTAACATTTTTTAGCCATTTCTCTGGCTTATGAAACATCATTACTGACTTCACGCAGTCATTATCATGCAATCTGCTATGTGCACCGGGTCCGATTCCCAAATATTCATTGTAATTCCAATATGCAAGGTTATGTATGCATTCATTTCCAGATTGCGCGTAATTTGAAATTTCGTAGCTATGATAATGCTTTTCCTTTAGAAACTCATTTGTCCATTCATACATATTGGCTGAAGAGTTGTTAGAAGGGAGTTGCATCTGTCCTGATTTAAAGATTTGATAAAACGGAGTGCCTTTTTCAATTGTTAGCTGATACAAAGAAATATGGCCATTTGCAAGTTCTATTGCATTACCCAGCTCGTTCTTCCAGTCTTCTAGAGTTTGATTTGGTATAGCGTAAATCAGATCAAATGAATAGCGCTCAAATATTTTAGAAGCTGATTTAATAGCTGATATTGCTTCATCCTTAGAGTGCTTCCTTCCAAGTACCTTAAGCGCTTCAGCTTTAAGAGATTGAACTCCAATAGATACTCTATTGATTCCAGCAGACTTAAATTCCTTGAATTTTTCTGTTTCATAAGATGTTGGATTTGCTTCAAGTGTAATTTCAGTTGTGCTTGATATTAATCCAATATTTGATAGCAGATCTATGATGCTTTCAACTGTTTTGGGGCGCATTAGAGATGGTGTGCCGCCGCCAAAAAATATTGATTGTATTTGTCTTCCGGACAGTTTTTCTTTGAAGTAGTTTATTTCTTGTTTATATGCATTAAGCCATAAATCATGATCTATTGTTGATGCGATATGTGAATTGAAGTCACAATACGGACAAAGAGAAAGACAAAATGGCCAATGAATATAAACAGAAATTGGTTGCATAATTGTTGCCTAAACAAATAGATGTAGTTATTGAAATGAATGTTGCTCAGGCATTCTCTAGTCAATATTCTTCTGCTGACATTTAATATTCATGTTTACTTCTTTTACAGAAACAATACCATCAATAGCAGTTTTAATTGCAGAAATATCTTTTTTATCTTTTACATCTCCGAAGATATGAACAACTTTATTAGTTGTTTCTACATGTAAGTTATAGCCTTCAGAAATGTGTTTATTTAGAGATAAGTACTTAATTCGACCTTTGGCTTTTGCAGTAATTAATGAGTCTGCAAGAAATTCAGAGCTACTACGTACATTTAATTCTTTAGTATCTACATCAACTACATTTTTAACACTTGAAGTAAGTTCAATAATCTTATTTTCTTGCAGTCTAGTATCAACCGTGCCACTTAAATGTACGACACCATCTTTTGTTTTAACTTCAATTTTAACATTTGGAATATCATTTTCTTTTACAAGAAGTTGCTCAACTAGCTTTGTAATAGATTTATCATCCAATGGTTTAGCTGCAACATTAAATTGAAATAATAGTACAAGAGATACAAATAAGATTCTTGATAAATGCTTCATTTTTTACCTTTTTTTATAAATTGAATAAATACATAGTTATGCTAAATAATATCTATGCATACGTCAATAGATATAAGTTAATTGATCCAACAGAATTAATAATCGTTCCAGAACTTGATATAAGAGACTAACCAGAAAAGCCATTTATTCTTTAAGTCAGAAATAGTACATTACAAAGTTATTTGAATAATGATAGAAGCATCATTACTAAGATAAACTGCAAAATTGAGACATTACCTATCATTCTATAGGACATTCATTTGGTCCAGTTCGTCTTCCTAACCAGTCAACGGGATATGTATATTGTTGAATCCTTCCGCCGCAAAGTTTAAAACATTCTCGATAGGGTGGTTCACATATTTTGCTTTTTGAGCAAATGTCCGAGTTATCATGGCAGTGTTTATAATCTTTAACTTCATTATAGTTTTTTTGGCAGCGATATAGGTTTTCCTTAGCCTTATTAACACATCTTTGATATATTCCCTCTTCTTTCTGAACACATGTTTGCTTTTGAATTTGGCATTTCATAACACACTTGCGCTCTTTATGATTCTCTGGTGTTACCTAGTTATATTCAGTTACTCTTGATGGTCCACATGCAGCTAATGCTAGTAGTGAAATTATTAGTAAAAATAAGTTTTTATTCATATTTAAAATTATTATCTGAGCTATCATGAATGATAAACCCTTGAACGGAAAAGAAACTTGTCGAGCTGTTCTTAGTTCGGTACCTTACGAATCTTGGGGGAAGATGCATGAAGTAGCAAAAGAATTA
>sequence57
GATGGGATCTAATACCGAATCAAAAGCAGAAGGAAGGGGGGTAGGCCTAGCGCTATGCAAAGCCGCCATCGAAGCCCACGGTGGCGCTATAATAGTCGAAAGCGATGGAGTCAACGGAGCTAGGTTTAGGTTTGTTTTATAAGTGATGATTGCGTTGTTTGTTTTGGTCTAGAATTTAAGAAGTGTATGGGTTTTGTTATCGCAAGCAGGAGCCTTAAGAGTATCAATTAACTCTACTTAAACTTTATTTAGGATCTAAATATTAGATTGTGGTGTTATTCTTCCTTTACTGATGATGTCTGTATCGTCATAGCACGCGATTGCGCGGCTATCCAATATTGTGGCTATGAAATCGAATATATCTCCGTGTTGCCCCAATTCTCCTTATGGGCGATTGTAGTAGTGTAGTGAATATCAACAAGAAGCATTATAGTAAGGAAAGGAGCGGTTATGTTAGTACTACAGGTGATGGGAGAGTGAGTGTTAACATAATCAATTGCTGCTTTTTCTAAAATTTCTTCGTAAGTGTCGGGAGATATAATGAATGTTTAGAACGAAATACATTGAGGGGTGAAGGTGCAATATTCTTATCAGTTATTATACTTCTAAACAAGTGAAGAGAATTTATCCAATGTGAAAACGAGTTTACTGTGAAGTATTGAAAAATAGACTTCTATAGTTACTTCTTTGTTTCTTCTAAGCGATGTAAGACTTATATTACGTCATCGCAAACGAATGTGAGTCGATCCATAGTAACAATGCTCTAAAATGGAATATATAATTAATAGATTACTGGATCATTATAAGACTATCTCCAGACTATTACTTTTAAAGGTTTAGCTATTTATTGCTTTTCTAAAAAAGTACTATATTGATACTATTCTTCAACAGCTTCTACAGACTGAACTTCTGGTACAAAATGTTGAAGCATTGACTCGATACCATTTTTTAAGGTGATCGAAGAGCTTGGGCAGCCAGAGCACGCACCACGCAGTTGGAGATATACCACGCCATTCTCAAATCCTTGATAGATTATGTCTCCACCATCCATTGCAACAGACGGGCGTACGCGTGTTTCAATTATTTCAACAATCTGCTTTTCAATATCCCCCATGCCATCAGTATCGATTTCTGTAAAGACATTTTGTGGTTCGTCGAATATAGGCATTCCTGCAACAAGATGATCCATGATAATCATCAGAATTTCTGGCTTAACTGTATCCCAGTTTGTTTCATCCGATTTTGTTACAGTAACAAAGTCATTGCCATAAAATACAGCTTCAACACCGCCTATTTGAAAAATTTTTGCAGCTAGACCGCTTTTTTGTATCGCTTCTTCATTGCTATTAAAAAACACTGGTCCAGAAGGGCTAATTTCAGAGCCTGGTAGGAACTTTAAAGCGTTTGGATTTGGAGTTTCTTCGGTTTGGATAAACATTACATCATACCTAGAAAAGTTTTTTAAAATGGTACCCGCGGCCGGACTTGAACCGGCACGAGCTAAGCTCCGCAGATTTTAAGTCTACTATGTCTACCATTCCATCACGCGGGCAGAGCACTTTAACAAAATTTGCATACAGCATAAACAATACTATATACAGATGGGTGAACATTAGAATAATTCACGAAAAAAGGCAAGCATTTTATATAATATTTATTCGCATCAAAATAGAATACTGCGATGAAGTGTAAGTAAGGCAATGCTAAATAAGTATAGATATAGCTTCCGAAAAGAAGCAAGCTGCTGTTAAAAAATAGGTAATTATATGGAAAGAAGTAAAGGCTGTGGTAGCAGTGGGGTGGTAAGAAACGGCAAGACAAGACACGGGAACAAGGGTATAAATGCAAAAATTGCAGTAGCAATTATAGCGAGGGAGATGGGAGGCCAAAACATAGTATGGATAAGCGCCTAAAGTTAATCAAGATGTACTTAGAAGGTGTAGGAATAAGGTCAATAGCAACGCTGGAGGAAGTATCAAATCCACTAATCATATATTGGATAAGACACTTTTCTTCAATAATACGAAAGGAGTTGAATCGTATTCCAATTCCCGATACTCATCAAAAGATAGAGATTCTAGAAATAGATGAGTTGTTTACTTATTATAAAAAAAGACCAAACAAGCGTATGTATGGCTTGCTATTGACAGAAACAGGAATCAAGTTGTTGACCTCCAAGTAACGAAGCGCAGGGATTTTTCTTCCTATTTCCAAATGGCGACGCGTATTGAGAAACTTACAATATAAAAATCTTATGTACTGATGCTTACGAAACGTATAGCAAATATAGAATATCCCAGCAACACTCTACTTCGAAGGCTGAGACTGCGCTTGTTGAAAGCAATAATTCACTGATTCGTCATTATCTCACTCGTTTCAATAGAAGGACTAAGCGCTATTCCAAAGCTTTCGATATGATTGAAAATTCTCTTGTTGTTTTTTAACAAACATTTGCTGTCTATACTTTTAGCATTGCCGTAAGCAAGTAGTAATTTTACTGGATTATTTGAAAAATCTTCAATCTAAAAATACACGATTAAATAATTAATAAATTAACTTTTAGTTCGATAAAATTAGTAAATTAGTCGTGGTCATTGTATTATTTACATACAAATAAAAAATATAATTAAAATATTTATTTTTCACTAATTTACTTAAGTTATTCTTAACAATTTTTTGCGTACTCTCTAAATAGCTGGCACAAATAGACTCGAGAATTTGTGTTTTGCGATTTTAAAATAATTTAATCAAAAATAATGAGAGGTAATTATGAAGAAAAAGACAATAGTCCAAGAGAAATTAGTTAATGTTCACAAGTTCAATTATGACGATGTGAAGGATGACTTAAAAGGACATTTTAATGAATTTATGAAAAACCCATCTAAATTTGGTGTCAAAGAGCCAAAGTTGATAAAAGAAATCCAAGGGGTTAAAGGGCTATCTAAGCATTTCATGTGGAAGCAATTTAAAAAAGAAGTAAAGCTAAAAATGGAAGATTTAGCTCAAAAGGAAGCGGCCTCAGCTTTTATTATTGATTTTGAACAAGATAAAGATCATCAATTGCTAACAGTAAAACAACTTGAGAAGATTTTAGATGATCCGGAGAATCCAGACTTTGCATTAGAAAGTGATATGATTGATTATATTAATGGTAAGAGTTTTGATAAAAAGTCATTCATGAAGCATGTAATTGCTTTAGACTCAGATCTTGAGGTTGATGAAAGTGATCATGAAGGGATGGGTGTAAAAGTGCTTAATTTCCTGAAGGGGTTATGGGAAAAAGTCTTTCCTATTATTGATAAAATCATTGATACTTTAGTTGATCTTGGAACGGTAGCTCTGAAAAATGTTCTGGAAAAGCATGTTCCTGAAAATCTAAAAGACGTTGTAGAGGAAGTGGTAGATAGTGTTGGGGATGGTGTAAAAGAAGTAGATGATTTAGTAAATGATCTAGTAATTAGCACTGTTGATACAAAAGAAGAAGTTGAGGAAAAAGAGGTAGATATTTCCGGAGATAATCCTGTTGAAGAAACTATCTGATAATTTTATTATTTTGTTTTTTTAATATTAGAAAAGGCCATTCTTTGATTATAGAATGGCCTTTTTGTTCTCTTTTTATAAATTAACTATAAATCAGAACTTTAGTATTATCTTAGACAGCTTCTTGGGCATCTTCTCCAACAACTGCAACAGCTTCATTTTCAACTGCTGGACCTTCGCCACCACCAACGCCAATTGCGTCTAGACCAGCATCAATTCCTGCATCAACTGCATCTTCTACAACTCCACCTAAATCATCGGCAAGATCCCCACCAATACCTCCTAAAGCGTCAAGTGCAGCGTCTCCGACAACTTCTCCAGCATTATCTGCTTCAACTACTGCATCAACAACTTCGTCTAGCTCTTTTGCTGCATCACCAACGTGATCTATTGCATCATCAACAACATCCGCTAGTGCATCTGGAACGTGTTTTTCCAGAACATTTTTTAGAGCGGCTGTTCCAAGGTCGATAAAGAAATCTAAAACTGCATCGACGAAAGGTGCAATTTTTGTCCATAGTCCTTTTAAGAAATCAAGAATTTTACGACCAAATCCTGCGTGTGCATCTTCATCTACATCTAAATCAGCATCAATTGCCGCAACATGTGCGATAAAATCTTCTCTCTCAAAATCTGGGTCTAAGATATAATCAATCATATCACTTTCTAATGCAAAGTCTGGATTCTCCGGATCATCTAAAATCTTCTCAAGTTGTTTTACTGTTAGCAATTGATGATCTTTATCTTGTTCAAAATCAATAATAAAAGCTGAGGCTGCTTCTTCCAGAGCTAAATCTTCCATTTTTAGCTTCACAGCTTTTTTAAACTGCTTCCACATAAAGTGTTTAGAAAGTCCTTTAACACCTTTAATTTCTTCAATTAGATCTGGATCCACAACGCCAAATGCAGCTGGGTCAGCCATAAATTCATTGAAATGTCCTTTTAAATCAGCTTTTACAGCATCGTAGTCTAGAGCGTGAACGTTAACCATATGTTCACGGATTTTTGCTTCCCTTACATCTTTGAATTCGACTGGTGCTTCTCTATGTTCATCAAAATCATGTGCTTTCATAATAACCTTCCCAAATTAGTTAATTTCTTAATAAACAAGCAGAAAATATTAACTTATTTTCTTGCCTGGTTTAGCTAGTATGGAAGGCAGTTCTTAACAAATTATTAACAAGGGGTGAAAAATATTCTTAATTTTAATCTACTTACAATATAAATGTAAGGATAATATACGTATAGACTTGTTTGCAGAAGATTATTCTAACTGATATATTTTTTAATTAATCATCAATATTGACGGCTTAACAATTCTTGACGCTTTTAATTCGATCTGATATAAAGTTCGTGTGATTAATTATTGATGAGCTAATAAACTTTAGGAATATGATGAAAGTTTGCGTTACAACATCATTATCTCTTTTTTCTCTGCTAGGTATTCTGCTGGCGGCTTAGCTGCTGTCATATTTATTCTCTAAAATTTATTATTATTTTATATTTTTCTGCAGCTTTGTTTGCAGAGTGATTTGTTTTATCTATTAGTTTTTCATTAGAGGTAATTAAAATGAAATCGGAAGAAAGAAAAAAATTTATATCGATTATGATATGGTTTTGTATCACAATGTTTTATTGCTATCAGTATATTTTGCGTGCATTACCAAATATTATCATGCCAGATATTATGGACAAATATAGTGTTGGAGCGACGGAATTTAGTTCGTTTGCGGGTATGTATTATGCGGGTTATGTTATAGTACATATTCCTATTGGTATATTACTTAGCCGTTTTGGAGCAAGGGCTATATTACCTATGTGTATTGCAATAACTTCAATTGGCTTAGTGCCTCTTGCATATTTTGATAATTGGACTTCAGTTGTTATTGGCCGAACTCTAACTGGCATCGGTTCATCTGCTGCAATTGTTGGAGCGCTCCAAATATTCCGTATTATTTATCCTGACAAATTCTCAAGGATGTTAGGAATTATGGTATTTTTTGGTTTGATTACAGTTGTATATGCTGGATCTCCGCTAGCAAATGTAATTGCAATTATAGGAATTGATGCAACTATTGGAGTTTTATTATATTCTGGTATAGCTCTTGCAATGTTTACTTATCTTTTAATGCCAAAATCTGCAGGAGAAACGTCGCACGCAAGTATTTTAACAGATATAAAAGCTACCCTTGGGAATCCGAAGATAATAGTTGCTAGCTTGCTTGCAGGTTTTATGGTTGGGCCTTTAGAAGGGTTTGCTGATGCATGGGGAAGTGCATTTATGATTACTGTATATGATATTGAAAAGTCAGTAGCTGACACAATTACATTATCAGTATTTTTGGGTATGTGTGTTGGTTGTATTGTTCTTCCATATATTGCCGATAAAACAAGGATGTATTTTGGTGTAACTATTGCATCTGGTGTTGTAATGATTTTGTGCTTTGTTCATATATTGAACGGTAATGCAAATGCTGATTCGCTATATTACGCATGTCTAGTTACGGGTGTATTCTGTGCTTATCAAGTAGTAATTATCTCAAAGATTGCCACTTTTGTTTCTGAAGAAAGGAGCGGTGTGGCAGCTGCTATTGCAAATATGATTATTATGGCATTTGGTTTGTTGTTTCACAAATTCATAGGTATTACTCTAGATTGGCAATGGGACGGTACGTGGAAAGGTCAAATGATACAAGGTGTTAGATCTTATGGCACAGATGCTTTTGTTAATAGTATTTCCATTATTCCAGCCGCAACTACTATTGCAGTTGTAGGTTTTATAATTATGGCGATGACAAATGTGATACGCGTCAAATTAATGAAAAAGTAATATTGTGTTGCTGTAGCTTTAAGCAATATATTCTGAAGATAGGGTTGTACTTATATTTGTATAATTTGTACAACCTGCTTTTTTCATAGTTATAACTGATCTATAGCGCTTAATCTCTTATTTGAGTTTTATTAGGTTTGATGCGTCCATTTGTGCTTGACAATAGAGGATATGAGTGCAAATTATAATATTTTAGTATAAATTTAGGGCATTTTTTTATGAAAAATCTAATTATCGGTTTCCTAGCAATCATTTTTACTAATTATGCTTTAGCTGAAAGTAAAATTTCGGATCAAGTTGAAAGTCTAATTAATAAAACTGATTCTAATTTAAATATTGGAATTAAAGTTAGAAATTTAGCAACAAATCAAGTGGTTTATGAAAAGAACTCTAAGCGTTATTTTATGCCAGGTAGTTCGCTTAAATTCATTACTATAGTGAGTTTGTTAGAACATTTTGGGCCTGATTATCAATTTAATTCTAAAGTTCTAAAGCAAGGAAATAGCTACTATATTGATATACATCATCCAAATTTTAGTTATGAAGATTTAAAATTGATGATTGCTAGAATTTCTGAAGACTCAGGAAATCAGGTCAAAGGTAATATATATATATTGAACAACGAGTTTTCTGTTCCTGCTATTATGCGTGAAAAAACTATTAGCGATACGATTTATTGTAATGGCGCTTTGATAACCAAAGTACATTTAGACAAAAATTGCGCAAGAGCAAATGTAAAGCCAGGGAAAGTGGGACAGGGAATTCTTGTAAAATCAAATAAAAATTTCCCATATAATATTGAAAATAATGCTAAAACCGTAGGTAAAAATAAACTTGATAGGTTGCATGTTGATATTGAAGGGGATAAGTATGTTATAAACGGTACTTTAAGCAAGGCTTATGGTTTATTGCCGATTGGCGCAGTTACTAGCGAGAATTTTAAGAATGTTATTCAATATGTGAAAAAAGGCTTATCTCTTAGGGGAACCAACGTACACGGGAAGATTACGGTTGGAAAGGCTCCAAAGTCATCAAAAACAATCTATTCATTATCTATATCATATAAAGATGCTGCAGATCGAGCGATGAAAATTTCGGATAATTTTATGACTGATTACTTTTTGGCAGAATATGCTACTCAGAATAAATTTTCCGAGTGGAGAGCCGCAATTGCATCAATAAAACATTTGATAGCAAGAAAATTTAATGTTGATTTGAGAAGGTCTGAAATTCATGACGCTTCAGGTATTTCAAGGCGTAATCTTTTAACGGTAGAACAAATTTCTGACTTTTTAACATCTGTGCATAAGAGCAAAAATTATGAGACAGCAAAATCGCTAATGGCATGTCCTGGCGATGATTGCACACTGCGTGAGAGATTTAAAGGCGTCGAAGATTTATATACCAAAACAGGAACACTAAGACATGTGTCTTCTCTAATGGGTTATTTCAAAGATAAAAGCGGACAAGAGCATAGTTTTGTCATTATGGCTAATAATTTCTATTCATATAACGATCCATACCGAAAACTTGAAGAAGAAATCGTCCGATTGTTTATGGAGAAGTAGCTACAGTGCATTTTGAAAAGGCATTATTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCAGAGGGGGCGCAGAAGTACAAATGTA
>sequence58
AATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACATCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTCGTTATTTAATAATGCCAAGTTTTATGATATTTTTAGAAGAATTTTTGTTAAAAAGTTACTAATTTTTATAGAATAGTAGAACTTTACTATTTTCGCGTTGATAAATTCAGGGTTTTAGTGTAGCTAATTAAAGTATAAACGCTAAAAAATAATAAAAAACGAATATGCTGCAAAATACTGCAATACTTGCTGAATACTTACCAATCGCAATTTTTTTTGGGATTGCGACATTAGTATCAGTAATTGTTATGGTTTTGCCTAAAATCTTAGCAAAAGAAACACCTCAGAAAGATAAATTATCCGGATATGAATGTGGATTCGAACCTTTTGATGATGCAAGAATAAAGTTTGATATTCGTTTTTATTTAGTTGCTATTCTATTTATCATCTTTGATTTGGAAGTAGCGTTTTTAATTCCTTGGGCAATAAATTTAAGTGCAATCGGTCAATTTGGCTTCTGGTCAATGATGGTGTTTTTACTTGTATTGACTGTTGGTTTTATTTATGAATGGAAGAAAGGCGCTCTTGACTGGGAATAATTAAGGAAAATTTTTATGAAAGATATTTTGCAAAATCAGGATGATCTCTTCAAACAAGAAATGTCAAATAGAGGATTCGTCATAACTAAAGTTGATGATCTAATTGGTTGGGCAAGAGCTAATTCTTTATGGCCTATGACATTTGGCCTTGCTTGTTGCGCAGTAGAAATGATGCAAGCAGCAGCTAGCAGATATGATATGGACAGGTTTGGCTTCCTTTTCCGCCCAAGTCCAAGACAGGCTGATCTTATGATTGTTGCAGGAACATTGACCAATAAAATGGCTCCAGCAATGCGAAAAGTTTATGACCAAATGGCTGATCCAAAATATGTTATATCAATGGGAAGCTGCGCTAATGGTGGTGGATATTATCATTACTCATACTCTGTTGTTAGAGGTTGCGATCGTGTTGTACCAGTTGATGTATACGTTCCAGGATGTCCTCCCACTGCAGAAGCATTAATATATGGTCTTATGCAACTACAACGTAAAATTAAAAGAACAAGCAAATTCAAAGGTTAAAGCATGGAATTTTCACATATTATTGACGAATTTGCTAAAGATAATAATTTGAATATTGTTCCACTTCAAATTGATGGTTTTGCTGCTTATAAAACATCGATTGATAGTGTAATTTCACTATTGAAATTTGTAAAAGAGAGTAAAGATTTACGCTTCACAATTTTAACAGACTTATTTGCTGCGGATTTTCCAACACGTTCGCGTAGATTTGAAGTCGTTTACAGTTTATTGAGTTTAAAACTAAATAAAAGATTGTTATTTAAAATTGAACTAAATGAAGAGCATTTAGCTCCATCAATTGTGCATTTGTTCAGTGCTGCATGTTGGTATGAAAGAGAAGCTTTCGACATGTTTGGCATAAATTTTGATGGTTGCCCTGACCTGCGAAGAATTTTAACAGATTACGGTTTTGTTGGCCACCCACTACGTAAGGATTTTCCAGTGACTGGACATCTACAGGTGAAATATGATGAAAAACTGGAAAAAGTAGTATATGAACCTGTGCTACTTGAACAAGAATTTAGAAATTTTGACTTTTCTTCACCTTGGCAAGGCCCTGGTGAATATAAGCTTCCTGGTGATGAGAAAGCAACAAAATAAAGCTAAAAGAAATTATGGAAGAAGCAACAAAAAAAGATTCTAAGATAAAAACAACGACCATTAATTTTGGTCCACAGCACCCTGCTGCTCACGGTGTATTACGCCTTATTTTAGAAATGGATGGCGAAGTAATAAATAAGTCTGATCCTCATATTGGCTTGCTACACAGAGGAACTGAAAAATTAATTGAACATAAAACTTATGCACAAGCAGTTCCATATTTTGATCGCTTAGACTATGTTTCACCAATGTGCCAGGAACATGCATATGCGCTTTCTGTTGAAAAACTATTAAATTGCGAAGTTCCAAAACGTGCACAATATATCCGTGTTTTATTCTCTGAACTGACCAGAATACTAAATCATACGATGAATATTGGCACTCAAGCTGTTGATCTAGGTGCTACAACACCACTATTGTGGCTTTTTGAAGAACGTGAAAAAATCATGGAGTTTTATGAACGCGTTTCTGGCTCACGTATGCATTCAAATTACTTTAGACCTGGCGGCGTATCTCAAGATTTACCTGATGGTTTACTTGAAGATATAGCAGTGTTTAATAGTAGTTTTTTAGGTTACCTTGCAGATGTTGAAACTCTTTTAAATAATAATAGAATCTGGAAGCAACGCCTAGTTGGAATTGGTGTCGTCAGCCAAAAACAAGCAATGGATTGGGGGTTCTCTGGACCTATGCTCAGAGGATCTGGCATTGAGTGGGACTTGCGCAAAAGTAATCCTTATGACGTATATGATGAACTTGATTTTGACGTTCCAATTGGCACGCAAGGAGATTGTTATGATAGATATTTAGTTCGAATTGAAGAAATGTATCAATCTGTCAAAATTATTGACCAATGTTTGAAAAAAATTCCAAAAGGCCCCGTAAAATCAATAGATTCGAAAATAGCTCCTCCAACAAGATCTGAGATGAAAGAATCAATGGAGGCAATGATTCATCACTTTAAACTATACACTGAAGGCTATGATGTACCTGCTGGAGAAGCCTATGGAGTTGTAGAAGCCCCGAAGGGCGAATTTGGCGTATATTTATATTCAGATGGGTCAAATAAACCATATAGGTGCAGGATAAAAGCTCCAGGTTTTGCACATTTGCAAGGTCTTGATTTTATGGCGAGAGGCCATTTAATGGCAGATGTAGTTTCAATTATTTCTAGTTTAGATATCGTATTTGGAGAGATTGATAGATGAGTACAGATAAAGAACAATTTACCTTCAATAAAGAAAATCTAAAAAAAGCACAGGAGATAGTTGCAAAATACCCAGACGGCCGTCAAAAAAGTGCGATGCTACCTTTGCTAGATATTGCTCAGAGACAAAATGGAGGTTGGCTTTCAGTCCCTGCAATAGAGTATGTAGCAAATTATATTTCAGAGCCTTATATGCGTGCTTATGAAGTTGCATCATTTTATACAATGTATAACCTAAAACCTGTTGGAAAATATCACATTCAGGTTTGTGGAACTACTCCTTGCTGGCTTAGAGGGGCAGGTGAAATAATGGAAACATGCGAAAAATTAACAGATGCGAAGTGTGGTGAAACATCAAAAGATGGCATGTTTACAATCTCTGAGGTTGAATGTCTCGGAGCTTGCGTAAATGCTCCAATTGTTCAAATCAATGATGATTATTATGAAGATTTAGATTCCAAAAAGATGGGTGATTTGATCAAAGAATTTAAGACAAAGAAAGCATAATATAATTAAAGGAATAAGCGTGAAAAAAATAATATATACAATATTAATTTCGACTCTGATGACCACAAATGCTTTTGCTAAATATGTAAGTAATGGCTTTTTGGTTGAAGAAAAAAACTTAGATTTTTCTCATACAATTCGCTCAGGTGCATGTGAAGGAACTGTACCTTACCCTGTATTATCTCATGGCGACGAAGAATTAATTATTCAAATTAATGATGAAATTCACGATTTTGTTGAACTATATGCCGTTTGCAATCAAGGTAGAAGAAACCATTTTTCTGTAGAGTTTGATATTCCTGAATCTGGCACTAAGGAACATTTTAGTATTAGATGGATAACAAAAAGAAATGACAAACCTTGGCGTATTGATGCTTTAACTTTTAATAGAGATACCGGAGCTATCCTTGAGATAGAAGATGTCTTTAATATGCTGAGCAATCATATGATGGGCGAAATAGTTAAACTTTCGGATGGGCATCTTTCAAAATCTTGTAAGTGGGAGCATTTTCTTGATAAAGTTGAAAAAAGAGAAGTACAATTCTATATTGAGAAAGAACAGTGGTTTATTGTTTTTAATGCGACTCCACATCGCCAAAATGTAGTAGATGTTAAAATCCCAGAATACTTCTTAAAAGGAGGTGATCATGATCGCGGATAAAGACAAAATTTTTACTAACCTCTACGGTAAAGAATCTCCGGATTTAAAAGCTGCTCAAAAACGAGGCGATTGGGATGATACTAAAAACCTTATTAAAAAGGGGCGTGATTGGATTGTTGAACAAGTAAAGAATTCTGGCTTAAGGGGCAGAGGTGGCGCTGGATTTTCAACTGGAATGAAATGGTCATTCATGCCAAAAGATCATCCAAAACCCTCATATTTAGTAGTTAATGCCGATGAATCTGAACCAGGAACTTGTAAAGATAGAGACATCATTAGATTTGATCCACATAAACTAGTTGAAGGTTGCGTTTTAGCTAGTGTTGGCATAGGGGCGCATGCTTGTTATATATATATACGTGGTGAATTTTATAACGAAGCCTTAGCATTGCAAAAAGCAATTGATGAAGCATATTCTGCAAAGCTGATTGGAAAAAATGCATGCGGTTCAGGCTATGATATTGATATATATTTACATAGAGGAGCCGGCGCCTATATTTGCGGAGAAGAAACAGCTTTGCTCGAAAGTTTAGAAGGTAAAAAAGGTCAACCTCGCTTAAAACCACCATTCCCTGCAGGAGCTGGCCTATATGGTTGCCCAACTACTATTAATAATGTTGAATCAATAGCAGTTGTTCCAACTATTTTAAGACGCGGAGCCGAATGGTTTGCCTCACTTGGAAAAGAGAATAATACAGGAAGTAAATTATTCTGCATTTCAGGACATGTAAACAAACCGTGTAATGTCGAAGAAGAAATGGGAATTCCATTGAAAGAGCTAATCGAAGAACATGCTGGAGGAATACGTGGAGGCTGGGACAATTTAAAAGCCATTATTCCAGGAGGTTCGTCGGTTCCTATGATTCCAAAGGACGTATGTGAAACTGTTACTATGGATTTTGACTCACTAAGAGCAGCTGGATCTGGTCTTGGTACAGGTGGATTAATTGTTATGGATCAATCAACTGACATTATTTTTGCAATCGCTCGATTGAGTAAATTCTATATGCATGAATCATGTGGTCAATGCACGCCTTGTAGGGAAGGAACAGGGTGGATGTGGCGAGTAATGATGCGACTAGTTCGAGGCGAGGCCCAAGTTGAGGAGATTGATGAGCTATTAGACGTTACCAAACAAGTTGAAGGACATACTATATGTGCACTTGGCGATGCTGCAGCGTGGCCAATACAAGGATTAATTAGGCATTTTCGAGATGAAATTGTTGATAGAATTCATTCAAAAAAAGCGTAAATATTTCTTATGAGAACAAATTTTTTCATTGCAGCAGTAATAGCCACAATATTAGGGTTTTCAGCCCTTTATTGGCAGAGCAATAGCCCTGAAATTTCTTATCATACTGAAAATGAATTCGGACCAATTTGGGTATATGATTCAAAAGGTGTAAGGTGTATGTCGTTCCTTGAACCACCAGCACATATACTTCAGAGCTGTATGTCTTTATCAAATAAAAAATTTGTATTGTTTGATTATGTTCAGATGTTTTTAAGTACACTATTTATTAATGAGGATCCTAGAAAAATTCTAGTTATAGGGCTTGGGGGCGCAACTGTCCAAAAGGCTTTAAACATTCTAACTCCTAATGCAAAAATTCATTCTGTAGAAATTAATCCAGCTATACCAAAAGTCGTTGAAAAATATTTTGAATACGAATTTAATTATACAAATAAAATCTTTGTTGAAGATGGTGTAAAGTACGTTAGAAACTCACCAAAGAATAGGTATGATCTAATCTTAATTGATGCATTTAGTATTGACTATATCCCAGACGGGTTCTTAACTCATGAGTTTATGAAGAATGTAAAAGAAATACTTACTGAAAATGGAGTAGTTGCCATGAACACTTTTGTTTCCAGCAAAAAGTCCGATCTGGAATCTCAACTATTTAAAGACACATTTGGCGAATATTATAATCTTAAAAAAGCAAACTCAAGAGTCATGGTTGCCCAGGCTAATGGCAAATTACCAGAATATCAACAAATAGCTGTGGATTCTAATTTGTGGCTATACAGAATGGCAGAAGTTGGTATCAATCAAACAGCTTTGCTGTCACTATATAAGGGCAATTTAAAGAAATAAAACAAACTATAGAGTTACTGAGCATTTTCTGCTATAATCCATCACTATTTAGAATTATACAACTTAAAATATGGAAGTTATTGTAACCATAAATCAATATCTTTGGGATTATATATTGCTTACTCTGCTGCTGGGTACAGGGCTTTTTTATACTGTAAAATTAAAAGCTATTCAACTTAGGCTATTTCCGCAAATTATTAGCAATGTTATTAATAGTGCAATGCATAAGGATAAATCCGATTCTGATGGTATCAGCTCATTCCAAGCATTAACAACTGCAATTGCTGCTCAAGTAGGCACTGGGAATTTAGCTGGAACAGCAACTGCAATTGTAGCTGGTGGCCCTGGCGCGATTTTTTGGATGTGGTTCAGTGCATTTTTTGGTATGAGTACAATCTTTGCTGAAAGTATTCTTGCACAAAAATTTAGAACCAAGATTGGCGATGAAACAGTTGGTGGTCCAGCATATTATATTGACAAAGGACTTGGAAATAAAAAATTAGCAATATTTTTTGCAATCTGCATTATAATAGCACTTGGATTCATTGGTAATATGGTCCAGGCAAATTCCATTGGTTTTGCATTTAGCGTAGCATTTGATTCGACTCCATGGATTATAGGAATTATTGTTGCTATTCTAGTTGGATTAGTCATCCAAGGTGGGATTACAAGAATCGCATCATTTACTGAAAAAATTGTGCCTATTATGGCCGTAATATACATTTTTGGCTGCATATACATAATCATAATCAGGTACGAATATATTTTACCTGCATTTAAATCAATTTTTGAATCTGCTTTTAGGTTTGAATCAGCTGCCGGCGGAGTTGCTGGTATGACAATCCGTGAGGCAATGCGCTATGGGGTAGCTCGAGGATTGTTTTCTAATGAAGCAGGTATGGGGTCAACACCACATGCACATGCAGCAGCTAAAGTTAGTAATCCGTGCAAACAAGGAGAAGTAGCTATTTTTAGCGTATTTTTTGATACATTTGTAATTCTGACATTAACAGCTTTAGTCATTTTAACATCAAACTTCTATCTTGAAATGATTCAGCTCCCACAACAAGAATGGACTGATTCTATAGCGTTAACTCAATTAGCATTTATGAGCAATTTTGGTCATAACGGCAAATATTTCATTGCTATAATATTATTTTTCTTTGCACTTTCAACAATTATTAGCTGGTATTATTTTGCTGCAATAAATGTAAAATACTTATTTGGCCTTAGAGCAATAAAACCATTTAGAGCGTTAGTAGTTCTATGCGTATTTTTTGGCACTCTTGTAAAGGTAAATCTGATATGGGAACTAGCTGACACATTTAACGGATTAATGTGTATTCCAAATTTAATTGCCCTACTGACTCTTAGTGGCATAGTTATAAAGGCTATGAATAATAGGGATAAGTAAACTTCAACAAATTCATAGAACGTTATGATATGTCAATCTATGAGCTTACATATTCTATGGATATATATATTGAAACAATGGATCGCTGTGCATTCACTCGCGATGACAAGAGCTATTTTATTTTTTGAACTGTTGAGTAATACAAAGAATCTTTCACATGTTAGATATAGTATGTAGAACAGATTTCAAGTTTATATGCCAATGAATGAAATAATTTAACCTCAACTCGACGTAAGCCCACGGCTACTATCGTTGAGAAAGCGTTGGTTTATAGATGGTTTACGTGGCTTGATGGTATAAGCAATAAGTGCAGATAAAGTATTTGCAAGAAAATTATCAGGTTTTCGATGTCTAGAATGTTCAATTAAGCAGATAGATTTTAGCTGTTCAATAACGGTTTCTACAATTGAACGTTGCGCTAAC
>sequence59
AATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACATCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTTGTTATTTAATAATGCCATTATAACCTTATTATTTTGCTGGATTTGTTAGGCGGCATAATGTAGAATGTCGTAAATTATTCTATATATACAAAGTAAAATAACATTCAAATGCAACTATTTCCCCTGAGATTACTTCCGGCAAAGCCAGAATTTGACTTCATGAAAATCAAAAAGATTAGCTATGGCTTGTCGCTATTGATGCTGCTGATAAGTTTTATATGGATTGGTATGCATAAATTTAATTTTGGTATCGATTTTATTGGCGGGATTAGCATGGAAGTAAGGACGGATCAAGAGCCAGATCTTGCACAAATGCGTGAAGTTTTAGGAGGCCTTGATATAGGTGAGGTTGTCCTACAGAATTTTGGCACATCAAAGGACTTATCAATAAGGGTTGGTGTGAGTGATGAAGAAAAATTGATGGAGAATATCACTCTAATTAAGAAAACTTTAGCCGATAAATTCCCCTATGAATTTGAGTATCGAAAAGTTGATTTTGTAGGTCCGCAAGTTGGAGAACAGATGATTCGATCAGGTGTAATGGCAATGATCTTGGCATTTATAGCAATTATGCTTTATATATGGATAAGATTTGAATGGCATTTTGGACTTGGTGTATTGCTGGCTTTAATACATGACGTTATTTTAAGCTTAGGATTTATGAGCATTACAGATTATGACTTTAACCTAAGTACGATTGCAGCGATTTTAACAGTGATTGGTTATTCGGTGAATGATTCGGTAGTTATTTACGATAGGATTCGTGAAAATCTTCGCAAATATAGTAGAAAGTCGGTAAATGCAATTATCAATTTGAGTATTAACGAAACATTATCTAGAACTACGATCACTGCATTGACAACTTTGCTTGCAAATCTTGCGTTAATTATTTTAGGCGGTGAAGCAATACGTAGTTTCAGTGTTTTAGTGTTTATTGGTATATTTATTGGTACATATTCATCTATTTTTATTTCTGCACCAATATTGACTTTATTTAATTTTAAAAAATTTAAAGAGTAGTTTTATGAGAATTTCTGCAAACGAAATTAAAATTGGTAACGTTTTAGATTATAAAGATGAGCTTTGGCAAGTTGCTAAGAATCCGGAGCATACAAAGCCTGGTAAAGGTGGTGCTTATGTTCAGGTGGAAATGAAAAACTTGCGTACTGGAACAAAGTTAAATCAAAGATTCAGCTCAACTGATAGTGTTGAAAAAGCATTCCTTGAGCGCCAAAAAATGCAATATCTATATGCTGAAGATAATCATCTGGTTTTTATGGATCCAGATTCTTTTGAGCAGTTATTGCTTGATAAAGCGTTGATGGGTGAGAAATTACCTCTTCTTACCGATGGAATGGATTTGGAAGTAGAGTTTTATAAAGAAACTCCATTGAGTATAAAATTACCTGCAAACTTAATTGTTGAGGTTGCTGAGACTGATCCTGTTATAAAAGGAGCGACGGTTACTTCGTCATATAAGCCTGCAATTCTTACTAACGGTTTAAAGGTTATGGTTCCTCCGTATCTTGTGAGTGGTGAGAAGATTGTCATTAAGTCGGAAGATTTGACATTTGTAGAAAGGGCAAAATAATGCAAGGAGACACTAGCTTAGTAATTGATGCGACAAGGCGTGCTTCGAGATCATTGCAAAGAGATTTTTTTGAATTAGAAAATCTGCAATCATCAGAAAAAGGCAATACTACTTTTGTTCAGAAATCATGTAGTAAAGCTTTTCAAACTTTGCACGATGCTTTAGGCAAATATTATAAGACTATAATATTTAATAATGATGAAGTAGCATCTGCCAATTTCACTGGACATGCTGCGCTAGTTGAAACTCTTGATGGTCTTGGTAATTTTGGAAGATCATTACCATATTTTGCTACAATGATTACTATAGTTTCAAAAAGTGATGAATTGAGTGCTGAAAGAGTTGTTATTAATTTTCCAGCTCTTGGGGAGATCTATTATGCTGAGAAAGGTAAAGGAGCGTGGGTAGAGAGATTGGCATCAAATGTTACTGGAGCTACTAGAGTTAGGGTTTCTGGATGCGGTAATACTGACGAGATGATTGTGTCATCATCTAATGACTTAGTAGAGTCTGCTAGATCTGTTTCATCTAGTATTAGAGTTTTTGATTCATATACATATTCTCTTGCTCAAGTTATTAGAGGGAAAATTGATGCTATGATTATAAAACCACGAGACGTTTCGCTTCCTGGAATTCAATTATTCCTGAAAGAAGCGGGTGGTGCATGTGGAATTGCCGGAGATATACTTATCGCGTCAAACTTCAGACTACATGAAAAAATAAAGCAGCTTTTCTAGCAAAAATTGTTTTATCCTAATCTTTTTTCTATTAAACTTAGGTATATATAAGTTCTTTTAAAGATAGAAAAGTTTTTCATTTGAGAAATTTTACTTATCTTTTGAAGCTCTATATTAAATATAATCTTTAAGTTAGAACACATCTTTGGGCCTGAGGCGGAGCTATGAAAAAATTTACGATAAACTGTGATTTTGGTGGGCAAATGTCACCTTTTACAATTTTTATTGGTAAACCAGAAAAGGGGCATCATCCCTTGCATTTTCAAGCAGATTGGCTCTCAAAAGCTCGTGGTGGTATGATCCCGGGCGAAGTAATGGAGGCCGTCACTCAACTTCAGGAACTTGCAGAAAAGAATGGAGTGTCACTTGAAGAACTTTGTGTATATGCTCTTGGTTCAGATGAGCAGCAAGCGGAACTCGAGTCAGCAGCAACAGAAGAAACTGCAGTTGTTCCAGCTGATGATGAGCAAGTCGAATTAGATGAACAATCTATGGAAGAAGCGGGTGCAGAATATGCTGGTACTGAGGAAGAGCCTGAGAGACACGATGTTGAAGACCTTCATGAGCATGGATTGTCTGAATCTGTAGAAGATATGGCCTCTGAAGGTGGTCATATTGAGGAAGATACTCCAGTTGATATTTCGTCGGATGGCAATGAAGTCGAATCAGCAACCACAGAAGAAGATATTATTGAAGAGAAATAGTATTTATTTTGTTATCACAGCTCGAAGTTATTAGCTGATATAGCTTATTTGTGCATAAGAATTGTGCCAGCAAAGTAATTTTCAAATAACGCAAAACAAACCATTAATTACAAAACTGCTTAAGAAAGCTTATTAAGTATTATTTGAATTATTATCTTAATAATGTTAAAAAGCAGCAATGATTTTAGATCTTTATTTTAAAAAAGAGTATAATATATGAATTTCAATATAGACATTGCAATTGTAGTTGGGTTTTTGATAGTTACATTATTTGTTGGTCTATTTTATAGTCAAAAAATTAATAATATCAAAGATTACGCTTTGGGAGGAAGAGGCTTTAATACACCAACTTTAGTATCGACTATAGTTGCTACCTGGATAAGTGGAAGTTTGTTTTTTTTAGGGATATCAGAGAGTTATTCAAAAGGGATTACTTTTATTCTAATTAATATAATAGGCAATATTATAGCTTTTTTAGTGATTGCATTTGTGTTTGCTCCAAGAATGCGTGAATTTCTAGGAACAATATCTGTTGCTTCTGCAATGCATAAATTATACGGAAAGGAAGCAAGAATTATTACGGCTCTTTGTGGAATAATAAGTGTTGCTGGGTATATTGCTGTTCAATTTAAAATAAATACAGCAGTATTCAGTTATTTTTTAGATGTAGATGAAACGATAATTATAGTAGCTAGTGCAGTTATTGTAGCAGTATATTCAGCATTTGGAGGCATAAAGGCAGTCACCTTTACTGATGTTGTACAGTTTGTTACTTTTGGTGTAATGCTACCTGGAATTGCATTAATTATGTGGGGTAATATTTCAAGTATTGATCAAATATTTGATGTTTTTTCGAATAACTTAAAGTTTAATTATAAGGATTTGTCGTCTACCTTAGATTATCATTTTGCAGAATTCGTAAATACGCTTGTATTTATTACTATACCGTGGCTAACACCAGCTATTTTCCAAAGAATATCAATAGCAAGGAGTGAAAAGCAAATCAAAAAATCCTTTTTCATTTCAAGTATTGTATGTGCATGTATTAACATTATTATATCTTGGATGGCAATTTTAATGGTTGCAAATAATCCTAATATTACGTCACCAGATATATTACCATATATAATTGAAAATTATTCTTTTCTGGGTTTAAAAGGTATTATGGTGGTTGGCGTAACAGCTATGGTAATGTCCACAGTAGACTCATTTATAAATTCATCTTCAGTTTTATTTGCAAATGATATATGTAAAGACCTCAATCTAAAAGAGAGGACAGTCATTATTATATCCCGAGTTTTTGCTATATTTATTACACTGTTTAGTCTATTACTAGCATTGAGATACAATGACCTAATTTCAATGATACTATCTTCGGCTAGCTTTTATGGTGCAATAGTATCAGTGCCTTTAATTTTAGCAATATTAGGTTTTAGAAGTAGCAAAAAATCAGTGTTAATTGGTATGAGTGCTTCATTCTGTACTATAGTATTATGGAAGGTTTTTTCGCCGGATAACGGAATAGATAGTGTAATACCTGGTATACTAGTAAATATAATATTTTTTATTGGTAGTCATTACATTTTAAAACAACAAGGGGGATGGGTTGTAGTTCTTGGTCGAGAAAAAATAGAAAGTTCGTTACAAAGAGAAAATAAATCTGGATCAATCAAAGATTTTAACTTTTTAGATTTCTGTAGTAAAAATACTCCAAAGTCAGATTCAACATATATTTTTTTAAGTATATTTTGTGTAATAGCTATATTTTCTGGAGTGTACTCAATACCTTTAGAAAAAAGACTAGCATATAATGAAATTATAGAAATAATATCTCATTCAGTGCTAGTAATTACAACTGCATGGTTGATTTATCCTCTATGGCCACCGGGTTTGAAGAATAAAAGGTTCATTTTTATTTTTTGGCTGTTTAGTCTATTCTATATTTTGTCATTTGTAACAAGCTTACAAGTTATTATAAGTGATTTTGGTAAGTTTCAGTTGATAGTATTGTTGCTTAGTGTAATGGTTTTATCAATGGTAGTAAGATGGAAAATATCGCTTTTTTTAATTATTTTGGGAATAGGTGCTAGTATACAATTTTTTAAGTATTATACTGGAAATAATATTTCTGCAAATTTTGGCTCATTACAATTTAAAATACTTTATATATTGTTGATGATAGCTGGTATCCTAATAGCCTTTTTCAAACCAAAACAAGAGTATCAAGAAGCGACAGAGGCGAAGGTAGATACATTGGAAATGGAAGTATCAGATTTAAATGAGAAGGTGGTGCATTATTCGGAGCGGATATCGGATCAGGAGAAAGAGATAGAAAGGTTGGGTGCGACGGCTCAGAGGATAATTAATAATGTAAATCATGAATTACGTTTACCGGTGGGTAATGTAATGAATTTTGCAGAGATGTTAAATGATGGTTTAGGTAAGTTTAATGAACAGCAATTAAAAAGCCTGTCAGATGAAGTATATAAGAACTCAAATCGTCTTTCTTCAATGATAATGAATATGCTAGATCTTGCGACGTTGAATGCAAAGAAGCTAGAGCTGGATAAAAAGATGATAAATCTAGGTGAGCTAGTAGAAGATAGAATCAATAATTGCCGCAAGATATATTTGGATGATAAGAAGATAGATTTTGTGATGAAGATACATCCAGAGATATTGATTTTAGTAGATCCAAACTATATGAGGCAGGTAGTAGATAATCTAGTGATAAATGCAATAAAGTTTAGTAGTGAAGGAGTGATCAGAGTTGAGTTATTGAAGAAAGGCGGTTTAATCGAATTTACAATCAAAGATAATGGAATAGGAATTCCTAAAGAGGAATTATACGATATCTTCACGCCATTTAAGATGGGGTCAAATACAGAATCAAAAGCAGAAGGCCGAGGTGTCGGTCTTGCCCTATGCAAAGCCGCCATAGAAGCTCACGGTGGCACAATAACCGCCGAAAGCAGCGGTGTTGGTGCTGTGTTTAGATTTGTTTTGAAGTAAGATTATATTGTAAGTACTTATTTTTTGTTATATAAATACTAGTTTTTATTAAGAGGTGTTTAGATTATGAAAAATCAGTTTCAAAAGAAAGTAACAAAAAATCAAATAGGTGTTAGAGATGAGAAAGGATGGGCACCAATACATCTAGCAGCGAGTAGTGGTAAAGAAATATCAGTTGTTTCTTTTGTAAGAGATGGTGCGGATGTAAACATGCTTATAGAATCTAGTGATAGATTTAATGGTATGTCTCCAGCAATTTTAGCGGCGCAAGGAGGGCATGTTGAAACTCTATTAGTTCTTGCAAGGCTTGGTGCTGATTTAGATATCAAAGTTAATGGTATGAGCGCAGCTATGTTTGCTATTCAACATAAGACAAAATCTGTATCTCTTACTAAAACTCTTATAGGTATGGGGGCAGATGTTTCGCTTTTAAAAGGAGTGGTAGTTAAGCATGGGGCAAAAGTTTTGCTTCAATTGGGCGTAAGCCAGGAATATGTTGAAGAATTGGGAGATATTATTTCAAATCCTGAAGAAGTGAAATCACAATATATATTAGAGCATAATGTGTCACCAATTATTTTTAAAGACTCAGATAGTAAAGAAGAAGAGATCGATGTTAAAGAAGAGATAGATATTGGCAAAGCTTTTAGTGAATGCGATATTGATTCAGTTATTAAGTATGTACAAGATTCTTCAATTCAAGAGGGAGATAAATATGGTGCTAACTTATTTGTAGCTGCTGCTGCCCAAAGGTCTATAGAATATACTAAAATGATGGTTGCGCTTATTCAAGCTGGCTATGATATATCAAGAGCAGATGGTGAAGGAGTAGAAGCCTATACGCGCTTAAAGATGTTAGATGCAGCAAGTGGTGTTGCATTATGCTTGCTTGGTGCCAATACTGATATTTCTGGGCAAATTAATGCTATTGGTAAAGATGATGGGATGAATGATGTTCACAAGGCTATTATTGCAGGAAAATACCAAACACTGAGTGTTCTATTAGCTTGTGGCGGTAATCCGAACTTACCTATGAGTGATGGTACCCTACCTGTGACATTGGTAATGAAATCTAAACTCAATATGGTTGAAATGTTCTATATTTTAGTAAAAAATGGAGCGGATGTTAGTAGTTACGATATGCAAGCAGTCAAGAAGTTTGCAAGTGCTGGTTTAGTTATAGATCCAGAAGTTGTTAAATATTTGCAGGCAGCAAAGTCTGGTAAATTATTTGATTCTGAAAAAGAGGCTTTAATTACAGATAAGTCATTCTGGCAGAAGGTTCCTTTATTAGATTTAGAACAAGTTTCATTATTAATCACAAAATTTATAAAAGGAGAAAAAATTGATATTAATCAAATGCTAGCTCCAAAGATATCTCAAATAGTATTAGAGGCTGTTAAGGATATTGATGATATAAAAGATCAAGATGATATGGATGATGTTAAGATTTTTGCTGATAAAAATAATGATGATCCTGATATTTAGATTAAAATATACAATTTTTTATTTTAACCTCAACTCGGTGTAAGAGAATAATCTCAGTTCTGTATGCATCGTTGATTAATAGAGGTTTTACGGGGTTTTAAAGTATATGCAGCGAGAGCGGCGAGCATATTGAGTCTGTCATAGAATTTGTGTAAGTTACAAAAAAATATAGTAGTAAATACTATAAAAAGTAACTTAAACCCAAGAGGCACAAGATGGCAAAAAAAGCATCTAAAAAAGTTAATGATGTAAATAACAAAATCGTAGAAGAATTATTATCCAAAGGAGATCCTAGAGAACTATTTGGTAAAGAGGTCTTATTCAATCAATTAAAGAAGCAAATAGTAGAGCGAGTATTAGAAAGTGAGTTAGATCATG
>sequence60
AATCTAGATATTAGAGACTTTTTTGATCGCGAAGTCTATTATGATAAATTATTATATATTATTGCAAGTGGCGAGGGGTTTAGTCCAAAAATATACAGAGATACAAAGGGAATATTGACCATAGGCTACGGTTTTAATATGGATAGAGGTAGCGCATCTAAAAGTGAATGGAACAACATTTTCAAAGGCACCTTATCTTTTGAAGGTGCAAAAAATGGTGAGATAAAAATCACCAAATTACAAGCAAGAGCTCTAAAAAAATTTGGAGTAGGATTGAGAGAATCAGAACTTGCCAAAATATATGCCCCATATTGGGATAAAATGCGACTTAATGAGAGAGCTATATTAACAGATTTATACTACCAACAACCAAAACTTGCTGGCGGTAAAACAAGATTTTGTTCTAACTTAAAAGAATATTATAGAACTGGTAATCTAGATTATTTTGAATTAGCTGTCAGTGAAGTGAAATTATATTCTAGCTATTCAAAAAATCCTATAGAAAGAATAGGCTTGCAGAACCGCAATGATATTCGAGCAATTATTTTAGACTCGCGAGAAAGTCCTTTATACTCAAATCCAAATGATGACCTAATACCAGAAAACAAAAAAATAAAAATTATCCTAGGAGAAACAATAATTCCAAAAGAAATTAGCGCAAAATTTCCAAAAACTAACAACAGAGGTGGCGGCACACTCGGCGATTACTACATATGGAGAACCCGTATGGATGATAAGGTTAGGTCTGATCATGCAAAATATGAAGGACGAGTTTTCAGACACGATGCTCAGATGATGCATCCTAGCGAAGATTATAATTGTAGATGTTATAAAGAACGATTACCCATCAATGCTGAAATTATAGAACAGAAAAGTCATATATTCGAAGACTCTAACGGCAAAGAAGATTATTATAGTGAATATATTTCTACAATTTACATAGCACCTAAGAAAGAATATTTCTTAAGTTAGTTTTACCTCATAGAAGACTAATTGCTAAACAGCCAAAATATTCTATGTAAATTTTCCAATAAGTATGATATATTTCGCAAAATAATTTTATTAACTAAATATTAGTCTTTCCAAATGACGAAAAAGCTTTTCATTAAAACATATGGATGTCAGATGAATGTTTATGACTCAATCAAGATGCAAGAATTACTTGCACCATTTGGCTTTGAGTCAACAGAAGATCTTAGTGACGCAGATATGGTAATTTTAAATACATGCCATATTAGAGAAAAAGCATCTGAAAAAGTTTATTCAGAACTAGGAAGAATTAAAAAAATTTCTGACACAAGAGAGAATCGTTCTGAAATGATTATTGCTGTCGCTGGTTGTGTGGGGCAAGCAGAGGGTGAAGAAATATTCAGACGCGCCCCGTATGTTGATATAGTAGTTGGCCCTCAATCATATCACACCCTACCCGACTTAGTCGCAAAATTAGCTAGATCAGAAAAACATTTAATTGAACTAGATTTTATTGAGGAAGAAAAATTTGATAATTTACCTCAGGATTTTAAAGCACAAGGATCAAGTGCATTTGTTTCGATTCAAGAAGGTTGTGATAAGTTTTGTACATTCTGTGTAGTACCTTATACTAGAGGTGCAGAATTTTCTCGGAATGTAGAAGAAATTTACCGTGAATCTATGGCTGTAGTAAGCAAAGGCGCCAAGGAAGTGCACCTGCTAGGGCAAAATGTAAATGCATATCATGGCAAAGCTGCAGAGGATGAAAAATATAATTTATCTGATTTAATTCGCCACGTTGCGAAAATTAATGGCTTAGAACGTATTAGATATACTACTTCACATCCCAGAGACATGGATGATGATTTAATTGCCTTGCACGGCACCGAAAAAAAACTAATGCCCTTCTTACATTTACCAATTCAGTCTGGTTCAAACAAAATATTAAAAGCGATGAATAGAAAACATACGCGCGAAGAATATTTTACTATTATCGATAAATTACGAGTTGCAAGACCAGATATTGTTATGTCATCTGACTTTATTATAGGCTTTCCTGGTGAAACTGATGAAGATTTTGCTGATACTTTAGACCTCGTGAAAAAAGTTAGATATGGGCAGTGCTTTTCTTTTAAATATAGTCCAAGACCGGGAACCCCTGCTGCATCAATGCAGCAAGTACCTGAAGCTGCAAAAATAGAAAGATTAGCAACATTACAAAAAGAACTTTCCAAGCAGCAATTAGAATTAAATGAATCTAGTGTTGGTAAGATTTTACCAGTATTATTTGAAAAAAGTGGTAAGTATGATGGTCATATTGTTGGAAAGACGCCTTACATGCAATCTGCTTATATAGAAAATGCTGATAAAAGCTTGATTGGTAAGATAGTTAATGTCAAAATCAACAAGGGAATGGCTATCAGCGTTTCTGGTGAAGTAATCGATTAATTTCTTTATATAAAAACACATTCATGCTCTTAAGATTTATTATTTTTTGCACTAAGATGGCTTTATTTTTTGGAACAATAGGGTTAGTTGTTGGAGCATATATAATATATCACTACAGTCGTGATCTACCAGATTATACCCAGCTAAAGCAATACCACCCCCCTTCGATCACTCGTATGTATTCTGCCGATGGTAAGTTGATTGAGGAATATGCAAGAGAGCACAGAATTTTCGTACCAATCAGCGCTATCCCTAAATCACTTGTTGAAGCGTTTGTTGCAGCGGAAGATAAAAATTTTTATCATCATTCTGGAATTGATATATTTAGTATTATCAGAGCAGCATTGAATAATATTTCTCACATAATTAATAAAGGTCGTGTTGAAGGTGGTTCTACAATAACTCAGCAAGTTGTAAAGAATTTCCTGCTGACTTCTGAACGCTCACTGGATCGAAAAATCAAAGAAGCAATTTTGTCATATATGGTATCACAAGTTTTTACCAAGGATGAAATTCTGGAATTATATTTGAATCAGATCTACCTAGGCAAAGGGGCATATGGAGTTGCATCAGCTGCACTAAACTACTTTAATAAATCAGTAGAAGAGCTGACTCTAAATGAATCTGCAGTGCTTGCTTCTCTTCCTAAAGCTCCTTCAAAATTCAATCCTGAAAGAAATTATAAAAGAGCTTTTGAGCGAAAAAATTATGTTTTAGGCAGAATGTACGATGATGGTTATATAAGCGAAGATCAGGCAAGAAAAGCCATTGAACTACCAATCAAGATGGCAAAATTTGATAAAGTGCAAACTATGGATGCGGATTATTATGCAGAAAAAGTTCGCGATGAAGTTATTGGTATGTTTGGTGAAGAATATTTCTACACTGCGGGACTTACAATCCTCACCTGCGTTGATTCTAAAATTCAAGAAGCAGCTGCAAATGCATTACGTTTTGGAATTAAAAAATATGATATGAAAAGGGGCTATCGAGGTCCATTGAAAAATATTAGCTTAGTTAATTGGCAAGATGATTTAAGAGTAACACCTAATCCACCAGGCATCCGCCATTATAAACTTGCAATTATTCTTTCTGTACAAAATAATCAGGCAAAAATTGGTCTAAAAAGTGGCAAGACATCAAATATTTTCTTAAAAGATATGAAATGGGCTGCAACTAATTTAAAATCTGTGAAGAAAATTTTAAAAGCTGGAGACCTAATTGTTGTTGAAAAAGTTGGAAAAAACTATCAATTACAGCAAATTCCAGAAGTAAATGGTGGCATCATGATTCTTGAAAATGGAACAGGACGTGTACTTGCTGCTGAAGGAGGATATGACTATAGTGTAAGTAAGTTTGATAGGACAACTCAAGCAAAACGTCAGCCAGGCTCATTAATAAAGCCTTTCGTATATCTATCCGCACTTGAAAATGGAGCAAGACCAAACGATATTTTTGAAGATGCCCCAATTGAAATTGAGCAAGGGCCTGGGTTACCTATGTGGAAACCACGAAATTATGAAAGAAACTTTTTAGGCCCGATGACCCTAAGAAAAGGACTAGAAAAATCGCGAAATACTGTAACCGTACGGGTTGGTCAGTTCGCCGGTACGCCAAAAGTAACAGAAACTATTAGGCGCTTTGGTATTAATGATAATCCTCTGGCTGTACACTCAATTGTTCTCGGCGCTATTGAAACTACTCTTGCAAGAATGACTTTAGCATATGGAATTATTGCTAATGGAGGCAGAAAATTAGAACCTCACTACATAGAACTAATAAAAGATCGCAAGGGTAACGTAATATATAAGCGTGATTACACAGAATGCCCTGAATGTAAAAGTTACAAACTCGATGAGGAAGGCAAGATAATGCCGCCTGAAATTAAAGTAACTAAAGGACAGATAATTACTGATGAAGCTAGCAACTATCAACTAACTTCACTGATGATGGGAGGAATTCAGAGAGGAACCGGAAGAGGAGCTAAACATATAAAACAGATAATAGCTGGTAAAACTGGCACTACAAATAAAGCAAAAGATACTTGGTTTATGGGTTTTACTCCTAAAATGGTTGTGGGCACCTACATCGGCTACGATAATCCAAAAAGCCTAGGTAAACGTGTTTCTGGGGCTTCAGTTGCACTTCCTGTATTTGTTAATTTTATGGAAAATGGCTATAAAGATATGCCATCAGTCGATTTTGTTGTACCTGACTCAATTATGCTTGCATCTATTGACTATGAAACAGGAAAACCTTCTACAGAAAAAGGAGCTATCATCGAAGCATTTAAAGTTAATCATTTCAACCCAATGTTTGAAAATATTGAAGCAGATACTCAGCATACCGTGCAACAAAATGACAATGACCCTTTCGCAAAAATTCAGGACTACGACACTTCTCAAGAGTTATATTAATATATTATTATAAATTGATAAAAGAGTTTTATTATCACCCATTAGTTGATCTTGCGCACTAGCTATTTTATTACTATATTGAAATTATAAACATTTTTTGAGTTATATGTATGGTATTATTAAATAGTCATTTCGATACTAAAAACGCGCAGCATACAGGCGGGGTTACAGGTAGTGCAAGAGTAAAACATAAAGTTAAAAACATATTTTACCAATTAAAACCCTCAATACTGTCAAATACTCTGATGAGAAGGTTTAAGGCAGGTCATGTAGACAGAGAGAATTTCGGTGAAGTGATAGCATCAAAGATTTCAAGAAGCATAATGTCTGGAATTGATCGTGACTCTGTTCCCGAAGTCTCTTTAGTATATAACAGCAACCTAAAGCAAGTCCAGATTGCATCAAAATATCTGACTGGCAGTAAAGTTAGAACTCTGGATGATTATGCAAAAGAGGGAGGTGCAGTTTTCAAAAAACATGCCGTTTTTGTCTCTCAACCCACTGGTAAAGCTAAAGAATTCGATTTGAGCGGCGAAAAAAATTCTTCATTAAGAAAAGGTCTTTCCTACTCAATTGCTCTATCTTCAATAGTTGGAGACCATGACGTTAATCCAGGTAATATCATGATGGTTGACAATAAAGTTGCCAGAATAGATTTTGGCCACGCTTTTAATGACCTAATAAATACTTCAAAAATATTTGGCGGACGTTTAAGAAATAGCAACAGAACACTCGACTTCATTAATAGAGAACATGTAGCTGCATTCCCTCCTCCTGGGGCAAAATCAAAATTATGGAGAGATTATCCAGGACTTATACCATCTGAAGAAATAGCACAAGCATACCACGATCTATCAAGGCCAGATAATAATGTTACTCAAGGAGTTAACGAGGCAAAAGCTGAGTTTCAAGATCTTTTGAATCACGTTAGAGAAAATGGTACAAAAAAAGAAATTAAAGCTGTAACTAAGCATGTTATTTCATCACTCAAAGCTATTAATAGTAGTATTGGCGGGCCTAAAATAAAATCCAGTTCAAAAAACGCAAATAAGTTTCTTGACGAAGTATTTAATAACCTTGGAGAATTCTGTTCAGAAAATAGAAGACAGATGCAAGGAGTATCAAAATTATTAAAATTGCAAAGCGATATAGATAAAACTTTAGAAGAAATAGCAAAAAGCGGTAAAGAGCCAACAAAAAAACAATTAGGAATAATTCGCGCCCAGTATAATGAGCTCAAGCAAGAAAAGGGTATAGGAAAAAGAGGCTGGTGGAGACCTGGTATCAGGTGGGCAAAATGTAAATCAGGTACTAGAGCTCACAAAGGTTCTCTGAGAAGCTATATACAAAGCCGAGCTAAACAGTTAGGCGTTGATAAATCGCTTGCAAAAGATTTTGCAAACAAAGCAAAATATGCGTTACCAATAAAAGATGACAGTTTAGAGAGGAATGAGCCGAATAAAACTGCTAATAAAGCAGTAAATCCGCACCACAAATCTCCGTCAATTGTAGTTCAAGCTAACTTACCTCAAAAAGCAGCTGCAAAACCCAAAACTGTATCGCGTTGAACTGGATTGCCGCGCTGTCGTTCGCGATGATGGTATGGACGCTGGTTAAAAATGCGTTACACTGTATTTTGCTATGACATCACAATGTGCCAAATATTAACCCTTAAAAAGAGGTCCATACCATGAGAGAGTATAAAACCATCGGTCTTGATTTAGCAAAAAGAAAATTTCATTTCGTTGTTCTTAATTCAGAAGGCAAAAAAGTACTTGCTAAAAAATGTGACAGTGAAGATCTGATCTCGGTTCTTCTGAACACTGTTTGTCCCAAAACATTTAACGGTGTTATTGCCATGGAAGCTTGTAGTGGGTGTCACTACTGGGCTCGAATTTTTCAACAACAGGGCTATCAGGTGAAGGTTCTCAAGACAATCGATGTGAAAGCTTATGCCAAAATTCGCCAAAAAAATGATATAAACGATGCCTTAGCTATTGCAAAAGCGTCTTTAGATCAGGATTTAATACCATTTCCCAGCTTGAATTAAAGATCCGTATTTCAAGGCGAGGCTGCGCAGCGTATATAAATACGTGAGCACAGCCGAGTTCTGCAAAATACGGATCTTTAATTCAAGATGGGAAATGGTATAAGACCTATTCAATCCAAATCACTTGAGGAGCAAGAAATAGATACTCTTCTTCATAAATTTAGACAAACAACCATCAGAAATCGGATCAGAGCGACCAACGCTTTGATGGGGTATTTGCATGAATGCGGCTATGTCTGTGCACCCGGCAAGTCTGCTTTTGCGCGCCAAGCTCAAGAACATGTCGACCAAGCTTATGAGGAAGGCTTTCTACCAGACCTGGTCAGAGATTTGTTCCTCAAAAAAAACTCAAGACATTCAGACTTTCTTGGAAGAAGAAAAGTCTATTGATAAACAGATTGTTGAGCTGAACCGACACAATAAAAAAGCCATAAGACTGCAAACAATTCCTGGAATCGGACCGATCAACAGTAGCATCTTAGCCTCTATGCCTCTCCAATCTCATGAAAATGCGAGAGACTTCTTGGCTTCCTTAGGGCTTGTGCCTTCCCAAAGAACAACTGGGGGAGAAATCAACTTGGGACCCATTACCAAAAAAGGTAATAGATATGTCAGAACCATGTTGGTTCAGGAAGCCCGCTGTATTCTTATGGGAACCTCTAAGGGGCGAGGCAAAGGGGAACCATTAGTACAATGGGCTTACCAATTGTGGAAGAGAAAAGGATACAATATAGCTTGCGTGGCCTTAGCCAATAAGCTCGCTAGAATCTGTTACGGAAGCATCGTCAATGATCAAGACTATGGTCCTCAAAAAATCTACTCCTAAATTTAACCAAAGGAGAAGATGGAAAGTGTGTTTGGCTATTAAGGAAGG
>sequence61
ATTCCTTCTATGTACATCTTTACGACACGAATCCCCTTTTCCATGCTGTATTTTAACCTTTAATCACCAGAGCTATACGTGCTTCCACAACTCTTACATTTGTACTTCTGCGCCCCCTATGGCGAAATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTACAATTCTCCATACATCACCTTTTTCTTGGTTATATAGAGCAATTATTATTCTATGTCATTCGTTATTTAATAATGCCAAGTTAGCTTTTTCAAACGTAATATTCATAACCAGATTCTATGTTGCTAAAGGCGAATTTACTAGATTTTTTTATAAAAATTACGTTAGGCTAAATAGATGAATTAGAAATAGTTGGATTATGAACAAAACTAAGCTGGGATTGCCTTTAGAATATAATGAACTATCGGAGTATTTTGATGCGCATAATGTTGGTGACGATACTGCTGATAAAAATGCAATATTAAGTAAATTGCTCAGGAAATATGGTGTTAAAACGGTTCTAGATCTTACTTGTGGGACTGGCTCTCAGGTATTTTTTCTAACTAAGTATGGTTTTCTAGTGACTGGTGCTGATTTTAGCCCAAAACTTTTGGATATCGCACGAGCAAAAGTCAAAAAGAAAAGCTTGATATCAGGTTTATTGACGGTGATATGAGAACATTGAAGGTAGGAAAATTTGACGCAGTAATTACGATTTTTAATGCTATTGGGCATCTAACTACAGATGATTTCGAGAAGGCTATAAAAAATATATACGACAATCTCAAGCCTGGTGGAATATATGTGTTCGATATTTTTAATTTAGAGGCGATGAGTAGTAATGTAGTGCAAAATATTGCTATGGATATAAACAAAGACGTAGGTACTACAAGAATCCATAATATACAGCATTCTGTAATTAATCGAGAGACTGGCCAACTTACATCATATGATAGTTATACTATTTGCGATGATAAGAATCAGATTACAGAGATTAAAAATGAATTTACTTTGCAAATTTATACAGCTACTTGGCTGCAAGATCTTCTGGCTAAAAATGGTTTTGAAACTGTGGATCAGATTGCATTTGATGGAACAGAGTTTTTAAATAAAAAATCTCTTAGTATTTTGACGATTGCTCGAAAAAAAGAGAGGCTTACTAATTGAAGCCTCTCTATGAAATTTAGATAACAAATGAGCTAAATATCTATTTTAGATTTACTTTTACATTTGCTTTATCTGCAAGCTGTGTAAAGTATTTTTCAACAGCTTCACGAGATAATTTTCCTCTAATTCCGCTTTCAGCTTGTTCTTTAGTTGGCACTTGAACAGTTCGTGAATCTAAGACTTTAATTATGTGCCAACCGAATTGAGTTTTAACAGGTTCGGATACTTCACCTTTTTTCATTGAGAAGGCTTTGCTTTCAAATTCAGGAACTAATTGACCTTTTAGGACGTATCCAAGTTCACCATTATTAGCTTTTGATCCCTCATCTTTTGAGAACTCTTTTACGAGAGCTTCAAATTTAGAACCTTTATTCAATTTCTTTTTAATTTCCTTAGCTTTTTCTTCAGTATCAACCAGAATATGGCTAGCTTTTACTTCTTTTTGCCCTTTAAGGCTTTTAACAAGCTTATTATATTCTTCATTAACCATTTTATCAGTTACCGCTTTTTTCAAGTGGCGCTCGATTAATTCTTGTTGAATCATTTGAGATTCTGCCATTTGAAGTTTTTCTTTAAATTCCTTTGAGTTTCTGATGCCAAGTTTATCGGCTTCTTTTTCAAAGAGTTTTTGATTGATATATCCTCTGACGAGTAATTCTTGCAATTTTTTGTCAAGTTGTGAAAAACTTTTTCCTTTATTTTCAGGTTGCATTTCAATCATTGGCTTGAATTGTTTCATCACGTCTTGTTCTGTAACTTCACCACCATTATATGTCCCAACAACCACATCTTTTCCGGCAAGTGCAGGCGTTGATAATAATGTTGCTGACAAGAAAAATACTGCTAATTTTTTCATAATTTTGCTTTTAAATTTATTTACTATGTCTAAAGTTTTTAAAAGCTCAGCAAAGCAAAGTCAATTGGTATTTACAATTTGTTTGAAAAATTAGTAAAATGCAATATCTTATATAAACAATAAAATAACATTATCGGGAATCAATGTTTTCATTTTTAACTAAAATTTTTGGCACAGCCAATGACAGAATTATTAAAGGTCTTCAGAAAGAAGTACTAAAAATTAATGCTCTAGAGAAAGATTTGCTTAATCTGACTGACGCTGAGCTTAAAGCAAAAACTGATAACTTAAAACAGAAATTATCTAATGGTCAGTCTTTGGATGATATAGCATATGAGGCTTTTGCTGTGGTTAGGGAGGCGGCAAAAAGAGTGATCGGACAAAGGCACTATGATGTACAGCTAGTTGGTGGCTTAATATTACATAGAGCAATGATCACGGAAATGCGTACTGGTGAAGGTAAAACTTTAGTTGCTACACTTCCAGCATACCTTAATGCCCTTACCGGAAAAGGTGTTCACATTGTCACAGTTAACGACTATCTAGCAAAGCGTGACTCCGAATGGATGGGAAAAATATTTGAATTTCTTGGTCTTACAGTCTCATGTGTAATTGGACAAATGGACGATGAAGAGAGAAAGGCTGCTTACAGATGTGACATAACATATGCAACTAATAATGAATTAGGCTTTGACTATCTTAGAGATAATATGAAGTTTACTGAAGATACAAAAGCTCAGCGTCCGTTTAATTATGCAATTATTGATGAAGTGGATTCGATTTTAATTGATGAGGCAAGAACTCCGTTGATTATATCCGGTCCAGTTGATGATAGTACAGAGCTGCATGGGAAAATTAATGTATTGATCAAAAACTTAGAGAAGACAGACTATGAAGTAGACGAAAAAGCTAAGTCAGTAACATTGACGGAAGATGGTATTAATCGTATGGAGTTAATGCTAGCAGAAAATGGATTAATTATTCAGCATTCTAGCCTCTATGATTTCGATAATTTAAGCTTAGTACACTACATTAATCAGTCTTTAAGAGCTCATTTTATTTTCTCAAAAGATGTTGATTATCTTATTTCAGATAAGAAAGTGATGATAATTGATGAGTTTACTGGAAGAGTTATGGATGGAAGGCGCTATTCAGATGGTTTGCATCAAGCTCTTGAGGCTAAAGAAAATGTTCCAATTCAAAATGAGAATCAGACATTAGCGTCAATTACATTCCAGAACTATTTTAGAATGTATCCAAAATTATCTGGTATGACTGGTACAGCAATGACAGAAGCTGGCGAACTTAAAGATATTTATAACTTAGAAGTTGTATCAGTTCCAACTCATAATAAAGTTACTAGAATAGACCACGATGATGCAATTTATGGGACTACTTCAGAAAAGTATAAAGCCGTTATTGAATTAATTAAGGATTGTCATAGCAAAGGACAGCCTGTTTTAGTAGGTACGATTAGTATTGAAAAATCAGAAGAAATCTCAAAAGAGCTTACCAAGAACAAGATAAAGCATAATGTACTAAATGCCAAAATGCATGAAAAAGAAGCTCATGTTATTGCTCAAGCTGGTCGCCACAAAGCTGTGACTATTGCAACAAACATGGCTGGTCGTGGAACAGATATTATGCTCGGCGGTAATCCTGAAATGATGATTGAAGATTTAGATCAAAATCTCAATGACAAACAGCATGAGCTTGAAGTTGAAAGAATAAAAACACTTGTTACTGAAGAAAAAGAAAAAGTTCTAGAAGCTGGTGGACTATGTGTTATAGGTACAGAGCGCCATGAGAGTAGAAGAATCGATAATCAGCTAAGAGGTAGATCAGGTCGTCAAGGTGATCCAGGATCTACGAAATTCTTTTTATCTTTGGAAGATGATTTAATGCGAATTTTTGCTTCTGAAAGAATATCAGGGGTCTTGCGCACTTTGGGTTTGAAAGATGGAGAAGCGATTCATCATCCGATGATTAGCCGTTCTCTTGAGAAGGCTCAGCAAAAGGTAGAAGGGCATAACTATGAGATTCGTAAGAACCTATTGAAGTTTGATGATGTAATGAATGATCAGCGTAAGATCATTTATGAGCAAAGAAATGAAATTATAGCTTCAGATGATGTAAGTTCATTTACAACTAGTATGCTAGAGCAGCTCTGTCAAAATACTGTATCTAACTTTATTGATAGTAATTCCCTTCGTGAGGATTGGCGGCTTCCAGAGCTGAGCGCTGAGATACAAAGAACTTTTGCGCTTAACATTTCAGAAAATGAACTCTCGTCAATTGAGGGGGCTGAAGTTGAAATCACTTCTCACTTAAGTCAAAAAGTAACAGAGTTTCTTACTAAAAAAGATGCAGAATACAGCGAGGAATTAATGCGATCTGCAGCTAAATATCTTTTGATTACTACTCTTGATCAGGTTTGGAAAGAGCATTTACATAATCTTGACTACTTACGTCAAGGTATTCAGCTTAGAGCTTATGGTCAAAAAGATCCCCTAAATGAGTATAAGAGAGAAGCATTTGGCCTATTTGAAAGAATGCTTGATCACTTAAGAGAATTATTTATTCAAAGATTATGTTTCTTGCATATTGATACAGAACATGTTAATAAGCAATCAATGGCTCTTGCAAATAGAGAATTGCAAGAAATGAATACCAGCCGTATGGATCCTGCTTTTGAGAAATATAATTCTGGTAAAGATATAGAAGTAAAAGCAAAACCATTTAAATCAATGGTTAATCCTGAAGATAGAGATCCAAGTGATCCATCGACTTGGGGAAAAATTTCTAGAAATGAATTATGTCCATGCGAGTCTGGTAAAAAATATAAACATTGTCATGGATTAGAGGCATAAGGAAAATGAAAAAACCAATAATTGGAATAGTATTAGATTTGGCAAAGGACGGTGAGAAATATTCTTATTCTCCAAAACCATGGTATGCATTAAGGGCTGATTATTCAAATATGATTGAACAAGCTGGTGGATTACCAGTATTGCTACCGTATACCAAGGATGTTAAGTCACAGATTGATATGATTGATGGCTTGTTGATTCCTGGTGGAGATGAAGATATAAATCCAAAATTCTATGGTCAGGAGATTAAATCTAATAGAGTCAAAACTAATGATAAAAGAGCGTCGTATGAACTAGCTTTAACTAAAGAGGCGCTAAAAAAAGATAAGCCGGTATTTGGTATATGTAATGGATTGCAGCTTATAAATGTTTTACTAGGTGGCACACTGATTCAGCATATACCAGACATGCATGCAAGTGATATTAATCATGAGCAGCCACATCCAAAGTGCGCACCAACTCATGATATTATAATCGAAGATAGTACTCTTTTGTCAGAACTAACAAAAGATAAGACAATTAAAGTGAATACTACTCATCATCAAGCGATTGATAAGATAGCAGATGGCTTAGTTATTTCTGCGCGTGCTCCAGACGGTATTGTAGAAGCAATTGAATCTAAGGATTATAAATTCCTTGTAGGAGTACAGTGGCATTCTGAATATCAGAATTCAGATCTAGATAAGAATTTATTTAAAAGATTTGTTGAAGAAAGTGCTAAGCCTATATAGGATAATCTACTGAGAGTCATAATAAAATTTGGTGGGTTTTGAATTTAATAATTCTTTAACGGATTTTATGTATGTTTTCTTGATTAATATTTCTTTTTAACGCTAAGCTAGGTAATTTGAGCAAATGATGTATCCAATAGTACGATTAAGACGCAATAGAAGAACAAGTTGGCTCAGAGACTTGACATCTGAAACTCATCTTCAACCATCGGATTTAATTTTACCTATATTTGTTATTGAAGGAGAGAATTTAAGGACAGAGGTAAAAACCATGCCTAGTGTTTTTCGTCAATCTATTGATCAGGTTGTTATAACTGCAATGGAAGCTGAGAAGAGAGGTATAAAAGCTATTGCTTTATTTCCTTCAATTGACCCTTCTTTAAAATCTGAAAGTGCTGATGAAGCATATAATCTTGATAATTTGATATGTCGTACTGTCCGGTCGCTTAAAAATTCTGGCCTTACTATTGGTATCATCTGTGATGTTGCCTTAGATCCATATACGACCCATGGCCATGATGGAATTTTAATTGATGGAGATGTTGACAATGATCAAACCGTTGAAGCCTTATCAAATCAGGCTTTAGTGCTAGCAAAGGCAGGAGTTGACATCGTAGCACCATCTGACATGATGGATGGCAGAATAATGGCTATTCGTGAAGATTTGGATGAAAATGATTTCATTAATGTAAATATTTTGGCGTACGCTGCAAAATATAATTCGAGTTTTTATGGGCCTTTTAGGGATGCAGTCGGCAGTAATAAGAAAAATTATCTAAGCAAGGCAACATACCAGATGGATGTTCGCAATCGATCAGAAGCAATGCGTGAGATTGAGCATGATATAGAGGAAGGAGCTGATATGGTTATGGTAAAACCAGGTATGCCATTTTTAGATATAATAAATGAAGCATCACAAAGATTCGATATACATGTACTTGCATATCAAGTGAGCGGGGAATATGCTATGCTGAAAATTGCGTCAGAGAATGGAGCTCTTGATTGGGAGAAAATAATGATAGAATCCCTTGTTTGCTTCAAAAGAGCTGGAACTTCAGCGATATTAACATATGCGGCGTTAGAGGCGGCCGAATTACTTATATAAGCTTAAGGATTATTATTATGGAAAATAACTCATCAAAATTATCTAAAATTATTATTGCTCTGAGTGCAGTAATTGCTGCAATCTCATTATATATTTTAATTGCGATTGAACTTCCAGATAAACCTCTTGCTGGTCAAGGTGGAGCGCCAAATGATGAAGTGCTGATTGGCGGCGATTTTACTTTAACGGATCATAATGGAAATGAATTCAGTAGTGATATGATGAAGGGAAAGATGAGCCTTGTATATTTCGGCTTTACATTTTGTCCTGATATTTGTCCAACTTCATTGCAGAAACTAACAAATGTTTTAACTACGCTCGATAAATATCAAATTGATGTGTTACCAATATTTATTACTGTAGATCCATCAAGAGATACTAAAGAACTATTAAAGGAATATCTCGGACATTTTCATCCTAAATTTCTTGGTTTAACAGGAACTGAAAAAGATATATATGAAGTTGCTGATTTATATAAGGTTTTTTATGCAAAGGCAGAGGGTGCAGACGAAGCTGGAGATAAGTATATGATAGATCATTCATCTTTTGTTTATTTGATGGATAAAAATGGAAAATATTTAAAGCATTTTTACATGACGACAAAAGCTGAAGAGATTATAGATTTCATCAGAACTCATAAGTAATACCTTTATATATCTACATTTTGTTGGATTAGCTTGATTCCTGCGTACATATATAAAGTTGTTTAGCCTTACTTTGAAATACGAATTTCTAATTCAACATGGGGATTGGGCATTATTAAATAACAAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCCGCCAGAGGGGGCGCAGAAGTA
>sequence62
CGGCAAACCTCCTAAAGTTGCTCTTAACGCTGTTATGCGTAAACTTCTTGCCTTTATGAACGCTATTGTTAAAAATAATTCTTCTTGGGCTTGTGAAGAATAATCTTCTTTAATTTTTTTCTTGATTATTATTACGTATGCTCACTTTAATAGTATTTTATTAGAACATCTTGGGCGATTTTTTTTGCTATCGGCGCGGCAGCTCTTCCTCCGCCTCCGCCATGATCGTAGTAAATGGAAATTGCGTATTTAGGATTATTGAAAGGGACATAGCCAGAGAAAATGGCGTGATTACGACTTTTCCATGCTATATCTGCTCTACTTAAATTATCATCGACACTCTTTTTTGCTTGGACTTGTGCAGTTCCGGTTTTGCCAGTTAATCTCATTGACTTATAGTTGAGTCGGCTGAAATATCCAGTTCCACCTGGTGTATTCATAGTGTTGTATAAAGCTGTTTTTATAATATCTAAATGTTCTTTTTTTATACTAACTTGTTTATACTCTATTTTACCTTTAGCTATTCTCGGAGTGAAAAGTTTGCCATCAGAAGCAATAGCAGCTGCAAGTCTTGCAAGTTGTATAGGAGTACACAGTAAGAATCCTTGGCCAATAGATAAATTTAGTGTATCTCCTAATCTCCAACTACTACCATATCTTTTTTTCTTCCAACTTTTTGTGGGAACAAAGCCTGCGCGTTCACCAGGAAGATCTATACCAGTAATTTGACCAAAGCCAAAGCGTTTTGCGACCTCAATAATTTTATTTGCACCAATTTTTCTAGCAACTGTATAAATATAGGTATTACAGGAGTGTTTCATTGCATCTATCATATTAAGATTTCCATGTCCTCTTCTCCTTGCGCATCTGAATTTATTTCCTCCAAGAACAGGGCCACCTGAGCAATGTATTTTATCATTTGGATCAATACCTGATTCAAGTGCTGCTATTATTGTAATGATCTTAAAAATTGATCCAGGTGGATATAAACTTTTTACAGTTTTATTAATTAGAGGTTTATATGGATTATTAATTAGACTATTCCAGTATTTAGTAGATAATTTATTGAATTGATTTGGATCAAATCCAGGCGATGATGTACAAACAAGGACTTCACCATTTGTACAATCCATAACGATTGCACTGCAACCTTGAGGATTAAGATATTGATGAATTTTTTTCTGTAATTCTATATCTATATTTAAGTTGATATTATTACCTGCAATGCTAGTACTTTTGCCAAGTTCTCTAATATATAACCCCCTAGCATTTACCTCTATTCGTTTAAAACCAAATTGACCTCTTAATTCTTCTTCGTAATATCTTTCTATTCCGTTTTTTCCCACTCTAAATGCTTCGTCAACTAGCTTCAGTGTTTCACCTTCTTTCTTAACTGGTCTTCCTAAATATCCTACTAAGTGTGAAGCTGCATTACCGAAATTATAAAGACGGCTAAATCCGGTATCTATAAAAACTGATTTGAGCTCGGATTTACGTTCCTCAATAGCTGCAACATCTTTCCATTCAAGGCAATCAAGTAAAATGGCAGGAATGCGTCTTCCTCCTCTTTTTACTCTGGCTTGAATTTCTTTTGTTTGTTCGTCATCAAGTTCTAATATTTGCGTAATTAACTCTATATCTTGAGAAAATTTAGGATTACCATTCTTATCAAGAAGCAACCTAAAACAAGTAATATTTTTAGCAATTATTTTATTATTAACATCATAGATTTCACCTCTTGTCGGGGAAATTACAATCATTTTTATTCTATTGTTATCAGAAAGAGTTCTATATTCATCTTTCTTGATAAATTGCATATAAAACATTCTGCCAGCAAGTAAAAATAATAGTCCTGCTTTTCCTGCACCAATCATGAAGGTTCTCCTAGTCATGATTTGTTTGTCTGCAATGTTTTTATCAAGCATAGTTTTTTATCATTTCTATGGGTTTGCCTATCAATATTTTCATTATTGGGTATGAGAATATTGTCGTAAAATAGTAGAAATAAACACTATTTCCTTGAATATGATGAGTGCTGTCAATTGTAACTATTAGGAATCTAGAAGCTATTATAAACATACTATATGCACAGAACATACCTATGTTTGTATAATAATCTTTCAAAAGGAATCTAGATCGACTTTGATCAAGCAATAGATTTGCTATGATTAATGATAAAGAACTTGTACCAAGTGGCATTTGGTATAGTTGATCTATTAGTAATCCTAGCAAGAATAAATGCCAATTTTTTACAGTTTTATATGTATTTAAATAATAGATAATAATTAAATCAAAAGCTGGAAAAATTTCAGGATTTGATCCAATGTAATGCCAATTGAAAGGCATCATAAAAATCAGTCCAATATAGGAAATAGAGATAAGATATACTAAAAATTTTATAGCTAGCTTATACATTATTATACCTATTAACTGACATATTCATGATTAAGCCAAACCCAATAAGTATAGACCCCATCATAGTTCTTCCATACGATAGCAAAGGTAGTGGAACCCCTACAACAGGAAGCAGCCCCATTACCATAGCTATATTAATAAACACATGTGCAAAAAACAAGGTAGCAATACCAACTGTAACTAATGTTGCGAATTTTGATCTACAATGCATTGCAACTGACAAGCAACTTGCTGTAAGTGTTGCATATATCGTAATTAGAATTATTCCTCCAAGAAATCCTAGCTCTTCCGTTAAGAATGCAAAAATAAAATCAGTTTGATACTCTGGTAAGAAGCTTAAATGCCCTTGTGTTCCACTCAGTAGACCTTTGCCAAATAATCCACCAGAGCCAATAGCAATTTTTGATTGGATAATGTTATATCCTGCTCCGAGTGGATCTCTTTCTGGATTGATAAAAGTAAGCACTCTCGACTTTTGGTAATCATGTAGCATGTACCAAAAAACGGGTAAAGCTGCTAAACATAAAATGCCAGAAACAATAAAGTAAAGTAGACGTTTACCAGCTGCAAAAAAAATGGTAATTGCAACTATGAGAGTAATCATCGCAGTTCCAAGATCTGGTTGTTTTATAACAAAAGCGATTGGAATAAGAGACGCAATGATTGGGATAATAATATTATATTCTGGTAGATTGTATTTACTACTTTCGTGGAAATATTTTGCAAGCATGAGTACTAGGGATATTTTTACAAGTTCAGATGGTTGAATGGTAATAATTCCAAGATTTAGCCAGCGTGTTGCCCCCATGGCAGATTTACCGGTGAATTCAACAGTTATAAGCATTATTAATGTTATAAAGTAAAGAAAATATGAAAGTTGATAGATAATTCTAAGATCAATTAACGCAATTAGTAATGATATTGGCATGAAAATACAAAAGGCGGTTATTTGTTTTTCTGCCCATGGTCCAAGGCTTCCACCCGCTGCTGAATATAATAAAACAAATCCATAAATACTTAGTATTGATGTAAGCAATGGTATGGATAGCGGAATCCTTTGTATCTTCTGTAAGAATTCTTCACTATTATTATATTCCATGGATTATTTATAATTTATTTGCGGGATCTTTTTCTATTGTATGCATTATAAACTAATTTATATTTTGGGAAAATAACTTTAACAGTTGTACCCTTTTTTTCTACACTACTAACAGAAAGAATCGCATCATGTGCATCTAAAAGCATTTTAACTATAGCTAATCCTAGACCATATGAACCGGTAGACTGGTAGTCAATTCCTTGAAGAGTACCATAAGCGCTAAGTGCGACCGGTATATCTTCTTCTTTCATGCCAATCCCCTGATCCATAACTTTAATTTCCATTTTATTGTCAATTATTCTTGCTGAAATAGTAATGGTTGTATTATCTTTTGAATATTTTATTGAGTTACTTATTAAATTAATAAATACCTGTAGAATTCTTCTTTCATCACATATTAATAGAGGTAAATTTTCTTCTATTTCTTTTTCAATATTAATTTTTCTTTTAGTGAATCTAGCATTAGAAAGCTTAATTGCTTCATCTATGACTTTTGGAATCTCAGTTAAAGCATTTATGGTTTTAAATTTTCCCTCAATAATTTGATTCTCATCGAGGATGTCATTAATAAAGTCTAAAATTAAGTTGGAGTTTTTGTGAATTCCTTCAGCATATTTTTTATATTTAGGTGGTAGTTTACCCCATAGTTCTTTCTTCATAATTTCTGAGCCAGTTTGAATAAAACCCAGTGGAGACCGTATTTCATGTGCTGTGAATGCTAAAAAGTCAGATTTTGCTTTAGTTACACTTTTTGCAACTGCTGTAGCTTTTTCTGCTTTGGTTCTGAGGCGTGTTTCTCTTTTGTATACTGAAATTACCATAAATAAACACGCGATAGCAAAGATACATACCTCTATGAATTTCTTGGTAATATTATCAATAATGTCCTGTTTAATTACTTCATTATCGATATTTACTATTATAGTGAATGGAAGACCTTTCAATGAACTGACAAAGTAATTTATTCCATTAAACATGTCGAGATAAGATATTTCATTTAATTCACTTTGATTATTTTTAAGAGATTTTACTATTTTACTTAAATTAGGGTCTAATTCTTCATTATGATCAATTACGTTGCTAATAACATTCCTTGATTGGGCAATAACCTTCATATTCTGATCAAGTATTATAAAATGTGTGCTGCTATTTTTCTTACGAATATTAAGACTCCGAACCATAGTATTAATGTCGTAACTAAGAAGAACTGATCCAAGATATTTTTCGGTACTTGGATCAGATAGATTATCAATAATTTTAAGACTTTTTCCTTTTGTTACACTATTTTTTGTATGAAATACGATGTGATTTCTCCAGTCGGAGTTATTAATTTTTCTTTTTCCAATAATATCTTTTATGTATTCCCTATGTTTAGGTTTACCTATAATACCTTTTGTACTCGAAACTACTTCGTGAAAATTTGCATTAATCCAACTGAATTTTCTCCAACCAAACATCATATTAAAATCATGAGAAGTAAAATGATCTTTAAGAGTTTTATGAATATGTTTTAAATTTTTATGGTCTCGAAGAATACTTCTACCGATTATGTTTATGAAATATCTAGAGTAGTTTAAATGGTCTGTAATTACTGTTTCAAGCAATTCTGATTCCATTTTCATGTCTTTTAAGATTTGCTCTTTTTTATTTGAGTATATTCTGATAAACGAAACCAAGGTAAGAATTACGACAACTATCACTACACTAAAAGTTACCATTTGAATGGCAATACTTTGATCAATTGGATCTAGCTTTTTTTCGTTAGATTTTGGTTCCATAAAATAATGATATCAATGTTGCAAATCATTCTTTAAAAAAGACTACAATTTTTTCCTATACTATTCTAGTAGAAATGATGTAAACTCCCAGAATTATAAAATATATATTGTCCAGGTTATGAAGCTATCATTATATAATTCGCTAACAAGAAAAAGAGAGATTTTTTCTCCTATTGATGACAAATTAGTTAAAATGTATGTTTGCGGTCCAACTGTCTACGATCATCCTCATATTGGAAATGCAAGATCAGTAGTAGTGTATGATGTACTATATCGTATATTAATTAATCTATTTGGTTATGATCATGTCAGATATGTAAGAAACATTACAGATATTGATGATAAAATAATAATCAGGGCTCTTGAAGAAAAAATTTCAATTTCCGAGCTAACCCAAAAAACTACTAATTACTTTCATGATGATATGGATTATTTGGGTTGTAATAGGCCGAACATAGAACCAAAAGCGACTGAGCATCTAAAGGAGATGATAGAAATTATTAATAAACTACTTGCAAAAAATATAGCTTATAAAGCGGATGGTCATGTTTATTTTGATGTGACAAAAGCACAAGACTATAATAAACTTTCTGGTCGTTTATTTGAGGATATGTTTCAAGGGGTAAGAATTGAAGCAAGTGAGTCTAAAAAACATCCTGGGGATTTTGTTTTATGGAAACCAGCAAGCCCAGAAGATGATGAGTCAGCAAGGTTTGAAAGCCCATTTGGCGAAGGGCGCCCTGGTTGGCATATAGAATGTTCCGCTATGAGTTATAAATATTTAGGTGAAACTTTCGACATTCATGGAGGTGGGGCGGATTTAATTTTCCCTCATCATACTAACGAGATGGCACAAAGCTGTTCAGCATTTCCTGGATCAAAATATGCAAAATTTTGGGTTCATAATGGATTTTTAACTGTTAATCACGAAAAAATGAGTAAATCACTCGGAAACTTTACTACAGTTCAAGATTTGCGAAGAAAGGGTATAAAGGGTGATGTTGCTCGATTGTTTTTATTGAGTAATCACTATAGAAAGCCAATTGATTATAATGATAAGGCTATTTCAGACGCAAAAGGGATGATTTCTTATTGGTATCGGGCAATTGAGAACTTATCTGATATTGAGGTAAGTAAGGTTCCGGAAGAATTTTTTAACTGCTTACTTGATGATATGAATAGTAGTAATGCAATTAAAATTACTAATGACTACGCTAAGCAAATTCATTCAGAAACAGATATTAAACAAAAGGGTAAGTTGGCTTCAAAGCTTCTTGCATGTGCTAATTTTCTTGGCTTAATGAGTGTGTCGGTTGATGAGTGGTTTAAAGGTTCAGACAATGATAAAATTAAATATATTGAGAATTTATTAGCTAGAAGATTAATTGCTAAAAAGCAAAAAGATTGGCAACTAGCGGACCAAATTAGACAAGAATTAAACGATATGGAAATTGAAATAGAAGATAAGCCTGATGGTACTTCTATTTGGAAGAAGAAGTAGAACAAAATTTGCTTTTTCGTAACTAAATACATGTAAATTGCCTTGTCTCTTGAGTTTTTTGGCAAACATATGGAGATATTCGTCGTAGCCGGGCGAAGTGCCTCTATCTATTAGCTATCTAGTATTTTAATGCGTAATATTCATCAAATATTTAGAGATAGATTGTTAGCCGTTAATTCAGTCCTGTGCAAAAGTGCCGAGTTTAAACTATTATTTTTCATCTAGAATGGGAGTATAGAGGTCCACTTAACAATATGTATAAACGCCAGTTTAGTACAAGAAACGCTCTAAATTGTTTATTACCCATTTTATTTCTGCTCATTGTCATCGCGAAGGAGCTTTAGCGACTGCGGCGATCCATTTGTGGATTACTGCGCCCGCCTTCTGCTCTTCGTAATGACGCAGGTCAAGCGTCATTTTCCTATGGTCTTAAACTAACTCATACAATAGAAATTGCCAAAGAATATAATCTGATCAATTATATAAAAGGTAGGACAGGTAAACTGCAAACTAAATAGAAGCATAAGACTTCGAATGCGA
>sequence63
AGCACTACCGATTGTCTTAAGACCTTCTTGTAGTGATGTTGCAACTGTCTTTAGATACTCATCTGTAATTGTTAGCATATTAATACTATATGCAGTATTTTTTGCGATCGCACCAAGTACAATTTCACTATCTCTTAGTGAGCTACCTAGGAAGCCATCAACTACTTCTACGAACTTGTCATTACCTGTAGTCAAGCTTTCACCTAGACCGCTAGATCTTCTACTAGCTGCGCTAACTTCTCTTGCTACGGTACCTGTTAAATCATTTCCCAATGTTAATGTCATTATTATTTACCTATTTTTAGTTTAATTATTAAAAGCAGATTTAAAACCCTGATTAACCTACCCCTTAGTACACACTCTTTAAGTGCCTAAATCGAACATATTATAATTATACTATAAATTACAACAAAAGTCCAATTTATATAGCTTCTTAGCATAAAAAGCCTATAGATAAACTACTTTATTGCCCAAAAGCTTCTATAATTTAGTCAGCAATAACCATGCCACTCAAGCTAATAGTTAACATAAAACAGCAAAGATTAATAATTTATTTTCAAATACTCAAGACAACATTAGTGATATGAATTTTCCCCCTAACTCTCCCAATGAAGTAGCTATTAGGGAATTATTATATATATCTTTAAATTACTAAAGTTACTTTTACTTCCCCCCTCCGAAAACGACAAGAATAAATTCCAACAAAAACTTCAATAAAGATCCCAAATAATTCAATTAATGCTTGCGAGAGCGCAAAAACTGATATATATTACCTTTGCTTTCGGTATGTGGGGGTGTAGCTCAGCTGGTTTAGAGTATCTGCCTGTCACGCAGAGGGTCGCGGGTTCGAGCCCCGTCACTCCCGCCATTTTACCAAAGCTTCTATAAACGAATTTCAAATAATATTACTCCTTATGACGATTGTAAAAATCAAGCAGTTAGAAAATGCAGATGGGCTTGAAATGCCTCATTATGCAACAAAACAAAGCGCTGGTCTTGACTTGCCAGCTGCAATTGATAATGATGTTGTTATAAAAGCAGGAGAGACAAAAATCATACCAACAGGCATAGCTATTGCATTGCCGGCTGGCTGCGAAGCACAAATTAGACCAAGATCTGGACTTGCTGCGAAACATAGTATAACAGTCCTAAACTCACCAGGAACTATTGACGCAGATTATAGAGGAGAAGTTAAAGCAATCCTGATTAATCATAGCACGGAAGATTTTACTATCACTCGTGGTATGCGCATAGCTCAAATGGTAATCGCAAAGTATGAGCATGTAAAATTTGATGAAGTACAATCACTAGAAGAGACCGAGCGTGGCGAAGGTGGCTTTGGATCAACTGGTAAGTAGAATACTCGACTACTTTAACTTAACTGGTTGGCTAAATAGATACTAGCATCAACTTACGAACAACAAAAACTAATGCGTTATTCAAGACCTAACAACTCAACCATATCTTCGGAAACAGAATCACCAGCTCGTTGACAAAGAACATCTGGATTTAATCCGTAAAAACCTGATTCAAGCTTATGATATAAAGATTCAGGGCATTCTATTACTCTTGCTAAATCAAATGCAAACTCATCGGCAATCTCATTTAAGCATAGTTTAAAGTTTGTAAAATCAAATTCAGGTTTCTCTGGTTGAGCACTCCTCAAATCCAGCAAAAAATTTTCAAAACGTATTAACGCTTCAAAGCATACATGACTCTTAAGTACAGGATACGCCTTTTCGATAGACGAAGTATCCGCACCTATATTATAAAAAAACTTTATAATCTCAAGCGCATTATCAGACCTTGTCTCCTTAAACGCTTCATCTACTTTTGATAAAAAATTATTAGTCATAAAATATATCGAAGCAGCGTACTCAACGTCATCAATACTCACTTCTGCACCAAGCTCTACAAGAAGAGCAACCATTTTTGGATCAGCCATAGTAATTGCTAAATTAATATTTCCAAATTTTTTCCCGGAAATATAACTATCTTTTTCATAGCAAACATCGCCACCTAACCTACTTGCAACATAAACACCTAAATAATTCTTTGCACCAATACATTGCGTTAGCAAACCTTGTAAACTTAAGTCATCACGATTTTTTGACATAGTCTTACCAATTAAATTAACTACAACTATTTAACAATAATGAAGAGACATCACAAGACAATAATATTATCTAATAAAGCAAATAAGCTGTACACAAAAGCCAGTTACTTTAATAACTTCTCGACTATGATTGCATTTTCTGACCCTTCGTCATAATAAAAACGAATCTCAGGCGAATATTTTAGATTTACTTGGCGGGTAATATAGCTGCGTATGACATATTTCGATTTTTCTAAAGCATCTAGCAATTCATCAACAGAAAGATCAGTATTAAATGGAACAAAAAAACAATTAGCAACTTTTAGATCCGGACTAATATTGACCTCAACTATGCTAATTGGAGCACCATCAAGACGATAATCCAGCTTCCCCTCTCGACGAAAACACTCAACAAGAGAAGCATGAATCGTTTGGGCAACTTTCAACTGCCTTTGAGATTGCTCTTTATGACGCGTATTTAATTTATAGTTTTTTCTGCTCTTCAACAATTTCAAATACCTCTACAGAATCACCAACTTTAATATCATCATAATTTTCAAAAGCAATACCGCACTCAAAACCTTCTTTCACTTCCTTTAAATCATCTTTAAAGCGTTTGAGGGTCTTTAGTTTACCTTCATGAATAACGATACTATCTCTAAGCAATCTTACACCCGCACCTCTTTTTATAACTCCCTTAGTGACATAGCTACCTGCTACTTTACCAACCTTTGAAATATTAAATACTTCGCGTATATCAACCGAACCAATATACTCTTCACGAATAATTGGAGATAACATACCGCTCATTATTGCTTTAATATCATCAATTAAGTTATAAATTATTGAATAGTATCTAATATCAATTTTATTGTTTTCTGCAGAACTTGTAGCAGCGTTATTTGCTCTAACATTAAAACCAAGAATCAAAGCACTAGAAGCAGTCGCAAGAGTCGTGTCTGACTCCGTAATACCTCCTACAGCACTATGAAGAACCTTTAATTTTACTTCATCGCTTTCTATTTTACCTAGGCTGGTTATTATGGCTTCAATTGAACCATGTACATCACCTTTAATAATAACAGGCAACTCCTTAATTTTATTATCGCCTGATGCTTTTAAGAATAAATCTTCTAAACTTGTTTTTGACGCTGTCACTTGCAAATCTCGAGCCTTACGTTGTCTATACTCAACAATATCTCTTGCTTGTTTATCCGTCTCTGCAACATTAAATATATCACCGGCAGATGGAGCATCATTTAGACCATAAACCTCAACCGCTACCGAAGGCCCAGCTTCTGCAATTGTTAGACCTTTATCATTACATAATCTTCTTACTCTCCCATAAGAATTCCCTGCTATAACAATATCACCCTTCTTAAGTGTTCCTCTTTGAACGATAACAGTTGCAATCACACCCCTTGACTGATCAATTTTTGATTCAACAACAACACCAGCAGCAATAGTATCTGGATTAGCTTTTAATTCTTGCATTTCAGCAACTAAAAGAATAGCTTCCTCAAGCTTGTCAAGATTCTGCCTTTGTTTTGCAGATACACCCACCGTTATTATATCACCACCTAGATCTTCTGGGATTAATTCATGACTCAATAATTCTGTTTTTACTCGGTCTATGTCTGCCTCAGGTTTATCTATTTTATTAATTGCTACAATAATAGGAACCTCTGCAGCTTTTGCGTGGCTAATAGCTTCAACAGTCTGCGCTTTAATTCCATCATCTGCAGCAACAACAAGAACTACAATATCAGTAGCTTGCGCACCCCGAGTACGCATCTCAGTAAACGCCTCATGACCAGGAGTATCAATAAAAGTAATCATACGATTATCAGAGATTGTTACCGTGTAAGCACCAATATGCTGAGTGATTCCACCAGCTTCACCGCCAACTATATCAGTAGATTTTAGCGCATCAAGCAAAGAAGTTTTACCATGATCAACATGCCCCATGACTGTAACGATTGGAGCTCTAGGCTTTAAATCTTCTGGAGAATCATCCTTATCTATTAAAACATCTTCTATATCAGACTCTTTTACTCTTTTTACGCTATGTCCCAACGAAGTTGCAATCAGCTCAGCAGTATCTGCATCAATTGATTGAGTACTAGTTGCCATAACACCCATTTTCATCAACTCACGTGTAACATCTGAAGCACGTTCAGACATTCTACTTGATAATTCAGCAACAGTTATAACTTCAGGTAATATGACCTCACGATATACTTTTTCAGCCTTTACAGCGACACCTTCAGTCTTTCTCTTTTCCTTTGCTCGAGCCCTTTTTATAGAAGCAAGAGATCTGGTCTTGAATGGAGCACTGCCTGAATCTTCTTCAAGCATATGAATGATATCAGATTTCTTTAACTTCTTAGGCTCAAGACTCTTTGGCTTAGTAGGTGTTGCTTTTTCTTCATCAGTCTTTTCTTTTTGTGACTTAGGTGGTAAGCTAGCTGATTTTTTGCCATGATCTTTCCTAGAAGTTGATGTTTTCTCTATAACAACTGCTTCATCAGCAGGCGCAGGAGTATCAGCAACATCCTCAACCTCAGTTTCTTGGTTTATTTCAGCTAACTTACTGAGGCTACCAATTTGCACTTGCTCGTCTTCAATATCATCAACCTTTGATCTCTGAAGAGCAGCCATTCTTCGACTATCTTGATCGGCATTAGTTTGAGTAGGACTAACTTTATTCAGAGATAATCCACCACCAGTTGCTTTCCCACGTTTCACTTCAACAACTATAGATCCAGAACCACCTAAAGTTTTTGTAACCTTTTTAGGATAGTTACCTAAACTAAGCTTAGTACCACCTAGTGTCAGTTTCTTTGCCTTTTTATCTTCTTGGTTATCTGTCATGCGCTCTTTTTCTAAATAATTATAACTAAACTAAATTTAAATAATCTACTAATCTTGCTGACCTTCTTCAGATTGTTCTTTTGCAAAATTAATCAATGCTTCGATATTTTCTGAACTTATTACAGTTTCAGGTACTATACCTCTAAACTCGGCAGGCGTAACCTCACCTAAATCTTCAATTGTTTTTACACCAAATTCAGCGAGTTTCAAAATATATTCTGGAGGAAGATCTAATGAATCTAGTAATTCTTGTTCCACACCAAGCTTCTCTAATCCTTCAATAATATCTTCATTCTTCTTTTCAAGATAAGTTATAGCACGATTTTTAAGTTCCGTAACTAACTCTGTATCAAAGCCTTCAATTGCAGCTAGAACTTCATCTTCAGAATAAGCAATCTGCTCAATTGAAGTATAGCCTTCAGCAGAAAGCAGCTGAGCAATTACTTCTTCAACACCAAGATGATTAACAAACAATTCTGTAGTATTAGTAAACTCCTCACTTCTTCTCTTTGATTCTTGCTCTTCGGTCATAACATCAATAGCCCAACCAGTTATTTTAGAAGCCAAGCGAACATTTTGACCTCTTCTACCAATCGCCATACTTAACTGATCATCAGGGACTACCGCTTCCACTCTATTACCCTCTTCGTCGAAAACAATTTTTGCAATTTCGGCTGGGGTCATAGCATTAATAACAAATTGAGCCACATTTTTATCCCAATTTATTACATCAATCTTTTCACCGCTTAGCTCGTTAGTAATAGACCTCACTCTACTACCTCTCACTCCAACACACGAGCCAACAGGATCAATTGAAACATCTGTTGCAACAACTGCAATTTTTGCTTTAGATCCAGGTTCGCGGGCAATTGATTTTATTTCAATAATATTGTCATAAATTTCTGGAACTTCCATTTCGAATAGTTTTCTTAAAAACTCATCGTCAGTCCTTGATAGAAAAATCTGTGGACCTTTTGGCTCAGGACGAACGTCTTGTACATACGCCTTTATTCTATCACCAACTTGAAACATCTCACCCCTGATCTGCTGACCACGACGCAGAATTGCTTCGGCTCTCCCAACATCAACAATAATATTACCAAACTCAATGCGTTTTACAGTCCCATTCAAAATATCGCCTTTACGATCCTTATAATCTTGATACTGGCGCTCTCTTTCTACTTCGCCTACTTTTTGCACAATAACTTGCTTTGCAGTTTGCGCTGCAACTCTACCAAGATCAATTGGTGGAAGAGGTTCTAGAATATTTTCACCAATTTTTGCATCAGGCCTTATTGCAATTGCATCTTCAAGCAAAATTTGCTGTACAACATTATCGATAGTTTCAACAATCTCTCGAACTCTAAATAGGCTAATTTTTCCTGTATTTTGATCAATTTGCGCGCTAATATTTTGCTCTAAACCATATTTCTTACGACCAGCGATTTGAACAGCTTGTTCCATTGCTTCAATTAAACTTGCTTTAGGAATACCTCTTTCTCTAGATACTGCATCAACAATCTGTAAAATTTCAGCCTTACCAAAATCATCCATATTCAATCTCTCTTAATATTAAATTTATTTTTTCTTATCTTTGTTCAATAATTTTCTAAACATTTCATCTGTAAGAACTAAATTAGCTCTCCTTATATTTTCAAAATCAAATCCAATTTCAACATTTTTTGATTTTAATCTTATTTTACTATCAATAACACCAAGTAATTTACCTCTGAATGATAAATTACCGTTATGAGGCTCTTTTAAACGAATTTTTACCTCAGAATCAGCGTATTTTTCAAAATCCTGCAATTTTACTAATGGCCTTTCTAAACCAGCCGAAGATACTTCAAGAAAATACTTACCTGAGATAATGTCTTCAACATCCAATATTGCAGATATATTACGACTAACTAGTTGACAATCCCCAACTTCTATTTTCTCTCCATCTAGTCTTTCAATAAATATTTCAACTATTTTATTAGCTGACCCATTTATTGCGATCTTAACTATACCAAAACCTAAATCATTTACGGTATCTTCAACTAGCTCTGCAATTTTTCTTTCCATATTTTGCTGTAAAAAAAGGCAGACAACCTTACAGGAGCCCACCTTAAATAATTTTATTATCTAATTCTTAGTTAAACTATATAGTAAAACATATGCTATCTCAAGTAAAAACTATCAATTATTACGGCATTGTTAAATAGCGAATGACATAGAATAATAATTGCGCTATATAACCAAGAACGTACCCGGGAAAGGCGTCAGCACGGCGAAGCGGGGCAGATCTACGTGGGCGTTCATCACAAAGTCCACCGTCTCCTCAAAGACATCATGGCC
>sequence64
AACATCTTCTTCAAGGTTTAGGTTTGATTCTTGAGAAACAACAAGCAATTCAGAAATATCAAATTTTTCTATTACTGGAATTGTAACTTTATACATCTTACATAACTTTTCGAAAACTCCAGGTTTTTTATCTTGAGTTATTTTAAATTGAATAAATGCATTAATATATTGCTCTCCTATCCCATCAGATCCAGGGTAAGCTTCTATCATTTCTTCTACTGAAGCTTCTTTTACAGTTTGAGAAAGGATAAATTGTATTTTCTCATTCGCACTCATTGGCTTAGTAGACTCTAATTCATCTTCGATTTTTATTCTTGCTTCAACATAAGTATCCACCTTCTCCTTAATACCATTGGTAGTAAGTATTTCTTCAACCTTACTTGTTATTTTAGCTCCATTCATAACTAAACATTCTATCTGAGGAAGCAATTTGTGTGTTGCAAATAATTCTAAAGCACCCTCTGTATTAATACCAATTTCATCAACAAGAACAGAAACAAATTCAGCATCAATTTTTGGATGTAGCGCACTAACCAATGCTTGCTCTGCTTTTTCATGAGAAACATCAATTTTTGCTGACGCCAACGCTTTAGTTATTTCTATTTTTTTAGAACCACCTAAATTGCTAACATAGTTTAGTACATGATTTGTGTTATCAAGAGAAGTAGTACCAAAACCTGCTTTTGCTAGTTTTACTACCATATCTACTTTACCTTCAGTAACTGCTTGCAATAAAGGAGTTAAAGGAAGAGCCGTATCTTCAGATACTACATATTGTCTTTCTGGCAGAGCAAATGTTGTAATATCTAATTCAGAATCTGCATCAAGCATATCTAGCAAATCATTGTTATCATACAAAACACAGTAATTTACAATATTTACACCGTTATCAAGTATATCCGTACCAACACCAGCTTTTGCAAGCTCTAGCGTCCAATCATTATAACCAAGCTCAACACATTTTTGTAATGCTGTTTTTCCACCAAAAAGTATATTATACTTAATTCCTAAATCTTCATCGGCTAAAAATTTAGCAAAAACCTCAAGACTTATTTCACCACGATTATCAACTAAATAATGCAATAGTAATTTATTTGGATCCTTTGCAACAACTGCTTTAGTTTTAATATCTGAAGCCATTTTAATATCATAACTCTGAGTTATTAAATTCATTTGAATATTATAAAGTTCATCTAAACTTAAAATTGCCAACTCTACATCACCACCTAAAAGATCTGTGACTTCAACTAAACCCTTCATCTCAGCAAATTCAACAGCAGTTTTACCTGACCATTTTTTTGCCGCTTTACCACTAACCATATCAGTTGGCAAACCCGCTTCTAACCAAGCTTTTAATAATAAAATACTAGCTGATCCATTTTCAATTTTATTTACAATGACATGAAGCGGTGAAAGCCCATCACCATCTAAAGCCGTTATATCAACATCGTGATTAGCTAGAGCTATAAATGATGTGATATTCTTTGTATAAACAGCAGTCTGAAGAGGAGTAATTTTATTTGAATCAAGCTCTGTCAAACTTCTTCCCTGTGAAACCCAAGTAGTCATGAGTGAATTAAGCACTTTAGGATTAGTCTCATTGGCAACAACAAAATGCATAAAACCATCAAAAATGTTTTCACTAACCTCTCTAGAAAAACTCCCCGCATTACTTGAATTAACTACACCAGCTGCAGTTCCCATATTAACATTTATTGCTCCGAGTTTAGTTCTTGCATAATGCTGAACCCACTGACACTTAGTAATAAATTCAGCTTGAAGAGATTCATCAGTCATATTCTTCCATACGGCTTGAGGGTTTAAAGCACGTTTTTCTAGATAAATTAAAAACTGAGTTCCGAATCCAGATTCATTTAATAGTTCTACAAGTTGTTCATCTTTTCTTGATTTTGACATATTGAGTTTCTACTATAAATTTATTAAAATTTAGATTATTCTATCATATATATTAACAAATATCAATAATTTATATTTATATATTTGCTATTTAAATACTCATCAATTCCTTCGTGAGACCCCTCTATGCCAAAACCTGATGCCTTTCTTCCAGCAAAGGGAGCGTTAGTTGTCGCAGGGCGAGATGAGTTAACTGAAACCATTCCAAAATCTAGCTTAGACGCAATATAGTTTGCTCGTTTCATATCTTTTGAATATAAATATGATTGAAGGCCATATTCTGTATTATTTGCCCTTGCTATTACTTCTTCAACATTTTCAAAATTATAGCAAGCAAGCACAGGTCCAAAGATTTCATTTGAAAAAATATTCATATCGTCGTGGCAATCTTTAACAACAGTAGGATCTACAAAATTTCCGTTATGACTACCACCACAAAGAATTTTTGCTCCGTGATTAACGGCATCTCTTAAAAGCAAATTAATTTTTTCAACCGCATGAGCGTTAATAAGAGGACCTAGATCACTTGATTTTTTATAACCATCACCTGCTTTGCATTTGCTAAATTTCTCAGTCAGTAGCTCAGTAAATTTATTATAAATCTTATCCTCAATAAAAATACGATTAGGAGACGTGCATGACTGACCACCTGAACGCAATTTGATCCCAACTAAATCATCCGTTACTTTGTCTATATCAGAGTCTGCAAATACTATATATGGAGCGTTTCCACCTAGTTCCATTGATAGTCTTTTTACAGTTTTTGCCGACTTTTCGAATAGAAGCTTCCCTACTCTTGTAGATCCTGTGAATGATAATTTTCTAATTCTAAAATTATTACAAACAACATCACTAAATAGTTTGGCGTCACATGTTACTACGTTCAAGACACCAGCTGGTAAACCAGCTTCTTCTAAAAGTTTTGCTTGCGCAAGTGCTGAAAAAGGTGTTAGCTCTGAAGGCTTCAATATAACAGAACAACCAGCCGCAATAGCCGGGGCAATTTTGCGCGACATCATTGCAGATGGAAAATTCCAAGGCGTGATAGCCGCAACAGGGCCTATTGGCTCTTTTTCAACAACAACTTTATGTTCAATGCTAGATCCAGCTCTACTATAATTGCTATGAGGTCTTAGAATACAAGCAAACCAATCAATAAATGCGCCGCCATAAATTAACTCCCCTTGAGCTTCGGATATAACCTTCCCTTGCTCTAAAGTAATTAAGTCTGCTAACTCCTTAAAATACTTCTTATTAAGCTCTTGCCACTTCCTTAAAACCTGATATCTTTGTTCTATAGTTGAATTTTTCCATTTATCAGCAGCTTCTATAGTTACCTCAACAGCATCTCTTAACTGTTTTTCAGAAATATCTGGTGCATGTCCTATAATTTTACCAGTAGCTGGATTATCAACAGCGATCTCTTCACTAAAAGATATCCATTTTCCATTCACAAAATTTTTCTTATTCAGGAAATCCAGCATTTACGCCCTCATATTTTATTTAAATATATTTTATACTAGCTTTAAGATATGAATAACCAGTTATTACAGTAAGAATAGCTGCAATCCATAGGCAAATATGACCGATAAGATCTAATGATTCTATTCCAGAGCCTGTTGATCCAAGTAGTAACATGGTCATTGCTACCATTTGTATACATGTTTTTGTTTTTGCAAGCCAAGTAACTGGAATGCTAACCCTAACTTGAGCTAAAAATTCACGAAAGCCAGCAACAACAAACTCTCTAGAAAGGATTAATAGACAAGGCACTTCATCAGCTCTACCAAATTTAACAAGCATCAGCAAAACACAACCTACTAACACTTTATCTGCTATAGGGTCAAACATAGTACCAAAACTAGATACCAAATTATATTTTCTTGCCAAAAATCCATCAAAAAAATCCGTAAGGCTTGCAAGCGCAAAGATTACCGCTCCTAACCTATGAGCAAATTTTGAATCATCAAAATAAAACGACATTATTATGATTGGAATTGCAATCATCCTAAGAATCGTCAGATAGTTTGGTACATTTTTATCCATTTATATTAAATATCTATTTCAAATTATATCTCATTATTGGTACGTTTGTTCCAAGTAAAACTACTGAAGGCTTTTCATCAATTTTTGTTGCTCCCATTTTCTCATAAAAACTTCTGGCTGCTTCATCACTAATAAATGTGAAATACTCTAGCTTGTGGCTTTCTTTTAACTCATGAACCATCTTTTTCCATAATGCAGTACCTACTCCCTTTTTCATATAATTTTTGAGAACAAAAAACCTACCTTCTGAAAGATCTTCCTGTATTTCTCTTAGCCAGAAACCTATTATTTTGTTTTTTAACTCTGCAACGTATATTATTGATTTTTGTATTAATTTGCTGCTAATTTCTAACCTATTTATCATCCTTTTTAATTCATTACCTGAATAGTCTCTTACACTCAAAGAATCAACAATAATATCTTCTAGCAAATCAACTTCTTCAGGTTTAATTTTCCTAATTATAAATTCTGACTGCATAATAAAATTTCTTTTTTTCAATAGGTAAACAATAAACCACTATAAGTCAACAAACATATTACGATATAAACGTAGAATTTGAAATAAGGTATAGTTATGTATAAACTAGCGAAATAATTATAAGAAATACAACTAAAATATGACAAAAATATATAAGGATGCTGACGATGCGATTGCAGATGTTATTAGAGATGGAATGCTGATTCATGCAGGAGGATTTGGCCTTTGTGGCATACCAGAAAATCTAATCTCAGCTATTAAAAAATCTGGAGCTAAGGATCTCACAATAGTAAGTAATAATTGCGGTGTAGATGATTTTGGCCTAGGAATTCTTTTAAAAAATGGTCAAATTAAAAAGATGATTGCTTCTTATGTTGGAGAAAATAAAACTTTTGAAAAAATGTATTTGGATGGAACCCTAGAATTAGAACTTAATCCTCAAGGAACACTTGCTGAGAGGATACGTGCAGGTGGCGCAGGAATTCCAGCTTTCTATACAAAAACTGGTGTTGGAACTGTTGTAGCAGAAGGAAAAGAAGTCAGGGAATTTAATGGCGAAAAATATGTTATGGAACATGGTCTATTTGCTGATCTTGCAATAATTAAAGGGCACAAAGCAGATAAACATGGAAATATAATATATAATAAAACAGCTCGCAATTTTAATCCAGTTATGGCAACGGCTGCTAAAATAACTATTGTTGAGGTTGAGGAAATTATAGAAAATGGAAAGCTAGATCCTAACAATATCCATACACCATCTGTCTTTGTTAATAGGCTAATTCAAGGAAAAACTTACGAAAAAAGAATAGAGAAAGTTACAATAAGAGAAAAAGGAGCAAAATAATGTCCTGGACAACAGACCAAATGTGTAAGATAGCTGCAGAAATGGAAGTAAAAGATGACCAACATATCAATCTAGGTATTGGAATGCCAACAAATATCTCTAATTATATTGCCGATAACATTAAAGTAAGTTTTCAAAGTGAAAACGGAATGCTTGGAATGGGACCTTTTCCTTACGAAGGTGATGAAGACCCAGATTTAATTAATGCAGGCAAACAAACTATAACTGAACTTGATGAAAGCAGCTATTTTGATAGTGCAACATCATTTGCTATGATCAGAGGCAGTCATATAGACCTGACGATTTTAGGTGCTTTGCAAGTTTCTACAAAAGGTGACCTTGCTAACTGGGCAGTACCAGGTAAAATGATTAAAGGTATGGGTGGAGCAATGGATCTGGTTGCAAATATCAATCGTGTAGTTGTGCTAATGACTCATAATGCAAAAGACGGAAGTCCAAAACTAGTAGAAGAATGCACCCTACCCTTAACTGGTGTAAATGTTGTAGATCGAATTATTACTGACCTTGGAGTATTTGACGTAACAGAAAAAGGGCTAGAACTCTTCAAGAAGCATAGAGACGTGAGCTTTGAAGAAATACAAAAAAGAAGTTCAGCAAAAATAATCAATTGTCTTTAAGCAAGAATTGATAACTATATATCTGAAACTGATCCAAGCAAATCAGCATTGTCAATATTATCCTGCTCCTCAACAGTATTTATACCCCATCCAGTTTTGATTATCTCTAAAACAGAGCTTGAAATATCTTGGCTTGATACTATTTCATTATAAAGGCTTATAAAGAGCTTAGGTAGAAAAGTTATCTGACCTTTGTAATTCCGATTATTAAGAGCAATCAAAACACAATCAACAGCATCTTCTTCTGTAAATCTCTTTTCAGGATATAATTGATTGGCATATTTAACCATGGCTCTACACTGAACTGCAAATGCATTTTCTAATAATTCGTAATTACCATTATATGACTCTAATTCAAACAACTTTAAATACTCGTTAAACCTAGCTTCTTGTGCAACTTTAGCAGAAACTACTTGTTTTCCCATAACTCACCTCCCCAGATAAATAGAAGTTATACATATGATTATACTAAGAAAATAACTAATAAAAATGGTATTGCTAAATAAGTATAGACATTACTACAAAAAATGATAAGGTGCCATAAAAAAGGTATTTTAAATGGAAAGATGCAAAGGATGCGGAAGTGATGTTATAGTCAAAAATGGCAAGACGAGACATGGCAAACAAAGGTACAGATGCACGAATTGTAGTGGCAATTATAGCGAAGGGGATGGTCGACTAAAACACGGCATGGAGAAGCGTTTAAAGGTAATCAAAATGTACCTTGAGGGTGTAGGTATACGTTCTATAGAAAGACTAGAAGGTGTATCAACCCCTCTAGTTATATACTGGATAAGGCATTTTTCTTCATTGATAAGAAAAGAATTGAATCGTATTCCAATCCCAGAAACTCCTGATAAGATAGAAATTTTAGAAATAAATGAGTTGTTTACATATTATAAAAAAAGGCCAAGCGAGCATATGTATGGCTTGCTGTTGACCGAAACAGGAACAAGATTATTGATCTCCAAGTGACAAATAAAAGGGATTTTTCGTCTTATTATCAAATGGCAACACGCATTAAACAACGTTACAGTATAAAAATCTTATGCACAGAAGCCTATGACACCTACAGCAAATACAGAACATCACCTCAGCACTCTACTTCAAAAGCCGAAACTTTGGCATTGTTAAATAACAAATGATGGCAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGGACCTAGCAAGATAATGTCTGATGAGAGAGTTTTTGCTTTCTACTAGCGCAGTTTCTGC
>sequence65
ACTTCTGCGCCCCCTCTGGCGGAAATGCCATTCTTTATTAACTCTTTGCTCCCGCAACCTTTACAATTCTCCATACATCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCATTCGTTATTTAATAATGCCAATTAAGGAACCTCTCGTCTTTATCTAATTTTGTAACTTTAACCACTACAAACGCTAGTAATAGCAAAGAAAAAAAAGAAGAATCTTTTAACCATATAAATACCAACTATAGTCCTAAACTCTTAGGTTTACCATATTTAAGCCAGATATCTATCATTAGTTTAGTTACAACTAGAGCAGTATACATAGATGCAATAATTCCTATTGTTAGAGTCACTGCAAAACCTTTTATAGCACCTACTCCAAATGTATATAGCAAAAACGCTGCTATAAGTGTAGTAACGTTTGAGTCAGTGATTGTTGCAAACGCAGATTCAAAGCCCATTTTTACAGCATATAAGTTTGAGCACCCTTTTTCTATTTCCTCACGAATACGCTCGTAGATCAATACATTTGCATCAACCGCCATTCCAATTGTTAAAATCACCCCAGCAATACCTGGCAAAGTTAAAGTAGCCTGAAATAATGAGAGTAAAGCCAAAATATATAAGAGCGCTATAACAAGAGTGATATTGGCAAATAATCCTAAAATACCATAAGAAAGTAACATAAATAAAACTACAAAGACAAAGCCAGCAGCAGCTGCAACCTTTCCTGCCTCTATAGAGTCTGCCCCTAGATTTGGACCGATACTCCTCTCTTCAATCACTTTCAGCGGAGCAGGAAGCGCACCAGCTCTAAGCATTAAAGCAAGTTCTGTTGCTTGTTCAACTGTAAAACTACCAGAAATTATTCCATCACCACCAATAATTGGTTGATTAATAACTGGAGCGCTTAGCACTTTACCATCTAGAATAATAGCAAGCCTCTTGCCTTGATTATTGGTAGTCACATCAGCAAATCTCTTTGCTCCTAAATGATTCATCGAAAAATGCACTACTGGCCTAGCTTCTTGGAACTGCGCTTGCGCATTATTTAACTGGTCACCACTAACAATCACTTTTTTCTTAATAACCAAAACTTCACCAGTTTCTTCAGACTTCACAACTCTTGAACCCGTTGGCGCATGACCAGATCTTGCTCTTTCTAAATTAGCTCCTTCATCAACTAAGTGTAATGTCAGTTTTGCAGTTTTCCCTAAAACTCTTTTCAGCTCAGCTGGATTTTCTTCACCAGGCACCTGCAGTAATATATCTTTAACACCTTGCCTTTGAATATTTGGCTCTTTAGTACCCGTGCTATCAACACGCATTCTAACAATCTCAATCGATTGATCAATAACTTTATCTTGCAACTGATTTATTGCATATTCATTATAATATAAGGTTATAGTATCTCCTTCTTTTCCATAAGAAAGATTTGAATCAACGCTTCTAACGGCTTTTTTTACTTTAGAGTAATCATCTTGTGAACGGAGATCGAACTGAACTTTGTTTCTGGAGATTTTTAAATTTCTATAGCCAACTTTTTCATCTCTTAGATATTTTCTAAGACCATCAGCAACTGACTGACTAATGTCATCCATATAGCTATCAAAATCAACACTAAGCAAAAGATGTGAACCACCTCTTAAGTCTAAGCCAAGATTAACCTTATCACCTGGTAGCCACTCTGGACTATCTTCTGTAAAATTTGGTAATACATAAATAAATGCAGTTACAGTAAATAATATAGAAGTAATAATCTTCCACTTTGATATCTTATTCACAACTTTTTAAACCTTTTTAATCAATGATTATTTCTTTGATGAAACATTCTTTTTTGCAGAAGTCTTTTTCTTTTTATTATCTTTAGTACTTGCTTTTTCATCTGAAGGAGTGCTTTCTTTACTTCTACTTATAATATCAGTAATAGAATTCTTTAGCATCTTAACTTCAACATTATCTGCGATTCTCACCATAACAGTATTATCACTATCATTAATTTTAGTGACAACACCATATATCCCTGTATTTGTTAAAACTTCTTCGCCCTTCTTAACCCCAGCTACTAGTGTTTCTTGAGCACGACGCTTCTTTTCTTGTGGACGAATAAGTAAGAAATAAAATACCACAAAAATAAGAACCATTGGTACTAAACTAGTTAGGCCTGACTCAATAGAAGGCGGTGCATCAGGTGTACCATCTGAATCTTGTATAGTTATTGTATCTGTATCTGCAAATGCGTTATCAATAAACATATTTCCTCTTAATTTAGTAATTTATTAAATATCAATTATCATCAGTATTATACAGAACTAGCTGCTTCTTTCAATTCCTTATTATACAGTTTGGAATATTCTTTCTCAATCTTCAGAAGCTCCTTGTGAGTTCCTTGTTCAACTACCCTGCCCTGCTTCATAACAACTATTTGATCTGCATTTACAATGCTACTTAGTCTATGAGTGATAATTAATGTAGTACGGTTTTTTCTAAGATTTGTAATTGCATTAATAATTGACTGCTCGGAATTTGGATCAAGCGCACTTGTCGCTTCATCAAGTAATAATATAGGCGCATCTTTTAAAAAGGCTCTAGCTATTGATAATCTCTGCCTCTGACCTCCAGATAAAGTAGAACCAGAAGTACCAACTAATGTATCATAGCCATCTGGCAATGCTTCAATAAAATCATGCGCATCCGCTGCTTTCGCTGCTTTAATTATATCTTCTCTTGATGCATCTTTAAATCCATATGCAATATTATCCGCAACTGACGCATCAAACAGGACTATATCCTGAGTTACCATTGAGATATTGTTTCGCAAATGGTTTAAGGAAATCTGTTTAATATCAACATTATCAACTAATATTTTTCCTTCTGACGGATCAAAAAAGCGAACTAACAAATTAGCAACTGTTGTCTTACCACTACCTGACCTACCTACAAAAGCATAAGTCTTTCCAGCACCTACTTTTAAGTTTAATGAATTGATTGCGGATTTTGCTCCAAATTTAACTAACACATCCCGAAATTCAACCCCTGGTTTTTTCATTTCAGGCTTCAGAGCATTTTTATCATCTTTAACTTCAGGCTGTAAATCTAGAATATTAAATACTCTATTTGCAGCAGCTAGCCCCTCTTGCAAATTCACGTTTAAGGATACTAAACTCTTAAAAGGTCTATATGCTGAAACAAAAGCAGTAATGAATGCAAATAATGCACCTGTTGTCATCTTGCCTTCAATAACTTTATAACCACCATACCAAAGCACGCAGGCTATAGCGAGACCGCTTAATATTTCCATAACTGGCGATGTCAGCGAATCAAATTTTGCAGCTTTTTTGTAAAAGCTAAGTATTTTGGCTGTAATTTTTTTAGCTCTACTTGCCTCTAATGCTTCAGTGCAAAAGGATTTTATAACCTTAACTGAATAGAAAGTTTCATCTAGCTGAGCAGTAAAATTACTAAGTTCTTCCTGCGCCTCTCCAGTTACGGCTCGCATTCTTCTACCCAATTTTTGTATAGGAAAAATTGCTATAGGAAATGCTAAAAAGATAAACGCAGATAGATACGGGTCTAAAGTAAACATTACTATTATTAGAAATAACACTGATAAAAAATGTTTAGCACAACCAACAAGCATATTTGAAACAGCCCCGCGCATTAAAACTATATCATTTGTAAATCTTGAAATTAATCGACCTGAAGACTGCGATTGTATAAATAAAAAATCTGCAAATAATAAATGCTCATACATAAGCATCTGCATGTTAGTTAAAATTTGCTGGCCAATATATTTTATCAAAAAACTTTGAAAATACTCAGCAATTCCCTTCAGAGAATATACACCAAACATAACTAAGGGAAGTATTATTAGCATCTGACGATCATGATTAACAAACACATCATCAATTGCTGGCTTAACAAGCCTTACAATTGCTGCCGAACATAAAGCAACAATGATCATAAAGAATATTGCTAGAAACACTTTACTCTTATACGGCGCAACGTGATCTACTATTAGCCTTTTTACAACTTGTTTTGAATCTAATTTTCTATCTAAAGACAAGGAGGTGCTCCATTAAAATTTACTATATATAATTAGCGTTCAAATACAAATATTTCAAGATTCTTTTTTAAATAGATAATTTATATAATTCTTTAAAGCATTCGGAGCACCATTTTAAACGCGGAATATAAACTAATCCAAACAATAGCCAGCAGATCTAATAGTCTTAATCAACTGATACTGATCAGTATTTAACTTCATTAAAGTTCGAATTCTATTAACGTGAACATCTATTGTACGTTGGGCTATTTCTTTATCAACTCCCCAAACATAATCTATAATCTGACGTCTTGAGTAAATATTTTTTGGCTTTTGTACGAATAGTTGCAAAATCTTAAACTCAGTTGGGCCAAGATGTACTTGCTTGTTGCCTCTATATACTCTAAAAGTAGATAAATCCATACTAATGTCATTATGCTTAATGATTTTATCCTGAAAAACTGGTTTTGATTTTCTCAATAATGACCTAATTGTTGTCATCAGTTCATTTGGCGTAAATGGCCTACATAAAGCTTCAGAATATTCTTCACCTACTAAACTATAATTCTCTACCTGCTCGCCTTGTTCTATTAAGAATACAATTGGTAATTTCTCAAGACCTTTTATTTTCTTGAGCTGAATAGCCATTTCTGTTGCTGACTTATCCTGAATTCTAGAACTAATAATAGCTACATTAGGTGGATCCACCTCAGCCGATCTAATCGCAGCTTCAGAACTTTTGGCCCTATTTACATCAAACCAATATCTTTCAATTGTATTACAAAGGCTAGCATTCAAAACCTCATCAGGCTCAACTACTAAAATTTTTGGCGGCAACTTATCAGACACTAACTACTCCTAAAATATTTACTATAAACTCTACCTGAGTGGATTTATTATAATAATTTCATCTTTACAACCAAGTAAAACACAATTAAGAAAGTGCTTTTTTTCTAATTTTATGGCTATTTGAAGACATTTTTGCATTATTAACGAAGATAACACTTGAATAAAACAAATTAAGTTGGTATAAATGGCCATATTTTTTAAAAGCATTTTTATTTGGAGACGCTTTATATGGCATTTTATGAATCCATCATTATCATTCGTCAAGACGTTTCTTCAGCTGATGTTGACAAGATCGTTGATGACTTGAAAAAAATCATTGAAGAACATAAAGGCAAAGTTGTTAAAACTGAGTATTGGGGACTAAGATCTCTTGCATATGAAATTGAGAACAACAAAAAAGGTCACTATTATTTCATGGGTATTGAAGCGACTAAGCCTCTACTTGACGAAATAGATAGAAAAATCAAGCTAAGTGAAAGTATCATTAGATCTTCATTAGTAAGAGTAAAAGAAATCAGCAAGAATGCCTCACCAGTCTTAAAAGAAAAAAGCTCTGATGATGAAAATACTGTTGATGTAACAACAAAAAAAGACTAGTAAATTAGTAATTAAAACAAAGATTAAATCTAATGTCTAAAGATCAAACAACAAAAACAAACGAAGCAAGTGGTGATAGAAATAGCTCCAAAATGTTTTTTAGAAAAAGCAAAGGTTGTCCCTTTTCAGGCAAAGATGCGCCTGCAATAGATTACAAGGATCCGGATCTTTTATCAAAATTCATTTCTGAAGGTGGCAGAATGCTACCAAGCAGAATTACAAATGTTTCAGCTAAGCATCAGCGTGCACTAAAAAAAGCAATCAAGCACGCTAGAGTACTAGCTCTACTACCATTCGTGTATAACAATAAGTAATTTTTGTTATAACAAAATAATTTTTAAATTTTTTATAAGTATTTGAACTATGCAAGTTATTCTAGTAAAGCCCGTAAGAAAATTAGGTAAAGTTGGTGAAACAGTCAACGTAGCAAATGGATATGGTCGTAATTACCTAATTCCACAAGAATTGGCTATAAGAGCTACTAATGACAATTTAGAAAAATTTGCAACACTTCAAAAAGAACTTGAAGCAAAAAATGCAGAAAGTAAAAAAGAAGCTGAAAAAGCAGCTAAAGCAATTGATGGTAAGCATCTTGACTTCATCACACAATCAGCAGCTGATGGAAGATTATTTGGCTCAGTAAGTCTAAAAGCACTTGCTACAAAAGTTTCTGAAATTGCAAAAATAAAACTAAACTATTCAAATATCCTTCTTGATAGCCCAATAAAGTTTAATGGCGTTTATAATGTTCAAGTTGTGCTTCATCCAGAAGTTACAGCTTCTGTTCTAGTTGTAGTAGCAAAGACAGAATCTGAAGCTCAGGATGCACTAATCGAGTTCAAAGAAGGCGGCAACAAAGCTGAAGATGAAGCAAAAGAATCTGAGCTTGAATCAATCGTAGAAGAAACTCAGAAAGAAAAAGCAGAATCTGAAGAGCAAGAAGAAATTGCAGCTGAGGAAGCTATTTCAAATACATAAATTTTAAAATTCACTTGGATTTCGATTTTATATATGTAATCTTCTAATTTTGCTAAATCTAAGAGAATAAAAAATAATACCTCAAAAAATAAGAGAGAGCTACCTAGGTAGCTCTTTTTTTATATCCTGAACCTCATATAAATCTATTTGATCAATAATTATTTTATATTTTTATTTTTGCTTATCCATAAACGCCAGTTTAGTACAAGAAACGCTCTAAATTGTTTATTACCCATTTTATTTCTGCTCAGTGTCATCGCGAAGGAGCTTTAGCGACTGCGGCGATCCATTTGTGGATTACTGCGCCCGCCTTCTGCTCTTCGTAATGACGCAGGTCAAGAGTCATTTTCCTATGCTCTTAAACTAAATTCATACAATAGAAATTGCCAAAGAATATAATCTGATCAATTATATAAAAGGTAGGACAGGTAAACTGTAAACTAAATAGAAGCATAAGACT
>sequence66
GCGCTAGTAGAAAGCAAAAACTCTCTCATCAGACATTATCTTGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAAATCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCTTAATGCTAGGTTTGCAAACATTGACAATATATATTCCTATTGATACTAATAAATGTTTGTATTAGTATTTTTAGGAGTAGTATTATGAGCAAATCAGCAATAATAAAAATATTTACCATAGGTGCAGCATGTATATCGGCTGCTTTTCTTGGCCATAGTGCATATAAAGGCTACACTCTTGCAGTTACTCCTTCAAAATTTGAACATACAGCTAAGCTATTAAAGTTTAATAGCAACGAAAGAATTTCTGCTAAGGTTCAACAAGAAGCACTACTAAAAGCATTTTACTACGCAGGATATTTTAAACCCGAAAATTTGTGGCAAGACATAAATCACCTAGGTTTTGATAATCCTGAAGACGTCTTTTTATCAATAATGGAAGATGTTGTAAAATCAGGAGCAAATCAGAAAGATCAATCTAAGTTCAATCCAACAATCTTAAGAAAACACTTATTTAATACAGATTCAATATCTGAATCAGATGCTCTAGATTTATTAATGTATATAGGACAACATGCCTTTAATAGAGATCTAAATCAAGAGAGAAATGAGTTATCTGAACAAACTTGGATGGAACAATATAAAAATGAATATACAAAAATTGCTACAGATCTCGGTTTAGTTGAAAGAATTTCACCCTCTAATGTAATGTATGATGAGGCCGTAGTTCTTGGCGCTGCACGCTATACAGTTACTGGTAGAATTTTAGATTATATTTATAATACAAATAATGGTATCATCATAAAAGGCATTACTACAGCTCTTGCAGGCAAAAGACCATTGTGGGCTGAGATAGACGGAATATCATCTGATGTATACGGGCAACTTATTAGTGAATCAAGAAAAGGAAAAAGGATTGAGGATATTAATCTGCAACATGGCACTCTAAAAGAAGTAAATTCAGGTGGTGTTGAATATATGCTTGCTCTTGCTAGTAAGATGGAAATAAAAATTAACAATGATGAGCAAACAATAATATATAGAACAGAAGATGACATACCTTCTGGATTCAGATCTGGTAGAACTTATTTAAACTATATAGATCCGAAAAAATTTTTAACAGAAACTGATATGGTTTATGATGTTTTAGATACAATATCTAAAGGAACAATAAAAGTTAGTGACACAGAAAGTTCACCAGATGGTAGCAGGCCCGATACTTCATCTACTGCTAGGGATTATGCTAATTCATTTATTAAAAGAATACAATCAGGACATTTTGGTGGTCAAAAAGAATTTATTATTTACGTCCAAAGCAACCAACCTTATGTCAAGCGTCAAACTCTTGCAGTTCAGAATGAAATTGATAGAGCTATTGAAGAAAGCGGAATTGAAGGTTTAAAAATTATTGCTGAAGGCGTTGGATATGGAGTTGGAGAAATAAGTATAAAAAGATCACATTCTGAACTTGGCGCGCTTGTAGCAGAAGAATACCAAAATGCTCTTAGAGAAAATAACAATATACATACAGAAAGACATTTACGAGATTTACAATTCTCAACTAGAGATAAGTCAGAAATATCTGAACCAATTCCAGATTTTTCGGAGATACTATTAGATAGTAAAATACCAATTCTTGGCGCTGTTGAAGATTGGTTTTTTCAACATTATGATGTCGATGAATTATAATCGATAAGATTATTATAGTATGCTATGGTAACCTTTTGAGGCTTGGATTTAAAATCAAAGCCTAAACTCTATCACTTTTACTCTTTTAAAGATTTAGCGGCTATCCTTACTCCTCTAATTAAAGTAGCAAATATTAAAGTTAGTACAAGCAAATTCACAGTCAATAACATGATAACTTACCTTATTTAATTACCTATATTTTATTGTAATACATAGATAGTTAATATTAAGTTAAAAGCTTAATAGCTAATTTCAACGTTTGTACAGACTGTTTCTTGGTCTTTTTAAATTATACTTCTTTCCTAGCCATCTCAATCATTAACCTATAATTTAACTTACCAGTTGCAAGAACTGGAAGCTCACTAATTGGTACAATAACCCTAGGTATATAAAGCTCAGATAACTGCTTTTCTTTACATTTTTTAGAAATTAAATCCCTTTTAAGGCTTTTATTTGTAGTGAAAACAATAATTTGTTCGCCTTTTTTATCGTCTTCAATACAAACGGCAGCATAATCAAATGCAGAATCAACAGAAATAAGCATCTCTTCAACAGCAGCAAGAGAAACCATTTCACCGGCAATTTTTGCAAAGCGCTTCTCTCTTCCTAAAATAGTTACATAGCCTTCATCATCAACTGAGACAATATCTCCAGTGTCATACCATCCTTCTCCAAGTTTCTCTACACTTGTTGGCTCTATCACACCTGGTTTATTCGGCCTGATATATCCCTGCATTATATTTGGCCCTTTAACACAAATCCTCCCTCCCTCTTCTATTCCTTCAACTGGTTGTAAGAAATATTCTATCTGAGGAAGAAGTCTTCCCACTGTACCTGGTTTATCATGCATAGGAGTATTAATTGCTATTCCCGGTGCAGCTTCAGTTACTCCATAGGCTTCAAAAACTCTTATACCAAACTTATCAAACCAGACTTGTCTTGTTTTAGACTTTAATTTTTCAGCTCCTGCAATCACATATCTCAAAGAATAAAAATCATATGGATGTGCATATGTTGCGTAACCTGTAAGGAAAGTATCTGTACCAAACATAATAGTTGCTCCAACATCGTAAACTATCTCAGGTATAATTCTGTAGTGCAGAGGCGAAGGGTAGAAAAAAGTTTTTACTCCAATTAGAGACATAATCAAAGTTCCCGTTAAGCCAAAGCTATGAAATAACGGTAAAGCATTAAATGCACAATCATACGGATTAAAATCTATCCTTGAGGCAACTTGACACCTATTTGCTTGAATATTTCTATGAGATAATGCAACAGCCTTTGGTTTTCCTTCAGTACCGGAGGTAAATAGTATCACAGCTGTATCTAAATCATCTCTTTTTCTGCATATAGTTTCATAATAACTTTGAGGAAAATAAGTTGCTAGTAAGCTCTTAATTTTAGTCCAAAATGTGATATGTTTTCTTAAATCCTCTAGATATATTACAGCAATACCAGCCTCTCTTACTGAATCAACAAGTTCTCCAAGCTCAGCTTTTTTAATAAATTTTCTAGATGTATAAATTGTTTTCACCGTAGCTGTTTGACATGCCGATACTACATTACTTGGTCCTGCTGTGAAATTTATCATCGCCGGAACCCTACCTATTGCTTGTATACCGAAGAAAGTAATAGCACTTCCAACCATTCCAGGCATCATTAGACCAACTTTTTCTCCAGGCTCTGTATCACGTTTAACAAGCTCTGAGACAACAAATGATTTAAGCAAAATATTTTTGTAATTAGCGCTATTATTATCAATATCTTGCATAATAGTAGTTTTTTTACCGTAAACTTTTGAGGCATTTATCAGTGATTGGAATAAAGTCTCTTTATAATCAGAGCTTTCAAACACCATCTCACTCATAATATCGTACAAAGATTGGCCAATTGCTTTTCTTCTTTCCCTATTATCAAGAGTTTTTGCTGCATTAAGTTTTACAGGCGGCAAAATAGTTACTGTTATTTTTCTCCTAAATGAGAATTTACCTTTCATCAGCTTTCTTACCTTTGAGAAAATAGTAAACTGAGTACCATCTACCCTAATAGGCAAAATAGTTGCATCTGCTTTATCTGCAATCATTCCAGGTCCTTCATATACTTTCATCAAAGAACCTGTAACACTAGTTCTTCCTTCAGGAAAAATAGCTATTTTCTTATCTTTTTTTACTTCTTCAATTAGGCTCTTAATTGCCATGGGGTTATTAGGTTCAATGGGATATGTTCTTAAGATTTTAAGAAATGGCTTCACCCACCATTCTTTTGAAATTGTTAAATTAATTGCAAATTGGATTTCTTCAGGAATGTTGCTAGCAATTAATGCTGGATCAATATATGATAAATGATTAGCAATAATAACAGTTCGTTTTCCTGCTTTTTTAAAATTTTCTGCTCCTTTTACTTCAACTCTATATGCTAGATCAAATCCTAAGCGAAAAATAGCTCTCCACAGCTTCATTGGAACTACCCTGCTATCTGGAATAAATTGATAAATGTAAATTCCTACAACGATATTAAGCATGCTTACCATCAGGATAACTGAAGGTATAGAAAAATCTAAATAAAATAGGAATGATAATAAACCAGTAGAACCAGCCATAAATATTGAATTAATCAAGTTATTTGCAGCAACAATTCTACTCCTATATGCAGGTGAACTATAATATTGCATCACAGCAAACAAAGGTACAACATATATACCTCCAACCGCAGCTATTGCAAAAAGATCAAATAAGATACGCCAATAATGAGATTTACCTAAAAATTCTAATACAGTTTTTAATTGTTCTCTTTCATAGCTAATTCCTGCTATTTTACTAGCAAAATATAAGTCTGTTGCAAAAAATGAAATACCTAAAGCAGCTAAGAATACATATTTAGTTGTAATTTTTGATGAAAAGATTTTATTACACAAAAATGAACCAAAACCTACACCAATAGAAAATGTTGCTAAAAATAAATTAGCAACTCCTTCACTTGCTCCTAGCGTATGTCTTGTTAGTGAAGGAATTTGAGCCAAAATAGCAGCGCCAATAAACCAAAACCAAGAAATGCCTAATATAGCAAGATATACCTGATTCTTGGAAGTCGCATGCTTTAGCATCTTGTATGTTTCTTGCACAATATTCTTATTAATCTTAACATCATGATTAGTATTGTGTGATTTAGGCATAAAAAGGCTTGATATAAATCCCGCTATTGCTACTGAGATGGCAAACATTACAACTAAGCTTGCGTTGAAATTATATACTCCACCGATCATTGCACCAAATAGAATAGATAAAAACGTACCAGCCTCAATAAACCCGTTTGCTCCCAGCAGCTCATCTTTTCTTAATTTATCAGGCAAGACGCTATATTTGATTGGACCAAAGAACGTTGAATGAATACCCATTAAGGCTATACATGAAAAAAGAATAAATAAATTATTCACGTAGAATCCGTAAGATGACAATAAAACTATACCTATTTCAATTGCCTTAATTATTTTTACTATGGTTGAGCGTTCATATCTATCAGCTACTTGACCGGCTAAACTTGCAAAAAATATAAAAGGTGCAATAAAAATTACATTTGCAAGCATAACAAGTATATATGGGGCGACTGTAAGCTCACCTGCAAGCTTAAATGTAACTAATATTATTAGAGCATTCTTAAGTATGCCATCATTAAGACAACCAAAAAACTGAACAAGAAATATTGGTAGAAAACGTCTATCTTTAAATAGATAAAATTGATTTGAATCCATCTACTTCTCCAAGGAAATAATTACTGGCGATACTATAAAATTTAGATAATGATGTCAATTATTCTGCTATCAATTTGCTATAACTTTATTTTAAAGTTACAATTTATTACAAGTTTGGTAATTGCTAATTCCAGACGAAATACCAACATCCGTAGTACACCTGAAGTATATCTACTACCCATCATGAATAATCTCATTAATTATCCTCCTCGCAACGGATACCAGTACAGGATTGGTATTTAGATAATAGGGAATAATAATAAGTGCGATAGAAAGTGCCCAACCTTTACCTCTTACCCATGTATCTTCATCTACACCTAAATATTCTTTAAATATTATTCTAGAATTAGTATCAAACAAACACCAGGCAGGAATCAAATCACATGCCGGATCACCAATACCCATAAGACCAAAATCAATCACCGCATGGAGTTTATTATTTTGCAATAGAAGGTTAGATGGAAGCAAGTCAGCATGCAACCAAACAGGTGATTTATTCCAATCAGACACTTCTAAGCAACTCTGCCAAATGCGGGCGATAGTATTTATATCTATCTTATCTTTTAAGTTATAGATAGCTTCATGTACAAATGTATCCTGAGTTTTTAAGGATACGCCTCTACGTGAAAGCGGTGCATTACTAGTATTAACTTTCCATAGAGCTTTGATAAATTGACTTAAGTCTTTAGCTAGTTGATTGAAATCAGATAGAGGTTCATTATATGCATCTACTCCCTTTATCCACTGATACACATACCAATGATAAGGAAAATCTTCAGATGGTTTACCTATTTTTATTGGAACTGGAATAGTAAGTGGAAGATGATCTTTGAATTTTGGTAACCATATTTGCTCTTTCTCTATCTGCGCATCAGCATAATCAATTTTTGGAAAACGAATAGCATATGTTTCACCTATGCGAAAGATAATATTATCTGTGCCATAGTGCTTAACCTTAGCTATAGGCAATTTAGCAAAATTAGGACATTGTTGTTTTAATAAGTTAGATACAAGCTTCTTATCAACGCTAAATTTGTCATCGTACATTTTGAGTATGATCTTTAAATTATTTGCATCAAGCTAAGTTTAATATATTCAGATTTTAAGAATAGTTTAACTTAAATCTTCTTGATTGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTTGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGAACCTAGCAAGATAATGTCTGATGAGAGAGTTTTTGCTTTCTACTAGCGCAGTTTCTGCTTTGGTTTGGTGGTGATGTTTTGATATTCTATATTTAC
>sequence67
ATATGGCTGCTGTTGCATCTCTTAGATGTAATGCAAAACTCAAAGCGTTTTATGATCGACTCATCAACAACGGCAAACCTCCTAAAGTTGCTCTTAACCCTGTGATGCGTAAACTTCTTGCCTTTATGCACGCTATTGTTAAAAATAATTCTTCTTGGGCTTGTGAAGAATAATCTTCTTTAATTTTTTTCTTGATTATTATTACGTATGCTTGCTATTTAAAGCTAACAATCGAAATCAAAATCTTTGCCCAGTTCAATATACTCTCTAATTCTCTTCATTAAATCCTGAAAATATTGAACATTATGCCAAGTCATCAACATCGCGCCGATAATCTCGCCTACTTTTACTGTATGGTGTAAATAGGCCTTGGAATAATTTGTACATGCAGGACATGGGCAATCAACTTCTAATGGCTCTGAATCATCTGCAAATTTACTATTTCTGATATTTATCGTGCCGTTTTTCGTAAATGCTTGTCCATTTCGTCCCGATCTTGTTGGAATCACGCAATCAAACATATCAACACCGCGCTCAACAGCACCAATAATATCATCCGGTTTACCCACTCCCATCAAATATCTAGGCTTATCTTCTGGCAAAAATGTTGGAGCATATTCAAGTACAGAGAACATTTCTTCTTGTCCTTCTCCAACAGCAAGACCACCTATAGCATAACCTTCAAAATCCATTGCGACCAAATCTTTAGCAGATTGCTCTCGTAGCTCTTTATATACCCCACCTTGAATAATACCAAACTGAGCATATCCATCTCGGCGCACAAACGCATCTCTTGACCTTTGTCCCCACCTTGATGTTAATTCCATAGAAGCTTTAGCTTCTTCAAAGGTTGCAGGATATGGTGTACATTCATCAAAAGCCATCGTAATCGTACTATCAAGCTTATACTGAATTTCAGTGGAAGATTCTGGAGTTAGCATATGCTTGCTACCATCGATATGCGAACTAAATTGCACTCCTTCTTCTGTAATTTTACGCAAATCAGATAAAGACATAACTTGAAAACCGCCTGAATCAGTCAAAACAGGACCAGACCAATTCATAAATTTACGCAAGCCTCCAAGCTTTTCAATTCTATCTGCACCAGGTTTCAGCATCAAATGGTAAGTATTACCCAAAACAACATCACTACCTGTTGATTCAACCGATGATGGCATCATAGCCTTCACTGTTGCTCTTGTACCCACCGGCATAAAAGCAGGTGTTTTAATTGGTCCATGAGCAGTTTCAATTATCCCTGTCCTTGCTCTTTTATGAGTGCTTGCAATATTAAATTTAAATTTCATCTTTTATCCTACCCACTCATAGCAACCAAACGTGCCAACAACTCTAAAACCTAATCTTTCATATATACGAAAGCCTGAATCACTAGATGCAGATAAGCATAAATGTTTGATATTTTTCTCATATGCATAATTCATTAGAAATTTCATAATATTAGTTCCAATACCTTTACCTCTTAAGCCCTCTGGCGTAATAATATCATATATTCCAGCAATTCCGTTATTAAAATGCAAAGCGCCAATTCCAACTGGTTTCTCACCAATATAAGAAACAAACATTGGATTTTTAGCTCTAACTTGATCGGAAATTACTAGTTCATTATCCAAAAATTCACTAACGTGCTGATCATAAAAACTAATAACTTCAATAAAATCTAACAATTCCTGACGAGTTTCTACATGCTTAACTAATATATTTGTATCTAATTCAAACTCTTGAAAGTCAGACAAATCACAAAACATAGCATATTCGTCCGTTTCCTTCTCCAAACCAGCTTTTAATATATTATCCTGTAAATTATTTGGAGTGTCAGTCGGTCCTACCCACCAAGCAAAAGGGCTTCCATTATATTGATCAATTACATATCTGATTTTATCTTCTGTATCGCGCTCTGCAAACTTAGTATTGCAGGCAATATTAAACATTGAAGTCCTTAACTGACAATCAATAATTCTCACAGAATTATCCTCTTTTATCTTATATCCCAAAATTTCAGGCATATAAGTAAATTTTGAAAATAAATTCTTCTCTGCTTGCAAAAAACTATTACTATCTTCCATAAATCACCTAACTCTTCTTACTTAGCAGCATCGCATCACCATAGCTAAAAAAACGCATTTTTTTACTAATAGCAAACTCATACAAATCATGCATTTCTGTATAACCTGCAAACGCACATACTAGCATGAATAGTGTAGATTTTGGAAGATGAAAATTAGTTAGTAACATATCAGCTATTTGAAACTTATATCCAGGAGTTATAAATATATTTGTTTCCATTACTTTTGGCACTATAACACCACCTTCTGCACAAGATTCTATTGTTCGCATTGCAGTAGTTCCAACCACAATAACTCGGCGCCCACTCTTCTTTGCATCATTAATTTTATCTGCTACTTTTTCTGAAATCTGACACCATTCAGAATGCATCTTATGCTTGGATATATCTTCTGTCTTGACTGGCAAAAAAGTTCCAGCTCCGACATGCAGAGTAACAAAAGCAGTCTCTACTCCTTTTTGCTTAATTTTCTCAATCAATTCTTGCGTAAAATGCAGTCCTGCTGTTGCTGCTGCAACCGAACCTTTCTCTTTGCTATAGACAGTTTGGTAGCGCTCTAGATCTTCTTCAGACTGACCTTCGCGCTTTATATATTGCGGAAGAGGAACTTGACCATAAATATCTAGAAAATTAAAAATACCAATATCTTTTAATATAAATTCAAACTCAACATCGCCAGATTCCAGTTTATTATTAATACGAATTTTATGTTCACCAAACTCAAACTCATCACCTATTTTTAGCTTCTTTCCAGGTTTAGCAAAACCTAGCCAAGTATTTTTAGAAACAGGCTTATTCAAATTTACATTTATAGCTTTTGAATCTTTTTGTAATTCTAATTGTGCATTAACTACTCTACTATCGTTAAATACTAATAAATCTCCTGGAGATAGCTGATCAATAATTTGATAGAATTTGACTATTCTACTACCTTTTGCGCTAGGTAGCAAAAGGCTAGATTCATCTCTTTTTTCGGCTGGTTTTTGGGCGATCAGCTCTGGTGGCAGAACAAAATCAAAATCGGTAAGTTTCATAATTTACTTTTTATCTGGAAAATTTTCTAGTGACAATCTTTCGCGACAGATATTCGCTGTTATATCCTGAAGTTTTTCAACTTCTTCTATTAAATAATCTAATTGCTCAAGCGTTATCTCAAAGTTTCTATCGTATCTAGCTTTAATATAAGCCTCGCACAGTAACTCAAAAGACTTTCTTTCTCCTTCATTAGTACCTACAAAAATTTTTCTTACTACATCTCTGGAATATCTTTTACACCTTCTTCTCAGCTTTATTAATTCATGAGTTTTTGGCTTATACCCTTCAAATACTAACAAAATTGCGTTGAAAAAATTCTCGGCAGCTTGATGCAGCTCAAAGGCTGCTTTTGGGTAAGAATCTCTTGCAATACAGTTTTTACAATCAACAATAAACTCCTTACCATTTTTAAACCAGTAATCAAAATCAAACTGCGCCATATCCCGGATTTTAGACCAAGGAAGAAAAGTTGGTTCTGCTATTTCAAAATCACCATTTTCATATATGATGATACCTTCTCTATAAATATCAGTGAATAAATATCTTCCAAGGCGCAGCTGCTTATTAAAGCTCTTCATTGACTCATATCTAAGACTTACTGGCGGCTTACCAGGAACCATATCAAAAGCGGCATATTCCGAATATAGATATTTTTCAAATATATCTTGTAGCTTATCATCAATTTCTTGATCTTTATACTCCAGATACTTACCTTTTTTAAAGATGAGCATTATATCTAGATCACTTTGATATGTTTCAAGCCTACCATCTTTTCTATAGGCATCTTCAACCCAATCACCCCTTGCATAAGAACCAAAAAGAACAATTTTTGCAAGCCTATCACCAGTTACATCCAGAATCATCCTAATGGCTTTATCCAAATATCTCTTAATTCCTTGTGATTTTCTGGGCAGCTTTGTTTTCATTATGAAGCATTATATTAAGACTATATATAGCATTTATTACATCTTAATTGAGTTAATCAAACTTTTGACACTATCAACAGATTTTTCAAAAGCAGCTTTTTCTTCTGCATTGAATTCGATCTCAACGATTTTCTCAACACCATTTTTTCCAATAACAACTGGAACACCAACATATATGCCTTTCTCACCATACTCACCGTTTAAGTAAGCTGCACATGGCATAATTTTGCGCTTATCGTATAAATAGCTTTTTGCCATATCAATCGCAGATGTTGCAGGTGCATAAAACGCAGATCCAGTCTCAAGTAAAGATACTATCTCACCACCACCAGAACGAGTACGCTGCACAATAGCATCGATTTTGTCTTGAGTACTCCAACCCATTTTCACCATATCAGGAACTGGCACTCCTCCAATCGTTGAATAACGAGCAAGTGGCACCATAGTATCACCATGCCCACCTAAAACAAAACTGTTGACGTTTTCAACTGAAACTCCAAACTCTTCAGCTAAGAAACAATTAAATCTAGCTGAATCAAGAACACCAGCCATACCAACAACTTTTTCTGTTGGGAGGCCACTTGCCTGCTGTAATACATAAACCATAGCATCGAGTGGATTTGTAATAACAATTACAAATGCATCAGGAGCATATTCTTTAATACCTGCACCAACAGTCTTCATAACATTTGCATTGGTTGCAACTAAGTCATCACGGCTCATACCAGGCTTTCTAGCAACACCAGCTGTTATAATTATTACATCAGCACCCGCAATATCTTTATATTCATTTGTGCCAGAAACTGAAACATCCGAATTTTCTATTGTTGCCGTTTGGGCAATATCTAATGCTTTTCCCTTTGCTTTTCCAGCAGTTAGATCAAACAATACAATATCCCCTAGAGCTTCTTTTGCTGCAATATGGGTTAATGTACCACCAATATTTCCACCACCAATAAGGGCAATCTTTGGTCTTTTTTGCATAATATACTCTCCTAATTTAAATTGCTTTATGAGTTCATATTATTAAAGAACTCAGCATTTGTTTTGGTTTCCTTAAACTTAGAAAGCAAGAACTCCATAGCGTCTATGGTTCCCATAGGATTTATTATACGGCGCAGCACCCACATCTTCGACAATGTAGCACGATCAACCAATAACTCTTCTTTTCTAGTCCCAGATTTTGTAATATCAATTGCTGGATAAATTCTTTTATCAGCAATCTTGCGATCAAGTACAATCTCAGAATTACCAGTTCCCTTAAATTCTTCAAAGATAACTTCATCCATTCTAGAACCAGTATCAATCAGAGCGGTTGATATAATCGTAAGTGAACCACCATTCTCTATATTACGCGCAGCACCAAAGAATCTCTTAGGTCTTTGTAATGCATTAGCGTCAACACCACCAGTAAGAACTTTACCGGAAGATGGAACAACCGTATTATATGCTCTTGCAAGCCTAGTTATAGAATCTAATAATATCACAACATCCTTCTTATGTTCAACCAAACGTTTTGCCTTCTCTATTACCATTTCAGCAAGTTGAACGTGCCTTGCTGCTGGTTCATCGAATGTTGAACTAACCACTTCACCGCGGACTGATCTTTGCATATCAGTCACTTCTTCTGGCCTCTCATCAATAAGTAAAACTATTAGGTAAACTTCAGGATTGTTTGTAGTAATCGCATGAGCAATATTTTGTAGCAATACAGTCTTACCCGTTCTTGGAGGCGCTACTATAAGTGCCCTTTGTCCCTTACCCATTGGGGCTACCATTTCGATCGTTCTAGTACTAAAATCTTTAACTTCAGTATCTATCTCTAAAGATAATTTTTCTTCTGGATATAGAGGAGTTAAATTATCAAAATGTACTCTATGATACGCATTATCATTATCCTCAAAATTCACTCTATTAACTTTCAACAAAGCAAAATATCTCTCACCGGATTTTGGCGCTCTTATCTGCCCTTCAACTGAATCACCTTTTTTTAGACCAAAACGTCGAATTTGACTTGGTGAGACATAAATATCATCAGGACCAGCTAAATAGTTCGCGTCTGGAGACCTAAGAAACCCGAAACCATCTGGCAGAACTTCTAGTACACCTTCACCAGAAATTTGTCCACCTTGCTCTACAATTTTCTTCAAGATTGAAAAAATTAACTCCTGTTTCAGCAGAGAACTAACATTTTCAATGCCCAAAGATTCCGCCTGCTTTTGCAACTCTTCCGGAGATTTCTTCTTCAACTCCCCTAAGCTTGCTTTAACACCACTATCTTTCACCTGTTTCTCAGGAACTTCTTCAGTGTCTTTGTTCTTTTTTGTATTAGTTTTTCTATTTTGATTAGGTTTATCGGATTTTTTTTGAATTTCTTTGCGTTGTTTAGTCATTTGATAAATTAAAAAATAAATTGAAAGTGAATATTCGGAATCTCTAAAGATTAAGTAAAAGCAAATCTGCCTTTAAGATCATAAGATTTATTATTTTATAGTAATATAAGGAAAAATTTTGGCCAAAAACTGAAGATTGTCTTAATATCCCAGAAATTGTCAAAGACTTCTTAAGCAAGAGGATAGCATACATCCATCTTTTGTCAAGAAGCCTATATATATTTATAAGGCATTATTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTA
>sequence68
CTCTCTCATCAGACATTATCTTGCTAGGTCCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCAATTGTCGAAGCGCCTAAAGAAAAAATGATAATATTTCCTACTCCAGCTGGGACTGCTGAGCTTCCTTCTGCTTGTTTAGAGAAAGTAATCGTAGGAGAAGTGCGAGATGAATCAGATGTGGGTTGAGACATTTTATATTTAATTTAGTAAGGAAAGGTAATGGTAAAATCAGACAATAAAGATTTAAGCGAAGAAAAAGATGTAGATGATTTGAAAGAAAAAGAAGATTCAGGAAGTGATGAAGATTATGAAGATCCCGGGTTTTGGTCAGTGATTCATGGAAAAGAAGCTTATTTTTTGCCAAGAGAATATGGAGCAGCAGTCTTATCAACTAGTGATTATGTGATATATCAGTTAGGTACTCCATGGTACGATTTAAAATTAGTAAGCAAGGTAGTAAAGCTACATCTGGTAAAGTTCATTTAGAAATTTCTGAGGAGTTAATTGGAGTTTCAGGAGAAGCAATAGAGCCTTGTCTTGACTAATATTAATTACTTCAATAATTAAACTGAAGATATTTAGTATTATTGGATCTTATTACTATAAAACTCTTCTCCAATAGCGATTTCTTCGCGGTTATTTTGTTTGCGCCAACTATTAGTATCTCTTAGAGAATATATGCAACCACAATATTCTTGTTTATAGAATTCTTCTTCTTTTGCTAGTTCATACATGCGAGCTCCACCCCCATCTTTTCGCCAGTTATATGTCCAATATTCTACACCATCGTAATGTGAAGCAGCTTTTATACCGCAATCATTAATTTGTTGCATATTTTTCCAGCGAGAAATACCGAGAGAACTAGTTATAACTTTAAAATCATTTTCGTAAGCATATAGAGCTGTACGTTCAAAACGCATATCAAAGCACATAGTGCAACGAATGCCACGTTCCGGCTCATTTTCCATACCTTTTGCACGAGTAAACCAGTTTTGTACATCGTAATCTGCATCAATGAAATCTAGTCCAAATTTTTCGGCATAGCGAATATTTTCTTTTTTACGTAATTCATATTCCTTTTTAGGGTGGATATTTGGATTATAGAAAAATATAGTCAAATCAATTCCTGATTCTGCCATTTTTTCTATTAAAGGGCCTGAACATGGTGCACAGCACGAATGCATTAAAACCTTATTCTCTTCACCTGGTACTTCAAATACTTCTTTACGCATGTACTATATCATCCGATAAATTATTTCTATAAGTCTCTTTATAGAAATACAGAGTTCCTAGACAAAACACAGCAAGGCCAGTGAGGTAGTAAGCTAGTGAAATTTGCTCTCCAGTTATTTTATATAGTGCGGCTCCTACCATTGGAGCGGTGCCACCAAAAATAGCTGCACTTAAATTATATGAGATTGCAACACCTGTAAATCTAACTCTAGTAGGGAATAGCTCAACAAGTAGTGTTGGAACTGGTCCCATGTAGACGCCTACTATAGCAGAAAAAACAATTTGTGACAATATAGCTAATGTGTAGTTCATTGTATGCAATGCTAAGAAAATAGGATAAATAGAAATTACTAGTGCAACGCTAGACCAAACTATTATTGGTTTTCTGCCTATTTTATCAGATATATATGCAGAGATTGGAAACATAATAGACATAGTTACTAATATAATACTGCATGTCAGCGCTCCTTGAGTTTGTTCATACCCAAGATTTGTCATATAACGTTTGATGAAAACTGTTGTTGTATAGAATGGTGCTGTAACGTTTATATAGACCGCAATTGCCATCAAAGTTTCACGCCAATATTCTCTGATAGTTTCGCGCAATGGAGTTCTTGATAGTGATCCTTGAGCTTTTGCAGCAAGATAGATTGGACTTTCTGCTAAATGAGAGCGTATATACAGACCAACTAGACCAATAAATAATCCAAATACAAATGGTATTCTCCACCCCCAGGACATTAGATCTTCTTCTGAAAGAAAATAAGTGAATCCCTGTGCTACTATTAGGCCCATAAGCATTCCAAGGCACATACTAACAAAAGAGGCGCTACCTGCTAGACCCCTTTTGTCTGCAGGGGAATGTTCAACTATATATGCAATACAACCACTAAATTCTCCTCCGAGAGATAGTCCTTGTACTAGCCTAATAAATGTAAGAGTAAGAGGGGCTGCGATACCGATTGCTTCGTATGAAGGTAGCAGGCCAATACCAGCTGTTGGAACTGCCATAAGGATAATTCCAAGCACTAACGCTAATCTGCGTCCCATACGGTCGCCTATATAGCCAAATACAATACCTCCAATTGGTCTAATAACAAAACCAGCTGCAAATACTGCAAATGTTAAGATTTCAACGAATTCGGTTTCAGGGAAAAATTTTAAACCAATAATATAAGCAAATTGAGCATATAGTGCGTAGTCATACCATTCTAATGCATTACCAATCATTCCAGATATAACAATTTTTCTCATAGAATTACCCTTCTAAATTTACCAGAAATTTGAACCTAAATAATAGGGGGATAAGAAATTCATGCAAGATCTATATGTACTTATTACTTAAAAAATCTCTAATTATCGATATTTATAATTAATGTTTTTTAGAGAAAGATAGTAGTCAAGCCAAGTCCGCATAATATTATTGCTGTTGCGATATGAATTATTCTAGAGCTAGAGAATCTTCTGATCCAAACGCTGATTTTCGAGGCAGCAAGATCATAAACAACAGCGCCAACTGCTCCAAGTACAACAAAAATTGCGCCCATTATAAACATTTGTTTTGTAGTGTTTAGTGTTGGGTCTATAAATAATGGGAAAAATGCTAAAAAGAAAATTATTGTTTTAGGATTAAAGGCTGTAATTAAAAATACATGCATGAAAACAGTTCTTCCCGGTGGTTTTGCATCGGCTGTATTTTCTTGAGCTATTGTAGCATTACTACGAAGCCCAATTAATCCAAGAATAATCATATAAATTCCACCAGCTGTTTTAAGAACAAAGAACCATTCTGGAAATAAGTTCAAGATAGTTCCAAGTCCGGCAAAAGCTAATGCCAGTGCAGTTATATCACCTAATATCGTCGCTGGGATAGAGTATCTTCCAGACCACCGGCCATATTGTAGTGCATAATGTACAATTAGTAATACAGTGGGGCCTGGCAGAAAAGTGATAAAACTGCTTGCTGAAAAAAAGGCAATAAACAATTCATAGCTCATGAACTTATCTTATTTTTAATTACTATAACCTATACTAGAATCAATATAATTATAGACTAGGTGATCTTCTATCAGAAGTTTTTTATGTTTTTGTTTGGTTATATTTTTTATAAGCTATACAAGAAAGAAATAGGCTAATCCCAAAAAGCTGAAAAAACCTATTGCATCGGTACAAGCTGTTAAGAAAACTCCAGATGCAGCTGCTGGATCAATGTCAAAATGATTTAATAAAATTGGAATGCCAGAGCCAAGAAATCCTGCTATTACAAAATTGATAAGTACCGCACATGCAAAAATTATACTTAAATTAACATCTGCAAATAATAGATAAGTAAGAATGATTCCAATTATAGCCAGTAGTGCTCCGTTTAGCATGCAAAGAGAGATTTCTTTAGAGATAACTCTCCTAGTATTTGCGTTCGTTATTTCACGATTTGCAAGAGCGCGTACGGTCACGGTCATAGTTTGGGTTCCAGCATTACCCCCCATTGATGCTACAATAGGCATGATGGTTGCGAGCGTAACTAATTTTGCAATAGTATCACTAAATTGATTAATTACCAGTGATGTAAGGCACGCTGTTACAAGGTTTACAAACAACCAAGGGAATCTGTGTTTTGCCGCTGCGAATAGATTGGAGAAAATGTCGCTATTATTAATACCCCCAAGATGCATGAACTCTGTTTCGGTTTGTTCTTCAATAATGTAGATCATATTGTCAATTGATATACTTCCAACAAGTTTGCCTTGCTTGTTAGTTACAGGAACTATTGTTAAAGCATATTGCTTGAATATAAAAGCAAGTTCATCAATTTCTGTTTGTGTTTCGGCAATTTTAAACTCCTTATTCATTAAATCTTCAATTAATGTATTTCTAGGGCTTTTAAGAAGAGTGCTAAGAAGCAGTGTACCAACGGGACGAAATCTTGTGTTGACTATAATTGCAGCATGAAAATCAGCTTCTATATTACTTCTCCTAATGTAGTCAATTGCCTGGCCAGCTGTCCAATGTTGTTTGAATGAAACGAAGTCTTTTTCCAATATACGACCTGCAGTATTTTCAGGGTATTTGAAACCTTCAAGTATTTGTTTGCGTTTTACAGTTTTAAGCTTACCAATTATTGCTCTTTTTAGGTCTAAGTCTAAATCATCAATGACTTCGACTCCATCTTCAATATCAAGCTTATTTATTAATTTTGCACTTTTAGTAATTCCTAGAGCCTCAATAGCTCTCTGCTTATTACCATCACTTAAGCATGCTAAAAACTCTGGGGCAATTTTGTCAGCTATATTTGGTAGAATAACGTGATAATGTTTCCTGCTTGCATTGTCAATAAAATCTGCAAGATCCGCATAGTGAAGATCAAGTAGCAGTTCAATAGCATTATCGGTTTTATCATTGTTAAGAAGGTAAGTTATATGCTCAAATTGTTCTTCAAGCATATCCTGGCGATCAGCCTGTATAGTATTCTGCTTGTCTAACATAGAGCTCCTTAAATTAATTATAAAGCAAACTTAGTGGCATATTCTGGTGTAGCTATTATATGGCTAAATAACATCCAAGCCTAGGTTTTAAAGTAAAGTAGTAATTATTATTTCGTCTTGCGTATACTCACTCACTGTTTATTAGTCTTAAATTTGATTTGCGGCAATGCTTACATAAGATAGAAAACTTTCATTTTTGCCTGATAATCATTTTAAAAATACTTTCTTTCTATCTTTACAAGCAATGCCAAATAGTCATTTTATGGTGCGGCCGAGAAGATTTGAACTTCCACTCCCAAAATAGGGAACAACGACCTCAACGTTGCGCGTCTACCAATTCCGCCACGGCCGCATAGAAAAATCCATTTTGTGCATTAGTTTATTCTAAAAACTAGATGGCAAAATATAGAATGACTATAAAACAAATAACTGTATATCAAATTTACCTTGAAAAAGCAATAATTAGCTAATGTCTATTAATAAAAATAATTTAGTCTGTAAGGGGAAATTTATTTATGATGAACATAAAAGCCAACGCTATTTAGCATGTTCATAGTTTCAAATAGAGGGAGTCCTACTATATTCGAGAATGATCCAGATAGAAATGAAATATATGATTCTGCATAACCTTGTACAGTATAACCTCCTGCATTACCAACGCCTTCTTTTAGAGTGCAATAATAGTCTATTTCAGTTTTTGATAGTTTTTTGAATTTGAGTATTGATTTAACTACTCTGTTTAGAGTTCTATATTCTGCCTTATCTTTTTTAATGATGCATACGCCAGTATAGATGCGATGCCTTCTATTTGAAAGCAATTCCATACTTTTTCTTATGTCATCTTCTGTTACAGCTTTCCTCATTATAGATCTTCCAACTGTAGGTACAGTATCTGCTCCAATTATAATGCCTTTATCGATAACGTTTGCAATTGCTTTTGCTTTTTCAATCGCCAATCTTTCGGCTAGCTTTCTTGGAGATTCTTTCGGTAGTTCTGTTTCATCTATATTAGCAGGAAGAACTTGATCAGGAGTAATGCCTATTTGCTTTAAGAGCCTGAGTCTTGCTGGCGATGCAGATGCTAAAATAATAGGAAGTTCCATAGATCCTAGTGGCGTAAAATAACGCGGCCTTTTGATAAATCATAAGGAGTCATTTCTACTCTAACTTTATCTCCTGCAAGGATACGGATACGATTTTTACGCATTTTACCTGACGTATGAGCTATGATTTCGTGATCATTCTCAAGCTTTACTCTAAAATGTGCGTTTGGAAGTAGCTCAAGTACTTCACCATCAAATTCAATTAATTCTTCTTTTGGCATGTAACTTAAATATTATAAAAAATTATAAGAGAGATTATAACAAAAATCCCTGTTAAATCAAGATTTAATGTAGGGATTAATTGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGAACCTAGCAAGATGATGTCTGATGAGAGAGTTTTTGCTTTCTACTAGCGCAGTTTCTGCTTTGGTTTGGTGGTGATGTTTTGATATTCTATATTTACTGTAAACTTCATATGCGTCTGTACACAGATGATTTAC
>sequence69
CTCTCTCATCAGACATTATCTTGCTAGGTCCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCCAAATATATCTGCAATACAAATTGACCAAACAATCGATATATGATACAAGAGTTGTTTATGTTAAAAGCGCTTAAAGGCAGATCAAAACATCAATGACACAAAACCTAAAAGAACTACTTGCTGATCCGTATCTTGACCTGGAAACAGAAATTGCTAAGCTAAAAAAATCAATGAATGCTGTGATTTTAGCACATTACTATCAAGACTCAGAAATACAGGATATTGCAGATTTCATTGGAGACTCCCTAGAATTATCTAAAAAAGCCGCATCTACTGATGCAGATGTGATCGTATTTTGTGGAGTAAAATTCATGGCAGAAGCTGCTCTTATACTGAATCCAAAAAAGAAAGTTCTAATTCCAGATATGAATGCCGGTTGTTCGCTAGAAGATTCATGCCCCGCTGATAAATTTGAAAAATTTAGAAATAAATATCCAAATCATGTATCAGTAACATATATTAACTGCTCAGCAGAAGTTAAAGCATTATCAGATATAATCGTGACCTCATCCAGTGCAGAAAAAATTATAAATTCTATACCACAAGATAAAGAAATATTATTTGCACCTGATAAGCATTTGGGTAATTATTTAATCCGCAAAACCGGCCGTGATATGACTTTATGGGAAGGAACTTGTGTTGTGCATGAAAATTTTTCTGAACGAGAGCTAATTCGTCTTAAAACATCGCACCCAGACGCAATGATTATCGCTCATCCTGAATGCCCTACCGCACTTCTTGAATATGCAAATCATATTGGCTCCACATCATCACTATTAAACCATGTAAAAGAAAATAATGGTAAGGAGTTTATAGTTCTGACTGAACCAGGAATTATTCACCAAATGCATAAAATATCACCAGATAGCACATTCTATGATGTTCCTTCCTTAAATAAATCAGGATGTACATCATGTAGCGAATGTCCTTTCATGAGATTGAATTCTCTTGAAAAAATTTATGCATGTATGGTAAATGGCACTCCTGAAATAACCCTCACCCCTAAAATTGCTCAAAAAGCAAAAATTGCACTCGATAGAATGATTGCAGGTAAGTATATTCTCGAAGAACCAGCTTAGGTTCGCAAAAATCTTCTTTATTGACAAAAACGTTAGTATTAACTAGCCTTTGTTTTGTAGTAAACAATTGGGAAAAATTATGTCAAAAACGCCTGAAGAGATAACTGATACAAATACTGATAAATCAAATTATACTAAAACATTAACTACTCTTGCCCATAAATTTGGAGCAGATCTTGCACGTGAGTGTTTAAACCATTTGGATGCGTTGGGAAAATCTTTCGACATAGGTCCCGAAGATAAAGAACTAAAACTATCTGGTGATGACACACCGGAATCTTCAGAAGAATCCTAAATCCTCAAAAGTCACCTAGATCTTAACTCCTTAAGCCAATTCTCAAACCTAAAATCTTTTGCATTGCAATAGAGATAATTATCATGTTAACCTAAATATTAGGGAATTTAAGTTGTTGTTAATTAAATACGATGTCTGGGGGTATATTCTATGGGCGGAGTTCTAGGTAGTTTAAGAAAAAATTCAGAAATACTGTTAATTTATAAATTCTTCAGAAAATGCTTCATAATCTTACGAAACCCACCCCTTGAACCCGACATAAAACAAACAAAAAAACTTTTACTCACTGTTGCAGATGAAGATGATATATCCGAAGAATTTCTTATAGAGTTTAACAATTTACTTAGTATAAGAAAAAATTATAATAATTTTTCTTCTAACCAATTCATCATTAATTTACAAGAAATATTCATAAATTCTACAAGTAACCCAAAAGATCTAACACTTGGACATATGGCAGCTTTAGAAAATGATACGTTTTTTATGGGAAAATTAGTAACTTATAAAATTATACCAAATTTTCCTGATGTTTTAGATAAATCTGGAGAAACTCCTTTACATAGTGCCAGTAATGCAGGAAATACAAAAATTATAGACTTACTTTTAAACACAAACTCAGAAACGCTTAAAGACTTCATTAATCAAAAAGCCGATAATGGAAAAACAGCACTTCACAATGCAGCATTTGATAATAAGGTAGATGTAGCTACTAGACTAGTAAAAAAAGGTGCGGACATTGACATTGCCGATGCTAATGGATTAAAACCAATTCATACTGCTCTAATGAGAAAATTAACTCCTATGGTAAAATTTTTGCAAAGTGAAGGGGCAGATATTAATGAACTGGTAGATGGCCGTCCACTAATTGCACTAGCATATAAAATGAAAGATATGCAGCTTGTGAATTACTTATTAAACTTAAAACTAGATTTATCTGCATCATATGATGAAACAACTTTTATTCATACCATTTGTAATGATAAAAATTTAAAACTTCTAAGAAAAATAGTACAAAAATATGATATATATACTGAACGAAAATCAACAATAGACGAAGATGCAGTTACAATAAATATTTTTGACCAAGAAGACGGTTTGGGACGAACGCCATTTGATATTGCTTGTTCTGAAAAATCTTATTCAGCCATGAAGGTTCTAGCAAGATGCGATGTTGATGTAGATCATACAATAGGTGGTTACACTGCACTACATACTGCATGCGCTGCTGGGGATTTAAAAACAGCTAGAGCTCTTTTGAACCTTGGAGCTAATCCAGCAATTCTAGATCCACATGGCTTAGATTGCTATGAAATAGCTAAAGCAGCAGGTAATGCAAGACTACTAGAATTAGTAAGAATATGCATGCCTGTTGAAATTATTGAAATTGAAATTGTAATTGAAGTTGATCTTGAGACAGATACCAAAGAAACAATTGATATTCTAGGTTCAAACTTTCCACCTACAGTAGTAGAAGCTTAATTTATTGATCCAAATATCTACTTGCCCATGCTGCAAGCACAGATGCAACATATCTACTATCAGCAGGACTTTTCATCAATAAATGGTCTGCTTTATCAAGAGAAATAAAGCTTTTTGGATGTTTTGCTAATTCATAAATCCTTTGAGCATTTTCGATTCCAACTGTCTGATCAATCGGTGAATGCATGACTAAAAGAGCCTTCTTCAAATTTGCAATTTTACTTGGCATATCTTGATTGCAAATGTCATCGAGAAATTGTTTTCTAATATTAAATTTTTGTCCACCTAATACAACTTCCGCTTCTCCTCGCGTCTTTATCTCATCTATATGGTTTGCAAAATTATGTTGAACGTGCGCAGTATCACATGGTGATCCAATTGTTGCAACAGCCTTGATCTCAGGGATGGATGAAGCTGCAGCAATTGCAGCCGTACCACCTAAACTATGACCAACTACTATTTGAGGAGCTTTATAATTTTCTCGCATAAAATCTGCAGCTGCAATCAAATCATTTACATTAGATGTAAAATTAGTATTAGCAAAGTCTCCTCCGCTTGCACCAAGGCCAGTATAATCAAATCTAAATAATGCTATATTAGCCTGGTTTAAAGCTCTCGATATCCGTCCCAGAGCACTAATATCTTTATTACCAGTAAAATAGTGAGCAAATAGAACATATGCTTCAGGCTGTTCTGGTGAGTCAAGCCTAGCAACCAAATCATCTCCAAGTGAACCTTTAAATACTAGCTTATTACTTACAATTGTGCGTTTTGTCATTATAGTTGAAATTTTTATTAAGTTTAGGCTACATATTACATTTTATTAAGTAATAGGTCAATTAAGCAATAAAGTTTATTTTATTAATAAGCTTACTGTTAACTAAAAATTAACAAATAACTATTAAAGTCTTGTTTAGAGGGATCGGTATGTAAGTATTTAAAAAATATACTAATATACGGAGGTCATTATGACAACAATTCTTGCACTAATAGCAGTTTCAGCCGCATTACTACTAGTTTTTTCAGATAAAATTGTTGGGTACTATCTTCCTGAAAGCAGCTTTGCGCAGCTGTCAGAAGAAATTGACGATATAATAATTCATATGGATGATTCTGAAGATCAACGTACTGCGGAATAAGTAGATTATTTTTTACGTGCGATCACATCAAAAACATCCCAATGAATAATATTGCCTTCAGTGTCTGGCTTATCGTAAATTCTGTGCATAAAATATAAAATTTGGAACCTATTAGAGCGCATTAGCTTTCTAATATCTTTTTCGGTCATCGCAAAAACTTTTGGAGACTTTACAAAATCATGTGTAGGGCCAAAAAAGTTTAGAGCAACTAAACTATTTTGCTTACTATATAAAGACATATGTCTTATAAGCTGAAATACTTTCTTTTTATCTCCAAATGGCAAGGCAAAAAATGAAAAGAAATAATCATATTTTCCACGCATTCTTTCATCTCCAAATTTACGATTTTGGAACGAAAATTTTCCGTAATGCATTTTAGCTCGTTCTTCTATAACCTTGCCTGAAGTAGGACTAATATCAGATACTGTAACATCCCACCCATTTTTAATAAGATCGATAGCTTCATTGCCTGGACCTGCTCCAAAAGAAAACGCTCGGCAATTTGGGCATTGGTTTGGAAAAAGTGTTTTAACTTTTTCATGTAGATAGTAATTACGCTCACCAATTCTTGCAAAAATATAATTCTGCCAGTGCTCATTATTACTAGCACTTTGTGCATATGAACTTATTGCAAAAAATATAAAAGTAATGAAAATTACAGCTGCTTTTTTCATGATTAACTCTCAATAACTATATCTTTTAATTGTAGTTGCACTGTTTCTCTATCCTGCCAACTATTGATTTTCAATGTACCAAATACCGATAAATTGTGAGATTTACGTGATAATAACACATTTCCTAACTCTCCTCCAACAACATTAAATGCAATTGCAGATATAGGTTTTGAGCCATGAGAATCTCGACAAGGTGCAAACATAACCCTAATATGCTTTGATGCTACTATATCAGCTTTGAGTACGTATACATTTGAAAATCTAAATATGGGAGTAGGATTTCCGTTGCCAAATGGCTCCATAATATTAATCTCAGAAACAAGATCAAGAGTTGCAGCTGAACTTGTTAAATCTAGGGCATATTGTTCTTGTAGATGAATATCAGACCCGGACAAACATTTTCTAAACTCATTATTTAAAAAATCTCTGAGCTGATGCATCATACCAGACTTAACTGTAAAACCAGCAGCCATAGAATGCCCTCCTCCAGCTATTAATAGTTTTTTTTGCTTTGCTTCAATTATTTTACAGCCAAAATCAACTCCTCTTACTGATCTGCACGATGCCTTGCCAACACCTTCATTAACTGCAATTACAGCTGTGGGTTTGTTATATTTTTCCTTAAGCCTTCCTGCTACTATTCCGATTACACCTGGATGCCAACCTTCTCCTTCAATAAAAAGCATAGCATCATTTTCTTGCTTTCTTGCTTTTTCCATTGCCTCATCAAGCATAGCAAGCTCTATTGACTTACGTTCCTGATTATAAATATCCAGCTCTTCAGCCATCCTCATTGCATCGCTTGTAGAAGTTGTTGAAAGTAAATTTGCTCCTAAGGAAGATTTTCCAACTCTTCCACCTGCATTAATCCTTGGTCCTAAAATAAAACCTAGATGATAACAGTTAATTGCTTCTTGAATACCCGCAACATCACATAGAGTTTTATAGCCAATATTACCCCTAGCTCTAGCTACTTTTAAGCCTTGTGCAACAAATGCTCTATTAAGCCCTGTTAGCTGCATAACATCACAAACCGTACCTAGAGCTACGATATCAAGTTGGTTCATAAGGTTTGGCAG
>sequence70
CGCCCCAAGTCTCTCGATCTCCTTCCCCTGATCTTCAACACGCTCACTGTAATGTACTACTTGCTCGTTTAAATCAGCTACTTCTTCCTCTAGAGTGCCTACCTTTGCTTCTGTTGCTTCTTGCTGCTCTTGTTTAGGTTTAAGAAAGATAAGCAATATAGCACTAGAAAAAAACAACAAGTATGGAACCACAAACTGTAAGCTATTTAAGCTCTCAACACTTATGCTACCGCCTGAATAGTATTTATAAAACTGTGTAGTAGACAATATTCCAACCAATAACATCAATATCACTGCTTGCCATCGCATTATTGATGCAAGAATTATAAAGTTGAGCATAAATGTCATTAGCTGAAATTTATCAAAATTACTTATAATAACTTGAAAAAAACCAGTACAAATTGGGGCATAGAATACAGCAAGCATCCAAACGACAGAGATCATAACATAATTTTTCATTGGCCTAGTCCATAAGGGATAACTAACTAAAGCTGTAGATACAAAAAATACTGAAGGATAAATAAAGCTGATTATTTGACTGTACTTAACCTGCATTTCATTTGGCACATTATGAATTGAAAAATATGTTGAAAAAATACAAAAAATACCAAAATAGACATAAGTTAAATCAGATCTTGGAGCATTAAGCCTACAGAAATCAAGAAAATTGAAATTCCTAATTGAATCCACTATCCTTTCAATTCTCTGTTTCCTCAATTGCCTCAACTCTACTACATAATCATAACTCTTAATTCCAATCCAACCACCAGTCTCTTTTAAAATGTAATGACTTAGAAATAGTGCTAGCACATTAGCTATCATCCCTGGTATTGCACTATCTACTGTATTGCCTCGTAGAAATATTTCCCAAAAAATTACCGTTATTATACCGGCAAACATACCAACTAATACTGATTTACCAGAACTTCTGAATCCAATTATAGAAAGCATAAATGGTACAGTAACAATAGGCATATAAAATGATGTTGTTGTAATTATAAGTTGCAATAAATCTGTACTATAAATAGCCAAAAACAATGATAATATACCTAGAAGAAATGATATCAACCTAGATGTTGTCAATTCATCTTTTACTTTAATACCAACTGAATTACAAAAATCATGGGTAAATAAAATAGAAGTGGAATTAATATAAGAGTCAGCAGTTGACATCATCATAGCTAAAACACCTGCAAGCACAAGGCCCTTAAATCCAGTATGCGTATGATTATCAATTATATGCTTTACAATCTCACCAGTAGGCAAGTCTGGATAAATTGCTGATGCAACCATACCTATCCAAGATATCATTAAAAAAAGAAATAAAACTACAATGGATGCTATAAGAAAAGACTTTCTTGCTTGATAAATATCTTTTGCCATTGCAATACGTTGAAATATTGTGGGATCAAAACCAGGTATTGCAACCCAAAGGAAGAAAAATACGTAATATAATGATTTCTCTGAATTAAAATTAAATATCTTACTAAATTCAAACACTGAAACATTCTCAAATGCTGTAGCCAGATAATGCGTATTATCAAGTGCAGTATATATAAACATAGTAATTGTTGGTATTATTGTGCCAAACATAAATAATTGCACTACATCCGTAAAACTAACTGACTTAATACCTCCTAAAGCTGAGTATAGAGTTACAATAGCTGCACCAATTAATATCCCCTGAGTACTAGATAATCCTAAAGAATATTCAAAAATTATTCCAGCAATCTTAAATTGAGCGGCAATTACGCCAGCGACACCTATACATCCAGCAATAGAACTAACTAACTTTACATTCTTTCCATACATATTGCCCATTGCTTCTGCAATAGAAAGATTCCCCAAAAATTCTGCCATTCTTGGAATAAAAAATAAACCTATCAAAAATAAAACTAGAAAATTACCAAAAGAACGCGCAAATACAAAATACAATCCGTCGCTATACGAACCCGCAATTACTGTAAAAAAAGCTTCACCACTGATCCATGTTGCAATAATAGTACAAACTAGAGTTACAGTTGAAAAATCTCTATTGCCAAGTGCAAAGTCTTTAATACTTCTTACATTGGTTCCTTTTAATATCCCTGTTACAATAATAATTAATAGAGATACAACGACTATTCCGACATCTATATTCATTTACACACTAATACAAATTTTATTTAGAAGCTTTATATATTATTTGACTACTCTCCTTGAGCTAAGGAATATCCTCTTTTACCATCAAAATTGTATAGATTTTCGACCTTTACAAAATCAATCTCTGCATCAACAAATTTTTCAAGTAGGCTTGAAATATCAGTGTGAGTAATAGTTCCAGAGTCTGGCATAAACCTGCAACACCAATGATCAGACTCAAGCATATACTCATCATCTCGCGGCCAAACTTTTAGCCCTTTACTTGCTATAGTCTTCATAACCATCTTTCCCGCGTCCAAAACATTAACTTTTTTAGCAATTTCTTCAGCGGATTTTGCATGAATATCAACAAAAACATCAACACCTACTAAAGTTTTTTCTTCAGAATTATCAATTTCATAGCTAAAATTTTTAGATCCAGACTCAGAATCTTTATAATTGGCTACTTTTAACTTAGTTGGCTTTTTACCTAATCTTAACACAACTTCTTCAGCAAATTCTTTTGTACTAACTTTTTTTGTTGAGGTTTTATCATTATAAATATCAACCGTATGGACTCCATCTTCGATAGTTTTTTTCCAAGCATTTTCAATTGTAGTAGCAACATCTCCTTGACCAATATGGACAAGCATCATTATGGCACCATTAAGTAATCCTGATGGGTTTGCAATATTTTTTCCAGCAATATCAGGAGCAGAACCATGGATTGCTTCAAACATAGCATAATCCTTTCCAACATTTGCAGATCCAGCCAAACCAACAGATCCAGAAATTTCGGCAGTAATATCTGAGATAATATCGCCAAATAAATTTGATGTTACAACAACATCAAAATCCTGCGGTTGTGTTGCGATACGCGCTGTTCCTATATCAACTATATAATGATCATTTTCAATTTGAGAATATTCTTTGGCTATTTCATCAAATACTTGGTGAAATATACCATCTGAAAACTTCATGATATTGTCTTTACTAAAGCAAGTTACCTTCTTGCGGCCATTTTTCACTGCATATTCAAAAGCATATCTTACTATCTTTTCACACCCAGTACGACTGATCAACTTCATTGATTCACGCATATTTCTTGTATGCCTGTATTCGATGCCCGCATAAAGATCTTCTTCATTTTCTCTGACAATCACAACATCAAGTTCAGGATGTTTAGTTGCAACGAATGGAGAATATGAAATTGATGGACGTACATTTGCGTATAGTCCAAGCGCTTTGCGAAGAGTCACATTCAAACTTTTATAACCACCTCCTTGAGGAGTAGTAATTGGTGCTTTCAGTAAAACTCTTGTACGCTCTATGGATTCCCAAGTATCGCTAGCAATACCTGATGTATAATTTTTCTTATAAAGTTTTTCACCAATCTCAATCATTTCAACTCTGATTTTTGCTTCTGCTTTACGCAAAATATACATCACTGCATCCATGATCTCAGGGCCTATACCATCACCATTGGCAACAGTAATTGGAACTATTTCAGACATAAAATTCTCACTTTTATTAAATTATAATAGAAGATTATAGCATGTCTGTCCTTTGGAAGGGAAACGATTATTTCATAATGATCAGCTGATATTTACTCAACTGATGTGCTCAAGACTTTCTTATAATCATCATTTAGGAGCTTCACTCCAAAAATCCATACTAAGCACACAACAACAAACACAGTCATCAAAAATCCCGCAATATCTTCGTGATGAGCTGCTGGAAAAATTGTAAACGTAACCATCTGAACAGATGCACCAATCGACTTACCTAGCTTTGCACCAAGCACATCAACCGCAGCCTTACCCTTAGTTTTCATTTCCTTATCAAGTGGGATATATACCATTTCTTTGGTTGCATCAAATAATGAATATTTTGCTCCTTTGCCAAGTATATTTTGAAGAGCGCCAATGAATACCACAACTGCTAATGGTGCAACCGAAATAAAGCCAGCAAAAATTACATCCAAATATTCTTCCATTAGCACAAATGAAAAGAACATCGTGCCAGCTAAAAAGATCATTGCAGGGGTTAAAACCGCTCCCCAGAACCAACCAAACCTTCGAACCACTGTACTACCTATCAAAATAAATATGAGCGTTGAAACACCAGTCCAGAATAAAACATCCCCCATATAAGCCATAAAATCTGCAGTTTCAGGGTACATTGCTTTTGCCCGAGACATCCATAGGCCTTCAATTAAATTCACAGATGTACTATAAGAAACCATCAAAATACAGATTATTGCCAAATATTTGGACGTAAATACCATTTTAGCACTATCTACTAGACCTAATTTTAATATATCTGTCCTTTTATTCTTAAATTTTATACCCTTTAAGGTCTCAACATTTTTAACTTCAACAAATCGATGCAACGCTAAACAAATAGCCCCAGAAAATAACATCAGTAATGTCATGGATTTTAAGACAATTTCAGACTTATCACTAATATTTGCGAATAATGGCAGTAATATATGATCACACTTAGTAAAATATACTATAAGCTTTCCTGATATGAGCAAATTCATCTGGCCGAACAACCCAAAAAACACATAAAATCTTTTAGCTTCTTCTGTTTTAGTAATCTTATTAGCAAGCTGCCAAAAGAATAAGAAGAAAACAATCACCGGCCATAGCTCACCCATAATGTAGAATAGTATAAAGCTCCACTTACCCCACATTACAATGAACCACTTCAAATGCGGTAATAATTCTATGTACTGCTCAACAAGCTGTGGATCTGGATGAAAAAACTCTTGATTTGGAAAAATGACAAAGGCAAAAAATGCAAAGAAACCTAAGAAAGTACAAACAATAATTCGAAATACTTGTTCGGTTGTCATAATATTGCAAAGCTTTGTATATAAAATCACAAAGAGTACACCCATAGGCAACTCGCCCCAAAGCTTTATAAAACTAAGCACCTCAGTACCTATCATTGTGACTACAAAACCATCTTTGATACTTCTGACTAAATTCTGATTTAACAAGATAAATAGCATTAAAAATGCCATTGGTAAGAATTTCGTCAGTTCATATGAACGGACTGGCCATAGTGCAAATCTTAATTTACTATGACGTAATTTTGTAAACCAACTAATTGATCGTGATATTTCGCTCACTTGAAAAACCTAACTTCCCATTTAAATAAATTGTTTCCAGTGTAAGCTAATTCAATGCACCCCCGCTGTCAACGCAAGGAATCATAAAAATTGTTTCAGTTTTTTACTAACTGGTTAATTCAATATTTGGCATTGTTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCAGAGGGGGC
>sequence71
ACATACGTTCGTAGTCAGCTTCTTAAGGACAGGTTTAAGCTCGCATTCGAAGTCTTATGCTTCTATTTAGTTTGCAGTTTACCTGTCCTACCTTTTATATAATTGATCAGATTATATTCTTTGGCAATTTCTATTGTATGAATTTAGTTTAACCTGTTTTCTGGTGAGTATTTAACGTAATTATTACTCTATATAAATCTTCTAAAAAAAACAATTTATCTATTACTTCTACAAAATTTCTATGCTAACGTGAATACATCAACTAATTATTAATAAATTAGTTTGTCATTAATTAATATGGGAAAAAATATGAGTAAATTAAGCGAAGCAAGAAAATTAGACGAAGTCTGCACAAAATTAATTACAACTGGAACAGTTGCTAGCATAACATTGCAAGGAATTATCTTACAATAAAATTTTCTGGATTTCTTATTTTTTCAAACATTCGTGTTACAGAATCATTTTGAGAAGGGATATTTGTAGAATCCTTTTTTATCCATCTCAATTCTTTTGATTCATGATTTTTATAAACTCTATCATTATTATATGCATGGAGTAAGAATCTAATATCAAAATGGTAATGAGCTTCGTCATTACTATTTGGGGGAATTAAATGTATATCGATATCAAAAATTTCTGAGCTTAAGGGCTTTATTTCATTTATTCCCGATTCCTCCTGGGCTTCTTTTACCGCAAGCTAATATATCAGAATTACCATCGCAGTGGCCACCAAGCTGCATCCACTTATCTAATTTTGTATGATGCATTAGGAGTGCATGTGTCATCTCTTTGTTCAAAAGAAAAGCAGAAGCAGTAAAATGTCCAACTCTACAGCTTCGAAGAAAACAGTCTTCGCAAGTAGAGATTAGCTCCAGCATCTTTTCTTTAAAAACTGATTCTTTTTGATAAGAAGGTTGATAGCTTGCTATCAGGTCGTATGTATTTTTATAGTTTGATTTCATAAAAACTTTCCCATATTAAACTAATTAAATCATGCCGTGCTAATGCATAGAAGCTATAAATTATTCTATTCTTTTACAAGAAGAAGTATCTTTCGATTACTATAGACTTCATTTAAAAGTAAAAATACCTTTATCCATAATAAAACAATAATCCTTGAGATTATCCTAAAATATGCTTGAATAAAGCATTAGTTAAAAATACTCGACCGATATGCATTTTGTAGAATATTAAAACTATAATCGGTACTAGAAAAATAAAAAAAGCCAGCACACACATGCATACTGGCTTTTTTGAAACTAATCAGTTAACAACTAAATTCTTATCTAATAGCTGTTACACCTCTACGATTCTGTTTCCATGCAGCTTCGCTGTTTCCGATAACTGCTGGTCTTTCTTTACCGTATGAGATTGTATCGATACGATCTGCATCAACACCGTGCTTAACTAGGAACATTTTCACAGCTTCTGCTCTGCGCTCACCTAAAGCAATATTGATTTCTCTTGTACCTCTCTCATCACAGTGACCTTCAACAGTAATGCTGAATAGCTTGTGATCGTTTAGCCACTCTGCTTGGCGCATAAGTGTTTCTGCTCCTTCTTTTGAAATAGCTGTGCTATTTAGAGCAAAGAATACTCTATCTCCGATTTCTCTTTCAAATTCAACAATGTGTTTGTTATTATCACCATACTTACCTCTAGATGCACTACAACCAGATAGAAGAAGTATAGCAAAAAATGCAACTGCAATTTTTTTAATCATAATTAAATCTCCGTTTTCGATTTTAAAGTTTAGTTAAATTACCACTTAAATAAAGCCAGAATAACTTTAAGTTAAGATACGTAATACCAATTATATAACAGCTTACATCTTTTTGAAACCTATAATGGAAAAACATTTGAATGCATAAAATAAGTAACGTGATATAAATATCAGCTTATATACTAATATTTGCATAAAATAATGAAAAATACTATAAAATTTTAAGGTTTAATAAGACAACCGCAAATACTAGGCACTTTTGCTCCAGTAGTGCTTGGAAAAGCAGATGGTAAATCATTACAAAATCTAGCAGCCAAATATGCAAATCCTTGCGACTCAACATAATCTGAATTCATGTCTGGTAATTGTGAAATATCTAGTAAATTACAATCAATGTTCTGATCTTTTAACAGTTTCTCTATCCACCACAGCATCTGACTATTCTTAGCACCTCCACCACAAATAAATATCTGCTTTGGCCAATTAGGAAGTTGGCTAATCGAATGTATAATTGCAGCTGATGTCAAATAAGTTAAATTGGCAACAATATCTTCTGGATTTTTTTTCTCTAATTCCTTAATCAAAAACATAAAACTATTCCTATCAAGAGACTTTGGATAAGGTAAATTATAATATTCTCCAGACAAAACTTTATTTATAAATATTTTATCTATATTACCGCTAGAAGCTATCTCACCTCCATCATCATAAGGCTGGCCATAATATTGCATCATTATATCATCAATTAATGCATTTCCAGGTCCAGTATCGAATGCAATCAAATCTTCTTCGTCAATATAAGTCAGATTAGCAACTCCACCAATATTAACTATAACACTTGGTAGATCATGATCTTTTGCTAATAATTTATGAAAAATTGGAATCAACGGTGCTCCTTGACCACCATTTGCAACATCTCTCCTCCTAAAATCATGGACAATGTCGATACCAAGACCAGATGCAAGCATATGTGGATTACCAATTTGCCACGTTAATCCTTCATCGGGTTTATGAAAAACCGTCTGTCCATGAAAACCGGCAGCTTTTATTTCAATTGCTGAATATCCTGACTCATTTAATAGTTTGTTTCCTGCTTGGATATGAAACTCGGTTAATTTCTTCTCAATTTCAAGGAATGGTGCTGAACGAACAAATAACTCCTGTAATTGATTTCTTGTATTAAGATCATAAGAAATTGCAGTATTATGTATCGGTCTAAAATAATCTTTCCCATCTGTCTCAATTAAAGAAGCGTCTACACCATCACAGGAAGTGCCGCTCATAAAACCAATATATAAATCATTCATCAGACTTTTCCTTGCTAGTTTTTTTTGGTGACTTTCTCCTTAAAAGATTTTTACGAAGCGCAGAAGATAGATCTGCTTCCCTTTGCTTGGATTTTACTTTTTGATTTTTTAAATTATCTGTCATAAATTCTATTTTTCCTTGACCTTATGCTAATAATATGGCAAAAATCTGTACTTACAAATTTTAGTCTACCTATCACCTAAAAATTTTGTAAAAACCACTATTTTTTGCCGCTATAGCTCAGTGGTAGAGCGCATCATTGGTAATGATGAGGTCGAAAGTTCAATTCTCTCTAGCGGCACCACTACCTACAATAAGCAATCTTTGTATATTTTACTTGGAGCAGATAGAACTAACAAAATCTCAAAAGGAAATCCATAATAATAATTATTATTTAAATATACTTTTTATATAGGTTCATCTTCGAAGAAAGAAGAAAATAAGTTTGGCATCAAGAATTATAAGATTCTTTTTTAGATAGCTAAGTATGAGTTACAAGTTTTAGAGAAAAATTAGAAGAATCAGATATATGCTTCTCACCAAAAGCTTTATGATCATGTTTAAACCAAACTACATAGCATTCTTGATTTAATAGAAGACTCAGAATATGCAAGTATTGAATTTTAAAAACATGCACGTGAAAATTTGGATATTATATTACCTAAGTCAAGAATGGAAGATACCTAAATAACCCCTCTTGTTCTTACCTCATCGACTGAATCACAGACTATGTCACTAACTAGAACCTGAGTTTCAAAGGAAGTACATGAGCTACATATACCTGATTCTCATCTAATCTATTCTTAAGTATTGCTCTAATATCCTCATCTGCGTACAAATATCCGGAATCTACTATTAGTAGGATTAGCCGCAACAAGTGATATACAACTATAAGCAAATGTTGATATAGCAGCACTAGTTGCTAGCATTAATAATAATTTACTTGCTGAATTAGTTCTTGATTTGTTTTCTTTTTATTTAAATATTTTATTCGCCTCTAACTATCTACAAACTCTATTAGCTTGCGATAATCGCCTATGTCAGCTTCTTTTAAAGCTGCTATATACTACTTTCTTATTATTGAATCCTCTATAAGGCTACAGCTTCCCCAACTGAAGCTAACCTCATTGTTGTTCTGCAAAAGCAAATCAGCAAATAATCTAGAAAAGCGTCCATTACCATTTGGAAATGGATGTACAAAAACTAATCTGTGATGCAACCTTATAGCAATCTCACGCATTTCATATGTATTATTAGATAACCAGAACTCCACATCATCGAATATCGCCTTTAACTCCTGAGGTATATATATCGAATCTACGCCTATATTTGTTTGAGATTTTCTAAATACTCCTGCCCAGCTCCAAGTCTCATTAAACATCTACTTATGCAATTTCTTTGCAAAGTCTATAGATAGAATATTTTTTCTTTTTGTACTAAAAGCCCAGCTTTCCCCTTTGACAATATTAAATTGCTCCCATTCATTCAGCTCCTTCTGTGTAGTTAGATGATTAGGTATTAATTATGTATCTCATCAGGAGATAAAGGTGTTGCCTCCTCTGCAAAGATAAACTTCATATTACTTCTCCCATATATTTTTTATATTTCCTCTTAAATATTCCTCTGTCAGAATATCAATCTGTTCTTTCAGTTCCTTAGAATCTGTCTTCTGATCTTCTAGAGCCATACTATGAGATACTCTAAACATTTGAGTTTTTGCCTTATCTCGGGCAGACTTTTCAATAATTTTGTCCAAGTTATCATCTGGTACAAATGCATATACAAATTTACAATTCATAGCCTTTGCCATTTTTTCTAGCGTTGCCATAGTTAGCTTACTTTCTAGCTCATCCGCTTCTATCCTTACTATTCTCTCACTACTTACACCTGTCCTCTCTCCAAGTTGCCTTGTATTAATTCCAAGAGCCTTTCTGATAGTTCTAATCCACCCAATACTAGGTATTATAAAATTTCTAAATGGCTTTACCTGTTTATCTATTTGTCTGGCTGTTAGTTTTCTTAATGACCAATCCATATTGTTACCTATTTAATAATATATATATTATTATAATATATATATTACATAATGTATATATTATATAATCTGTAATTATTTCCTATGTATATATTGTATAATCTGCAATTAGTTGCTCGCTAACCAAATCACAGATAATTTCCCAGAGTGTTTTCTACTATTTTTTAAATTAGCTGAATAATAGTTCCGAATAGCTTTTTGCCAATTTTTATGTTGGCTACATAATGACTTCAAAAGCTTTGCTGCATAATTGATATAATAAATCTATAAGTTTTAAACCAATAATTACTATAGGTTTTGGCATTATTAAATAACAAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCAGAGGGGGCGCAGAAGTA
>sequence72
AACTCTCTCATCAGACATTATCTTGCTAGGTCCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCAACAAAAGAACCTTATTTTCTTATATTACGTAAAATTGAGCTAGCAATTGAGTCAGCGTTTAAGCCAAAATGTTTAAATAAATCTTTTGCTGGAGCAGATGCACCGAACGAATCCATACCAAAAAATAGTCCATCTGAACCAATTATCTTATGCCAACCAAGCTCACTTGCAGCTTCAATTGCAACAGATAATTTAGCATTTTCTTTTAAAATATTTTTATACTCCACATCTTGTGATTCAAGCAATTCAAAACATGGCACAGAAATCACTTTTGCAGACATCCCATCTTGTTCCAAAATCTTCTGCACATCTATTGCCAAACTAACTTCCGATCCACTAGCAAAAAGAGCAACATCAATTTTGTTTATGTTACTTGCTTCGCTTATAACATAAGCCCCTCTTGAGGACAGATTATTACTTTCTTTTTGTCTTAATTGTGGAAGAGACTGGCGAGATAAAACCATCATAGATGGTTGCTTCTTACTTTCTAATGCTAGCTCATAACATTCTCGTACTTCACAAAAATCAGCAGGACGAAATACGTTTATATTAGGCATGGCTCTAAATGATGCTAAATGCTCTATCGGCTGGTGTGTTGGACCATCTTCTCCTACTCCTATCGAATCATGCGTCATAACATAAATCACTGGTAGCATCATCAAAGCGGATAATCTGATTGAAGGACGCATATAGTCTGAAAAAACAAAAAAAGTTCCACCGACTGGAATAAAACCAGATATTGCAAGGCCATTCATAATAGCTGACATTGCATTCTCTCTGACTCCGTAGTACATAAAATTCCCAGAAAAATCGTCTCTAGTAATTTGTTTGCAAGCAGGATTTTTAAGACCATTTGATCCAGCAAGATCAGCAGAACCCACTATTAATTTCTCTTCGGATTTTAGCATAGACTCAATTACCCTACCCGACGAAACTCTTGTAGCCTCTGAATCTTCAATATCTTCTAAATCAGAAGAAATTTTCAGACTAGGCATTTTAATATATTCTTTTTTATCTTCTGATAAATTCTTAAAATCTTCTTGCCAAAGCTTATATTCACTTTCATCTTTTTGCCAAGCAGCTTCCCATAATGACTTCATATCTTGATCGATATTGAATGCTTCAGACGATTTTGTAATCTTAGTCTTTAAAAATTCTAGTTCTTCTTGGCCCAGTGGTGCACCATGAGATTTTTCAGATCCTTCTTTTACATTTGCACCCTTACCAATTATTGTCCTACATGCAATGAAAGATGGTTTATTCGATGTTTTTGCCTTAGACAAAACATTTGATAAATCTTCGTCATCATATCCATTTGCTACAAACGTTTCAAATCCTAAAGATTCAAACTTCTTTATATGGTCTTCAGACACTGTTAAATCAGTTTTGCCATCAATCGAAATTCCATTATCATCAAATAAAATTATAAGATTATCTAGTTGCAAATGTCCTGCAATAGATGCTGCTTCATATGAAATACCTTCCATTAAACAACCATCTCCAACAATTGAATATATATTGTAATTACAGATTTTTGAACCAAGCTTATCTTCATATTTTTTTTGGGCAATTGCCATTCCAACTGCATTAGCAAGCCCTTGCCCCAGCGGCCCAGTTGAAGTCTCAATAGCGTCATATAGCTCTATCTCAGGATGACCTGCTGTCCTTGAGCCAAGCTGCCTAAAATTCTTTATATCATCTAGACTAAAATCCCTGTACCCTGCAAGATAGAAAAAGGAATATAATAGCATCGAGCCATGTCCGGCTGATAAAACTAATCTATCGCGATTAAACCACTGAGGGTCATTTGGATTAAATTTTAAAAACTTAAAAGCTAAAACTGTCATTACCTGTGAAAAGCCCAAAGGCATACCAGGATGTCCTGATTTAGCAGCTTCCACAGCATCTGCAGATAAAATCTTTATACAATCACTAAGTTTTTCAAAGGAATAGTTTTGATTTTTTCCAGAGTTCATTATAATGTCCTTTACTTGTCGCTTGTAGCAGGATCTTAAACTAATTTATTCATTATGACAACTCTACTTTCAAACCCATTATTTTTTATAAAAAATCTGTTTACTCATTTGTGGTTATCAGTCAGTTCAGTGAAGTTTTATGAAAAAGTTTTCAAAAAATACAATGATTATGGAGCCTTGTATATCATAAATCTATCACTTATTTCATCCATTGTGTGTACCATAATCTTTTTACATAACGTAGATAAAATACAAGACTACCTCAAACATAATATCGTCTCAGAAAGAGTTGAAAACATAGACTTTGTCATAAAACAAATTCCGCCAATTGAATATGACGGGCAAAATATTACAGTTGACTCAGATGAACCTATTATAATCAAAAATAAGAACGGAAATAATGTACTAGTGATCGACCCAGATAATAAAACGAAGCCAAGCGATAGAAATAAGTTCCCTTTGATATTATCACAAAACAAAATGATCATTAGCCTAATAGACTCCGAAGGAAAAGTAAAAAATACATTTCCAATAAAGTTTGATCAAATCTTCAACCAAATTCCAAGAGTACTGACTAATGAAGAAATAAAATCTAGCTTAGCGAAGCTTCTCGACCAAGCACCACGTGTCTTAGTTTACATGATTTTTCCACTAACTGGCTTTCTGATTTTTCTAAACACTTTTTTAGACAAAGCCTTTTTCATTGTCATGATATTTCTGGTGACTAAAATCTCTGGACTTAATCTCTCTATGAAAACTTGCATTAGATTAACTATGTACGCAAGTGGATTTTATGCTTTATTCCAATTCATCTTTTTAATTGCAGCAAACGAATACTCATCAATTGTTTGGATTGCCCAAAGCTGGGCAAATATACTTATGATTCTTGGAATATTAAGCGCCACAGGAAAAAGTTATTTTTTTAAGAAAAACTAAATATTTTATATGCAACACTTATTTAAAAATCTTTAAAATTCAGTGCCTTAGAGGGATAATTAATAGAAACTTAACTTTTGACCATTAGTCTTTATAGCATAAGATGGGAAATTCTGTGTTAATCAATGGGGTACATTATACATGGCTAGCAAAAGTTCTAATCAAGGCGGCGGAAGTTCAGCCAATCAAGGAAACAGAGAACAATTTGATCATTTCGATAGACTATCTCAGGTTGATAAACAAAATCTAAATCACGACAAAATGAAGGCGGATGACAAAGAAGCTGATGTCGAGGAACTACTTGCTACTGAAGATGAAGAAAATGTAATTAATAGTGAATTATATGGAGGAAGTTATACCGCACAAGATCAAGATTTAGAACTAAGTGAAACACAAAGAACTAGCAACGAAATACCTCCAATTGAAGAAATTGAGAGAGATAGAGATGAAACTGATCCACTAATCGAAGAAGTAGAAGAGGAACCTGAAGCCCTTCCCATATTAGGAGGAGACTTAGAGATTCCAAATATTGAAAACCAAATTATTGCACCCGAGGCAGCGGAAACTACACCAATAAGAGGAAGTGAAACTAATAATCCGCGACCACCAGTTCAGGAAGCCTCCACTCCAGTGCAGCAAGAAGAACCTGAAATCCCTGTTGAAGAAGAGCCAGAACCTGAACCGGAGCCTGAGCCAGAACCAGAGCCTGAGCCAGAACCAGAGCCTGAGCCAGAACCGGAGCCTGAGCCTGAACCAGAGCCGGAGCCCGAACCAGAGCCGGAGCCTGATTCTGATCCGGAACCTGAGCCAGAACCGGAAGATCCAGATCCAAATCCAGATGATTGCACAGATCACCCTATTCCAACTCAACTTGAAAATGGAAATTATCAGGTAATATCAGGCGCAGGTCTTACAATAGTAGTAGATTCACTTACTTCAAACGCTGGTTTCGACAGTTCTTTTGGTCACTATTTTGCAGATGCAAATGGTAATCCTATAGCCGGAACTACTGCAAAATTAGATTTTTTCAATGTAAAAGACTCTCTAGGAGAAGGTGAAGAAGCAGTTATACAATATGAATCTGGAGATATTCCTGCTGGAGCAGTGCAATTAGGATTTTTTATAATTCCAAATGGAGCAAACCTAAACCAACCCCCTGTTCCAGACGGAGCAGAAATAGAATTCGTTGATGTAGGAGGTATATGGACACCTTACTTCAATGGTCAGCCACTGCAAGGAGCATCTTCACCTGCATTTTTTTCAGATACTAATCTTAACCCAGATGGTGTAGACCATATGTCTCATGCACCTGGTGGACATATGGGTTGGGAAGATCTATTTGGAGGTGGAGATAACGATTTCAACGACTCTGTATTAAATGTAACAGTTCAAAGCACCACTGATAATAATGGCAGTGACGATATAATAGTTGGTTCAGCCGGTGCTGATACTATTCAGGGCGGCCAAGGAGATGATGTTGTTGCCGGTGGTAGTGGAAATGATACGCTAGCTGGCGGAGCTGGAAATGATATAATTTTAGGCAATGCTGGAGATGATTCTCTCACAGGCGGAAGTGGTCATGATATTCTAAAAGGCAGCAGTGGCGCTGATACACTTGATGGTGAAGCATGTGATGATCACCTTTTTGGCGGCACAGGCAGTGACTCGTTAATTGGAGGAACCGGTAACGATACAATATATGGTGGAGCGGATCAAGATACAATTACCGGTAACGAAGGAGCTGATTCAATAGTAGGTGGAGCTGGTGAAGATTTAATTTCTGGAAACGAAGGCAATGATACTATAGATGGCGGTGAAAATGCTGACACAATTTCTGGTGATACTGGGGATGATTCAGTTTTAGGTGGCGCTGGTGATGATTCTCTGTCGGGAGACACTGGTGATGACACTGTTGATGGAGGATCAGGGCAAGACTTAATTAGCGGTGATGAAGGTGATGACTCGCTCTTAGGAGGTGCCGGTGCAGACACCGCTTTAGGTGGTCTTGGTGACGATACTATTTTAGGTGGCACTGGATCTGATTCCCTAGCTGGTGGTTTAGGAGATGATTCTATCGGAGGTGGTGATAATGACGATATAATCACTGGCGATGAAGGCAATGATACATTAGCTGGCGGTGGTGGTAACGATACATTAGCTGGTGGTGCTGGAGATGACTCAATTCTTGGTGGTGGCGGTAACGATTCCATGGATGGAGGCGATGGTGCTGATACGCTTGTTGGTCATGGCGGTGATGATACTATCACTGGTGGTGCTGGAGATGATTCTATTTTAGGCGGCGCTGATAACGACTC
>sequence73
CAATTCTCCATACTTCACCTTTTTCTTGGTTATATAGCGCAATTATTATTCTATGTCACTTGTTATTTAATAATGCCCTTTTGTTTTTCAATATTGAGTTGATTTTTTGTATAAATAATAATATTGCTAGTAGTAAGTTTAAAAAACTAACTTTGGGGAAAAGGTATGTCGAAGTCGAAGAAAAATGGTGAGGTTTCAAAAGAAAAAATAGGTGGTTCTCTGCCAATTATAATCCAGTTTGGCAAAACAAAATTTGGAAGTGCCAAAGATGATGAGAAGAGAGAAGAAGTTAAATTTATTGTTGGAAGTTATAATCCAGATAAAAACTCCAATCTTATACTGGAAGCTTTAAAAAATAAGGAAAAATCTACTAAAACTTATGATATAGATTGGGATGGCGAAGATAATAAGGAAAAATCTGTCAAATCAAATAATGTAGATTTAGTTGGCGAAGATAATGATATTAATTCAATTGATCCTGTGTCAATTTTTGGCGATTTAGAGCTATAAAATATAATTTGAACGTTAAAAAACATAAGATAGAAGAGAAGCGGTATGAAGTTGTTGTAATTAATCTGGGAAAGGTAAATGTAATTCAACCGCCCCTCTTCCGTTCTTCCCATGTCTTAACTAAAACGCAGAGATCGAAACCTAAATGGGAAGGATTAGGATGCAATCTTAAGTTAAAGTATAGGTAACCACCCCTATACTTAAGGTTGATAGTAACATTGCAAAACTAAACTGTCTAGTAAAAAAATAGAAAATGATTAGATATTAATTTTTATACGGAAAAACAATAGGATATAGATGTATTGTTTATGAATCCATATAACTTTTTAGCTCTTCAATATTTGAAATACTACTTAACTTAAAGTTGTAAGGTGTTTTTTTTGCAAGTCCGCTGAGAACTTTTCCTGAGCCAATTTCTACTAATTCTGTAATTCCAAGTTCAGCAAACTTGTCCATAGTTTCTCTCCAGCGAACTGTGCCACTAATCTGAGTGACAAGGTTTTTCTTGATTGTATTTGGGTCAGACACTAGATCAGCGGTGACATTTGCAAGTAGTGGAACTTTAGGAGTTTTAATTTCAGTTAAATCTAGTGCGCTCTGCATAGGTTTTTGAGCGCTCTCTATCAATTTCGAGTGAAATGGTGCACTAACTTTTAGCTTAATAGCTTTATAGCCAGTATCTTTAAGCGCAGCTACAATACGATCAACATTATATTCATGACCACTAATTACAATTTGTCCATCAACATTATCATTTGCAATTTGACAAATACCTTCAGTTATAAGTGACTCAAGCACATCGTTAAGGCCTTTAAAGGATATTCCAATACATGCAGCCATAGCGCCTTCACCTTTTGGCGATGCTTCTTGCATTGATGTTGCTCTAACTTTTAATAGCTTTGCAGTTTCTTCCAGAGATAAAGAATCTGATGCACATAGTGCGCTATATTCACCTAGAGAATGGCCAGCAACCACATCGCATAGATCTTCAATATTTTTGCCAGTTTCTTGAGCAAGTACCCTAAAAATTGCAATAGATGTTGCCATAAGAGCAGGTTGAGTGTTTGTAGTTGAAGCGAGTTCATCATCTGGACCTTCAAAAATAATTTTACTTAAATCATAGCCAAGTGTGTCATTTACGCATTCAAATGCATCTTTTGCAACGGCAAATGAGTCGTAAAAATCTTTGGCCATTCCAATTTTTTGTGATCCTTGACCGGGGAATATAAATGCTTTATTCATAAATAGTAATCTATAAGTAAATGTATAAAAATTCCGATTATGAGAATTCTTTCGTATCTGTCAATTATTTTAATGATTTTTTTGACAAGTTTTAATTGTCATGCGAAGGGTAATAATACCTCAAAATTGTTTAGTTTAATAAAGCAAAAGAAGTGGCAAAGTTCTTATAGTTTAGCATCAAAGATTGGTGATCCAGTATTAAAGAAAATAGTTTTATCACAGCAATATTTGGATAGAAGACATAAATCAAATAGTTTTGAAAAAATTACAAAGTTTTTAAAAGAGAACCCTAAATGGCCACAAAATTATATATTAAAGCTTCGAGCTGAAAGTTTACTTAATTCAGGAACTAATAAGAAGAATATTGTTGAATGGTTCGATAAGAACAAACCAGTTACTGGAAAAGGTCATAAGTATTATGCACTTGCTGCTGCCTCTGTGGTAAAAGATCAAAAAAAGCTATCATCTATTATAAAATCTGGCTGGCATTTTGGAAATTTTACAAATTCAGAACAAAAATCTTATTTTAAGAGATTCAGAAAATATTTAACAACTACTGATCATGTTAAAAAGATAGATAACCATTTGTGGGAAAAAGAAATTACTGCAGCGAAAAATAGCTTGAACTATGTGGATGCGGGATATCAAAAATCTTTCAATGCGCAGATAGCTTTAATACAGAAACATAAAAATGCTAGAAAATTGTTTAAGAGGGTTTCAAAAAAATATTATACATCTGGTTTAATATATAGATATTTGTGGTCAAGAAAATCTGATCTTCCCTCTGGTTCTGAAGTTGCGAGTCTATCTAGGATAGCATCAGTTGATAAAGATAGAGCTGATAGTTTTTGGAAAGTACAGGCTTATTTAGCAAGAGAGTTTATTGAAAAGAAAAAATATAGAGATGCATATAAAACTTCTAGCAGTCATTTTGCAACAAGTGCCTCATGCAAGAGTGAGGCTGAATACTTGTCAGGTTGGCTTGCTCTAAATTTCTTAAGGAAACCAGACCTTGCTTTAGGACATTTTCGTAATTTTAATCGTACAGTGAAAACTCCTATTAGTAAGTCAAGAGGTATATATTGGCTTGCTCGTGCACATGAATACAAGAGAGATAAGCAAAGATCTAAGAAATTATATTATTTAGCAGCGACGAAATATCCATATACCTTCTATGGTCAGATGGCGGCGGTTGAGTTGAGTCAAAGAAAAATGGTAATGCCAGATGCTATAAATATGACAGAATACAATCAAAATATTAATTCATATATTAAGAATAATGAGATTGTTCGTGCTGCTCAGATTGTGTCAAAGTATGGGTCAAATGCTCTGAGCCAAATATACATAAAAGCTGCTGTAAAGCAGGCAAAAAATACAACCGATGTTTACGGAGTTGTTGGAGCTATAGCTAAGTCAAATAACGTACATCATACTACTTGGGCTGCGAAAAGTGCTATGCAGAAACATGTATTAATGAAAAATCATGCATTTCCAACGCCTTATAAACTGTCTAAGCTGCCAGTAGAAACACCTCTTACATACAGTATCATTCGTCAAGAATCAGTTTTCGATCAACATGCAATTAGTAGTGCACAGGCTAGGGGATTAATGCAGCTTATTAAGCCTACGGCATGCGATACGGCAAAGCTTGTTGGTGTTAGGTGTAGAATTTCAAAACTAACAACAGATACAAACTATAATATCAAATTAGGTAGCAATTATATAAATCAAATGATTGACGATTATGATGGTTCATATATTCTAGCTATAGCCTCCTATAATGGTGGGCCTCACAATGTTGATAAGTGGTTGAAAATATTTGGTGATCCAAGGAAGCTGAAAAATCACAGGGAGGTTTTGAATTGGCTCGAGCATATTCCATTTTATGAAACTAGGAACTATGTACAAAGAGTTCTGGAAAACTTACAAATATATAGATCAATTATAGAAAAAGATGATAAGTTTAAATTATCAGACGATTTATTAAAAACAAAAGGAGTATAAATGAGTGAATTACAAGCTGGCAATATTGCACCAGATTTTACAGTTTCAATAGCAGAGAATAAGCAACTCTCACTATCAGAACTATCTGGTAAATATGTTGTGTTATATTTTTATCCAAAAGACAATACTCCAGGGTGTACTGTGGAAGCGAGAGACTTTAACGCGCTACTTCCAGAATTTGAGAAATATGGAGCTGAAGTGATTGGAGTTTCTAAAGATAGCTTAAAATCCCATGATAAATTTAAAAGCTTATTTGGCCTACAATTTCATCTCGGTTCAGACACTGAATGCAAACTTTGCGAGAAATATGGAGTTTGGGTAGAGAAATCTATGTTTGGTAAAAAATATATGGGAATCAATAGAGCAAGCTTCCTTATCGACAAAGAAGGTAAAATTGCTCATATATGGCCAAAAGTTAAAGTAAAAGGTCATGCACAGGAAGTACTCGATAAGATCAAAGAGTTGAGTTGATAGTTTATAAGTTTAAGCGTGCTTTATATTTGTAGGTTAGTTTTTATCAAAATAACTAAGATAAGCTATTTGATTTAACAAAAATCATTATAGTTTTATTTTGTTTTTGTGTCACTCACAGTAATTTGGCTAATACATTTTTACATTTTTTTTAATACTTTGATTCTGTATGAGTTAATATTTAAAGTTATAATTAACTTATAGATATTCATATGAAAAAAGAAGAAAGAATAGAAACAGAACAGGAGTTAGTTGGTCTGTTTATAGAGCAGTCGGTAGGGCTTTACGTGAAGCAGAAAAATAATGTTCATCATGGTTTTGCAGAATCAAATAATCAAGCCATGGAGTGGTTAACTGAAGATTTAGGAAATTTCCTAGATGGTTTGTCAGGTAGTCACAGTCAATTTTCAGAAACTATAAATACTCTTAAAGATAATTTAGATTCTTTTGTAACAGCTCTTGATAAAGATTTAGAGCAGCGTAGAAACGCTCATTTAACTAACGAAAAGACTTTAAATCCTAATGGATTGGCACTTGATAATGCATTAATGAAGGTTGCATCTCAGAGTGAGTTTGCTAAAGTTGGTGCAGCACTGCAAGGCAGAGGAGAGATGAAGGATTTTGGCTGGAAAAAAGTAGCAGATCTTTGTCGAAAATGTAAGCTGAATAAGTTATCCAAATATTTCGATAAAAAAAACCAACAAGCAAAAGATAAATCAATGAAAGCTACTTTAGGAAAAATTTCTCAAAAGTTGCGTGATAGTAAACTTGTTAGAGATGTTTCTAAGTCATCTTCTAGTGTACCTAAAGTAAAAAGTGGAGCAAAACAAAAAGGTGGAATGGGTAGATAATTTTAAAGCAAATCTAATTGCTTAGGATTTGAAGTTACATCTATATAGAGAAGATTTATAGGTGATATTATAGAGTTTATGAAGTCATAAATGTGATAGAGCACCAGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGGACCTAGCGAGTCAATCATTTAGTTTGTGTAAG
>sequence74
AAGCAACAGAAAAAGAACATGAAGATGGAACAACTGTAAAAACTAGAGAGCAAGAAATTCATATAAAAGATATAGATATAGATATAGGACAAAAATTTATTTCTGGATCTACATCTATTACAAGAACTGGATTGCCAAACAAGACTGCTGAAACATTAGCGAATGGAGCAACTGGAGCTCTGAATAAACTTACAGCTGGCGTAGTACCTCAATTAGGAAGAGTTCTAGCTGAAGATACTGGAGAAGGAGTTGGTGTATCACTTTTAAGAGGTGGTATGAAATTAATAGAAGTTGAGGATGAAAGCGAATCAAGCGATGTTGAAGAAATAGTTTCAAGACGCACTAAACATAAGAGAAAAACAATTGACGTAGAAGAAGTTAGTATTGACACAGAAGATGCTAGTGAAGGTCATATTAAAACTGAAGAGGATAAAGGAAAACAAGAAGCTGTTATTGCTTCTAGTTCAGAAGATTCTGCGGAAACATCACAAGAAGCTCATATTACAGGTCTTGTAACTTCTATAATTGACGATGCTATAGGTGGTGATGATATGATTGAAATGCTTTCAATTCCAATGAATGAAAGTGGAGTAATGGGTGAAACTACTGAAGAAACTATTTAACTTAATTAATGTAAAACACAATATATAAAAATTCCTGAGCAAACAGATTGTTCAGGAATTTTTATATATTATGTTTTATAATGAAAAATAAAAGTAAACAATTATTTTGCTAATTAATAAAACTTTAATTACTTTGCGCCTAGAGTTCATATACAGGAACAAATTATCCTGAGCAACTTTATAAATCATAAGTAAAGATAGTAATTATGGAGCCAGTAACAGCACTAGCAATAACATCTCTTGAACTAGGACTTCTTGCAAGTATAACTAGCTGTTTTACATGCATTAGGACAGAAAGATATATAAGAAGTTCTGAGCGTGAAACGACATCCGTAGAAATTGGATAACAGCATAGTAGACAGACAAGAGCCTGATGGAAGTGTTGTGCACGAAAGAAACCAGCATATTAGAATAGATGATTTAGATGTAACTGCGTATACTGATAGATCTACTACTACTGAAAGTAGCAGACCTAATGATGTAGCATCAGTTTTAGAGGGTGCTGCAAATGGTGGGTTATCAGCTCTTGGCAGTCTAGAACCTGGACCCACACCTATAGGTTCTCGATTGCGTCTAGAGCAAGATTGCCTAAATCAAAGGAAGAATAATCCTCTTCTCCTTCTATAATAATCGATGAAGATGTTGATCATGGTGAACCTGCTCCATCTTCTAAAGAAAAAGCTAGCAATCATGCTAGACATCATTCAGGTACGGCATCAATAGTTAGTGTTATATCAAACGCCTTAGAAGATGATGGTATTGTAGATGTAGATGGACTTCGGGATATAGTGTTATCAGTATTAGGTGATGAATATGACCCATCAGACGCTGGTTCTGCTTCATAATTATAATAACTATATATACTACATAATTATATATCGTGAAAATTAAACACTAACTAATCTAACTCTTCGATATTTACAATAATAATTGGAGTTTTATTGATTTCTTGCTTTATTCCACGCCTTAAAGCACGCCTTACACATGAATCAATATTTTCTAGTGTCAGATTACCTTTGCTTTGCTTTCTTTGATCGCTAAGCGCTAAGGCAACGGCGTCTTTTAACTCATCAATAACATCAATATCTTCTATAGGGTCAAGTAAGCCTGGAACTGATAAAATAGGAGGACAAGTTAGACGCAATTTATTATCTAATATAATAGAAGCTACTACAATTCCTGAATCACGCATTCTTCTGCGCATTTTAAAAATTTGTGAATCATCAGGAAGTAAATAATTTCCATCAACAGCAAGATAACCATTTTTAACAAAATCTACTATCTTTGATCCTTCCTTTTCAAGTAAAACAACACTACCATTTTCAACTTCGATGGCTTCTTTAATTCCACTAGATTTAGCAAGCTTTGCATGTTCATGAATATGTACTGGCTCTCCATGAACAGGTATACATACTTGTGGCCTAACAAGTTCGTACATTTTCTGAAGCTCTTCTACTCCAGGATGACCCGAAACGTGAACAAAATGATCTTGTTCAGTAATTACTTCCACACCTTGTTTTACAAAAACATTGAACAGCTTAAAAATCTTTTTATCATTTCCAGGAATAATTTTTGAAGAAAAAATTACTGTATCATTTTTTGCTAGTTTAACTGAATGGTGTGTACCATTAGCCATTTTTGAGGTTGCAGCCATTGGTTCACCTTGACAACCTGTTGCAATTACTAGAAGGTCTTCTCTTTTATAATTTCCTATTGTGCGCTCATCAATCAGGGGCTTTATATCCTTTAAATATCCACATTCTTGAGCGGCTGCAAACATTCGGTGTAAACTTCTTCCGCTGAGAGCTACTTTTCTTCCAGCCTTTTGTCCTGCATGAATTATTGTGTCTAGTCTAGCCAGATTTGAAGCAAAAGTAGTTACTACAACCATCTTTGGGCATCCTGCAATAATATCTACTAGGCTTTTTCGAACATCGCCTTCAGAACCAGATGTACCCTCATTGAACACATTAGTTGAATCACATACAAGCGCCAAAACTCCTTCATCACCACACTTCTTTAATGCCTCTTGATCTGATTCTTTTCCAACTATTGGGTTTGGATCAAATTTCCAATCACCTGTGTGAAGGACGTTTCCAGCTTCTGTTCTAATCATTAAGGCTTGCATTTCAGGGGCTGAGTGAGTAAGCCCAATCATATCAATAGTAAATGGTCCAAGCTCAAATCTCTTTGCAGGATCAATTTCGTGAATCTTTAGATGATCAGCAAAATTATATTCTGCAATTTTAGACTTAAGAAACGATTTGGTAAATTTAGTTGTATAAATTGGGCACCCCAGTTCATTCCATAAATATTGCACAGCACCAAGGTGATCTTCATGAGCGTGAGTCAGTATTATACCTAGTAAATCTTTTTTATGCTCTTCGATAAAGCTAAGGTCAGCAACAACCATATCAACACCAGGTAAGTAGTCATCTGCAAAACCACTTCCGCAATCAACCATAATCCATTTGCCCATGTATTGATATAAATTGACATTAATGCCAATTTCGTTAGATCCACCTAGTGGAATGAATAATAGCTTGTCTTTATATTGTTTCAGGTTGATTGCCATCTAATTTTCTATATTATTAAAAAGTTCGTATGGATTATACACTATTTAGGGCTTTGATGTCTATGATTAATACTAAGCTTATATATGCAAACATATTTGCTTTTGCAGCTTTTACGTTCTTTTTTATACTTTTCTCTGAATTAGATATTCAAATAGCAGATTACTTTTACGATTCTGAAATAGGCTTTATCTATAAAAAAAATATCATAGTTCAATTTTTTTATAAAAGCATACCCGTAATAACAAAAATATTTGCTATAGCTTGTTTGCTATATATGATTTATTTATATCTAAAGCACAGAAATGGAAAGTTAATTCTAAACTCTGCTGCTTTCTTTTTATTTATTACTGCAATTATAGGTCCAGGTATTATTGTAAACACTGTTTTAAAGGATAATTTTGGTAGAGCAAGACCAAGACAAATCAAAGAATTTAACGGTAATAAAGAGTTTACAAAAGCTTTTGTTATCACAAATCAATGTGAAAAGAATTGTTCATTTTCTTCTGGCCATGCTGCAATGGGATTCTATTTTTCTGCCATTGCTTATATTGCAAACGTTCTATACTTTACAAGAATTTATTTATTTGGAATCGTTTTTGGAGCATCAGTAGGACTATCTCGCATTATAATGGGAGGACATTTTGCTAGTGATGTGGTAACATCTGCACTAATAGTATTATTATTAAATCATCTAATATTTATATGGTGGAAGAAAAAAACGTTAAAATCAACTATGTAGCAGTAGTTCATAACAACTCTCAAGAAACTAAAGAAATAGCAAAAAAACTTGATTCTATAGTAAAAACGCGCCCTCCAGAAAAAGCGGACGTAATAATTGTTATCGGAGGTGACGGCAGTATGCTGCACGCTCTGCACCAATATATGAATCTTGATATTCCTTTTTATGGAATTAATGCAGGCAGTATTGGCTTTTTAATGAATAGTTTTCATGAAGAAAACTTCCTAAAAAATTTAGAAAACTCAAAAGTTACCAACCTATATCCACTCGAAATGCATACAGTCAGCACTGATGGCCAGTCATCAACTGCACTTGCAATTAATGAAGTCTCGATATTTCGCAAAAGTAATCAAGCAGCAAAATTTAAAATTCATATTGATAATATTGAAAGGATGGAACTTTCGGCTGATGGAGCTCTTGTCTCAACTCCAGCAGGAAGCAGTGCCTATAATTTATCTGCAGGTGGACCAATAGTACCTCTTACGTCTAAGGTATTATGCGTAACGCCAATTTGTCCTTTTCGTCCAAGAAGATGGAATGGCGCCCTACTCCCAGTTGATGTAGATATAGAATTTGAAATATTGGAACCAGAAAAAAGACCTGTAAATGCCGTAGCTGACTTCTATGAATTTAAAAACATCAAATCTGTTAAAATAAAATCAACAAACAAAAAAGTAATACGCATCTTACATGATGAACATCATACATTCGAAGATCGAGTTATAAAAGAACAATTTAGTAATTAGAAAGAAAATACTATGCTCAAACATGTCTTTGTTTTAATATTTATCTTAATACTAACCAACACAACAGCATTTTCATTTAGTGAATACACTGTAAAATCTAGCACAAAAATTGCATTTTTTGATAATAAGAAATCTCAAGACTTTAATATTCAACGCAAACTATTTATTAAAACTTTTGGTGAAGAATATAAAAATATAAAACCCAAAAACATCAAGCCAAATTTTAAAAATAGAGATGATGTTACTAACTGGTTGTCATATGTTTTTAAAGCAGAACATCAGTATTTCATATCAGCAAAACACCCTATGCACTGGATTACTATTGAGAAAGAGCATAAATCATTGGATTTATTTTATATGAGCAGTGGAAGAACAATAAAGGCATATGGCATATAAGACAAATGGCCATTCTTCCGGATGAACAACGTAAAGGTTATGGAACTGGTCTTATTAAATCTATATTCACATCCGATAATAATATTAAAAAAATTGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGGACCTAGCGAGTCAATCATTTAGTTTGTGTAAGT
>sequence75
ATTTTTGAATTCAGCACTAGTCATATTGTAGAATTTTATTTTAAATTCTATAGTTTTGTTTTCTAGTGTTGCTTCAAGTTCTTTGTATTTTAATTTAAAAAAATCTATAATTTTTAGAGATGGCAAGCTGTAGCTAGGGTTTTTCTTCTGAGCAACATTTTCTATTTTTTGACGAATAATTTCTATTTTCTCATAAGTTTTTTCTCTAAACATAATTTAATTCCTGTATAATACTTTACTTGACAAGTTATATCATTAAAATCAAAGATTAACAATAATTAATATTAAAAAAATTTAATATTTTTATAAATTATGCTAATATTACTTATATGAAAGCAAAGCTAAAACATAGAAAAGCAAAACAGTCTGATCTAAAGATCATTGTATCCCTACTCTTACAAGATGTATTAGGTAAGGCGCGTGAAGAATCTGCGGATAAAAGTAATAGTAGATATCTTGAAGCTTTTGAAAGAATTGATGCAGATCCAAATCAGTATTTGATGGTTGTTGAGTTGGAAGAAGAAATAGTTGGAACATGTCATCTTACTATAATGCATTCTCTAACTTTTGTTGGGTCAACAAGAATGCAAATTGAAGCAGTTCGCGTAGATGAGCGGCATAGAGGAAAGAAGATCGGTGAATGGATGATTCAGCAGGCAATAAGCTATGGTAAGTATCATGGCGCTTCAATATTTCAGTTGACTTCAAATAAAAGTCGAGAGGAGGCAATAAAATTCTATGAGAAATTAGGTTTTGAATCAACGCACGAGGGAATGAAGTTGTATATTGAGGAATAAGTGTTTAGAGATACTCACTATATTCTTCATCGCGAGCGAATGCGGCGATCCAGTGTTTCAGCACATATATTTATTGAATATAAAAATAATAGATTGCAGAAGTTGCTTAAGCTGTGTTTAACAATAAATCAGTACCACAAAATTCACTTATCTTTGCTTTTTACTTACAGTGTGTTATCCTTCTCGTCTATATTTTTAAGTATTTGATATGTCGATTTTTGTAAATTTCATACCTATTTTGTTGTTTGTCACAGTCTTTTTTGGATCTGGGATATATTATTCAATGCAAGGTGTTGAAAACGCTTTTTATCAGATTCCACCAACAGCTGCGATTTTGCCTTCTATAATTGTTGCCTGGATTATGCATAAAAATAATACTAAGCAGACTATGTCTAATTTTCTAGATGGCGCAAGACATCCAGACATTATAACAATGTGTGTTGTCTTTTTGCTGGCAGGTGCACTTGGAAGCGTTACGAAGTCCATAGGTAGTGTGGAATCTACAGTTAATTTTGCTCTGTCGGTGACGCCAGAGGATTTCTTACTTATTGGCGTATTTATCATAAGTGCGCTTATTTCGACTGCTATTGGTACGTCAATGGGGACTATTGCTGCTCTTGCGAGCCTTGTAACTCAACTAAGTAGCCAAGGTGCTTTTGGCCTAGAGCTTGGCGCAGCAACGCTGGTTGGAGGTGCAATGTTTGGTGACAATATGTCAGTGATATCTGATACTACGATTGCATCAATTTCTTCACAAAAAGCTAACCTAAAAGAGAAGTTAAAACTAAATATTAAAGTTGCTATAGTCGCATCAGCAATTACTGTGATGATACTTGCTTTTGCCGACGGACCCGACATTGATATTGCTGATCGTGACTATCAATTACTGCTAATTTCGCCATATGTATTTTTGATTATTTTAGCAGCTATTGGTGTTAATGTTTTTATAGTTCTAGTCGTTTCACTGCTATTTTCAGGTTTTATTGGCGCATTTGTTGTTGATTATAGTTTTATGCAATTTGCGCAGGATATATCTAAGGGATTTCATGAGATGCATGAGATTATGCTTTTATCAATATTGATAGGAGCGCTATCAGGATTATCAAATCAAAACTCGAAAGACCTTGCGCAGGATATATCAAAATTATTGCCAAAAAATGCTGGTAAAAAAGCAGCCGAATTGCTTATATCATTGCTAGTTTCATTGTTTGATATATTGCTTGCAAATAATGTGGTGGCAATTATCTTTTCAGGTGAAATTGCTAAGGAACTTGCTGAGAAATATAAGATAAAACCGCATGAGAGTGCTGCTTGGCTTGATATTTTTTCTTGTGTATTCCAAGGTATCATACCTCATGGAGCGCAAGTTTTGCTAGTTTGCACAATAGCTCACATTTCTCCTTTGAGCGTAATTGGTAAAGTTTATTACTGCTATATTCTAGCTGCAGTTACACTCATATATATTCTTTGCAGAAAGAAATAACTTAAGAATACTAGAGTGATTCAGGAGCATCGCCAAGATTATCACGTTCAAATTCTTGATTACATTCCTCTGCAAAATCTAGATTAGATGCAAAGGCTTCGTCTAGCATATTTTTAGATGCACCAGATATTTTGGTGCAAATATCTTTTTTTAATTTTGTTGATTCTGATTTTGATAACGTGAATGTTTGGGTTGTAGAAGTTGTGGTGATTTTAGGGCCAAATCCAAAAAAATTTTTTACAATTTTCCAGCCGCTACTATTTTTGCTTTTTGTCATTGCTCTTACTCCCCCAGTAATTTATTACAATACAAAAATATTAGCATTAATATATTGAATGGAAACAAAATGGTTAAATAATTAACTATTAAGTAAATTTTTTGTGGCTTTTATATCAAAAATTTTATTACTGTTGGTTAATCTCAATTTTTGCTATTTCTACTTGAAGACGCAGATCAATTTCTTCAGCAAGCTCAGCAAGTTCAGGAGTTTCGATGATGAATTTGCTTCCCCTTAGTGCGTCTTTTAGATTATGCAAGTGACGGCCTTTGATATTTCCATGTAGGAGGTCCATTTGTAGGTGTTTTAGTGTATCGAAAGCTTTTTTACTGAATTCTTCAAGATTCTGTTGATCTTCTGCATGTTGGTCAACTTCCTGTAAGAATAGCATTCCTCCTATATCTGCAACATTACTTGTTGCTTCTCCTGAGCTGCTTTCTTGTGTTTTTTTGCTTGCAGAAAACTTTACATTTTTTTTACTAGAAGATTTTTTAATTTTGGTAGTGCCAGCAATGCCTTGCGTTTTTGGATCAATTGAAATCATATATATATTTATGTCTTGGTATCACTTGAAATTAAGGTTATTATAGCATATTCTGCTTTTACTAAAATTCAAATATATTTCTTAAAATCATATGTTTCAATCATTAACACAAAGTCTTACAAAAATTTTCGACAAAATTAAAGGTACTGGTGCACTGACTGAAGAGCAAATTGACTCCGCAATGCGTGATATTCGGGTTGCATTGCTTGAAGCTGATGTTGCATTGCCAGTAGTTCGTGAATTTATTTCAAATGTTAAAGAAAAAGCAAAAGGCCAAGAAGTTATAAAATCTGTCTCACCTGCGCAGATGGTGATCAAGATTATTAATGATGAAATGGTGAATTTTTTAGCCCCAAATGAAGATGAGTCAAAGTTAAATCTAAGTAGTACTCCTCCAGCTAATTTACTTATAGTAGGTTTGCAAGGTAGTGGTAAGACAACAGCTAGTGCTAAACTAGCTTTAAAGTTAAAGGAGCAGAATAAAAAGGTGCTTTTAGTATCTCTTGATACATATAGACCAGCAGCGCAAGATCAGCTAGAAGTTTTAGCAAAGGATATTGGTGTAGAATCTCTGCCGATAGTGAAAGAGCAGAAACCGCTAGAAATTACTAAACGAGCAATGTCCGAATCCAAGCTATTAGGTTTTGACGTTGTTATTTATGATAGTGCAGGTAGATTGCATATTGATGAGGAGATGATTGAAGAGGTAGCTTCGGTTAAAAAAATGGTAAATCCGACAGAGACTCTGCTTGTTATCGATTCAATGATTGGTCAAGATGCTGTGACTGTTGCTAGTACGTTTGAAGAAAAGCTTAATATATCTGGTGTTGTTTTGTCAAGAATTGATGGTGATTCAAGGGGTGGTGCAGCTCTTAGTGTTCGCCACGTTACTGGAAAGCCAATTAAGTTTTTAAGTACTGGCGAGAAGCCAAAAGATTTCGAAGAGTTTGATGCTAAGCGCATAACTTCCCGTATTCTTGACATGGGAGATGTTGTTTCATTCGTTGAAAAAGCTGCAAGTGTTATTGACCAAAAAGAAGCTGAAAAATCTGCAGCACGCCTTAAGAAGGGTAAATTTGATTTAAATGATTATATTTCACAAATTAAAACTATAAGGAAGCTAGGTGGGTTTGGCAGTATGATGAGTATGCTTCCAGGGGTTTCGAAGTTTGCAGATAAGCTAGGTGGTGGAGCAGATGGAGACAAAATGCTCAATGTTCAAGAAGCAATAGTTCTATCTATGACGAAAAAAGAAAGACGCAATCCAGATCTTTTAAATGCGTCTAGAAAGAAGAGAGTTGCAAATGGATCTGGTACGTCTGTGCAGCAAGTAAATATGCTGTTGAAGCAATTTAAGCAAATTAGTACAATGATGAAGAAAGCTTCAAAGATGGATAAAAAGTCTTTGATGCGCAGTGGAATCGGAAAACTTTTTTCTTGACTTCGTGCAAAAAAATACTTATGCTGCGGCTAATTATTAAACCTAAAATGATGAAGAATTATGGGCAAAGCAAAAATAGCCTCAAAAAATAACCCTGAAGGAAGAGGCCAGGCAAGAGAATATTTCCATAATGGTAAAAAAATTAAGCCAGTGAAATTAATAACTAAGACACAATCATTTTTTGGCGCAGAATATGAAGATTCTGGTGAAGTGGTTGTTAATCAGAATGGCAAGCCACTACCTTGGGGTAGCGCTAAAAATTTAGGTTAATTTTAATCTTTACATCCCTATCTTATGAATTTATCAGCTGAATTTCTGAAAATAATCTCATGCCCTGTTTCTGGTGGAAAACTTGAATATGATGCAGAGAGAAAAGTTCTAATTAGCAAAAAAGCTAATCTTGAATATCCTGTGGTTAACGGTATTCCGTTACTCCTTGAGTCTGAGGCAAAGAAAATCTAGTTTTTTATACGATGTAGTAATTCTATTATTCTTTGAATTGGTTAGAAACGCCAGTTTAGGACAAGAGGCGCGCTAATTTATTGATTTTTTATTATTTTTACTACTCATTGTCATCGAGAAGGAGCTTTAGCGACTGCCGCGATTTATTTGTGGATTACCGCATCCGCCTTCGGATCCTCGTAATGACGCAGGTCAAGCCTCATTTTCCTATGCTCTTAAACTAAATTCATACAATAGAAATTGCCAAAGAATATAATCTGATCAATTATATAAAAGGTAGGACAGGTAAACTGTAAA
>sequence76
ACCTCCTAAAGTTGCTCTTAACGCTGTTATGCGTAAACTTCTTGCCTTTATGAACGCTATTGTTAAAAATAATTCTTCTTGGGCTTGTGAAGAATAATCTTCTTTAATTTTTTTCTTGATTATTATTACGTATGCTCGTATTAGCAGACAAGACCATCTTAAATTTTGATTGTGCATAAAAAAAGGACCTAAAAGTATCTGCTTCTAGGTCCTTTTTATAAAATGATATAATCAATTATGCTAATTCAATCTTAACAGCTGAAATCTTACCATTTTGCTCTTCAAGTTCGAAAGTTACTGCTTGATCATCGTTAAGATTATCAATGCCGCTTCTTTCTAGAGCGCTGATGTGTACGAATACATCTTTTCCACCTTCTTCAGGTTGAATAAATCCGTATCCTTTGGTTGGATTAAACCACTTTACTTTTCCACTAGCCATAATACCTCGTTATTGTTTATAGTGTTTAGCATCAAAATTGGTGCATTATAATATTTTGAGTTAGTTTAATATTCTAATACTTCTGCTGGAAAAAGGCTTATATCAAAGATCTCTTTAAAAATGAATTTTTAGTAATCGAGGTAATTGAATAAATTTATATAAAAGTCATCTTGCGTTAACTATCAACTTTGTATTTCTAAGTTAAACTTAATTAGTAAGTTAAAACTCGTCACTCCCAGTTTCTAATATAATAAAACAACTAATAGTCTTCTAACAGTAAGTTTTTTAGTATCTAATCTAAAAACTCATAAACATCATATATGATATTGCCACCGCTAGCAATCACTTAAAGTATATCTTTTTGTATTATTTCTACAACTTTGTTTATTTCAGACAATGGTTCATAATCATAGGGTTCTAGAAAACTAGTATTTCTGTCTAATCTACGCACTATACCAAGGTCAACTAGTTGCTGAATGAAAAAATTATGTTTTTTTAAGGTGAAATTATCTGGACGATATATATATATTGGCTTTCCCGTACTTGCTGCTTCACTACACATTGATATAGAATCTGGCGTTGAAACAATAAATTCAGCAGATCCAAGTATTGCTGGATATGGATTTGGTTCACCGCTTTCAGGATCATAACAAATATTAGGCCATGGAAATTTTTCCTGAAAATATTCTTTTACATTTTGAGGAGTTCTTCGACTGAAAGTAATGAATAACGCAAGGGAATGGCTGTCTGCTACATTTATAAGAGATTCACTTAACTCTTGTGCATTTTCCATGGTCAATTTATAGTTTTTGGTTGAGCCACCAATAATAACTGCAATAAAATTTTTTATGTCAGGGTATTTATTTTCAAAACTGTCTCTGACTTTTGGAAGTTTTTCTTGAACATTTGTTAAAGCTCCAAGGATCCTGACAATATTAGGTAATGTGTAATTATATATATCATGTTGAGGTAATATAATTAATTCAAACTCTTTCGGATCTAAATTAGGGCGCATTATCTGAATAATTTTGGATTTATTGTTCGATAATTTTTTTAGATGTACTGCAAGAGCTGCCGTGCGTCTTCCAGCCGAAATAATTATATCTGGAATTTTTTCCGATTTAAGTTGCTTAAGAACACTGCTTTTTACATGTATTGGAAATAAAGATAAAATAGAATTTGGTAATTTGCCAAAATGATTATAATTAATTTGCTTTACCTCAAACGGCTGATTCATTTTTTCAGCCAAGACAATAGCTTGGTTTGCATTCCCTATCCTATTATCAACCAAAACCCAAATTTTTGGTGCAGTCATATTATTCTTTGCTAAATCTACTTTAAATTACTATAGCAAAAAAAACCGGCTTAGTCTATTTAAGAGATTTGCCACGCAAACCATTCTATAGCCTTAGCTTAATATTACAGATTCGATTTCTTTTACCTTTTGGTCAATAGAAATTTCTTGTCCTTTAGTTTCAAGATTTAATCGAAGCAAAGGTTCTGTATTAGATCCACGTAAATTAAAGCGCCAATCTGCAAATTCTATACTAATTCCGTCAATGTAATCGATTTTTGCGCCTTTGCTTGAGTAATATTTCTCTACATTTTCAATAGATTGTTGGATGTTTTTTACTTGATAATTTATTTCTCCGCTGCATGGATATGCTTCCACGTTTTGCCTAATTAATTCAGACAATTTTATGCCAGATTTACATAATAACTCGGAGACAAGTAGCCAAGGAATCATTCCACTATCACAATATGCAAAATCACGAAAATAATGATGAGCACTCATCTCGCCGCCATATATTGCATTCACTTCACGCATTTTTTCTTTAATAAAACTATGTCCTGACTTGCTTTCAACTGCCATACCACCATTATTCTCTACAATATCAACCGTATTCCAAATGAGTCTTGGGTCATGAATTATTTTTTCACCAGTAGTTTTGCTTAAAAAACTTTGAGCAAGCATGCCGACAAGATAATAGCCGTCTATAAATTGTCCTTTTTCATCAAACAGAAAGCATCTATCAAAGTCACCATCCCAGGCAATACCAAAATCCGCATTATTTTCTATAACTGTGTTAGAAGTTACAGTTCTGTTTTCCGGTATCATTGGGTTTGGAACGCCATTTGGAAAATTTCCATCAGGCGATTCATGGATATAAATAAACTCAAATGGTAGTTCTCTTTCTAGTAATTTTATAATTTGTCCAGCTGGTCCGTTTCCAGGATTGACAACAATCTTTAGTGGGCGCAAATTTTCTTGACTTACATAATCCAAAATATGAGAAATATACGAAGATTTATCTTCCGCCGAAGTGATCTGACCTTTCTTCTTGGATAAAGAAACTTTACTATCAGTCTTGCTCAGATCCAAAACGCGATTATGTATTTTCTTGAGATCATCAGCGCCGGACATTGGTCTAGCAGCAGATTTTACCATTTTCATACCATTATGACCTTTTGGATTATGACTTGCAGTTACCATAATTCCACCGCCAACTCCTTCATTTTCTCTTGCAAATGTATGAAAATATACTTCCTCAGTGCCACATAACCCAATATTGACAATATCAACACCCGAATCTGTAAGTCCTTTAATCAAAGCGTTTGCAAGGTCTATACTTTCTAGTCTTACATCATATCCAATGATTACTTTTCCCGGATTGATGATCTCCGCATATGCTACACCAATCAAATATGCAAGTTCTGTATTCAAATCTTCAGGAATTTTTCCTCGGATGTCATAAGCTTTAAAGCACTGTAATTTTTTCATTTTTCTGTAGACCAAAATTATTTTCTAAACTAGCAATACCATTTTCTAGCATATAATCATCTAATTGAATAGAAAATATAATTAAAGATTTTGTGCTTACATTTGTAATATAAAAATTTGAATCTGCAGAAATATGTTTTGATTCATTGTCAGAAAGTATAGTAACGGATTTATTACTTGAGAATTCAGCGATTCCTGATACTATCATCCAGTTCGAAGAATAGTCAAAATAATCATTTATTCTAAAAATTTTCTTAGGGTAAATGGTGATCTCGATCATATTCGGTCCACCATTTTGTGCAAATCTTTTTGTTTGTCCCCAAGAAAATTGAGTATTTTTGTTGTTTTCTTCTTCGAAAAATAAATTCTTTACTTCGGATGAGCGATTTTTATCGGCAATTAGAATACCATTATCCGAGTTTATAATAGTTAAATTTTGCACGCCAATTATAGCAATATTTTTCTCCTTATTTTCAACATAACAATTTTTAGTATCTTGCAATATAGCTGAGCCATTAATTTTGTTTCCGTCAGTATCAGCGGCATAACACGCACTTAATGTTTCCCAACTTCCGACGTCTTTCCATACAAAATTGCTTGGTACAACCATTAAACTCTTGGATTTTTCCATTAATTCATAATCAATTGAATTCGCTTTTATTGACGAGAAACTATCTAAATTTAATTTTAATTCTGAATAATCTTCACTATTCGATAGTTTTGACGAATTAATACAATTTTCTACATCCTGTAAAACCGATGGTGCATTTTTTTGCGTTTCTTTAAGAAAGATACCAGCTTTAAAGCAAAATATACCTGAGTTCCAAAGATATTCACCGCTATCTACAAAATTTCTGGCTAAATCAATATTTGGTTTTTCAATAAATTCTAAGATTTTCTCATTTTTCTGCCTGATATAACCATAGTTTGTATTAGGATGATCTGGAACAATGCCAAGAGTTACTATCATGTTTAATTCAGCAAGCTGTTTTGCTCTTGCTACAGATTTTTTAAATTCCTTTTTATCATCAATAATATGATCAGATGGTAGTATTAACATTATTTCTTCAGGTCCGTATAATTTATTAACCTGAATTGCAGCAGCTGTTATAGCTGGCGCAGTATTGCGAGTCAAAGGTTCAGAAATAAAACTATTTTTAATAAATGAATCCTCAATATCAGCTACGTTTGAGTACTCACTATTGATTTTGGTTATAAATTTTCTATTTGAAACAGTTATTATACCAGATATTTCTTCAAGATTTTTAGCTCTCAAATAAGTTTGCTGCAGTAAACTCAAATTGCTATTAATTTTAATAAATGGTTTTGGGGTGTTTTCACTGGAAACTGGCCAAAGTCGACTTCCTTTTCCTCCGGCTAAAATTATAGCTTGCATACAGTATATAATCCATTTTTATTTTGATTTAGCATTGCTCATGCTTGCCTGTATATAGATTTTGCTACTAGCATCAAACTAAATCATCATTACTTACTCGCGGATTCTATATATAAATTGTCAATATTTAGTTAACAAAATTGTGTATTTAGATAAATAAATACATTTTTAATGCAGAGTTATTGAATATTCCTTAATTTTTGTGGTAAAAGGATGGTTCTTACTGCTTATAAAAAGCAATTTCTGCAAAAATATTATAAATATAGATAATATTACATTAGCTAATTTAACTTTAAGTAATATTCATGATTCATGAAGTTCTCTGTTATGCGTAATTGCACTCTCACTCACACTGTCGGCAGTTGTTATGTCTTTGGTACTACCACCGGTAAGGAGGGAGGTGGTGGCGGAGAGGAGTTTGGTGGTGGCTTTGATTCGGTTGTTTAGTTGTTGCTGTTGTTTTTGGGTTAGAGGTGGGCTGTTTGCTCCTTTGCCGGATTCCATGAGGCCGGCAACTATTTCGCTAGTTGCTCCGCCGATTGCGCCGGAGATTGGGTTTGCGCCGGTTAGAGCGCTGTAGGCGGTTCCAGTTAGGGTGTGCATGGCTAGTTTTTCTGCGCTGCCGGTCTTGAAGCC
>sequence77
ACAGGTACAGTAAACCAGTCAGGAACAGTAGGTGGAACTCTTGGTGTTGCTAATGGAGGTCTGTATGTAGGTGGAGTTGGAGCTGATATTACAGGTGCAGTAACTATTAATACTGCTAACGCTGGAATGAATACACTTCACAATGCAACAGCAGATGTAACGCTTACAGCCGGTAATTTAACAATGAATGATGCTGATTCTGATGTAACAGTTACAGCTGGTACTTTTGTAGCAAATGACTTAGCTGGTGGTACAGGTAATGGTGACTTGGCAGTTAATGGCGGTACAGCAACAGTTGCTAGTGTAGCTAGAAATCTAGCTGTAAACAATGGAGCTAATGCAACTGTGAGCGGTAATGTTGGTGGAAATATTGACGGTAACAATAATAGTACAATAACACTAGGTGATGGTACTACAACTGGTAATGTTGCAAATGGACAAAATATAGTCGTTACAGGTGACCGTACATTTGCTGGCACATGGGCTGCAACAAATCTTCAAGTTGATGGTGATAATACACTTAAGTTTACAAATGGTGGTGCAGATATTGGTGGTACAAATATTTCAACAACTGCGACAAATAAAGAGCAGAATTTTGAAGTGGCTCACGACCAAGTTATTACAGGTAACTGGGGTAGCGCAGCTAATCCACTAGGTAATTTACATGTTACTGATGCTGGTGGTAAAGATATTACAATTAGAACTGCTGAGTCTCGCATATCTGTTACTACTGCACAAGCTGATACAACTAATGTTATATTCGATCATGCAGCTGGCGGAGAGCTAAGAAGCATTGGTGGTAATGGCGTTAGAGTTAATGAAACTAGATTTACTGAAAATGGTAAAGTTTCAGGTGGTACTAATTCTAAAGACATAAATGTAGCAGCAGGTAAAAAAGCGACTTTAGGTGGCAAAATACAAGGTCAAAAGCTAGACTTACAGGGTGCTGACTCTACATTAGATCTTGAGAATGGCTTTACATTAGATACTGCTGTTACTTCAACTACAGTACCTGGTGAAGGTATTGTTAATGTCCTTGGTGGTGGTGATGTTGCAGCTAGTAAAGATATTGGTACAAATGGCTCTAGAGTGAAAGGTGTAAACTTCTTTACAGATGCGACTATTACTGGCCAAACTTTAAATTTCGGTTCAAAAGTTTACGCTTCAGGTGAAATTGCAATAGAGAAACACAATACATTTAAAGCGACAAATGAAAATGTAGTTCTAGTTGCTCCAGAAGTGAAAGCTAAAGATGCTTCATTTGATCTTGGTTCTAATGGTAAGATCACTGTAGATGGAGGTAACCTAACATTTAGTGGTAAAGAAGGTAAAATCGCTGTGACTATTGCTCAATCAGGTGATGCAGTTTCAGGTGGACAGATTGTTGCTGGTAATGGAGCTACTTTGAAATATGAAAATGGTTCAGAAGTAACAGTAACTCCTGATGATTCAAATGGTAGCAGACCATCAGCAGGTAAAAGCCGTCAATTTACTCTTATCCAGAATAATACTGGTAAAGCTGCAGATGGTACACTTGTTGTAAATTTAGATTCAACTCTAAATCCATTTACTAAATGGACTGGAAGTTTTGATTCTGATGGTCATTTGATTCTTACTCAGACTGATAAAGCGGCAGAAGAGATCAAAAAAATATTAGGAAGTGATCTTGATGCAGTTGATCAAGCAAATGTTGATTTACTAGCAAGTGCTGAAGCTGGTACTGATGCTGCTAAGTTTGTAAATGAAGTTCTAGCTAAACTTACTAATAATAAGAAAAAGTTAGATGAAGCTATTGATCGTCTAACATCTGTGACTACTGCAACAGACTCAATTGAAAATACTATGAACGAATTAGTAAATGGTATTAATACACGTCTGAGCCTAGTAGGTAAGCAAACAGTTGGTACTCCTATTCAGTCAAGAACTGTTGCAAGTGCAAAAGTTACTGGTGTGGCTGCGGGTGATGAGCATGCAAGATATGGCGCATGGTTCAGTCCTTTCTTTAGCAAAACAACTCAGAAAGCTAGAAAAGGTGCAGCTGGTTATAGAGATACTACATATGGTGGTAGCTTCGGTATGGACACAAGAGCTAATGATGATTTAATTCTTGGTGCTGCTGTAACTTTTGCTAATTCAGAAATGAAGCACAGAGACTTCAAATCTGGAGATAGAACAAAAGTGAACTCACTAATGTTCTCTATCTATGCATTGCAGCAAATTACTGATACTTGGTTTGCTCAAGGTTCTGCAACTATTGCTTCAAATGAAATCAAGAATTCAGAGAAGAGAGTTCGTACCGCAACTGCATTTGATATTGCAGAAGGTAAGTATAACTCAATGTCATTTGTTGGTGATGTATTATTCGGTTATAACTATGCAACTGAAGGGGTTAACCTAACTCCAATGGCTGGTGTAAGATACACAAGAGTAAACAGTGCAGGTTATAAAGAGAATGGTTCAACTACAGGTCAGAACTTAAATGTTTCACAAAAAGCATCTAATAAGTTTGAAGTTGTAGTTGGTGGTAGAGTGTCTGGCGGTACATTTGATTTGAATGGTATGTCAGTAACTCCTGAACTACATGGTTTCATTAATCATGACATTATTGGCAAGAATTCTAAGCAAGATCTAAGAATGGGTGGTGCACCAGCTTCTTTATCTGCTAAGTCTCGTAAGCCAATTAAAACATCATATAACTTAGGTCTAGGCGTTAACGCTGATTATGGCATGATGGAATATGGTGTTGGTTATGATGTTCACCTAGCTGAGAAGCGTGTTGGACATGAAGGAACTCTGAAAGTTCGTGTGAACTTCTAATCCATAAAGATTTGAGAAGTTAAGCTAATTAACTTCTCAAATCACAATTATAGTTTTCTATAATTTCCTTTTTATCCTCTGCAAAATTTTATTTTGCAGAGGATTTTTCTTTTGATGTTCTTTTTATTATTTTTTGATAAAACCATTCATTTTTGCATATGATATAATGATTATAAGTTTTAAGTATGGAGCAATGCGGGCTTATACATTGTTTAGTATCGATTAGGCATCTACATCACAAATGTAAATTAAACTAATTTTTAGCTTGAAATGATGGTGGCATTTTCATTAGACTTTGCTAAATTATAATCTTAAAACGCAATATAAAATATAGGAGGAAAATATGTCATTTAAACCAGAAAATATGCCACAAATGAGCCCTTATCTTGTTGTAAAAGATATAAAAAAGTCTATAGAATTTTACAATAAAGCTCTAGGGTTTGAAATTGATGAACAAATGGATGATGAAAATGGAAATCCTCAGCATGTCAGTATGAAATTTGGTGAGTCAGTTATTATGTTTTGTCAAGAAGGAGCATTTGGTAATCCTAAAAAGTCTCCAGCAACTCAAAATGTTATAATGCCAATAAATATGTATCTCTACTGTGAGGATGCAGACAGTTCATATAAACAAGCGATTGATAATGGTGCAAAGTCAGTAATAGAGCCAAATGATTCATTTTGGGGTGATCGTTTTTGTAGTGTTCTTGATCCAGATCATTATGAATGGGCTTTTGCAACAAGCTTGAATCAAAAATAGAAAAAATACCATTTCTTAGCTTAAAGATTATCAGTAAATAACAATAGAAATAGTTTAACATTACTCTTCTTTCTATTTAAATCTAAGAAATGGTATTTTTCGATATATTGATTGAAAATTAGTTGTTGTGAAGTTAGAGTGGATAGATATATTTAGGAAGTTAACTTCTGAAGTACTAGCCGCGATCAAAATTTTCATAAAAATCCATATTATTCTATATGCAAGTTAAAGCAGCCACTAAGTAATTTGTTAATTTTACCATTAGAAATTAGAGTTTTAGAAGAACTCCATATTACTTTACATGATCTATATTTGAATTATCATTTACTTTTTTACTGTTTTAAAGTGCATGATCACATATTGTTTGCAGTTCAGCATATGCTGCGTCAAGCTCTAAGTAGTCTGAGGAGCGTAGTACTAGAGATGTTCCGTGCTGACCGTCTTTTGTAAATGGATAGCTTCCCATATCAATATTTGGATACTTTTTCTGAAGATCTGAGAATTGATCAGCTATTTTGCTTTCACCAAGCATAATATCAATAGTTTTAGATTTTACCACATTACCATTTTTAAGCTTAGGTAGCGTTGATTCAAGCATGGCTTTCATTATGTCTGGAATTCCTGCCATAGTGTAAACATTACGGGTTATAAATCCTGGAATCATAGTAGCTTTATTGAATATCAGGTCAGCACCTTCTGGAATATAGGCCATTTTTTCTCTAGCAGGGTTCAGCTTTTCTCCAATACTATCATAATAGTTTTTTATGATTTGGTATATTTCTTCATTCCTTGAATAAGGCAAATCAAATGCAGCGGCAATTGATTCTGCGGTAATATCGTCATGGGTAGGGCCTATACCACCTGTTGTGAATACATAGTCATATTTTTCACTAAGCTCTCTGACATGAGCAATAATCATTTCTTTGATATCAGGAATTGTTCTCGTTTCTGCAACGATTATACCTTTCTTTCCTAATGTTTGGGCAATTTCTTGTGTGTTTACATCAAGTGTACGACCAGATAAGATTTCATTGCCAATAATAATTATACTTGCTGTTGGATTTCTCATATTCATACTTATTTTATCTTATGCATCTATTAATAACTACGTCATAATATACATAACTATAAACAAGACAGTGATTTACAACAATAAGAAATCTAAAATATTGGCGAATATAACCTTACTAATTAAAAGCTAGTTTTTAGAATGTTATTTGGTTTAATAATTTTGTAAAGAAATACATAAGAACGATGATCTTATAGTTCCGTATAGCGGCATTATTAAATAACAAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCATAGGGGGCGCAGAAGTACAAATGTAAGAGTTGTG
>sequence78
ATAAAGTAAATCATCTGTGTACAGACGTATATGAAGTTTACAGTAAATATAGAATATCAAAACATCACCACCAAACCAAAGCAGAAACTGCGCTAGTAGAAAGCAAAAACTCTCTCATCAGACATTATCTTGCTAGGTTCCATAGAAAGACAAAACGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCATCATTTGTTATTTAACAATGCCCGTTTTATGCTACGACTAAATTATAAAAAAATTATATTATGAAAGATTTTTATGAAAATTATCTTAAAACCTAAAAACAGTATTAAATCTAATAATCCTTATTAGTGGTGCCAGGAATGACTACTTCAAACTTATATATTTTCATCCCTTTTTTTGCGGCAGCACCATAAATAGAAGCTAAATCAGGATCATTTCGAGGATTTCTTACTTTGTTACCTTTGAGTATTAGACGAGTTTGCAGACCTCCCATTGAAAAATGCTCTACTCGAATATTTAAATGTGGGCCATAATCATGCATAGCAGGTGGGTATATTGTTACAAAGTGAAACTCACCTTTGTTATTAGTTGTCGCAGTACCATTTCCAACAAAAGTTAAGTTAGACTCCTCGCCCATCAACTCCTTATCAACAACATTCTTTTTCAAGGCTTTATACGGATATTTTCCCTTGCAATCAGTTTGCCAAGCATATACTTTTGCATCAGAAACCGGCACACAATTTTGGTCAAGCACTCTACCATACACAACTACAGACTCACCACAAAAAAGGGCTTCTTGACCAGATTTCCTCAAAAGATTATTCGTTGTCTCAAAAACCTCTGGTTCATAGTTATTTATTGCGACCTTAGAAACATCACAATAATTTAAATTATCAACACGCATCTCCTCTTCTTCTGCAGCTAAAACACTATTTATAGAGAATAATATTATAAAAATAAGAGCTGTTTTAAATCTATTCATGGTAGCTATTTTTTAATGATTTAATACAACCATAACAAAATAAATGCTACATAGATAGCACAGGACTAAAACTATTAATACTTTCTCCCTTCTGGTTGATAAAAATCCACATTATCGCTACTTTTACGCGACTGACGCAATATAATTTCTTCTCCTTCTTCAGAAGATATAATAGAGTGACCTAGAAATTTATTATCCTCATCACTATAGTCCTTCCGCCAGTGGGCACCTCTACTTTCCCTACGCCATAAAGATCCTTTAATTGTTGCTATTGACGAAATAATCATATTTTCTAGTTCAAGATAATGCTGCAATTCAACGTTCCAACACAAAGATTTATCAGAAATTGTTATATCGCTAAATTTACTTTTAATTTGCATAATTTGTTGCAAGGCCATATTTAGACCCTCTTCAGTCCTAAATACTCCAACATATTTACTCATGACGTTTTTCAAAGATTTTGTAATATTATCAATATTTCCCTCTTGGCCCTTAAATATATTATGTATCCTTTTTAGAATTTTATCTTTATCAAAGTCGAAGTTTTTATTATCAATTTTTTCTATTGATTCAATAGATTTTTTTGCAAAAACTAGCAAATCTAGAAGTGAGTTACAACCTAGCCTTCCTGCTCCATGCACAGATATGCATGCAGCCTCACCGATTGCATATAATCCTTTGACCACACTCTCGAGACCATCCTGTAAATATATCACCTGGCACATATTATTAGTTGGAATACCTCCCATCGTATAATGCGCAGCTGGAGCGATTGGAACTAAATTTTGACTTGGATCAAGAGATAAAAAACTTTGACAGTTCTCATACACTGTTGGCAAGCTTTCTTTGATTTTCTCAAGACTCATATGAGTTAAATCAAGATGCACGTAATTACCACTTGACCCACAACCTCGACCATTAGCAATCTCGGTTGCAATAGCACGGGCTACAATATCTCTTGGGGCCAGCTCCATAAACTTAGGAGCATATTCTTTCATGAATCTTATGCCCCGATTATTTAACAACTTCCCACCAGCAGAACGCGATGCTTCTGTAATAAGCACACCTATTTCACTAAGAGCAGTAGGATGGAATTGGACAAATTCCATATCTTGCAATGGAATACCAGCTCTTGCAGCTAGCCCATTGCCATCACCTGTACATACTAATGAAGAAGTAGCAGTTTCATAGACCTGGCTGTAACCACCACTTGCAATAATCACGTTACCAGATCGAATTACACGCAAAATACCTTGCTCCATGTCAAAACAAATGACTCCATAGCACTTATTATCTTGAATTAATAGATCTATAGCAAAATTATAATTATAAAATTGAACTTTTCGTTTTGAGGCTTCTTCAAACAATCTATGCATAATGGTATGCCCTGTTTTATCCTTCGAATAGCACGCTCGATGGGCAAAACCACCTTTGCCAAAATTAGTACTCTGACCACCATAAATCTTCTGGTCAATTTTCCCTTCATCATTTCGATCAAACTCTACTCCTAATTGATCTAAAAGATGAATCATCTCTGGAGCTCTTCTGCACATCTCTTCAACAGAATCTTGATCTGCAATCCATGCAGAAGATTTAATGGTGTCATAAGCATGCCAACGCCAATCATCTTCTGAGATATTACCAAGGCTGGCATTGACTCCTCCTTGCGCGGCTACCGTATGACTCTTCAGAGGGTGAACTTTACTAATAATTGCAACGTCAAAATTCTTATCTGATACTGCAAAAATTGCAGCAGATAATCCAGATCCTCCTGAACCTATAATCAACACATCATGATAATGATTCTCTATTTTAAAATCCATTCTCTTGTCATTCTTGCAGTTTATCGATCAATTGATATCCTATAGCTAATTAACATAAATTATAAGCATAAACTATGCAAAAAATTCTAACTCTGATTATTACGGCAGCGATATTATATATGATATTTCAGCATAGCGTTGGGCGAATTGCTGTGCCAGAACACTTAAAGGATAAGACTGAGCAAATCTCACCCGAACAAACAGAATCAAAAGAAACTCAGGTAACAGGTACTTTCCTTGAAAAAACATTATCAAGTGTAATGATTAACATCCTAAAAAGTGATGAAGGTAGAATGTTTATGGAAAGCATGTTGCAACCAATGAATAAGACTGTTGCAGGATCCGGAAGCGGTTTCAAAATGAATAATGATAATTTTATTCAATCTATCTTTAAAATAAATAGTTTTGGAGACGGAGAAAAAGGCCCTGCATCATGCGGTCATATAGTAACTGTACATTATAAAATATTAAATATTCAGAACACAGTTTTGGAGGATAAAGTCGTCACTTTCCCTCTTGGATCTGAAAAAATAGCACCAGGGGTAGATGCAGTAATTGTTGGTATGAAAACTGGCGAAACTCGCAACGCAACCATCTCAAACAAATATTTCCCAGAAGTCTCAAAGGAACGACCAAGTTCATTTAAAATCAGAGTATTATTAAAAGAAATAGTTCCACAAAATTTCATTGATGATAGCGTGAAAATTTATGACGACCAAATCGCATACCGCATTCCATTAATGTGCGGAAATAAAATTATATATGATGCGAAAATTACTAGACTCAGCAATAATGAAGTAATTTATAGCTCTGAGCAATCTGGAGAAAAAATAGATATGAAGATAGGTAATCTAAATTATCCAATGATTTTCTCGCACGCTCTACATAATAAAATACCAGTTGGAACTAGAACCGTTATAGCAAAAGGTAAATTTTTCAAATCATTTGCATCTGATAACAGCACTATATTCCCGAACAAAACTTTGCCAAAGAATGAATATTTCATGGTCGAATTCTATAATTTCCATGAAACAGTAATGACAAAACCTGCAACATTCCCTCATGGAAATGCAGAACCTTCGAGAGGAGGCGGAATGAAGGCAAGCGATTTACAGAAGAAATTTAGGGAAGCTAATTAGGTATTTATTATTTAAATACAATCAGAATCACCAGAAAAAAGCTTAATTATTAAAGATTAGCCATCATCACTGCGAAAATATTATCCGTAGCTGAGAAACAAATATCGAAAATTAATTTTGTTTGGCTCATATAACTTATGGATTTAAATATCTTCATTATTCCAGCCAATATCAAACACACAACAACCTCATGCTTTAGGCTCTTAATTTGAAACGTTTTAGCAGCTTGAACTATTCTCTATTTTGATGCTTTTGTTCAACAAAAATCTGAAATCACTGTGTACAACAACGCTCGTACAGGTGTGATAGAGGTAGATCCTGAAAGACGCCTCCTTACTCGATATCAGTTATATCACCAGTGAGTGTAGTTTCTACAGGTTCTACAATAATTGGTGCAAAATCAAAGGTTAAAAATGTTTTATCTGATTCTCTTTCTGCATTATCACAACTATTCATATAATCTATATCAGATTGGGTTCTAACCTTTACCCTTTCAATGTGAACAACAAAACCTCCCCAATTAATATCACCGACAACTGATCTGTGTAATAGTGGAATACGTGGCAACGGAATAAAAGGGGCTACATTTTCTAAATTATCTGTTTGAGGGTTTGAGGGTTTGTTAACCTTAACATGTTTTAAAGTCATAATATTACTCCGCGGATTATTTAAGTATGTAAATTATGCTACTTCAAATTAGAGATATTGTCAAAAATTGTGTATGGATAAGAATTAAACGACAAATATTTTTAAGTTATACTCTTAATGGACCAAGTAAATTATTTTTTATAACGCAGTCAGAATTATCAGAAAAAAGCTTAATTAACCTCAACTCGACGTAAGCCCACGGCTACTATCGTTGAGAAAGCGTTGGTTTATAGATGGTTTGCGTGGCTTGATGGTATAAGCAATAAGTGCAGATAAAGTATTTGCAAGAAAATTATCAGGTTTTCGATGTCTAGAATGTTCAATTAAGCAGATAGATTTTAGCTGTTCAATAACGGTTTCTACAATTGAACGTTGCGCTAAC
>sequence79
TAAGTTCGCCGCTTCTTGTTCTCCAATTTCCATAATAAAATCCTCAAAAAAATATATGTATAAACAGAATATGCTTATGAATAACATTGAGATAAAAATAATAATGTTTTTCATGTTGAGGATAATATAACTAAATTGACAGAAGACTAAGTAACAAACTAATATAGCCTTATATGAAATACAAGTGGATAAATTAAAATTATTATGGAAAAAATTAACTGGTACGGCGCATATACATTGACTCTTCGCGAAGTAAAAAGATTTCTTCGTGTATATAATCAAACAATTTTAACTCCGGTTGTTTCAGCTCTTATTTTTTTAGCGGTATTCGTTTTAGCAATTGGAGTAAATAGATCAGATATTGATGGTATAAAGTTTATTGATTTTATGGGTTACGGCCTAATTGCAATGAGTATTATTCAGAATGCATTTGCAAATAGCTCTTCTTCTTTTATTATGAGTAAAGTAATAGGGTATCTTACTGATATACTTACCCCGCCATTGGGTAGTGCAGAGATTATATTTGCATTTACAATTGGTTCAGTTTTGCGTGGTTTGCTAGTTGGAGTTGCCGTGACGATTGCTCTTGCTCCATTTATTGACTATACCTTGCATCATCCATTATTAATGATTTTCTACTTACTCGCTTCATGCACATTGCTTGGAAAATTGGGGATATTATCTGGTTTAATTGCTAATACATTTGATCAACATTCGGCAATTACTAGTTATTTGATAACGCCGTTATCATTTCTTTCTGGTACATTCTATTCAGTAAAAGCGCTACCTGTATTTTTCCAGCAGATAAATCTGGTAAACCCATTCTTTTATATAATTGATGGATTCAGATATTGCATCACAGGTAAAGCAGATGGAAGCATATTAGTTGGGGTAGTTTTCCTTATGGTAGCAAATATGATTCTATATTTTGTGCTTGATAAAGCTATTAAAACTGGTTGGAGAATCAAGTCTTAGTAACAAACTATAACGTCATAGCGAGCGCAAGCGTGGTTATCTTAGTATAGATGTGTGCTGTCGAGTATTAAATTAGGAGATTGCCGCGTCACTTCGTTCCTCGCAATGACGAGAAAGTTGTGGATTGCTTGTTGGGCTATGCTTCATGCTAAGTTTAAAACCTATTTCCTTCATAGAGAGCAAAGCCCGGCTATCCAGTGTTTCAACATAGAATATCAAGTTAATAGATTAAAATATCTACTTCCTATTCTTTTCCAGAAAAACTCATTCCCATTACGTTATACCCAGAATCAACATAGTGGTTTTCACCTGTTACTCCTGATGAAAGGTCACTTAATAAATATAAAGCAGCACCAGCTACATCTTGTTGAGTTGTGTTTCTCTTAAGAGGTGCAGTGCTTGCATGAGCTTTTAGCATAGATTTAAAATCGCCTATTCCGCTTGCTGCTAGTGTTCTGATTGGTCCAGCTGATATTGAATTGACTCTAATATTATTTGGTCCCATATCATTTGCTAAGTATCTTACGCTAGTTTCTAGGGCAGATTTTGCTAATCCCATAACATTATAAAACGGGATAACTTTTTCTGCTCCATAATAGGTAAGGGTAATAATTGATCCGCCATCGCTCATAAGTGGTTCAGCCCTTTTTGCAAGTGCTGTTAGTGAGTAACAAGATATATTCATCGAGTTTAAGAAGTTCTCCAGGCTAGTGTCGATATATCTGCCTCTTAGCTCATCTTTATCAGCAAATGCAATTCCGTGTATTATAAAATCAACCTTGCCCCATTTTTCTCTAGCTACTTCAAATAGTTTATCCATTGAAGCTTCGTCGGTTACATCGCATTCCTGAACAAATGCACATCCAAGTTCTTCAGATAGAGGCATGACTCTTTTTTCTAGGATTTCACCTTGGTATGTTAGAGCAATTTCAGCTCCGTGCTTTTTTGCTTCCTGAGCAATAGCCCAAGAAATTGATAAATTATTTGCAACTCCAGTTATTATACCTTTCTTGCCTTCGAGTAGTTTTGCTGTATCTGCCATAATGATAAATCCGTGTTATTTTAAGTTATCTGTACAATTGTTATAATTTTATATATCATCGAACAGAATTTCCTGCAAGTGGTTTAAATAAGATGCTATCAAATAGAAAATTATCGGTAATAAGTGGTGCACTCTGCGGGTTTGCATTTGCTCCTATTTTTTTCCTTCCTGGATTATTCGTTCTATCTTTTTTATGTGCACAGATTTCTAATGCAGCATCTAGAAAAGATGCGGCTGCTTACGGATATTTATTTGGCTTAGGACTCTATTTAAGTACAATATATTGGATAGCGTTTGGAGTTAGTGTATATATAGAGCATTTTTGGTGGGCAATACCATTTGCACTCTTTGGTCTTCCTGCCTTTATGGCAATATTTTATGGTTTATTTTCAATCTTTGTCTGGCAATTTAGAAAATATAATTTGTTTCATTTTATTTTTTGCATTTCTTGGTTATTTATTGAATGGCTGATTTCTTGGTTATTTACAGGACTTCCATGGACATTAATTGGCTACAGCTTATCTGTAAGTAATATATTAATCCAAGCTTCCAGCATTTTTGGTATTTTAGGTTTAAGTTTTGCGGTAATTTATGTTGGTTCTAGCTTTTATAGTAAAGAGATGCTTTGGATACGTATTACTGTATCTCTGTTTATTGTTGTCGTTATAGTTTATTACGGATTTGCCAGACTCCGAGAAAATCCCACAGAGCTTAGTGAAGTTAAAGTACGCATAGTACAGCCTTCAATACCTCAAAACGCAAAATGGGAACCACAAACTTTTTGGCAAAACTTAGATAAACAAGTTGAAATGTCAAGCCGGGAGGGGGGGGCAGATATTATCGTTTGGTCAGAAGCTGCGCTTACAGTACCATACTACTATAAACCAGTATTTAACACGTTAAAATCTGTCTTTACTAAAGAGGATCAAATATTATTGTCTGGTGGTATCAATGATAATAAAGTACAAGATGAAAACTATGAGATTTATTCATCTTTAATTGCTCTTGATGATAGTGGCAAGATCCAATTTGACTATCATAAAGCACACCTAGTACCATTTGGAGAATATATACCTTTTTCAAAATATCTACCTCTACAAAAAATCACTTATGGAACGGTTGATTATACACCAGGAGAACGTGAGATATTATACTTGAATTCTTTGAATTTATATATTCAACCTCTTGTTTGTTATGAATCTATCTTTTCAGAAGAAGTACGAATAATGAATAGTGAAGCGGATCTAATTGTTAATATAACCAATGATGCTTGGTATGGTAACAGTTCTGGTCCTTATCAGCATTTTGAAATTAGTAAAATGCGTGCTATTGAGAATGGATTGCCCATGATTCGAGCTGGAAATAATGGAATTTCGGCTATTATTGATCCAGTTGGCCGAGTTTTAAGGATGTTAGATTTAAATAAAATTGACGTTATTGATGATTTTATTCCCCTAAAATTGCTCTTTCCAACATTATTTTCTGAGTACGGACAGATTACCGTTTTGGCCTGGGTTATAGCCATCTTAATGTTGCAATTAACAGTTATGCTTTTGTATTTCTGGTTAATTAAATTAAAAAAACACTTGTAAGATTTTGTAGTAAATAGTATTTTTAACTTTAAGACTTGTGGGTAATGTAATAATTTTAAGTAATTAATTGTAGATGTCTGAACAACAATCAGAAAAAAAGGGAAGGGCTGATAGTGTAGATAAGCTTGTTAGCCGTAGGCTTAAAATGAGAAGAATGATCTTAGGATTAAGTCAAAATGATCTAGGCAAGGCAGTTGATGTTAGTATTCAACAAGTACAAAAATACGAAAAAGCTACAAACCGTATTTCAAGCGGAAAACTATTTGCATTTGCAAAGTTCTTGAAAGTTCCAATTAGCTATTTTTATGATCAGAGTGAAGACAGTAGCAGTGCTATTGGGTCTGCGCTTGCAGAAGATCAAGAATCTTATGGTGAGAGTGAATCAGAAGCTGTTACAGAAAAAGAAATAGTGAATCTAATTAAAGCATTTGGTGAGATTAGTAATCCCCAAAGTCGTAAAAAAATCATAGAGCTTGTTAAAACAATGACTTAGTAGCTTCGAAGAGCTAGTATCAGCAACAAAATACGTTAAAACTTTTTCTTGATATCAATCATGTTTTAGAAATTAACCTAGTCTTAGGTCATCGATTAGGAGCTAAGTTTAAGGGTAGTAGCATTGGGCTCAATATTCCTAATCTAGCGTTCTGAAGCAATCGATCGTCGTATATACCATGCAAATAATTGCTTCACAGCAAGCGAAGAATGGCTATTGAAGAGTATTTACTATAATAAATATTACTTGTTACAAGAGTAATTATAGCAGAATTTGCTGTGATGAAGGTTTGATATAACCCGAGGAGAATTATACTCTATATAAGAGGTTAAAAATACTCTTATTTATTCAGCATTTTAGGCATTGTTAAATAACAAATGAAGACAACAAATCTCTAAAGAAAAGCAGCATCAGTGAGTTTTCGATCATGTCAAATGCCTTAGAATAGCGCTTTGTCTTTCTATGGGACCTAGCAAGATAATGTCTGATGAGAGA
>sequence80
AAAAATGCCGCAAAAAAATGGACTATGCCAATCAAAAATTGGACCCTAGCATTGAATCAATTTGAAATTCTTTGTGGCGATTTTAAACAAGATTTATTGGAGCATAAATTTTAGAACTTACACAAACTAAATGATTGACTCTCAAAAGGAGTTAAGCCTTTAAAATTTTTATAAAATTGATCTAAATATCCAATATCATTTGTTTGTGGAGTAATCCACTCTCCACAAACAGAAACTTTATCATCCGACATAATGGCTTTCATCAAAGTTGTTTTACCGGAGCCATTTTTACCTTTTATTGCTAACCTCTGATCTGATGCTAATTGTATGGAAATATTGTCTAAAATAATATTGGTATATCCAATTGAACCATCTCTAATTTCAAGAATATTTCGATCACTACGAACCTTCCTCTGATCAAAAGCAAATTTAGGAGTTATCTTCTTTGGCTTGTAAATTAATTCCATTTTTTCTTTTAATTCATCTCTGCAAACAGAAATATCAGCCTTCCGATTCCCAGTTGTCGTCTCTCCCTTTCTTTTTTTGGAACTTAAATTAATCTTGTCGCCACTATATTTATTTCTTCCATACTGCTTGCTTTTCTTGGCGCGCTCCTGCTCTTTCATCAATTTCTTATGAACAAGACTCCTCTCTCTATCCAATTCAACTAACTTACGCTCTATACTAAACTTTTCTCTTTCGTGCTTTTTAATGTAATCATCAAAACTACCTCTAAATTGATGTATCACTCCTCTATCAATATGCCATATTACTTCAGCACATTGATTTATAAGCTCTTTATCATGAGTTGCAAAAATTATAGAACAGCTAAGTGAATTAATTATGGAAATTAATGACTCTCTATTTTGCAAATCTAAATGATTAGTTGGCTCATCAAGCAGTAATAAATCGGGAAGCAATTCTATTTTTTGAAAAAACTCTTTATTAAATCGCTCTCCACCACTTAAGTTCGTATGGTTATCTATTATCTGGTCGATATATTCTACCCTCAAGTCAGAGCTAAAATCTATACTGCCACATATTGGTTCAACTTCGCATCTAAGCAACTTTAATAAACTAGATTTACCTGAACCATTATTACCAATAACAGCAATTTTTTGACCTTGCACAATTTGAGCAGTGAAATTCTCAAAGCAAGTATTAGTAGCAAATTGAAGGGAAATATCTTGAATTTTTAGTATTATCATAAAATAATTTTTAAGCAAATTTGGCAAACTACTAATGCCCCAAATCTAAAGCGAGGCTAGCTTAAAAATTATTATCCATCGATTTCTACTAAATTAATTAATACTGAGTTAGTCTAACAATAAAGCGCCGATTTGTCAATTATTTTGCTTGACATAGACTAAAAAGTCCATATAAACTAATCACTAAACAAACAAAAATTTTACTTATGAAAAAAGAAACAGTAGCCATATTAGAAGGTTTTCAGACATTACTCCCGTCTCTTATAGAGATTGTTGTACACGACGTTGACAAAGACAAAATAATCTATAAAAAAGGCAATCTAACAAAGCGGGTTATTGGCGATGATTCTTATTTAGATAAAAATGCTGACTACAAGAATATAGATCAATTTGTCTACGATCAAGTAACAATCGAAGGAAAAGAAATGCGATCAATTTCTGTACCCATCTATACTGGCTTAGAAATCAAAGAGCTGATTTGCATTAACTGCGATATATCTATATTCAAGCAAATGCAATCTATCTCAAATCATTTTTTGGATTCTAAAAAAATTTCTAATAGACCAGAAATTTTGTTTAAAAATGAATATAAAGAAAAAATAAATAATTGGATAAAGCAACAATTAGAGGAATATAGGTTTAAATTAGATGAATTAGATTCAAAAACAAAAAAAGACCTAGTTTATAAACTACATATACAAAATGCTTTCGAAGAAAAAAATGCAGTAAATCATGTAGCAAACGCGCTCCAAATGGGCAGAGCAACAATTTTTAAATATTTAAAAGAATGGAGAAATCACAATGATAAATGAATTTAAGCTTGAAGAATATTTAGCAAAATATGAATTCTCAGCCCCACACTTACTATGTTGTAGTGATTCAGAAAGCTGGTCCATGCACGAAATAATAGGTATGGCGTCTGAAGATGACTTAAAATTATGGAACAATCTAAAACTAAACTACACAGAAGATCAAGGACTGCCTGAACTTAGAGAAACAATAGCAAGGCTAGACTTTCCAAATCTAGATAAAAATAATATATTATGCTTTGCAGGTGCCGAAGAAGGTATTTTTTGTGCATTATCTGCGGTTCTCAGTAAAGATGATCATGCTATCGTCTTAACACCATGCTACCAATCACTTGCTGAAGTCCCTAAATTCCGCGGAGCAAAAGTAACTGAAATCGAATTACTTGAAAAAAATAACTGGCAAATTGATATTGAAGCAATTAAAAATGCCATCAAACAAAATACTAAAATACTAATTATAAACTTCCCTCACAACCCAACTGGACAAGTTATATCGCCAGATGAGCAGAAGGATTTAGTTACTTTACTTCACAAACATAATTTATGGCTTTTTTCCGATGAAGTATACAGATTGATAGGCAAGCCAACTGATGGATGGGCAGAAACCGCTGCAAATACTTATGAGAAAGCAATTTCCCTTGGCGTGATGAGCAAAGCTTACGGCATGCCAGGACTGAGAATAGGTTGGATTGCTTCTCAAAATAAGGAAATATTGGATAAAGCAAGAAAGATAAAGCATTACACAACAATATGTAATAGTTCGCCCGCAGAAATAATTAGCTTAATTGCACTCAACAATAGAGATCAAATTTTAGATAGAAACAATCAAATTATTGAGTCAAATATCAAACTTCTAGACAATTTTTTTGAAAAAAACCAAAATATTTTCAGTTGGATCAGGCCACAAGGTGGATGCGTGGGATTTGTTAATTACTTAGGTAAAAACCAGATTGATGATTTCTGTAATGAGCTAATAACAAAGCAAGGAGTATTGCTGCTTCCAGCATCTGCATACTCATATAATTCTCAGCATTTTAGAGTTGGTTTTGGTAGAAAAAACATGCCAATTGCTCTAGAAAAACTAGAACAATTCATTTAGGTAGCAGATTCCAAAATTAAAGAGACAACTTGACTAACTATCATCTTGTCTCTAGAATCTGGCTACACACATTACTTCTAAGAGGTTATTATGAAAACTCTAATAAGCAAAATCCCTTCCTCTGTTAACTATAAATTACTCAGAATTGCTCTTGGCGTTGCATTAATTTTTCTGTGTGCACAAGTTCAAATACCCTTAAAGCCAGTACCTATATCTTTATATAGTGTTGGTATTCTCGTTATTTCGCTTTGTTACGAAAAAAGAGAAGCTATATCTTCAATGATATGTTTTCTTACTCTAGGAGCAATGGGAGCACCGGTATTTGCTGGATTTTCGGCAGGATTACCTGTTTTAATGGGTCCTACTGGAGGCTACTTAATCGGCATGCTTCTTTGTATTTATGTAGTTACAACAATGCGCGAGAAATTTGGTGAAGATAGCTGGTTGAAGCTAATTATTTATAGTGCGATCGGTTCTTCATGCCTATATGTTGTTGGAATACCGCAGCTTGCTTTATATGTTGGTATTGAAAGATCGTTTGAGCTTGGCTTATATCCTTTCATTTTACCTGGTATTGTTAAGGCAATCTTCACAGGCTCATCAGTAAAACTTATCAAAAATGGCCTCAATAAAATTTAGACCTCATCACTTTATGTGCACCCTTGCCTTTAGTGGCAAGGGATACTCTCTTGGATTCATAAAAAATTATAAAAAAATTGTCCAAGAAATAAATAATAATAAAGACACTCTAATTGAAGTAGTTGAGTATATGGATAGTATATGCTCTCCTTGCCCCAATAAACTCGATAATACATTATGCAAATCCCAAAGCAAAATAGTTAAACTCGACAATGCTCATAAAAAGATATTGGCGTTAAAAACTGGAGAATCAATTAGCTGGAGAAAAGCAAAAAACCGTATCAAACAAAATATGAGTATAGAAAAATTTCACAGCGCGTGTAATGGCTGCTCATGGAAACAATACGGAGTTTGCGAGCAAAAACTGTCCGATCTAATAAACAGCTAGTAGTATCAACACATTGAATATTCATTATTTTTAACGCCATTTTAGGACAAGAAGCACGTTAAGTTGTTGAGTTTTATCGTCTTTTGCTGCTCAGTGTCATCGCGAAGGAGTTTTATCGACTGCGGCGATCTATTTGTGGATTACTGCGCCCGCCTTCGGCTCCTCGTAATGACGCAGGTCAAGCGTCATTTTCCTATGCTCTTAAACTAAATTCATACAATAGAAATTGCCAAAGAATATAATCTGATCAATTATATAAAAGGTAGGACAGGTAAACTGTAAACTAAATAGAAGCATAAGACTTCGAATGCGAGCTTAAACCTGTCCTTAAGAAGCTGACTAAGAACGTATGTCTCAGGGCCTAAACCTTCTGTATGAGTATGTAGCGTTTCTCTTGTT
>sequence81
ATCAAGACGCTCTAACTAATATAAATATTCCCTCTTCGACATTCTTAAGTAAACCATACAGCCTAAATGATCTTATAGAAACCACAGAAGCTGCTCTTAAGAAAAGCTAGGTTTTATTGCCGCGTTACTTTCACTCCCTGATGGGAGTAAAAAAACTATACTAAGAGCTCTACAGATAAGATAAAATATTTAGATTCTACCTTACTTCGCACGTATTATGCACATCACAATACACTAATATCTTTTTCTTTTTCCATAAGTAGGCATTTGAAATAATATTACTACTATTTTTACATTTTAATTTTCTTGAAGTCATAATTCCCAGATCAGATTCTAAGCAATTCCAGTAATTCAATGATACAGTTTTTCCATTTTCCAAAACATATAACCTATCTTTTCTATTAAGCTTTGATTCAAAAATCTTAGCTTGTTTATAACCAAACCAGCTTGCCCAATAATCCGAAATAAATTTAGGCATCTTCTCATTAGAATAAATCCTAAGCCCATTCTGATCATTAATTCCAACAGCTTTAATATTATGATCATATATAAAATCTGGAGCTTTTGTGATAAACATCAATATAACTCCAATAATCATTATAAATATACCGACTATACGCCACCTAGTTTGCCACAAACATAACCAGAAAAAACCAAAAGAGAATATTATTAAGCTCAGCGGAGAAATATGCCCAAAATACCAAATGGAAAATGGCTGAATAACTACGAATTCGGCAAAATTAATTACTATTGAAATAAAAAATCCTAGAGACTTTAAGATCCATAAATCTGCACTAAATGGCATCAGAAATATTGATAGTAGCGCTAAAGGCATCATAAAAAATGACATTAAAGGAACTGCCAAAAGATTCATCAAAACTGAATAATTGGCAAATTTATAAAAATGATAAATAACAAATGGAGCAGTTACTATACTTGCAAGAAAGCTGGAGTAAATATTTGCAAATAGATAAAATTTTATAGAAGCAAGCACCCCCTTACTATTGCCAAGAAGATTCTTATGTCTTAAGTAAAATTCATAGCCAGATATTAAACACAAAACCGCGGCAAAAGATAGTTGAAAACTAGGATGAAATACATACTCAGGTAAGAAGCATAATATAAGAAATGCTGCAATCATAACTGACCTCAATGGATAAGGAAACCTTCCAAAGATTATTGCCAATATAAAAATAGAGGTCATTATAAATGCTCTTGTTGCCGCAATATTATTCCCACTAATTTGTAAGTACAAAAAACTACCGATAATCGAAATTATTGCTGATATCGCCTTAATGTTAGTGTTATATGCCAAAAAGTTTGAAATATTCAACAATACTCTACTGCTTACAAAAAATATCATTGCAACTAGAGATAGGTGCAACCCTGACACGCTTAGTATATGAGCTACACCTGAATTCCTCATATTTTCTGAAACATCTTTTGGTATAGCTTTTGTTTCTCCAATTAAAATAGCGGCTGCAAAATTTCCATTCTCAACTCCAAGAACTTCTATCAAACGCTGGTATATTTGTCCTCTTTTTGATTTTATATATTCTGAAAATGATGACGGATTGCTGTAAATAACCTCTGGAGCTGTTAAAGCATATCCACTAGCTTCAATCCCTGACATATACATATAAAAACCAAAATCATATGAACCTGGTAAAACACTTGATTGCAGGGGAAATAGCTTAGCTTTTAATTTAACAATATCCCCTGGCATCAAGTCATTACTAAGCTTATTTGAGATATTTACTCGAACCTTATTAAAATCTCTATTTGCATCGCTTTTATTATTGCGAAGCAATAGCTGCATTCCTCTTAAAGTTGGTTTCAAAGACTCAACTTCACCTTCGAGAGTTGTGATCATTATACGAGATATTGGGGTTATTTTGACTAGATCTAAGCGGATGTTAGCAACAATCATTCCTATCATCAGACCAAAAAAACATGATGCAATAAAATATATAATTATATTTCTTCTATAAAAATATCTAATAAGTAAAATGCTAAGTGCAACACATGAAACAAGAGTATATAAGGATTTATTAGGTAAAAATTGAAAAAATAAAGTAATTCCGGAAATAAAACTAACAAAATACCACAAACTCAGATGATGATATTCCTGCTCAAGCTTTCTAATTAAATAGCTGCTTATCATTTGAGCATATCAAGGATAATATTTGCTGCTCTTATTGTTGGCTTTTTCTCAGAATTCAATCCGATTTTCTCTAAAATTTTCGTAGCTTCAGCAACTTGGCTTTTCGCTCGCCCTTCATCACGAAGTAAATCGCTTAAAGCTAGCACTAAATTCTCAACATTAAACTCACTCTGTATGTATTCTGGTATTATCTCTCTGTTAGGAATAATATTTATCAAAGAAGCAAACCTAATTTTAATCATTATTTTCAATAAAAAGAATGTCAGTGAGTTAAGTTTGTATCCAACTATTTGTGGCGTACCTGAGGCAGTAATTTCTAAAGTATTTGTACCAGACTTTGCAAGAGCGCAATCACTTACAGCAAAAGCCTTTAATCTGTTTGTTGAGAATGAATAGTTAAATTTCACTCCACCTAAAAACTTTTGAATTTCTTGTATGTTATGCTCATTTGGTTGTACAAAGATTACCTCAATATTATGAGTAGACGACAACTTATCAAAAACCATACGTATAATTGGCATATGCCTTCTAATTTCACCCTTTCTACTTCCGGGAGTAACGGCAATAATTTTTGAATTATCTCCTAACTTCATTTCAGCCCTGAGACCAGCTGATCCTTTAAAAAAAGCTTGCTCTAAAACTGGATGGCCAATACATGTACTTTTCAAACCTTCAACAACAAAATACTCAGGTTCGAACGGCAATAATGTTAATAAATGATCATATATTCTAGCATATTTTTTGGCCCTCCCTGGTTTATAAGCCCAAACAGATGGTGCTACAATATGCACAAGCTTTATATGCGGGGCCATTGCCCTTATGCGCTCAGCAACTCTATATGTAAAACCCGGAGAATCAATTGTTATAACCATATCTACATTTTTAGATAGGATATCTTCAACAGTTCTCTCAATCAGCTTACTAATCATTAGTAAATGAGGCAAAACCTCGAGAAAACCCATCAAATTAATTTGATCTATTGAAAAAAGAGAATTAACCCCAGAATCTTGCATCTTTGGACCACCAACTCCATAAAACTCAATATTGCGCCCTGTTTCATCAATATTTTGAAGTGACTTTATCAGACTTGCTCCAATAAAATCTCCTGAACTCTCTCCTGCAATAAGATATAGTTTCATGATGTTAATTAGAATTATTTATCTTCTTACATAAGCTAAGTGACTTATCAATTATTTCAGATTCTATACCGGTACAGTCTAAAATACTATGAAATACATAATCATGAGATATAATCTTTTCCTTAAATGACTCTACTGCCTCCCATTTTTTCGGATGATTTTTCTTATATTTTTCAGAAAACCAAACAATTATTGGTACTTCTCTTTGTTCTTTAAAGTAACCATCCATTCCATGAGTTAGCCTCCCTCCTTCTCCTAAAGACTCACCGTGATCGGATGCGTATATTAGAAAAGCGTTCTTATCCTTTAAACGATTAATTACTTCGGAAAGAAAGTAATCTGTATATAAGATAGAATTATCATAACTATTGACCAGCTCTTCTCTAGAACAACCAGAAGCATCAATTTTTGCGTTTCTATCAATAGCTGGAGTGAATTTTTCAAATTCCCTAGGATATCTTGCTGAATAATTCCAGTGACTTCCAGTACTGTGCATAACTATAAATTTCTTACCGTCCTCTTGAAGTTTTTGTGTAAGATATGGCAGCATTTTCTCATCTAAATCATTAGGTAAAAATACTAAGGAACCGCCTGGGATCATATGAAACTTAACCTCATCATAGAAAGATCCACCAGGTTTATTACGGTAATACTTGGTTATTGATTGGGTACCCATCCACAAAGTATCAAATCCCATTTTTGTTAGCACAGACAATACACTCGTTTCTTTTTCTACTTTAGCTAAATCTTTTTCATCAAACCTTGAAAGAATACATGGAACTGATAGATAAGTATTATTAGAACATGCTATAGATTTATAGTTTACTAAATTATCCACTTTATTTAAATGCGGTGTTGTTTCGCGCTCATAACCATTTATACCAAAATTAATTCGATGATGGCTATACAGAATCTTATGGATCAAAGATACATCTGTGCATCTTGACTGTCCTGCAAAAATTCATGGCCCATACTAATCTGCATGGCGCACAATCGGCTCAAAATTGATCATG
>sequence82
AGTTTGGCATTGGGTATTATGTAGTATAGTGAACAAACAGAAAACAATAAAGATACAAAAATTAATGTGTATCTTGACGCTTCTATCATAAATGTATAATCATCAATTAAATACATAAACTGAGGTATTTTCTCAAGTCCTATGGGTATAATAATAAGTAATAGCATTGCTAGTGAAATGATAGTGCTTATGCCCAAAAATTGTGCAATGCTTAATAATCTTCTCAGAATATAATTAGGTGGAGATTTTATTTCGTAGACTCTATTTAATATTGTTCTTAAGCACTCTACAAATGATGATGATGTCCAGATTGTTCCAAATATGGCAAGTGTTAAAAGACCTTGTGGCGGTGAGGTTATTAATTCATTTATCCTAGATCTTATTGAGTCAATAGAATGCGATGGCATATTTTCTAATGCAAGTTCAATAAATTTTTCTCCTAGTTCTGATGCCCCAAAAAAGCTAGTAAAAGCTAGTATGAAGATAAAAAATGGAAATATTGATACAAGCATCATAAAAGACATATAACCAGAATGTTCAACGCCGTCATGATCGATCATTTTATCAACTGACTTATAAAGATTGTAGATTAGTCTTTTCATTATATAAGAATTTTGAATACGGTTTATTTTTAGATATGCAGTTTATTATAGAGCTTATTTCCTTTTTAGCAAGAAATCGAATACTTCAAATAGTAAATTTTATAAGGATTACAAAGGGTAGTTGTAAAAAAAGTTAAAAAATATTAAATAAATTGTTGCGTTGGGTTGTTTTCTTTGTTATATTATCAACTTAACAGATTTCAAATTTGTTTAAATAAATTAATATTTAATGTTTTAAAGAGAAATGTTATGGCACGTAAAAACGATTACATACAGGAGGTTGATAAGTTTATCGGCGGAAAAATATATTCTTTGAGATTAGCAAAAGGTTTGTCTCGTCAGCAACTTTCAAAAGTTATCGGTGTTACTCACCAACAATTACAAAAGTATGAAAAAGGTACTAATAGAATTTCTGTTGGAAGACTGGTTTTAATTGCAAAAGCTCTTTCAAAAGAAGTTTCATATTTTTATGAGGGTTTAGAATCCTCGGAACAAGAGCCGGTTATGACTCAGCATCAGCGTATGTGTATTGAAGTGTCTAGAAATTTCATGAGAATAGAAAGCTCTGAGCATCAGAATGCTGTAAATACTTTAGTAAAATCACTATCTAAAATTGCATAAAATTTTAGATGTGAGGTAAATGTAGTAGAAGCGCTAATCCAGCAGGGTTAGCGCTTTTTATATATTAGTTACAATTTGTAGTTTTTGTTTTATCCGCTCAAAACAAAGTTCATTTCAGTGCTTTGTTTTCAATATTCCATAATAATAATTTATCAGTTATTTTAAGTTTCACTAGTTTATTTGGCATGTATTATGCTTAGTGAAAGGTAATAAAACATTACAATTTTTGTATTTTCCTTGAAAAATTAAAAAATTTGTGATATAATTAATTAAATTTAATAACTTATAGAGGGTGTAGGATATGGCAAGTGCAATTGATGCTTTAGGAAATAGTTTATTTGCGGGTACAGTCCCGGTAGATAGCATTGTATCAAAATTTCAAGAAGAAGGCGATAAGGCACGCGGTGAAATCCAAGACAAAATTGATGTTAAAGAGAGTAGTCTTGGTGAAATATCAAGGCTTCAATCGGCGATAGTAAAAATAAAAGCTGCGGCTAGCTCAATAGCAGACCCTTTGCAAACAGGCTTTGGTTCCAAGACTGCTACAGTCACAACAAGTGAAGGTGGTTTATCTGGAAGTGACTTTTTAAAGAATGTAAGAGTTGATAATACAGCAATAACTGGTCCAACAAATGTTGCAGTTAATACTGTTGCTACTGCTTCTGACTTGGTAATTAGAACTGGTGCTGCAAATACTGGTTTTGCAACAGCTGGTCAACTAAATCTTAATGGCACAATTACATTAACACTTGCTGGAACTGCTGTGGCAACTAATGTAGTAGCTACAGACACTTTTGATGATGTTTTAAATAAAATTAATACTAACATTTTAGCTGGTGGTCATGATTTTGAAGCATTTAAACTTCAAGGAAATGGGAATACTGCATTTTGGGAAATTAGAGCAAAAAATACTGGAGCGGCGAGTACAATAGCTTTCAACTATACAAATAATATTGCACTTTTGGCTCAGGCTCCAGCGACAACTGTTGCTCAGCACTCGCTTACTAATGGTGTAAATTCTGATGTTTATGTTAACGGAGTTAGACATCAAACAGCATCAAATAAATTTGTTGATATAGTTCCAGGAGTTTCGTTTGAAGTGACTAGAGCTAATACATTGGTGAATAATCTTAATCCTGCAAGCTATGCAAACTTAAATAAAACTACAATTTCTGTATCAGAAGACAAGTCTGCTGTTAAGAAGTTTATAGCTGATTTTGGTGATGCTGTTAATGAGTTATCTTATCTTGTTGTGAAAAACAGTAAGTCATCACGTTCTATAGCAGATGTTCAATTTGCTGATCCAACTTCTGCATTTGGTTCTTTTGATGATCCAAATGCACCATTAAGAGGTTCATCTCTTCTTGCTGAAGCGCAAGATTTGTTCGATAAACTTGTAACGCGTAGACCTGGAACAACTGGCGATATTGGTTCATTACTTGATTTAGGTTTTGGTATACAAACTGAAACAAAAGAAGGTGATAATTTTAGTTATGAAAGGCTGTATTTTGCCGATAAAGCTCAGTTTGAAAAAGCGTTTGATGATGATTTTCAAGCTGTTTTGGATTACTTTGTAACTGATACAAAGGTAACTAATGGTGGTGGAAATACTGGCTATGTGCAGTATATACCTTCTGAGAGCGCAAAAACAATTACAGATCCATCTATAATTGGTCACAATATCAATTTAGCTGTGACTTATAACGGTGCAAGTGCTGTTACTGCGGTTGTAGCAACAGTAAATGGTGGCGCTGTAAACGGAGTAATTAGCCATAATGCTAGTACTGGTAGATATGATATATCTTTCGAGGGTACGGTAATAGAGGGTATAGATTTTTCTATTGATCCAAATGGTGCTGCAAATACAACAGAAAACTCTACTATTGTGTATAAGCCTGGTGTAGTTAATGAAATAAGGCAAGATGCAAGAGGAATCTTAAGTGATGATGGTTTAAAGGGGTCATCTGTAGTTGAAGGTAGCCAGATTCAGGACAGAATTACAGCAGATAAAGAAGAGTTATCTAGAGTTGATGAAGAGTTTAAGAAGTCAATTGAAGATATAAAAAGCGTTGAAAGCCAATTAGCCTTCATGGAGCAGCAAACTAACTTGTTATTAGCGTCAATAGAAGCTATACTAGTCGACGGTTAATAAAGTCACAATATATAAATCAGGGAAGAATTAATTATGTTAGCTTTTGAGAAATATAGAACAGCTACAGCTACAACTAGTGATTCATCACATCAATTAATCTTTATTTTTGATGAGGTTATGAAGCTTCTTCATACTGCTAAGAAGGCAATTGAAGATGGTAATCATGAAATGAAATTTAAGGCGATTTCTCGAGTAGTTGAAGTATTTTATATTTTGAAATCAGGTGTCGATCCAGAAACAGAAGATGAAAGTACAAAAGCGATTGATACCTTTTATGGTGCTACTATTGCAAGACTTGAGCAAATTAACATGAGCGATGTAGAGGCTAAAGAAATTCAGCCTCTAATCGACGCTCTAGGTGAAGTCCGCTCAGCTATTATTGCTTCAACAAGTGGTAAGGATGAAAAAAATGATCCTACTAATAAAGATGATTCATAAGTTGAATTGATTGCTTTATTATTGTTAGTGTTTAATAATAAAGTTTTTTAGCGTTGTTTCTAAATGCTAGTATCTAATCATTATAGTTTGTTAGATTATGATCTTGTCAAGTTAATTAAATCTGAATATAAATATTCAGTATTTCGAAGTTTTAAGAATCAAGAAATTTTTCGGTAAAGTATATATCTACACACTACGACAAAGCAGTAATTAATAAGCTTATATTCACTCCGATCGTAATTAGAAAATTGGCATTATTAAATAACGAATGACATAGAATAATAATTGCGCTATATAACCAAGAAAAAGGTGATGTATGGAGAATTGTAAAGGTTGCGGGAGCAAAGAGTTAATAAAGAATGGCATTTCGCCA
>sequence83
AAACTCTCTCATCAGACATTATCTTGCTAGGTCCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAGATTTGTTGTCTTCATTTGTTATTTAACAATGCCAGTAGAAAATGGCTTTCAACCACTACATTTACAGGATTAATAATTGCGGCTACTAATTCTCTCTTTAACTACAATTCACTGGGTTAGGAAAAATTTCAACAGTAGATAAAGCTGTTTATGCTACAGAAATAGATAATGGTAATGCTGTAGTAACATATAATTCAGAAGTTGTTGTTAATAATTCTGCAGGCACTGGAATTACCTCAAGTGGAAATACAAGATTTAAGGATATAGTAATTGTTAATAACCCTACAGTAGATGGTATACTTATTACAGATAATAGCAATTCAATTTTTGATAAGGATGTAACTGTTAATAATAGTATCGATGAAGGAATTGTTATAAATGCTAATGCTATTGTAGTTTTTAATGGCAAGTTAACAGCTCAAGGAAATGCAGATAAATCAACACAGATTAATACCGGAGCTCAAGTAACATTTAATGGCGATCATTTTGTCTGATAATTTTCACTTATTTAATTTGACAGGCACAACTAAATTCGCCGATGGAATAAAGTTTGATGCGCCAGTAACAACAAATACAGCTAACATGGGTAAGCTAGAGTTCCAAGGAAGCATTACTCTAAATAACCCTATAGGTATGGCAATGCTAAAAGTATAGACAGCAAATGTTTGTTAAAAAGCAGCAAGAGAGAATTTTCAATCATATCGAAAGCTTTGGAATAGCGCTTAGTCCTTCTATTGAAACGAGTGAGATAATGACGAATCAGTTGTAGTAGTAACAACTTAATCAGACAGTATATAAAAATCAGGCAAGAAGAATCGGAGGATTAGCATTGTGCGATATTCTCTGTATATTATCAATATTTTTATTATTGGCTGTTAAAAGTATAATGGCATTAACTTGAATCTAAAAAATATATTTTTCTTATTCTTGGGTTTAAAAATCCTGTAGGATTTAACCTAAAATATATATGTACTCTTTTTTAATGGCATTATGTGATCATCTAATGAATTTATGGATAATCATAGCCACAAATTTCTATACTAGTATTTCAGTGACTATATAATCAGTTCATCAACTTTGAACTAAAACCAACCTACCCACCATGAGTAAATACAATATTAAAAAACAACCTAGTATATTTTTGTCAATTTTTTTAGTTTTTATAGCACTTTTTGGAAATGCTATTTTAACAGCGCATGCAATAGCTGCGACCAACCTAACTTTTACTGCTCATCCAACTAATACAATGCTTGGCAAGGATAACTTTGCGCCAGAGAAAGAAATTGATTACTACTATGACTTACACCTAAAAAATCTAGCTAAAGTTTTATTATACTCAAAAGATGTTCAACTGAATGATATAGGCAATTTTTATAGTTGGATCGGATTCGATTTTGATCGAAGTAATTTAAGTGCTAAAAGTGTTGCATATGCGAATGCTAAAAATATACAATTAATGATTGATGTATATAGAGACTATAACAAGAATTATTTAAAAAACGACGCAACTCTAACAGAGCTTTTAAACACAGTACAACATCATACTAATCTTATTTTTTCTCTTGTAAAAAATAATGATCTAACCTTTTCAGAATTCATAAATAGATTTGACGAAATTGGCCGTAATTTTGGATTGTATGCTATAGAAAATAAGTTTGTTGAACGCTTAGAAAAAATTGATAACTTTAATTCAAAAAAGTTAATGAATTATTTTAACAAATTTAGATTCCATGCCTTTAAAGGCCAAATTAGATTTGATGGTGATACTCTAAATGTAGAAAATATATATGAAGATGCGCTGCGCGTAGTGCAAATTATTAATCAAACCCAAAGATACGCTATTTCTGATATTATAATTTCAAATTTTTCTTCAGTAACTCAAATAAATGAAATAAAAAAATTAAAAAAATACTACAATATATCGAATATCAGCACTATTCCGCTAGTCGAAACAAATAAGGATGTAAATTATGCTGTCAACAATCTAAAGAAAATAGTTACAGCTGATAATATATCACAAATAATGAAAGCTGGTAGCGATGACACTAAGTTTAGTGGTTTTGCAGCTTCGATTCTAAATCTTGCTAGATTGGGTTTTGCTATGCAAGAGCTAAAAGATTCTGATTTATTTAATTCACAAGGTGTAGAACCTCCGATCTTATTCATTGGAATGGGGTCAAGCATTGAAAGGCTTGGAGGCCCTGTATTTTTTAGAAGTATGTTGGCAGGTATTTTAGGAGATAATGAATCAAATCGTACTATTCAAGGCGGAGAGTTAGAATATTTTGCTAAAAAAACTAGAGCAGAAAAAAAGCTTAAAACTGAGATTGCGATTGCAAAAAAAAGTGAAAGAATTAGCTACGCTGAAATAGAATCAGTATCATCAATAATTAAAGAGTATTTTCTTGATAGATATCAAGAAATTTACAAAGACAATACAAAAAGAAATGATTTAAATCAGCTGATATTAAATGGAACTAATCTCGCATATGCGACGGATAACTATCAGGCTGGTTCAAGATATAAAAAAAGAATTGCGTTGAATAGAGAAAATAAATTAATCAACAATTTTACTGATCTTTTTAAAAATACAAGGGCAATTGATTTTCAAACAAGCTTTGTTCTATCTGGTATACATCCTGAATTTATACCTTATAAATACTTAAACCAGAAACAAATAGACAAGATTTTATCTTTTAAAGAAAATAAAATTATGAAAACATATATTACTGGAATATATGTTTTATCAAAGCAAATGAATCCAAATTTTTGTAAAGCATTAGATTTACCCGTTAATAACGCTGTATATAAACAGTTTAATGAAGGATTTGGGGTTTTTACTCAAATTGTTGAAAAATATTTCCCTGAACTAAAGCAAGATATTGATGCAAAATTAAAGCTAGAAAAATATTTAAATTATTCAAAAAATACTAATAATGAAATAGTAAAAATACTTTCTAGAGAATCTCATTTAATAGATAAATATAAGAAAGGGACCATTTCTTTTGAAAAAATGACTAGTAAATTACTCAAATTAAATTATGAAATAGCCAGATTACGTAATCTACTATCTTTAGCAGTGAAGAACTAAAGAATTTATTATCAAGGGAATAATTATTTGATAGTACAAGATGTTTCAAACTCTGTAATTGCCAGAAGAGCTAGAACCTAACTAAAACAGCAAAAGAAAATTAAATGTCTTTATTCTAAATCCAGTCTTAGCTTATGTTTCCTTAGTAATACACATATTTATCAACTAGTCTTACCTAATAACTCAATTAGTAGGTCTTAGAACAATTTTTTATAATATACTCCTTACAAAACAAACCTAAACTGCGCTCCCACACCGCCTTTACTTGCAGCACTAATACTGCCGCCGTGGGCTTCTACAGCGGCTTTGCATAAGGCTAAGCCTACTCCTCTTCCTTCTGCTTTTGACTCGGCATTTGAGCCCATCTTGAATGGGGTGAATATATCATACAGATCTTCTTTTGGTATGCCAATTCCATTATCGGAGATTACAAATTCAACACCTTTACCTTTGCGTAAAACGCTTATTCTGATCACTCCTTCACTGCTGAAATTGATGGCATTTATCACTAAATTATCCACAGTCTGACGCATATAGTTCGGGTCTACTTTTATCAATACATCCTCTTCTATCTGCATCTCAAAATCTATCTTCTTATCTCCTAGATACATCTTACGGCATGACTGCACTCTGTCTCTGACTAGCTCACCAAAGTTTATCGTACTCTTATTCAGCTCTATCTTCTTTGCCTCCAATGTAGCAAGATCCAGCATATTCATTATCATCGATGAGAGACGGTTTGAGTTCTTATACACCTCATCCGATAACATCTTCAGCTGCTCTGCATTAAACTTACCCAAACCATCATTTAGCATCTCAGCAAAGTTCATCACATTCCCAACCGGAAGACGCAGTTCATGATTCACATTATTCAATATCCTCTGAGCAGTCGCCCCAAGTCTCTCGATCTCCTTCCCCTGATCTTCAACACGCTCA
>sequence84
CCCTGTTAATTCTGATGCCGTTCTGGCTGTCGTACCGGAAACGAAGTATTTTATGAGCTCTAACTGCTTATTTCTGCCTAGTTTACAATGCTTTACATACATAACTGAATCCTAACAATTTAAATGTTAGGTGTCAGCCCCAAAAGTTTTTATGTTTTCCTCAAAACAATATGACTAAATGCCGATACGTTAACAAAAATACACTTTTATGTCAAGAAAATTTATGCAAATTAAGATGATTATTTGTTGGCTACTTGAACCTTAAGGTTGAAATGTTTTTAGATATTAATTATTTATAAAAAAACCTTTCGAAAAGTACTTATTTTCGAAAGGTTTTTAAAAGTTGGATTGTATAAACGCAAATTTAATTAAAATATTTGCGCTCAGTTACTTCATTAGAATTTGAATTTTTATCTGAAGAATCGCTTTTGTTATTTTTCCATTTTTTTGAGTTTTCTCTTTTTTCTTTATTATCGCTATTCTCCTTGTTTGAATCTTCTTTTTTTGATGATTTATCTTTAGATTTTTGATGAGTTTTTTCAGGTATACCCTCAACATCAGCATTCTTGATTGTAAGTTTAGCTTTGCCACGATCAAAACCTATTAGCTTTACCTTAACTTTTTGGCCTTCACTTAGTGCGCTTGCAACGGTTTCGATTCGTTCATTAGCAATTTCGCTTATATGAACAAAACCATCACGGCTACCTGAGTAGTTGACAAAAGCTCCAGCATCTAAGATTTTTACAACTGTACCTTCAAATACATCGCCAACTTCAGGGTCGATTGCTATTTCTTTTACTTTTGCAATTGCAGCATCCAGCTTGTCTTTTCCGACTGCTGATACTGAGACTTGACCTTCATCTGTGATATCAATTTTAGCACCAGTTGTATCGCAAATTTCACGAATAACTTTGCCTCCAGGGCCGATAATCTCACGGATTTTATCCTTATTAACTATAAATGATTCGATCATTGGAGCATTACCGCTCATTTCTGATGTGGTCTCGATAGCTTCAGCCATTTTGTTAAGGATATGTACGCGTCCGCCTTTTGCTTGCTCTAGAGCTTTTTCCATTATTTCAAAAGTAATACCAGCAACTTTTATGTCCATTTGTAGTGCGGTTACACCATCGCTGCTTCCAGCTACTTTAAAATCCATGTCTCCAAGGTGATCTTCGTCAGCAATAATATCAGAAAGAACCATAAATTCGTCTCCTTCCTTAATTAAGCCCATTGCAATACCTGAGATAGGAGCTTTTAGTGGAACGCCAGCATCCATCATAGACATTGATCCTCCACAAACAGTAGCCATAGAAGATGAGCCGTTTGATTCAGTTATTTCTGAAACAACTCTAATTGTATATGGGAAATCTGCTTTTGAAGGTAGAGCGCGTTTGAGAGCTCTCCAAGCTAATTTACCATGTCCAATTTCACGTCTGCTTGGAGCGCGCATTGGGCCGACTTCACCAACAGAATATTGTGGGAAGATATAATTGAGTAAGAAATTTTCCTTATATTCTCCTTCAATATTATCAATAATTTGCTCGTCTTGACCAGTTCCAAGTGTTGTTGATACTAAACCTTGTGTTTCTCCTCTAGTAAATAGTGATGAACCATGGGTGCCTTTAAACAGAGATACTTCACATTTTATATCTCTAACTTCGTCAGGATTTCTTCCATCTATTCTTGTTTGTTTTGCAAGTGTGTCAGCGCGCAGTACCTCTGCTTTTACATCTGATAGTGCAAAATCAACTTGTAGTTCTGTATATTGTTCGTCTGCCGTAAAGCGTTCCCTCATTGCAGTTGTTATTGCATCAATTGCGCCGTATCTGTCTTTTTTTGCTTTCATTGCAAATGCAGCAGTAATATCATCTTTTGTTAATTCTCTTATTTCATCTTTAAGCGTTTTTGGGAATATCTCAGTTGTCTCCCATGCTGGTTTGCCAGCTTCAGCTTTTAGCTCTTCAATCAATTTTATTGCAGGTTGGAAGCCCTCATGACCAAATTTTACCGCTTCAAGCATTTGACTTTCTGTAAGGAAATCTGCTTCAGACTCAACCATCATTACTGAATCTTTTGTTCCCGCGACTACTAAGTCTAGCTGACTCTCTTCTAGCTGCTCTGGTGTTGGATTCAATATGAGTTGTCCGTCAATCATTCCAACGCGGCTTGCTGCAACAATTTCCATATATGGAACGCCAGAAATTGCAAGTGCAGCTGATGCACCAATCAGAGCTAGAATATCTGTATTGCCTCGTGCATCCAGTGAGTGGACGTTACATAACACTTGTGTTTCATTAAAGAATCCTGGGTGAAATAGTGGTCTAATTGGTCTGTCAATTAGTCTTGAGACAAGAGTTTCTTTTTCACTTCTTCCAGTTTCTCTCTTAAAGAAACCGCCTGGGATTTTTCCAGCAGCATATGATTTTTCTTGATAATTTACCGTTAGAGGGAAGAAGTTTGTTCCTTCTTTAGCTTCCTTAGCGCTTACTGAAGTACAAAGAACTGCAGAGTCACCCATTCTTATCATTACGGCTCCGTCTGCTTGTCTTGCAAATTTACCAGTTGAGAGTTCAAGTGTCTCGCCGTTCCATTCTGTATTTTTTATTATTTCATTAAACATCAAATTTTTACCTAAATTTTATTATATTTTTTATTAATTTCTTTTTTTAATTTACATCGATAGAGAGCTTAGCATGAAAATTGAAAAAAGAAATTATAAAGCGAGGAGATAGTGGTTAGTATATATAAAAGCAAAAAGGCGGACTCATTTTGAAGCCCGCCATCTTTTTTATACTACTTTCTAAGACCTAATTTATTTATTAAGGTGACATATCTGTCGAGACTTTGCTTTTTTAAGTATGCAAGGAGTCTACGTCTGCGTCCTACGAGCATCAATAGGCCTCGTCTAGAGGAGTAATCTTTATGATTATCTTTTAGATGGTCTGTTAAATTTTTGATTCTTTCTGTAAGGACTGCACATTGTACTTCTACAGATCCAGTATCATTTTTCGCTGTTGCGTATTCTTCAATCAACGCTGTTTTGCGCTCTTGTGTTATCGACATCATCATTCTCCATATTATATGTTAAAAACTCTTGATGATTTGAAGTTGTTTTGATGCAAGCTGCCGATCGCTACGATTTTATCATCGTACCTAACCCAAATTAATTCACTATTTTGATCATTATCAAAGTGACATTTCTGCCCAAAGCGAATTTTCTGAACTTGCTCGCTACTTGCCTCTAGTACCGGGATGTCGTCTAGTACTGCTTCAATCTTCAAGCACTTATTTTGAAGGGTATTTTTCACCTCTTCGAAATCTTTATCTTCTAGGCTGGTAATATCTATAGCATTATCACTCTTAAACATTCCCACCTTTAAGCGCCGTAATTCTATCACAAATCCTAAACTTTGCAAGGATAAAGAAATATCTTCTGCAAGCGTGCGTATATAAGTTCCTTTAGAACAGTCACATATATAGCTCGCCGTCTTTTTTTGAGCATCATAGTTTACGCATTCTAAATTGAAAATATTGATTCTTCTTTTAGCAAGCTTTACTTCATGGCCTTCTCTTGCGAGTTTGTAAGCACGTTTCCCATTAATCTTTAATGCACTATGTGCAGGTGGAGTTTGTTCTATTTCACCGATAAAGGAGCTACATATTGCATCACACTCATCTTTGCTTGGTATGTGATCGGAAGTATTTACTATTTTTCCAGCGCTATCAGCTGTGTCAGTTTTTGCACCAAACTGAATAGTAAAAGCATATTGTTTTTTAGCATCAATTAGGATACCGGTAAGCTTTGTTGCTTCGCCAATAGCAATTGGTAGCACGCCTTCCGCTTCTAAATCAAGAGTTCCAGTATGGCCAACTTTGCTTGGTTTGAATGAGCGCTTTACTATAGCAACTGCTTTTGCAGAACTGATGCCTCTTGGTTTATATATGTTTAGCCAACCGTGTATAATACGATTCTCATAATTAATGTTGGATAAGTTTATAGTGATTAACAAAGGC
>sequence85
ATATTGTAAAGCGTCTAAAGCCAAAAGCAATAGCAGCGAGCGTAGAGTAATTAATAAGCTCCACGCCTGCCATATATTACCTTTTAATAATCACCATAAAGATCTTCGTCAAGAGTGGTTGAGCTTTGACCACTGAGCTGACTGCTCTCGCCTGTACGTAGCTCTGTTAAGAAAATGCCATCATGTATTTCAGCCAAAGTTGTTTCTGGTGCTTCAATACAGTGTAGTATTCCATTTACTTCAAATTTTGCATCTGGTCTGATGATCGTGTTACCAACTGTAATTTCTCCTTCTAGGGCAACCATTCTGGAAAATGTTTCAAAAGCTTCGGTTAAGAATTTTACAACAGAAGTATCCTTACTTAGAAGTCGAATGTAACCATCAAATGCAGATAAATCTGACATATTGCTAAGAGGGATATGCGTACAACCAGAAACCTGCGCCATTTCCGTGAAAAATTGGTGATTACTTCCTCCTAGTTCTAAGGTAAATATCTGTAAATTATCAACTACATCTGTTGCACTCCCAGCAGTTTTAATTACATCTAACTGACCAATACCTGATGTATTATCATGACCATCTGTAAATAAGATACTAGCAAAATGAGTGTAATGCCCAGAGCTTGCTAATTTCATTATATATTCCAACTGTTCTGAGGCCGTTCCATATAATCTTGTGTAACCTTCAGCACTTAATCTATCTATTACTAAATAAATATCTTTAGGGGTTGTGTCTGATGAGTTAAATGTTCCTAATACGCTAGTGTTTGAATCAAATTTAGTTAAAACTATAGTCCAATCAGGTGTTGAAGAAGTTAGTTTAGCAATAGTTGCTTTTAATTTTTCCTTGGCTACATCTAATTTAGATCTGCTAGAATCCATTTGATTTGCTCCATCCATACTACCACTTGTATCAATAGCGATACTGAACAAGCTCTTTGGAGTAATTGCATCAACTGCTTCTTCATGGTGTAATTGTGGTAACATTACTGGTGTGAGTCCAATTTTACCATCCATACCAACTTTAGGATTAAAAATAAGTTCAGCAAGTTCAGCTCCAACATATTTTCTTAATATTCCCAAATCTACTGTATAGCTATCTATATCACTTCCAATAACTTGAGCAATTATTGGTGTTGTAAGAGCTGATGTACAATGTAAACTTAGTAATTGTAAAAATGCAAAAAGGTTAAAAGTAGTTGTAACAGTATTACCAGTTGTTGACACCTCAAACACATTACCATCAAGTGGTTCAACGTCAACATCTCCCAATTCATCTGCTTCAACAACGCTGCTTATACGTCCTCTTGTTCCCCTTATTATTTCAGCTACGCTTTCCGGATGAGCTAGGACTTGACCAGCAAGTTCAGCATTTATTTGCTTTCTACTAGCTCCTCTAGAAGATTTTGTGGTACAAGATACACTGTATAGTCCGTGTGAGCCAGTAACAGGTTGCATTCCATCTATGCCAAGTTCATGCATAGCGTCAGGCGTAAATACCCTACCAAGTGCACTATCTACTACTAATGCACCGCTTTCTCGTGCCTCGCTTGCAAGTGCTGCTACATTTAGACTAGAGACATACTCGTCAAGAGGATCTGTAGATAATACTACTACTTCTTCTACATGATCATCGTCGTCTTCCATTCTATCTGATAGATCAGCATCTATACTTTCAGTAGAAGTAGGAAGTGAACTTGTACTAACTTCGCTCAAAGCTTCATCTTCATCCACACTACTACCTGTTATAATATCACTAGCTGTATCAGCAGTATCACTAATGCTTATACTAGGAATTGCTCTATATATAGCTCTGACTAGATCTCCAGAAAAATTTAGTGCAGTCGCAAGGGTTCTTACAACCATATTATCAGTTATGAATCTAATAATTCCAGTATCTTGGTTAACTTCTAGAACCTGAACTTCTCCATCGCTTTCAACTCCTGATGCGGCAGCCAATGCTTGTAATACATGCTCTACATCTCTTGTTGTTTGATCTAAATCAGATCTTTTCATAATATTTCTCCCAAATTTATTTGTATTGATTTATTTCTTATAGATTTTCTAAAACTAAAAGTAATATTATTAGTTATTACAAATTCTTTATAATTGCAATAGCTTGATTAAAATTTTTTAAGAAATTAATTTTGATTTTTCTTCTTTAATTCAGTGCTGATTTTTTTATTCATCAGTTTGCGATAATGCTCTTTAACAGATTCAAGTGAATATTCACCTTTATATTCGGAATCAAGATCACCAATCTTCTCAAGATAAAAATTCATTTGCTCCATTTGATTTTCTAAATTTTTAGATGAATTTTTGTTATTTTTTGAGTTTGTATCTGGATCAAAATGGGAAAATATTTCTTTTTTAGTGTTGGTGATGAAGGCGCGTAGCTCTTTCAGTTTTGATATTATTTGTGGTATATCTTCCGGCTTTACAACTAGAAGAGACACAACCAATATAACTAACATTTCGAAAAGAGACATACTAAATTTTGTGTTATACAGAGCTTAGGAATTTTTACCGTAATTCCATTCCAGGATATAAGATTTATAGGCAAAACTCAAGGTAAACTCTGAGTGCATAAATTGAATAATAAAACTAATAAATGCATATTTTCTATACATGCTCTTCAAGTAACTGAATCTCTGTTTTTAACAGTGCGAGTTTCTCCTCTACAATTTTAATCCAGTCGGTTAAACTTTCTTCTTGGTCGTATTCTAAGGCTTTATTAAAATAATTTAGTGATTCTCTATAGTCATCGGTTTTATAAAAACAGATACCAAGATTATAAAGGGCATAATATTCCTCACCAAAAACACTTAACGATTTCATGTAGTATGGAATTGCTTTGTCAAACATTTCGATATCGTGAAGAAATATACCTATATTGAAAAAAAGATTACTTGTATTTGGAATGAAATAAAAATTCTCTGCTACCTTATGGATATTCTCTGCTAAATATTCTAATTCTGAATATTTAGCAGTTTTCACAAGTTTAAGTATTTGTTCGTTAAGAACATTGTAGATATAAGGATTCCAATCTGACAATTCTAAAGTTGAAATACAAGTATCCAAAGTGGCTTCTTGATCTTTACTGTAAATATGGAAGCTAAGTGAAAAATATTCACGAGGACCAAAATTCTTAATATAATTCCCTAATGCAAATCTAGCTTCAGGTAGTTTACTAAAATTTAGGTTGCTAAAAAAAGCTGCAGTTGTAATACTGGTGTAAGAAGTTTGTAATAATTTGCTACCAGACCAATGTTCAAAGGCTCTTCCTAATGCATCAAAGTTAGCCATTATCGAAAAGCTGTTGCCGTGAATGGCTGTGTTGGGAAAGCCAAAATGTTTATGCTCTTCGATCATTGTATGGGCCTTATCAGACGCTAGAACAAATATTTTATCAGATGCAAAAGATTTAAGTTTTCTTAGAGCATTAAGAGATGCAATTGGAAATAGGAAGTGTGAATTATCTAATTTGGTTCGGTATACTTCTAAAATAGCATTAAAATCAGCATCATTATAATATTCACCATCTATTTCTTTATCTTCATATTCAATATGAACTTTCTTCAAATCTTTAGGATATTTTAAATAAAAATTAATTTTATCTATCCACGCATTTTCATCTTTTGGAA
>sequence86
ACCTCCTAAAGTTGCTCTTAACGCTGTTATGCGTAAACTTCTTGCCTTTATGAACGCTATTGTTAAAAATAATTCTTCTTGGGCTTGTGAAGAATAATCTTCTTTAATTTTTTTCTTGATTATTATTACGTATGCTCGTATATCAAAAGATTGTAAAATTTTATTTCACAAATGTTTTTTGTCCATTATAATCCCAGCATATTTTATTATTGGAAATCATAGATGAGTAAACGTAGGTCTATTTTTTTATCAGCCATTTCAGGTAATATACTTGAATATTATGATTTTACTGTTTATGCCGTCTTTTCATTGGCTATTGCTGATGCATTTTTTCTTGGTGGTTCACAATATACCAAGGTTCTTCTAAGTTTGTCAGTATTTGCGGTTGGTTTTGTTACAAGGCCAATAGGAGGTATTTTGTTTGGCTATATTGCTGATAAGCATGGTAGAAGAGTATCGCTTATTATTTCCATGCTTGGTATGACCCTTCCTACTTTTATCATTGGCCTGATTCCTTCATTTCATGAGATTGGTTATTTTGCGCCAGCTACTTTAGTTGTGATGAGATTGCTGCAAGGTTTGTGTATTAGTGGTGAAGGTGCTGGAGCTGCTATATTTTTGCTAGAGCACTACCAGAATTTACGACCTGGATTTACTGCAGGTGTCGTGCATGCTTCAAATATTGCGGGAACTTTGCTTGCTACATTAATTGGTATTGTTCTGGATTATTTCTTCCATGGTTTAGATTTTGCATGGAGATTCGCTTTTATTCTTGGTGGTATAATGGGTTTAATAGGTTTTTACCTTCGCTTAAGAGTATCTGAAACACCAATATTTGTTTTGCTTGCTGAGAAAAAGAAGACTTTAAAAGTACCATTCATACATGTTTTAAGAACTGCAAAGGTTTCAATGATAGTAACGGTGGTTTTGGGAGCATGTGCAAGTAGCGTTGTATATTTAGTTAAAACATACATAAACATATATCATTGTGATGTTTTGCATTATGATGGTACTACCGCGAAACTTTATTTAGCATATACGTCAATAATCATGATGATTTGTATGCCTATTTCTGGTCATTTTGCTGATTCTATAGGTCGTTTTAGGATGATTAGACTTGCTGCGTTTGCAGTATTTATTTTTGCGTTACCATGTTTTTCACTTCTATCCTGCGAAGGAATGTGGCAACAAATAGCAGCTCTTACTATGCTGGCAATTTTGGGTGGTAGTATCGCGGGGACTGCATACATATTTATTATTTCACTGTTTACTCCTGAGCAAAGATTTTCAGGCGTTGCATTTAGTTATAACTTAGGCATTGCTATGTGTGGTGGTACCTCTGCTGCAATTGCTAGGTGGCTCCTAGAAATTACTGGTCAGTATTATGCACCTGCGTATTACATTATGTTTACATCTAGTGTTTTCTTATTAGTAACTTATTTAATGCGTCGTAAAATTAGAGCATTACTTGATGTGAATTTAAAGAATAAATGAATAGTTTTAAATTAGGAATTTTTGCTGAGTATATTATATTATTCCTATATAAAATTTGTTTTTATCAAATATTGCATCGCAGATATAAAACCTATGTTGGAGAAGTTGATCTAATTGTAGCTAGAGGGAAAACTTTAGTGTTTGTTGAAGTAAAGGCAAGAAAATATGGACTACATGATGGAATAGTCTCCAGTGATCAGATTAATAGAATAAGAAATGCTGCAGAATTATTTTTGAGCAAGAATCCGTTATATAGCCAATATAATATTCGGTTCGATTTTGCGCTAGTAAGGCCATATAGATTTCCTATAATTATTAAAAATGCATGGTAAGGCTATAGAAAATGGATAAAAGAAAAGTCACGTCAGAATGGTTTGAGAACTTACGCAATCAATTATGTGAAGCGTTCGAATTGATAGAAATTGAATATGCAGAAGAGAAAGGCTTAATGCCAGGTCGATTTAAGCGTAAATCTTGGGATCGAGATGGCGGTGGTGGCGGTACTATGTCGATCATGAAAGGCAATGTCTTTGAAAAAGTGGGAGTAAATATTTCGACTGTCCATGGTGAATTTTCTGAAGAGTTTAGAAAACAAATACCTGGAACTTCCGAAGATCCAAGATTTTTTGCTACTGGAGTTTCTCTAGTTGCTCACATGTGTTCTCCACTTGTCCCTGCAATGCATTTTAATACGCGTTATATTGAAACAAAAGATGGATGGTTTGGAGGAGGTGGAGATTTGACGCCTATGTATCCTGATGATTCTGAGACAGCTGAATTTCACAGGGCATTTAAGCAAGCTTGCGATAAGCACAATGATACATATTATCCTAAATTTAAAAAGCAATGTGATGAATATTTTTACTTAAAACACCGAAGTGAGTCTCGAGGTGTTGGTGGTATATTTTATGATTACATGAAGGGTGATTTTTCTAAAAATTTTGCCTTTACTCAGGATGTAGGTAGAGCAATTTTAGGAGTTTATCCAGAAATTGTTCGCAAGAAAATGTATCAAAAATGGAGCAAGGAACAAAGAGAATTCCAGCTCATTAAGCGTGGTAGATATGTTGAGTTTAATCTCTTATATGATCGTGGAACGACCTTTGGATTATCTACTGGAGGCAATGTTGAAGCAATTCTTATGTCGATGCCTCCTGAAGTCAAATGGCCGTAGTGTTAGATTTGGGGTATTTCGGTAAGATTCGCGTATTTGATAGTTTATAATCATATTACTGGATTGCCGCGTCACTTCGTTCCTCGCAATGACTAATAATATAAATAGATCGTCATTAGCGAGGAACGAAGTGAC
>sequence87
ATCTGTGTACAGACGCATATGAAGTTTACAGTAAATATAGAATATCAAAACATCACCACCAAACCAAAGCAGAAAATGCGCTAGTAGAAAGCAAAAACTCTCTCATCAGACATTATCTTGCTAGGTTCCATAGAAAGACAAAGCGCTATTCTAAGGCATTTGACATGATCGAAAACTCACTGATGCTGCTTTTCTTTAGAAATTTGTTGTCTTCATTTGTTATTTAACAATGCCTAATTTACACTTAAATTAAGTCACCAACATTTGCCAAGAATAATCTGGCTCTGTGAGAGCTTGGTTTTTCAAAAAACTCCTTAGCAGGTTGGTCAGCAAGTATAACTCCTTTATCCATAAAAATGATACGATCAGCGATGATTTTAGCAAAATTTACCTGGTGAGTAATTACGAGCATAGTCATCTGGTTTTTGAGATCGTTGATAATCTGAATAATATCTCGGATTACTTCTGGATCAAGAGCAGAAGTCGGTTCATCAAATAATATAGTCTCAGGATCCATCATTAAAGCTCTACAAATAGCTGCTCTTTGTTTTTGTCCGCCTGATAGATCGTTCGGTGCTGAATCTAGTTTATCACCTATGCCAAAACGTTCAAGCAGATCTCTCGCTTTTTTTTCGGTATCAATTGGATTTGCATCCAGAACATTTCGAGGTCCATAGGTTAGATTTTCAAGAACACTCATGTGCGGGAATAGATTAAATTGTTGGAAAACCATGCCTATCTTAAAGCAAAGTTTACCACGATTCCTTCTAGTTAATTTAGTGCCATCAATTAGAACTGATCCACTTGTTGGATTTTCTAGATTATTTATTGTACGAAGTAATGTAGATTTACCACTGCCTGAGGAGCCTATAACTACTACGGTTTCACGCTTATCAAGGACAAGATTGATATCTTTTAACGCATAATGGCCGTCAAATTTTTTTGAAACATTTTTAAGTTCAATCACAATGCTAACCTCTTTTCTAAAGCCATTGCAAAGCTACTAATAATTAGTACTAAAATATAATATGCAGCAGCAGCAGTTAGCATCGGTGTAAAGAAAGTAAAGGTTTCAGCAGAAACTATTTGCGCTCTTCTCATCAAATCCATTTCACCAATAATTGAGATTAGCGCAGATTCCTTGATAAGATTTATCAGCTCATTTACAAGGGCCGGCAAAATTTTACGAAACGCTTGAGGAAGGACTATATCTTTCATCCGAAGTATAGGAGGAATTCCAAGTGCTTTTGCAGCTTCAACTTGTCCTTTGTCAACAGCCGCAATACCTGCTCTTATAATTTCCGAAACATAGGCACCAGAGTTAAATGAGAACGCAATAATACCTGCTGAGAAAATACTAAGCTTTACTCCAATCAGCCCGGGTAATCCAAAATATATTATAGTCAGTTGGATTAGTAATGGAGTGCCGCGAAATACTGATGTATAGCTATGCGCAAATATACGCAATATTTTAATATCAACAATTTTGCATATTGCAAGAACAGTTCCTATCACTAACCCTAAACATACAGCGGTTACACTGTATTTTAGAGTGATAAATACCCCTTGAAGAATAAAAAATATTTGCGGCAAAAACGCCACTAGCTCATCATACATTTGTATAATTAATTTATATTATTAAAAAACTATAAGAAAAATGGCTAAGTTACATAAGCTTTTATAGTGATATACCTTAGGCACTGTTAATCTATAAAGTAAAAGACATGTAAATTAATAAGATAAATTTAGGTTTTCGTCAATAAATTACTGCATTTTTTCAACTAATTAGGTTATATTAGCAAATCAACTATCAATCTAGAATAAAAATTTGTTTATTGTGCTTGAAGAATTATCTTTAGAATTTATTTTTCAGTTTATGCTTGTCTTTGCTAGATTAGGCACGGCTTTTCGGCGTTTTCCTGCAGTTGGGGCTCCTTATATTCATTCTCGTGCTAAGTTATTTGTGGCACTGACAATTAGTTTCGTCATGCTGCCTATTCTTGCGCCATATTTACCTAAATATACAGATGATTTTGCTAAAAATATTGGCTATATAGCAATTGAAATACTGATTGGTTTAATTATTAGCGTTGCTGCAAACATATATTTTATGTCACTTCATTTTGTTGGGCAGATATTGTCAATGCAGTCAGGTCTTGGGGCAGCTGCATTTTTTGACCCTCTTCAAAGATCACAAGTGGCAATCTTTTCTAATTTTATGTTAATTATTGCAATAGTTATGATTTTTGCCAGTAATACTCATCATCTATTTATTAGTGCAGTTGCAGATAGTTATATGAAATTTCCTCCGGGAGAATTAGTTGACTCTGGAGACGTTAGTAAATTTGTATCATTTGTATTAAATGATAGCTTTATTCTTTCATTTAAAATAGTTTCACCATTTTTAGTTGTTGGTCTTGCTATTATGACTGGAAGTGGCATGCTTGCAAGGTTGATGCCTAATTTACAAGTTTTCTTTGTTATTACCCCTGCGCAAATACTTATTATGTTTGGGACGATGTATGTCGTGATTCAGGCTGTTGTTTCAAAGCTTGTAGTTACAATTGGCCAGAGTGTTAATGTTCTAGGGTTTTAATCTCTGTAACGATTTTGTCTGTTAGTTTCTTGGGACAAAGTTGTAGAGAAACTTTCCGTAACTTGGTAATACCAATCTATAATGTAATTCAGGAATTAGTGTTATTTGTTTACTGACTTATGTTTTCTTGATTCTTCGATG